caribbean rtd quantitative and qualitative survey report
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Caribbean RTD Quantitative and Qualitative Survey reportTRANSCRIPT
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Caribbean RTD Quantitative and Qualitative
Survey report
Authors: “Universitat Autonoma de Barcelona (UAB),
University of West Indies (UWI),
Centre d’Etudes des Relations entre l’Union
Européenne et l’Amérique Latine CERCAL).
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Copyright notice:
Copyright © APRE.
EUCARINET (Strengthening sustainable scientific cooperation between Europe and the Caribbean) is a project co-funded
by the European Commission in its 7th Framework Programme under the Grant Agreement no 244510 running from 1st
April. 2010 to 30th March 2014.
The information contained in this document reflects only the author's views and the Community is not liable for any use
that may be made of the information contained therein.
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A STUDY OF SCIENCE & TECHNOLOGY RESEARCH IN THE CARIBBEAN: INSTITUTIONS, OUTPUT, PRIORITIES & COLLABORATION 4
1.1 EXECUTIVE SUMMARY ...................................................................................................................................................................................... 4
1.2 INTRODUCTION TO THE STUDY ........................................................................................................................................................................ 7
1.3 INTRODUCTION TO THE CARIBBEAN REGION .................................................................................................................................................. 7
CARIBBEAN SCIENCE & TECHNOLOGY RESEARCH OUTPUT – ....................................................................................................................................... 9
A BIBLIOMETRIC STUDY .................................................................................................................................................................................................. 9
2.1 INTRODUCTION TO THE BIBLIOMETRIC STUDY ............................................................................................................................................... 9
2.2 METHODOLOGY ................................................................................................................................................................................................. 9
2.2.1 Data Management .......................................................................................................................................................................................... 9
2.2.2 Search Strategy ........................................................................................................................................................................................... 14
2.2.3 Bibliometric indicators ............................................................................................................................................................................... 14
2.2.3.1 General productivity .............................................................................................................................................................................. 14
2.2.3.2 Specialisation ......................................................................................................................................................................................... 14
2.2.3.3 Impact .................................................................................................................................................................................................... 14
2.2.3.4 Collaboration .......................................................................................................................................................................................... 15
2.2.3.5 Visibility of Caribbean-EU papers ........................................................................................................................................................... 15
2.3 ANALYSIS OF THE SCIENTIFIC PERFORMANCE OF CARIBBEAN COUNTRIES/TERRITORIES ...................................................................... 15
2.3.1 Number of documents per Caribbean Country/Territory ............................................................................................................................ 15
2.3.2 Number of documents per Caribbean sub-region ........................................................................................................................................ 16
2.3.3 Thematic Profile of Publications of the Caribbean Region ......................................................................................................................... 20
2.3.4 Thematic Profiles of Publications of the four Caribbean Sub-regions ......................................................................................................... 21
2.3.5 Thematic Profiles of Publications of each Caribbean Country/Territory ................................................................................................... 24
2.3.6 Visibility and Specialisation of the Publication Profile of each Caribbean Country/Territory ................................................................... 26
2.3.7 Relative Performance of Caribbean Countries/Territories by Thematic Area ............................................................................................ 37
GENERAL CONCLUSIONS OF THE COMBINED STUDIES ................................................................................................................................................ 97
4.1 INTRODUCTORY REMARKS ............................................................................................................................................................................. 97
4.2 RESEARCH OUTPUT IN THE CARIBBEAN REGION .......................................................................................................................................... 97
4.3 THEMATIC PROFILE OF CARIBBEAN RESEARCH ........................................................................................................................................... 98
4.4 VISIBILITY OF CARIBBEAN RESEARCH........................................................................................................................................................... 99
4.5 COLLABORATION OF CARIBBEAN COUNTRIES ............................................................................................................................................... 99
4.6 INDICATORS FOR MONITORING CARIBBEAN STI ACTIVITY......................................................................................................................... 100
4.7 CARIBBEAN-EU COLLABORATION - BARRIERS, CHALLENGES AND OPPORTUNITIES ................................................................................. 101
REFERENCES ............................................................................................................................................................................................................... 103
ABBREVIATIONS ........................................................................................................................................................................................................... 104
APPENDIX 1 .................................................................................................................................................................................................................. 106
APPENDIX 2 .................................................................................................................................................................................................................. 114
TABLE OF CONTENTS
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A STUDY OF SCIENCE & TECHNOLOGY RESEARCH IN THE CARIBBEAN: INSTITUTIONS, OUTPUT, PRIORITIES & COLLABORATION
1.1 EXECUTIVE SUMMARY
Science and Technology (S&T) activity has been mapped in the Caribbean by an objective, quantitative bibliometric study of the region's publications and by a comprehensive survey of the region's active scientific research centres. The results of this study provide a firm foundation for a sustainable S&T policy dialogue between the European Union (EU) and the Caribbean region. Some key descriptors are given below.
The bibliometric study analysed data, derived from the Web of Science (WoS) © online database, based on all research publications from all Caribbean countries/territories except Puerto Rico and the US Virgin Islands for the period 1999-2009. This lengthy time span was chosen to provide high enough resolution to detect publications from the less productive territories of the region.
The survey was based on responses from 94 Caribbean scientific research centres, most from the University/Higher Education category, comprising 50 from the English sub-region, 20 from the French sub-region, 9 from the Dutch region and 15 from the Dominican Republic. Cuba did not participate in the survey.
The centres targeted in the survey ranged from small field research centres to relevant units of Government Ministries to research institutes and University Faculties. Half of these are funded by both the private and public sector except in the Dominican Republic where private sector funded institutions are more common.
Research is the main activity of most surveyed institutions with applied research predominating and the French sub-region reporting the highest proportion of employees engaged in research (75%) and the highest percentage of PhD-level employees (26%). Most of these institutions offer postgraduate training except in the Dutch sub-region.
Bibliometric analysis
From the Bibliometric analysis of the Caribbean publications for 1999-2009 the most significant outputs are:
The thirty-two countries/territories together published 12,817 papers, an estimated 0.08% of world publications for that same period. Just over half of these publications are produced by the Spanish-speaking Caribbean (mainly Cuba), about 32% by the Anglophone Caribbean, about 13% by the French Caribbean and less than 2% by the Dutch Caribbean, all sub-regions but the Dutch showing annual growth.
Half the territories examined produced less than 50 publications in the 11 year period (together 1.7% of all publications) and were not included in further analyses. Cuba produced about half the publications while the remaining major producers are (with output in parentheses);- Jamaica (1465), Trinidad & Tobago (1353), Guadeloupe (818), Barbados (485), French Guiana (421), the Dominican Republic (276), Martinique (242), Bermuda (220), Haiti (149), Curacao (138), Guyana (135), Grenada (127), the Bahamas (102), and Suriname (83).
Most of the publications from the region fall into three thematic domains Agriculture, Biology & Environmental Sciences (28%); Biomedical Research (21%); and Clinical Medicine (18%) - and this trend is also evident on a sub-regional basis.
Indicators were generated which allowed comparison of the relative visibility or impact of a country's publications based on whether papers of one country in a particular research area were more highly cited than the regional average.
By this approach, Curacao then Belize have the highest visibility in the Agriculture/Biology/Environment domain. For Biomedical research, the top performers are Barbados followed by the Dominican Republic while for Clinical Medicine it is the Dominican Republic that leads followed by Haiti. For Chemistry, Jamaica is most visible followed by Trinidad & Tobago while for Engineering/Technology it is Guadeloupe first with Jamaica in second
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place. For Mathematics, Jamaica, Martinique and Guadeloupe are all top performers while in Physics the Dominican Republic and Guadeloupe out-perform other countries.
A specialisation index was also calculated to assess whether some countries tend to publish more in particular areas than the regional average and in most cases the research areas of specialisation or apparent focus are not necessarily those of high impact.
Survey
The survey provides insight in a number of areas:
The same themes were identified as prime areas of current research by the French and English Caribbean but using the FP7 groupings, Environment & Climate, Medicine & Biology (Health) and Agriculture & Food Supply (KBBE).
The survey results differed from the bibliometric findings for the Dutch sub-region with Socio-economic concerns the top research area and for the Dominican Republic ICT and Industry & Industrial Technology being also top-ranked.
Current research topics recurring in the survey from all sub-regions are natural hazards, climate change, water resources, biodiversity, marine ecosystems, chronic diseases, HIV/AIDS, public health and renewable energy.
Areas identified as priorities for the next 5 years in the survey by all sub-regions are Agriculture & Food Supply (KBBE), Environment & Climate and Energy, with Biology & Medicine (Health) in fourth place.
In the survey, Dutch and English Caribbean institutions tended to list the most research networks while the Dominican Republic reported the least. In addition to Caribbean networks, the English and French sub-regions also listed many European research networks, while the Dominican Republic added Latin American networks. Over one hundred actual networks were reported and six were common to several sub-regions, four of these six focusing on marine science.
EU-Collaboration
The survey suggests that industrial collaboration in research in the Caribbean does not seem particularly well-developed, especially in the case of the French and Dutch sub-regions where only 22% and 29% of institutions reported collaboration with industry compared to those of the Dominican Republic (50%) and the English Caribbean (40%).
Most collaboration were within the country or sub-region and involved companies in the agriculture, food, cement, hotel, mining, spirits, and petroleum/gas sectors.
There is, however, greater collaboration taking place between Caribbean research institutions than is observed between Caribbean research institutions and the private sector.
The English sub-region represents the area where the highest proportion of institutions (85%) report collaboration with a different Caribbean institution, followed by the French (74%) and Dutch (71%) sub-regions and then the Dominican Republic (55%). This was also examined objectively in the bibliometric study.
Low output Caribbean countries/territories mainly publish in collaboration with others while the percentage of collaborative publications is often much less for the higher output members, probably reflecting their greater research capacity.
For intra-Caribbean collaboration, the English and French sub-regions collaborate most with their own sub-region while the Dutch and Spanish sub-regions publish most with Anglophone Caribbean countries
Looking beyond the Caribbean,
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Spain, France and the UK are the main EU collaborators for the Caribbean but the Netherlands, despite equally strong colonial links, is less engaged and lags well behind. The main EU collaborating country for each sub-region is the one with which it has the strongest historical and linguistic ties, i.e. for the English Caribbean - the UK, the French Caribbean - France, the Dutch Caribbean - the Netherlands, the Spanish Caribbean - Spain.
The Anglophone Caribbean tends to collaborate more with North America than Europe while the other sub-regions generally collaborate more with Europe than North America.
Cuba and the Dominican Republic are distinct in also having very strong collaboration with Latin America.
The bibliometric study shows that there are clear advantages to EU collaboration:
Caribbean publications with EU co-authors have higher visibility than those without, on average being cited twice as much.
EU collaboration as evidenced by publications, is growing faster in the French and Spanish sub-regions than in the Dutch and English Caribbean. This may relate to funding as the survey reports most French and Dutch Caribbean research is EU-funded while this is not the case for the Dominican Republic or the English sub-region.
Awareness of EU programmes
The survey shows that there is an abysmal lack of knowledge in the Caribbean about the EU FP7 programme with 26-42% of institutions never having heard of it with the Dutch sub-region worst in this regard.
Knowledge of the programme seemed no better in EU Caribbean territories than in independent Caribbean countries. On the other hand, the survey showed there is overwhelming interest throughout the region in applying for FP7 support for future research activities.
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1.2 INTRODUCTION TO THE STUDY
The European Union continues to strengthen and expand its cooperation in Science & Technology (S&T) with different regions of the world as it seeks to address global issues and problems. With this in mind, the European Commission developed a new instrument in the 7th Framework Programme for Science & Technology (FP7) - the INCONET. This provides a means of establishing a bi-regional dialogue for Science, Technology & Innovation (STI). The EUCARINET project (http://www.eucarinet.eu/) is such an INCONET Coordination Action, launched in April 2010. It is supported by the European Commission (DG RTD-INCO), with the main goal of strengthening bi-regional sustainable dialogue on Science and Technology (S&T) between Europe and the Caribbean.
A study in 2008 for the Inter-American Development Bank (IADB) identified ''a growing need in Caribbean countries for a consistent information system and database on S&T statistics" (Holbrook, n.d.). It went on to state that most Caribbean countries are small and relatively poor and to expect these to produce reliable S&T statistics may be unreasonable. Our report tries to address this general deficiency. It consolidates two mapping exercises which seek to provide baseline data on STI in the Caribbean and in cooperation with Europe. The first study is a bibliometric one which objectively and quantitatively analyses the S&T publications of Caribbean countries/territories, the areas of specialisation and high impact and how the Caribbean is collaborating as a region and with the European Union and Norway. The second study is a survey of Caribbean institutions engaged in S&T research, generating a comprehensive database of such centres which up to now has been sadly lacking. It further provides qualitative information on research areas, priorities for research and collaborative links within the Caribbean and between the Caribbean and the EU. These studies complement each other and together provide a foundation on which the bi-regional dialogue on STI can be built.
1.3 INTRODUCTION TO THE CARIBBEAN REGION
The Caribbean typically refers to the archipelago historically known as the West Indies or Antilles which comprise over a hundred inhabited islands and numerous uninhabited islets and cays. These stretch from Cuba in the west to Barbados in the east, and from Grand Bahama in the north to Trinidad in the south, a distance of some 2700 km in each case. Yet the Caribbean region is also generally recognised to include countries and territories beyond these islands of the Caribbean basin. Strong cultural and historic ties bind the peoples of the Caribbean islands with those of Belize in Central America and French Guiana, Guyana and Suriname in South America. In fact, Belize, Guyana and Suriname are all full members of the Caribbean Community (CARICOM), the organisation of 15 countries and territories established in 1973 to promote economic integration and cooperation among its members. A weaker case for inclusion is Bermuda, located in the Atlantic, way beyond the Caribbean Sea, but with strong historic links with the region, membership of the University of the West Indies (UWI) and associate membership of CARICOM.
The Caribbean can be viewed as four geo-linguistic sub-regions reflecting their history of colonisation by the English, Dutch, French and Spanish. The Spanish-speaking Caribbean comprises three large island states, Cuba, the Dominican Republic and Puerto Rico. Both Cuba and the Dominican Republic have been independent countries for some time, having first declared independence in 1868 and 1821 respectively, with independence being formally gained after further years of struggle. Puerto Rico and the US Virgin Islands are possessions of the USA and are not included in the EUCARINET project and will not be discussed further.
The English-speaking Caribbean comprises twelve independent countries;- Antigua & Barbuda, Barbados, the Bahamas, Belize, Dominica, Grenada, Guyana, Jamaica, St. Kitts & Nevis, St. Lucia, St Vincent & the Grenadines and Trinidad & Tobago. These gained their independence from the United Kingdom (UK) over a number of years starting with Jamaica in 1962 and culminating in St. Kitts & Nevis in 1983. The Anglophone Caribbean also includes six British Overseas
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Territories (OCT), namely, Anguilla, Bermuda, the British Virgin Islands, the Cayman Islands, Montserrat and the Turks & Caicos Islands.
The French-speaking Caribbean comprises the Republic of Haiti and the French Overseas Territories of French Guiana, Guadeloupe, Martinique and St. Martin. French Guiana, Guadeloupe and Martinique are overseas departments (DOM) of France, each equivalent to a region of France. Haiti which encompasses the western half of the island of Hispaniola has the distinction of being the oldest independent country of the Caribbean, having declared independence in 1804. St Martin is the southern portion of an island partitioned between the French and the Dutch, with the Dutch portion using the Dutch version of the name, St. Maarten.
The Dutch Caribbean comprises the independent country of Suriname on the South American mainland, the islands of Aruba, Bonaire and Curacao off the Venezuelan coast and the Lesser Antillean islands of St. Eustatius (or Statia), Saba and St. Maarten. Until recently, the Dutch islands with the exception of Aruba made up the Netherlands Antilles, a country within the Kingdom of the Netherlands. This grouping was dissolved in October 2010, but these islands all remain part of the Kingdom of the Netherlands. Despite the historical ties, Dutch is not widely spoken in some members of this group such as Saba and St. Eustatius.
As the foregoing indicates, the Caribbean is a diverse, complex region, historically, geographically and culturally. This heterogeneity is further reflected in numbers of inhabitants and economic indicators like GDP. Populations range from about 2,000 inhabitants on Saba to almost 11.5 million on Cuba. The South American Caribbean nations of Guyana and Suriname present the largest land areas with approximately 215,000 and 156,000 km2 while Saba and St Eustatius are the smallest territories of 13 and 21 km2 respectively. While about half the countries have a GDP of the order of $10,000 US per capita, Haiti is the lowest at $1,300 while Bermuda is the highest at $69,900. In short, these countries vary widely and this diversity must be borne in mind as we examine scientific research institutions in the region.
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CARIBBEAN SCIENCE & TECHNOLOGY RESEARCH OUTPUT –
A BIBLIOMETRIC STUDY
by
Charles Plaigin, CERCAL, Université Libre de Bruxelles, Belgium
&
C.M. Sean Carrington, The University of the West Indies, Barbados
2.1 INTRODUCTION TO THE BIBLIOMETRIC STUDY
This bibliometric study seeks to quantitatively analyse the scientific publications produced by Caribbean researchers to generate a number of S&T performance indicators reflecting overall productivity, specialisation, impact and collaboration. To date, there has been no attempt to carry out such an analysis for the entire Caribbean region although recent UNESCO publications cite data for a few Caribbean countries (Ramkissoon & Kahwa, 2010) and with respect to Latin America (Lemarchand, 2010). In this regard, the publication output of Latin America and the Caribbean per million inhabitants is a tenth of that of Europe or North America but comparable to that of Asian & Pacific countries (Lemarchand, 2010). As the study aims to map Caribbean countries on the basis of excellence in Research & Technical Development (RTD), the internationally recognised Web of Science ©, a database of high profile journals is used. This may underestimate the absolute number of publications as only 1.6% of an estimated 12,000 Latin American and Caribbean journals are indexed in this database (Cetto & Alonso-Gamboa, 2010) but it does mean the same stringent criteria are applied to all countries in the study and that only quality publications are assessed.
The goal of this bibliometric study is to identify, down to the country-level, in which areas of Science & Technology the Caribbean actively publishes, what are the areas of specialisation and high impact and the degree of collaboration that exists within the region and with the European Union and Norway.
2.2 METHODOLOGY
2.2.1 Data Management
The database Web of Science ® (WoS), a product of Thomson Reuters, was selected to extract the publication data for the Caribbean region. It is acknowledged as the world’s leading citation database and has multidisciplinary coverage of over 10,000 high-impact journals in the sciences, social sciences, and arts and humanities. Its bias is towards Science & Technology but this is also the focus of the EUCARINET project.
Publication data for each of the 32 target countries/territories of EUCARINET were downloaded to a local database from WoS for the period 1999-2009. This extended time-frame was chosen in order to ensure capture of data from low output target countries.
The search was carried out on the combined WoS sub-databases SCI-Expanded, SSCI and A&HCI, selecting all languages and only "articles" as against other publication categories such as book reviews and conference proceedings. A simple country search was successfully employed for most of the target countries/territories but some OCTs required a search
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strategy based on the address field as these are not indexed in WoS as countries. This is detailed below below under search strategy.
Table 1: Assignment of Web of Science Sub-Categories to Ten Broad Thematic Areas (after Gómez et al, 2009).
Agriculture, Biology & Environmental Sciences Agricultural Economics & Policy Agricultural Engineering Agriculture, Dairy & Animal Science Agriculture, Multidisciplinary Agronomy Biodiversity Conservation Biology Biotechnology & Applied Microbiology Ecology Entomology Environmental Sciences Evolutionary Biology Fisheries Food Science & Technology Forestry Horticulture Limnology Marine & Freshwater Biology Mycology Ornithology Plant Sciences Soil Science Veterinary Sciences Water Resources Zoology Biomedical Research Anatomy & Morphology Behavioural Sciences Biochemical Research Methods Biochemistry & Molecular Biology Biophysics Cell Biology Chemistry, Medicinal Developmental Biology Endocrinology & Metabolism Genetics & Heredity Immunology Medicine, Research & Experimental Microbiology
Chemistry Chemistry, Analytical Chemistry, Applied Chemistry, Inorganic & Nuclear Chemistry, Multidisciplinary Chemistry, Organic Chemistry, Physical Electrochemistry Polymer Science Clinical Medicine Allergy Andrology Anaesthesiology Cardiac & Cardiovascular Systems Clinical Neurology Critical Care Medicine Dentistry, Oral Surgery & Medicine Dermatology Emergency Medicine Engineering, Biomedical Gastroenterology & Hepatology Geriatrics Gerontology Hematology Infectious Diseases Medical Informatics Medical Laboratory Technology Medicine, General & Internal Medicine, Legal Neuroimaging Nutrition & Dietetics Obstetrics & Gynecology Oncology Ophthalmology Orthopedics Otorhinolaryngology Pediatrics Peripheral Vascular Disease Psychiatry Public, Environmental & Occupational Health
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Microscopy Neurosciences Parasitology Pathology Pharmacology & Pharmacy Physiology Reproductive Biology Virology
Radiology, Nuclear Med.& Medical Imaging Respiratory System Rheumatology Sport Sciences Substance Abuse Surgery Toxicology Transplantation Tropical Medicine Urology & Nephrology
Engineering, Technology Acoustics Automation & Control Systems Computer Science, Artificial Intelligence Computer Science, Cybernetics Computer Science, Hardware & Architecture Computer Science, Information Systems Computer Science, Interdisciplinary Applications Computer Science, Software Engineering Computer Science, Theory & Methods Construction & Building Technology Energy & Fuels Engineering, Aerospace Engineering, Chemical Engineering, Civil Engineering, Electrical & Electronic Engineering, Environmental Engineering, Geological Engineering, Industrial Engineering, Manufacturing Engineering, Marine Engineering, Mechanical Engineering, Multidisciplinary Engineering, Ocean Engineering, Petroleum Imaging Science & Photographic Technology Instruments & Instrumentation Materials Science, Biomaterials Materials Science, Ceramics Materials Science, Characterization & Testing Materials Science, Coatings & Films Materials Science, Composites Materials Science, Multidisciplinary Materials Science, Paper & Wood Materials Science, Textiles
Humanities Archaeology Architecture Art Asian Studies Classics Film, Radio, Television Folklore History History & Philosophy Of Science Humanities, Multidisciplinary Language & Linguistics Linguistics Literary Reviews Literary Theory & Criticism Literature Literature, African, Australian, Canadian Literature, American Literature, British Isles Literature, German, Dutch, Scandinavian Literature, Romance Literature, Slavic Medieval & Renaissance Studies Music Philosophy Poetry Religion Theater Mathematics Mathematics Mathematics, Applied Mathematics, Interdisciplinary Applications Operations Research & Management Science Statistics & Probability Multidisciplinary Sciences Education, Scientific Disciplines
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Mathematical & Computational Biology Mechanics Metallurgy & Metallurgical Engineering Mining & Mineral Processing Nanoscience & Nanotechnology Nuclear Science & Technology Optics Remote Sensing Robotics Telecommunications Transportation Transportation Science & Technology
Multidisciplinary Sciences Physics Astronomy & Astrophysics Crystallography Geochemistry & Geophysics Geology Geosciences, Multidisciplinary Meteorology & Atmospheric Sciences Mineralogy Oceanography Paleontology Physics, Applied Physics, Atomic, Molecular & Chemical Physics, Condensed Matter Physics, Fluids & Plasmas Physics, Mathematical Physics, Multidisciplinary Physics, Nuclear Physics, Particles & Fields Spectroscopy Thermodynamics
Social Sciences Anthropology Area Studies Business Business, Finance Communication Criminology & Penology Demography Economics Education & Educational Research Education, Special Environmental Studies Ergonomics Ethics Ethnic Studies Family Studies Geography Geography, Physical Health Care Sciences & Services Health Policy & Services History Of Social Sciences Industrial Relations & Labor Information Science & Library Science Integrative & Complementary Medicine International Relations Law Management
Medical Ethics Nursing Planning & Development Political Science Psychology Psychology, Applied Psychology, Biological Psychology, Clinical Psychology, Developmental Psychology, Educational Psychology, Experimental Psychology, Mathematical Psychology, Multidisciplinary Psychology, Psychoanalysis Psychology, Social Public Administration Rehabilitation Social Issues Social Sciences, Biomedical Social Sciences, Interdisciplinary Social Sciences, Mathematical Methods Social Work Sociology Urban Studies Women's Studies
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Table 2: Search codes for downloading of publication data of EUCARINET countries/territories from Web of Science.
Countries/territories Search codes used in WoS
Anguilla ad=anguilla NOT cu=jamaica
Antigua cu=antigua
Aruba ad=aruba
Bahamas cu=bahamas
Barbados cu=barbados
Belize cu=belize
Bermuda cu=bermuda
Bonaire ad=bonaire AND (cu=Netherlands OR cu=Neth Antilles)
British Virgin Islands ad=tortola OR ad=virgin gorda
Cayman Islands ad=cayman
Cuba cu=cuba
Curacao cu=curacao
Dominica cu=dominica
Dominican Republic cu=dominican rep
French Guiana ad=cayenne
Grenada cu=grenada
Guadeloupe cu=guadeloupe
Guyana cu=guyana
Haiti cu=haiti
Jamaica cu=jamaica
St Kitts & Nevis cu=st kitts & nevis
Martinique cu=martinique
Montserrat ad=montserrat NOT ad=spain NOT ad=usa NOT ad=portugal NOT ad=mexico
Saba ad=saba AND (cu=Netherlands OR cu=Neth Antilles)
St Lucia cu=st lucia
St Maarten ad=st maarten AND cu=Netherlands NOT cu=Belgium
St Martin cu= st martin
St Vincent cu=st vincent
St Eustatius ad= eustatius AND (cu=Netherlands OR cu=Neth Antilles)
Suriname cu=surinam
Trinidad & Tobago cu=trinid & tobago
Turks & Caicos Islands ad=caicos
The data was obtained using the advanced search mode of the Web of Sciences website, one country at a time. Each request returns a maximum of 500 records which meant that data for countries with more than this number of publications had to be downloaded as multiple searches and files. The files for a single country were then merged, cleaned and harmonized. Finally, the resulting 32 country/territory files were merged into one database containing the information on publications for all the countries/territories in the study.
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Records in WoS are assigned to some 256 subject categories ( 2010) which are too narrow for this bibliometric study and so these were reassigned in the local database to 10 broad thematic domains as defined by Gómez et al. (2009) and
reproduced in Table 1. While WoS records can be assigned to more than one subject category only the first and primary subject category was used in this study. A number of bibliometric indicators were then generated from the local database. The full count method was applied in which documents with authors in two or more countries are assigned to each of these countries. This method is favoured over the fractional count method in which a multinational publication is shared between the various countries with each receiving a fraction representative of its participation.
2.2.2 Search Strategy
The ability to download publications of particular countries relies on the indexing of the entries by WoS. The requests on WoS utilise field tags of two letters where e.g. CU means country, AD means address and CI means city. All the field tags are detailed on the website. Boolean search operators AND, OR, NOT, and SAME may be used to combine terms in order to broaden or narrow retrieval. Publications for all independent countries can be accessed by the country field. There are, however, some inconsistencies as Table 2 reveals. Conveniently, Bermuda, Guadeloupe and Martinique, are indexed as countries but not the other British OCTs nor the Dutch OCTs. In addition, the full name of some countries is not used as a country tag, e.g. Trinidad & Tobago (Table 2).
2.2.3 Bibliometric indicators
2.2.3.1 General productivity
The following indicators were generated from the local database for 1999-2009:
- The annual production of articles for each country. - The annual production of articles for the Dutch, English, French and Spanish sub-regions. - The relative growth in articles for each sub-region. - The annual production of articles in each thematic domain for the Caribbean. - The proportion of articles in each thematic domain for each sub-region and each country (only for countries with
> 50 publications).
2.2.3.2 Specialisation
For the larger producers a Specialisation Index (SI) was calculated for each thematic domain for each higher output country. The Specialization Index (SI) is the ratio of the percentage of publications of a country in a specific discipline to the percentage of publications in that discipline for the whole region (i.e. the Caribbean).
2.2.3.3 Impact
Two indices were calculated as a measure of the impact or visibility of a country's publications in a particular discipline. The Citation Share (CS), also called the Relative Citations per Document, is the ratio of the mean citations per document of a particular country to the mean citations per document for the whole reference region (Mustar & Esterle, 2006), in this case, the Caribbean. The Relative Non-cited Rate or what we term the Non-Citation Share (NCS) was also calculated and this is the ratio of the percentage of publications of a particular country without citations to the percentage of publications without citations for the whole Caribbean. In both cases these indices were calculated for each thematic domain of a country’s output. These indices were only calculated where there was a minimum of 10 publications in that discipline.
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2.2.3.4 Collaboration
The number of collaborations of any country with other Caribbean countries or with five regions of the world, viz. the EU (plus Norway), North America (USA & Canada), Latin America (Central & South America excluding Caribbean countries),
Other (none of the fore-mentioned), was determined directly from the WoS using the Analyse Results (Country/territory) feature. Unfortunately, a more complicated approach was required to analyse Caribbean-EU collaborations in detail. The collaborations with EU countries were derived from the WoS using the search codes presented in Table 2 adding a Boolean relation: AND cu=Country, where country was replaced by the 27 EU states and Norway. (The United Kingdom publications are not so indexed by WoS. Collaboration with the United Kingdom was obtained by combining publications indexed under England, North Ireland, Scotland and Wales.) We were then able to develop a database for all high output Caribbean countries/territories containing only collaborative publications with Europe. The previous full database and this smaller database restricted to EU collaborative publications could be linked through the specific ID number of each publication. This enabled the detailed analyses of collaboration with an European country for each paper of the initial database. The percentage of EU collaboration by thematic area, by the number of EU collaborating countries and the growth of publications with or without EU collaboration were all calculated from this database.
2.2.3.5 Visibility of Caribbean-EU papers
It is widely accepted that international collaboration boosts the visibility of scientific publications (Chinchilla-Rodríguez et al., 2009). For each thematic area and then each sub-region, the rate of citation and the percentage of uncited papers were compared for papers produced with EU collaboration and those without.
2.3 ANALYSIS OF THE SCIENTIFIC PERFORMANCE OF CARIBBEAN COUNTRIES/TERRITORIES
2.3.1 Number of documents per Caribbean Country/Territory
In the eleven year period, 1999-2009, the thirty-two Caribbean countries/territories of this study produced just over 12,800 research articles, based on the output retrieved from the Web of Science (WoS) database (Table 3).
This is based on the full count method which is used throughout this study and which credits multinational publications fully and not fractionally to each contributing country. This means some records are counted more than once. About half of these were produced by Cuba, followed by Jamaica and then Trinidad & Tobago, the latter two countries accounting for just over 10% and just under 10% of all publications respectively (Figure 1). Guadeloupe was the next most prolific territory generating 818 documents or about 6% of all publications.
A fourth tier of productivity is represented by the following ;- Barbados, French Guyana, the Dominican Republic, Martinique and Bermuda – which each produced 201-500 publications in this same period. Below these are a number of territories which produced 51-200 publications over the same time interval, namely Haiti, Curacao, Guyana, Grenada, the Bahamas, Suriname and Belize. For the remaining sixteen countries/territories, which constitute half of those targeted, the output is very low, at less than 50 publications each for the eleven year period. Of this group, the lowest output is shown by the British Overseas Territory Anguilla with one publication and by the French territory St. Martin with no publications, although the Dutch half of the latter, St. Maarten, produced 8 publications.
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For many of the parameters which are examined, the publication sample size is too small to attempt these detailed analyses with the sixteen low output (<50 publications) countries/territories. For this reason, many of the subsequent specialised analyses are restricted to the sixteen higher performing countries/territories.
For completeness, it should also be noted that Puerto Rico, a US possession, generated 5,839 WoS-indexed publications in the same period (data not shown). This productivity is of the order of magnitude of Cuba and while Puerto Rico is not a target country of the EUCARINET project, and so will not appear in this report, its ranking as a major generator of
research publications in the Caribbean should not be forgotten. The other Caribbean territory outside the scope of this study is the US Virgin Islands which produced 180 WoS-indexed publications in the same period (data not shown).
2.3.2 Number of documents per Caribbean sub-region
Table 4 shows how the four geo-linguistic sub-regions of the Caribbean contribute to the annual output of publications for the region. Just over half of the publications are produced by the Spanish-speaking Caribbean, almost one-third by the Anglophone Caribbean, about 13% by the French Caribbean and less than 2% by the Dutch Caribbean. What is noticeable, in this regard, is that there seems to be no increase in the annual output for the Dutch sub-region in contrast to the other three sub-regions, all of which show growth. If one examines this growth relative to the initial year 1999 it can be seen that while the Dutch output is quite erratic, the English, French and Spanish sub-regions show a similar rate of growth (Figure 2). The final year, 2009, is quite variable, but, ignoring this, the three sub-regions show an approximate 50% increase in the number of publications over a ten period or an average annual growth of about 5%.
The total number of articles produced by the entire world cannot be easily obtained from the WoS for any year. Published values for world scientific publications from WoS for the years 2002 through 2006 suggest an annual growth rate of 4.8% (Gomez et al., 2009; Table II, p9). The average annual growth rate for those years for Caribbean publications is slightly lower at 3.3% (from Table 3) but for the Latin American region this is much higher at 8.1% (Gomez et al., 2009; Table II, p9). For this same period, Caribbean publications represent a miniscule 0.08% of world publications.
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Table 3: Number of documents per Caribbean country over the period 1999-2009.
1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 Total
Anguilla 0 0 0 0 0 0 0 0 0 0 1 1
Antigua 1 0 1 2 1 0 5 4 6 4 1 25
Aruba 0 0 0 0 0 0 1 0 2 0 1 4
Bahamas 9 7 5 10 7 5 8 9 14 13 15 102
Barbados 34 32 37 32 50 67 38 48 46 58 43 485
Belize 7 2 4 5 9 7 11 12 7 7 7 78
Bermuda 13 21 26 26 9 18 17 21 26 24 19 220
Bonaire 2 0 0 0 0 0 1 0 0 0 0 3
British Virgin Islands
0 1 2 2 1 3 1 4 4 1 3 22
Cayman Islands 3 4 3 2 1 0 5 3 3 8 15 47
Cuba 507 547 624 536 599 546 558 610 640 727 605 6499
Curacao 11 14 12 16 14 12 8 9 6 23 13 138
Dominica 1 1 3 0 4 3 6 5 8 2 6 39
Dominican Republic
20 38 24 15 16 25 21 20 33 38 26 276
French Guiana 29 28 35 38 41 48 43 41 33 35 50 421
Grenada 4 2 1 1 6 4 7 16 28 29 29 127
Guadeloupe 54 56 52 50 64 72 71 80 93 99 127 818
Guyana 12 11 11 15 6 8 19 10 20 15 8 135
Haiti 3 11 7 12 13 9 15 23 17 21 18 149
Jamaica 126 113 139 142 127 138 134 129 147 144 126 1465
St Kitts & Nevis 2 1 0 1 0 0 1 3 1 3 6 18
Martinique 28 19 21 20 19 22 20 19 17 20 37 242
Montserrat 0 2 1 2 5 0 2 1 1 2 1 17
Saba 2 2 0 2 1 1 1 0 1 1 0 11
St Eustatius 0 0 0 0 0 1 1 0 2 1 0 5
St Lucia 1 0 2 2 1 0 2 2 2 1 1 14
St Maarten 0 0 0 0 0 1 1 4 0 2 0 8
St Martin 0 0 0 0 0 0 0 0 0 0 0 0
St Vincent 0 1 0 1 0 0 0 2 1 0 1 6
Suriname 10 4 8 10 6 10 13 7 6 6 3 83
Trinidad & Tobago
94 101 115 121 109 117 133 122 151 144 146 1353
Turks & Caicos Islands
0 0 0 0 2 1 0 0 0 2 1 6
Total 973 1018 1133 1063 1111 1117 1142 1200 1315 1428 1309 12817
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Table 4: Yearly evolution of documents per Caribbean sub-region.
1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 Total
Dutch 25 20 20 28 21 25 26 20 17 33 17 252
English 307 299 350 364 338 371 389 391 465 457 429 4160
French 114 114 115 120 137 151 149 163 160 175 232 1630
Spanish 527 585 648 551 615 571 579 630 673 765 631 6775
Total 973 1018 1133 1063 1111 1118 1143 1204 1315 1430 1309 12817
Number of publications
0 200 400 600 800 1000 1200 1400 6000 6200 6400 6600
AnguillaAntigua
ArubaBahamasBarbados
BelizeBermuda
BonaireBVI
Cayman I.Cuba
CuracaoDominica
Dominican RepublicFrench Guiana
GrenadaGuadeloupe
GuyanaHaiti
JamaicaMartiniqueMontserrat
SabaSt Eustatius
St Kitts-NevisSt Maarten
St LuciaSt Vincent Suriname
Trinidad & TobagoTurks & Caicos I.
Figure 1: Number of publications for 1999-2009 per Caribbean territory
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Figure 2: Growth in publications of Caribbean sub-regions relative to 1999
Figure 3: Publication thematic profile of the entire Caribbean Region (1999-2009).
Dutch
English
French
Spanish
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2.3.3 Thematic Profile of Publications of the Caribbean Region
Most of the publications from the region fall into three thematic domains – Agriculture, Biology & Environmental Sciences (28%) ; Biomedical Research (21%) ; Clinical Medicine (18%) [Figure 3]. The other three thematic areas which are well represented are Chemistry (9%), Engineering, Technology (8%) and Physics (8%). Social Sciences and Humanities are poorly represented which may be partly explained by the bias of the WoS database. When the yearly production in these thematic areas is examined (Table 5; Figure 4), there seems little growth in the Chemistry, Clinical Medicine and Physics domains. On the other hand, in the two largest sectors, Agriculture, Biology & Environmental Sciences and Biomedical Research there is growth throughout the period under study. Mathematics, Social Sciences and Engineering, Technology also seem to show modest growth.
Table 5: Thematic profile of Caribbean output (all countries).
Area 1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 Total
Agriculture, Biology & Environmental Sciences
274 269 271 282 317 328 346 348 382 417 328 3562
Biomedical Research 186 208 234 194 241 261 247 279 277 290 283 2700
Chemistry 79 108 97 102 109 105 102 91 104 125 111 1133
Clinical Medicine 201 204 264 206 182 205 193 188 225 235 228 2331
Engineering, Technology 89 70 101 95 95 79 98 93 116 122 123 1081
Humanities 5 7 8 18 11 7 5 9 10 17 18 115
Mathematics 16 13 12 17 19 24 25 26 28 41 43 264
Multidisciplinary Sciences 4 6 5 6 5 6 4 8 8 5 11 68
Physics 90 98 110 86 100 69 93 107 87 111 96 1047
Social Sciences 29 35 31 55 29 34 29 53 75 64 68 502
Other 0 0 0 2 3 0 1 2 3 3 0 14
Total 973 1018 1133 1063 1111 1118 1143 1204 1315 1430 1309 12817
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Figure 4: Yearly evolution of publications from the Caribbean (all countries) per thematic area.
2.3.4 Thematic Profiles of Publications of the four Caribbean Sub-regions
For the entire Caribbean the largest thematic domains were Agriculture, Biology & Environmental Sciences followed by Biomedical Research then Clinical Medicine (Figure 3). When one looks at the four sub-regions (Table 6), Agriculture, Biology & Environmental Sciences still constitutes the largest category of publications for all but the English sub-region where Clinical Medicine (28%) just overtakes Agriculture, Biology & Environmental Sciences (26%). The Biomedical Research thematic area is still in the top three in all sub-regions but in the Spanish sub-region Clinical Medicine is no longer in the top three, being just edged out by the Engineering, Technology theme. In fact, publications from the Spanish sub-region show the most even distribution with six of the ten thematic categories each having greater than 10% of total publications.
The Spanish sub-region comprises only two countries, Cuba with 6499 publications and the Dominican Republic with 276 publications for the 11 year period. The profile for the Spanish sub-region is therefore dominated by Cuba and as Figure 6 shows the Dominican Republic profile differs in several ways which will be described later. The other three sub-regions are more specialised in their output with only three thematic domains ever equalling or exceeding 10% of total publications (Figure 5, 7, 8). As will be discussed in the next section, half the countries/territories produce too few publications to be meaningfully examined on a thematic basis. For this reason some countries/territories are omitted from the thematic profiles depicted in Figure 5, 7 & 8.
Agriculture, Biology andEnvironmental Sciences
Biomedical Research
Chemistry
Clinical Medicine
Engineering, Technology
Humanities
Mathematics
Multidisciplinary Sciences
Physics
Social Sciences
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Table 6: Percentage of publications in each thematic area for each Caribbean sub-region
AgBioEnv BioMed Chem ClinMed Eng. Hum Math Multi Phy Soc Sc Total
Dutch 45 14 1 27 1 0 0 1 5 6 100
English 26 14 7 28 6 2 1 1 7 8 100
French 38 24 2 20 3 1 6 0 3 2 100
Spanish 26 25 12 11 12 1 2 0 10 2 100
Total 28 21 9 18 8 1 2 1 8 4 100
Of the sub-regions, the Dutch sub-region shows the least spread of publications across disciplines, with half of the ten thematic areas almost having no ( ≤ 0.1% ) publications (Figure 8). It is also the most homogenous of the sub-regions with the two territories Suriname and Curacao quite similar in thematic output. Of all sub-regions, the English sub-region is the most heterogeneous with especially wide variation in the Agriculture, Biology & Environmental Sciences sector (Figure 5). With respect to the Francophone territories, Martinique differs most with its strong Clinical Medicine output largely at the expense of the Agriculture, Biology & Environmental Sciences domain (Figure 8).
Figure 5: Thematic profile of higher output English sub-region countries/territories.
Agriculture, Biology and Environmental Sciences Biomedical Research
Chemistry Clinical Medicine
Engineering, Technology Humanities
Mathematics Multidisciplinary Sciences
Physics Social Sciences
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Figure 6: Thematic profile of Spanish sub-region countries.
Figure 7: Thematic profile of French countries/territories.
Agriculture, Biology and Environmental SciencesBiomedical ResearchChemistryClinical MedicineEngineering, TechnologyHumanitiesMathematicsMultidisciplinary SciencesPhysicsSocial Sciences
Agriculture, Biology and Environmental SciencesBiomedical ResearchChemistryClinical MedicineEngineering, TechnologyHumanitiesMathematicsMultidisciplinary SciencesPhysicsSocial Sciences
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Figure 8: Thematic profile of higher output Dutch sub-region countries/territories.
2.3.5 Thematic Profiles of Publications of each Caribbean Country/Territory
Table 7 depicts the spread of publications between the ten thematic areas in each of the sixteen higher output countries/territories. One obvious difference from the regional and sub-regional profiles is that Agriculture, Biology & Environmental Sciences is eclipsed by Clinical Medicine in terms as the largest category of publications in three islands, Grenada, Jamaica and Martinique, probably reflecting the prominent medical schools there. In the case of Grenada, Biomedical Research even exceeds Clinical Medicine. Belize stands out in having the most specialist output, with 73% of publications in the Agriculture, Biology & Environmental Sciences grouping. Bermuda also has a very distinctive profile with 78% of publications in two categories. These are Physics and Agriculture, Biology & Environmental Sciences and reflect the two major research institutions on Bermuda, the Bermuda Institute of Ocean Sciences and the Bermuda Weather Services.
The Agriculture, Biology & Environmental Sciences domain is, nonetheless, very robust for the majority, aided by the many Field Research Stations throughout the region and the various Government Agricultural and Fisheries Departments. The strength of Chemistry in the Guyana profile (21%) stands out and reflects the prominence of this discipline at the University of Guyana. The Engineering Technology domain is best represented in Cuba (12%) and Trinidad & Tobago (11%) where University Engineering Faculties exist. Four of the countries, Barbados, Cuba, Jamaica and Trinidad & Tobago, show the widest spread of publications across the ten thematic domains (majority of categories
Agriculture, Biology and Environmental Sciences
Biomedical Research
Chemistry
Clinical Medicine
Engineering, Technology
Multidisciplinary Sciences
Physics
Social Sciences
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with ≥ 5% of publications) and this probably reflects the presence in these countries of Universities with a range of Faculties.
Table 8 shows the thematic profiles of the sixteen countries/territories with low output of publications (< 50). Generally, these are territories with smaller populations or land area where critical mass comes into play. For most of these, the
few publications are in the Agriculture, Biology & Environmental Sciences area where even if universities or research centres are lacking there are Government Agriculture, Fisheries and/or Forestry Departments which generate applied research on this theme. Montserrat is singular in having an active volcano and its concentration of publications in the Physics area reflects the geophysical research of the Montserrat Volcano Observatory. The publications of Antigua, Dominica, St Maarten and the Cayman Islands in the Clinical Medicine and/or Biomedical Research fields reflect offshore medical schools located on those islands. These are essentially for-profit teaching establishments with weak research output. No further in depth analyses will be carried out in this Report on these sixteen countries/territories with low publication output. Their total publications represent 1.7% of the total for the Caribbeanregion.
Table 7: Percentage of publications in each thematic area of each higher output Caribbean country/territory
Ag. Bio Chem Med Eng. Hum Math Multi Phy Soc Sc Total
Bahamas 36 17 1 17 5 2 2 3 4 14 100
Barbados 20 18 11 17 8 3 3 1 7 12 100
Belize 73 5 0 6 0 4 0 1 8 3 100
Bermuda 50 7 2 1 3 0 0 4 28 5 100
Cuba 25 25 13 11 12 1 2 0 10 2 100
Curaçao 44 13 1 32 1 0 0 2 3 4 100
Dominican Republic 33 32 0 17 3 1 0 1 4 9 100
French Guiana 45 33 1 11 3 0 0 1 5 0 100
Grenada 10 41 0 38 1 1 0 2 0 8 100
Guadeloupe 37 21 3 19 4 1 10 0 3 2 100
Guyana 45 10 21 9 5 1 0 1 4 4 100
Haiti 41 26 1 20 1 1 0 1 3 5 100
Jamaica 16 13 8 44 2 2 2 0 7 6 100
Martinique 25 18 1 42 3 0 7 0 2 3 100
Surinam 46 14 2 20 2 0 0 0 10 5 100
Trinidad & Tobago 32 13 5 23 11 2 1 0 5 9 100
Total 28 21 9 18 9 1 2 0 8 4 100
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Table 8: Distribution of publications per thematic area from each low output Caribbean country/territory.
Ag. Bio Chem Med Eng. Hum Math Multi Phy Soc Sc Total
Anguilla 0 0 0 0 0 0 0 0 0 1 1
Antigua 4 1 0 18 0 0 0 0 1 1 25
Aruba 1 2 0 1 0 0 0 0 0 0 4
Bonaire 3 0 0 0 0 0 0 0 0 0 3
British Virgin Islands 8 0 0 4 0 0 0 1 8 1 22
Cayman Islands 17 19 0 5 0 1 0 1 1 3 47
Dominica 9 6 1 10 0 0 0 1 0 12 39
St Kitts & Nevis 8 6 0 0 0 0 0 0 1 3 18
Montserrat 1 0 0 0 0 0 0 1 15 0 17
Saba 4 1 0 3 0 0 0 0 0 3 11
St Lucia 6 2 0 3 0 0 0 1 0 2 14
St Maarten 0 8 0 0 0 0 0 0 0 0 8
St Martin 0 0 0 0 0 0 0 0 0 0 0
Saint Vincent 4 0 0 0 0 0 0 1 1 0 6
St Eustatius 2 1 0 1 0 0 0 0 0 1 5
Turks & Caicos Islands 5 0 0 1 0 0 0 0 0 0 6
Total 72 46 1 46 0 1 0 6 27 27 226
2.3.6 Visibility and Specialisation of the Publication Profile of each Caribbean Country/Territory
For each of the higher output countries/territories it is possible to assess the visibility or impact of publications by measuring how many times these are cited. One index is Citation Share (CS), also called the Relative Citations per Document, which is the ratio of the mean citations per document of a particular country to the mean citations per document of a reference region (Mustar & Esterle, 2006), in this case, the Caribbean region.
The publications of countries with this ratio greater than one are more highly cited than the average for the region and so have higher visibilities or impact. A related index is the Relative Non-cited Rate or, what we term, the Non-Citation Share (NCS) which is the ratio of the percentage of publications of a particular country without citations to the percentage of publications without citations for the whole region (here, the Caribbean region). In this case, a value less than one indicates higher impact as this means proportionately fewer publications from that country have no citations compared to the regional average. In both cases these indices will be applied to each thematic domain of a country’s output to identify those which have higher visibility or impact relative to the regional average. While these address quality, the Specialization Index (SI) is the ratio of the percentage of publications of a country in a specific discipline to the percentage of publications in that discipline for the whole region. It is relevant to the quality indices just described as if a country does show specialisation in a particular discipline ideally these publications should be of high visibility.
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These indices need to be calculated using a sizeable number of publications to be meaningful but even for these higher output countries these numbers are relatively low. Faced with these small publication numbers, we will only consider these indices for samples of at least ten publications, but even this number we consider rather low.
Table 9 shows the visibility and specialisation indices for publications of the Bahamas. Only four thematic areas meet the criterion of having an adequate number of publications (> 10) to apply these indices, namely Agriculture, Biology & Environmental Sciences, Biomedical Research, Clinical Medicine and Social Sciences.
For both Agriculture, Biology & Environmental Sciences and Biomedical Research, papers from the Bahamas have a Citation Share greater than one (CS = 1.25, 1.14, resp.) meaning they attract more citations than the regional average for that discipline. Similarly, in these disciplines the Non-Citation Share is less than one (NCS = 0.85, 0.00, resp.) meaning there are a lower proportion of papers having no citations relative to the regional norm. In fact, for Biomedical Research the NCS index of zero means all papers have been cited. Proportionately fewer Social Sciences publications from the Bahamas are non-cited relative to the region but in terms of the CS this is less than one, meaning that these publications are less cited than the regional average for the discipline.
Of these, Clinical Medicine is the lowest ranked with the relative citation rate and the proportion of non-cited papers worse than the regional average (CS=0.45; NCS= 1.65). The Bahamas has a higher proportion of publications than the regional average in the Agriculture, Biology & Environmental Sciences and the Social Sciences domains (SI=1.25, SI=3.50, resp.). This suggests this specialisation is paying off in terms of the higher impact of these publications. In contrast, despite Biomedical Research being under-represented in the publications from the Bahamas relative to the region (SI=0.79) these publications have higher visibility than the regional average.
Table 9: Bibliometric indices for publications of the Bahamas per thematic area.
Publication number
Citation/ Doc
% Doc without Citation
Specialisation Index (SI)
Citation Share (CS)
Non-citation Share (NCS)
Agriculture, Biology and Environmental Sciences
37 7.30 0.24 1.30 1.25 0.85
Biomedical Research
17 12.88 0.00 0.79 1.14 0.00
Chemistry 1 0.00 1.00 0.11 0.00 4.90
Clinical Medicine
17 3.29 0.47 0.92 0.45 1.65
Engineering, Technology
5 7.20 0.20 0.58 1.49 0.67
Humanities 2 0.00 1.00 2.18 0.00 1.20
Mathematics 2 0.50 0.50 0.95 0.15 1.26
Multidisciplinary Sciences
3 20.00 0.33 5.54 0.35 2.83
Physics 4 34.50 0.00 0.48 4.27 0.00
Social Sciences 14 1.64 0.29 3.50 0.45 0.83
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For Barbados (Table 10), five thematic areas - Agriculture, Biology & Environmental Sciences; Biomedical Research; Chemistry; Humanities; Physics - have relatively high visibility based on their NCS indices (NCS = 0.62, 0.55, 0.80, 0.83, 0.74, resp.). For all of these except Physics, the CS also exceeds one (CS = 1.38, 3.21, 1.09, 1.97, resp.), further confirming the higher impact of these domains for Barbados relative to the entire Caribbean. In fact, the visibility for Biomedical Research is particularly high. Two of these thematic areas, Chemistry and Humanities, also represent areas of specialisation (SI= 1.28, SI=2.99, resp.).
Table 10: Bibliometric indices for publications of Barbados per thematic area.
Publication number
Citation/Doc
% Doc without Cit
SI Citation Share (CS)
Non-citation Share (NCS)
Agriculture, Biology and Environmental Sciences
97 8.06 0.18 0.72 1.38 0.62
Biomedical Research 85 36.28 0.08 0.84 3.21 0.55
Chemistry 55 7.89 0.16 1.28 1.09 0.80
Clinical Medicine 83 4.66 0.35 0.94 0.63 1.22
Engineering. Technology 37 1.68 0.51 0.91 0.35 1.73
Humanities 13 1.08 0.69 2.99 1.97 0.83
Mathematics 15 2.47 0.60 1.50 0.75 1.51
Multidisciplinary Sciences 4 88.50 0.25 1.56 1.56 2.13
Physics 35 7.97 0.14 0.88 0.99 0.74
Social Sciences 60 3.67 0.38 3.16 1.00 1.11
As Table 11 shows, for Belize, only the Agriculture, Biology & Environmental Sciences thematic area has an adequate number of publications for this analysis and in this case the impact is high based on both indices (CS=1.53; NCS=0.62). This is also an area of specialisation for Belize (SI=2.63).
Table 11: Bibliometric indices for publications of Belize per thematic area.
Publication number
Citation/Doc % Doc without Cit SI Citation Share (CS)
Non-citation Share (NCS)
Agriculture, Biology and Environmental Sciences
57
8.93 0.18 2.63 1.53 0.62
Biomedical Research 4 0.75 0.25 0.24 0.07 1.67
Chemistry 0 - - - - -
Clinical Medicine 5 8.60 0.40 0.35 1.17 1.40
Engineering, Technology 0 - - - - -
Humanities 3 1.33 0.33 4.28 2.43 0.40
Mathematics 0 - - - - -
Multidisciplinary Sciences 1 16.00 0.00 2.41 0.28 0.00
Physics 6 19.00 0.00 0.94 2.35 0.00
Social Sciences 2 0.00 1.00 0.65 0.00 2.90
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For Bermuda (Table 12), four thematic areas are for consideration - Agriculture, Biology & Environmental Sciences; Biomedical Research; Physics; Social Sciences – and all have relatively high visibilities based on both impact indices (CS = 2.54, 1.78, 2.94, 1.18; NCS = 0.22, 0.89, 0.34, 0.58, resp.). Of these, all but Biomedical Research are areas in which Bermuda shows specialisation (SI > 1).
Table 12: Bibliometric indices for publications of Bermuda per thematic area.
Publication number
Citation/Doc % Doc without Cit.
SI Citation Share (CS)
Non-citation Share (NCS)
Agriculture, Biology and Environmental Sciences
111 14.83 0.06 1.81 2.54 0.22
Biomedical Research 15 20.13 0.13 0.32 1.78 0.89
Chemistry 4 30.25 0.00 0.21 4.18 0.00
Clinical Medicine 2 0.50 0.50 0.05 0.07 1.75
Engineering, Technology
6 7.50 0.17 0.32 1.55 0.56
Humanities 1 1.00 0.00 0.51 1.83 0.00
Mathematics 0 - - - - -
Multidisciplinary Sciences
9 168.11 0.00 7.71 2.96 0.00
Physics 62 23.81 0.06 3.45 2.94 0.34
Social Sciences 10 4.30 0.20 1.16 1.18 0.58
Cuba with its large number of publications allows these indices to be applied and interpreted with the greatest confidence (Table 13). In only one domain, Clinical Medicine, is Cuba performing better than the regional average on the basis of both impact indices (CS=1.08; NCS=0.99) although, based on the SI, this is not an area of specialisation for Cuba (SI=0.62). On the other hand, both higher impact (CS=1.04) and specialisation (SI=1.42) are evident in the area of Engineering, Technology. In Humanities, Cuba also has high visibility (CS=1.62) even though this is not a specialisation (SI=0.62).
Similarly, although Mathematics is not a specialisation (SI=0.78), Cuban publications in this discipline have relatively high impact based on the proportion of uncited publications (NCS=0.92). Cuba shows specialisation with respect to Biomedical Research, Chemistry and Physics (SI=1.17, 1.43, 1.25 resp.) but, based on the respective CS and NCS indices, publications in these areas are not of higher than average visibility.
Curacao has three thematic areas with relatively high impact publications (Table 14), viz. Agriculture, Biology & Environmental Sciences (CS=2.68; NCS=0.29), Biomedical Research (CS=1.50; NCS=0.74), Clinical Medicine (CS=1.45; NCS=0.48). Of these only Agriculture, Biology & Environmental Sciences (SI=1.59) and Clinical Medicine (SI=1.75) are country specialisations.
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Table 13: Bibliometric indices for publications of Cuba per thematic area.
Publication number
Citation/Doc % Doc without Cit
SI Citation Share (CS)
Non-citation Share (NCS)
Agriculture, Biology and Environmental Sciences
1654 4.20 0.37 0.92 0.72 1.31
Biomedical Research 1593 9.76 0.17 1.17 0.86 1.14
Chemistry 821 6.67 0.21 1.43 0.92 1.03
Clinical Medicine 727 7.92 0.28 0.62 1.08 0.99
Engineering, Technology 776 5.00 0.30 1.42 1.04 1.00
Humanities 36 0.89 0.83 0.62 1.62 1.00
Mathematics 104 3.34 0.37 0.78 1.02 0.92
Multidisciplinary Sciences
20 24.80 0.15 0.58 0.44 1.28
Physics 662 6.05 0.22 1.25 0.75 1.15
Social Sciences 99 3.70 0.42 0.39 1.01 1.23
In the five disciplinary areas with sufficient publications for analysis, the Dominican Republic has high visibility (Table 15). Publications are more highly cited than the regional average in Agriculture, Biology & Environmental Sciences (CS=1.11) and this is also an area of specialisation (SI=1.17). The Dominican Republic also shows specialisation in Biomedical Research (SI=1.50) and Social Sciences (2.31) and publications in these two disciplines are relatively highly cited (CS=1.60, 1.68 resp.) and with relatively few uncited papers (NCS=0.54, 0.81 resp.). Clinical Medicine is another area in which the Dominican Republic is performing particularly well (CS=3.60; NCS=0.44). Although Physics is not a specialisation, the few papers (10) are all cited (NCS=0) and at a higher than average rate for the region (CS=1.34).
Table 14: Bibliometric indices for publications of Curacao per thematic area.
Publication number
Citation/Doc % Doc without Cit
SI Citation Share (CS)
Non-citation Share (NCS)
Agriculture, Biology and Environmental Sciences
61 15.64 0.08 1.59 2.68 0.29
Biomedical Research 18 17.00 0.11 0.62 1.50 0.74
Chemistry 1 5.00 0.00 0.08 0.69 0.00
Clinical Medicine 44 10.64 0.14 1.75 1.45 0.48
Engineering, Technology 1 11.00 0.00 0.09 2.28 0.00
Humanities 0 - - - - -
Mathematics 0 - - - - -
Multidisciplinary Sciences
3 11.67 0.33 4.09 0.21 2.83
Physics 4 12.25 0.25 0.35 1.52 1.30
Social Sciences 6 3.00 0.00 1.11 0.82 0.00
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For French Guiana, there are five thematic areas with adequate numbers and all are noteworthy (Table 16). Publications are more highly visible in Agriculture, Biology & Environmental Sciences (CS=1.38; NCS=0.48) which is also a specialisation (SI=1.61). Clinical Medicine also shows high visibility (CS=1.79; NCS=0.75) but is not a specialisation (SI=0.61). Biomedical Research is an area of concentrated output (SI=1.58) and this pays off with relatively few non-cited articles (NCS=0.77). While neither Physics nor Engineering, Technology are specialisations (SI= 0.55, 0.34 resp.) relatively few Physics publications lack citations (NCS=0.55) and Engineering, Technology publications are more cited than the regional average (CS=1.05).
Table 15: Bibliometric indices for publications of the Dominican Republic per thematic area.
Publication number
Citation/Doc
% Doc without Cit
SI Citation Share (CS) Non-citation Share (NCS)
Agriculture, Biology & Environmental Sciences
90 6.47 0.33 1.17 1.11 1.17
Biomedical Research
87 18.06 0.08 1.50 1.60 0.54
Chemistry 1 15.00 0.00 0.04 2.07 0.00
Clinical Medicine
48 26.50 0.13 0.96 3.60 0.44
Engineering, Technology
9 2.67 0.44 0.39 0.55 1.50
Humanities 3 0.33 0.67 1.21 0.61 0.80
Mathematics 0 - - - - -
Multidisciplinary Sciences
3 80.33 0.00 2.05 1.42 0.00
Physics 10 10.80 0.00 0.44 1.34 0.00
Social Sciences 25 6.12 0.28 2.31 1.68 0.81
In the case of Grenada (Table 17), there are two domains in which output is concentrated, Biomedical Research (SI=1.95) and Clinical Medicine (SI=2.08), but publications in both these areas have relatively low citation rates (CS= 0.33, 0.17, resp.) and a higher than average proportion of uncited papers (NCS= 1.93, 1.61, resp.). However, Grenada is unusual in that there is not an even evolution of publications but instead 80% of the articles are published in the last four years of the study period (data not shown). This is likely to lower the rate of citation and negatively impact these impact indices compared to a country where production is evenly spread over the eleven year period under study. Despite this, the low output in Agriculture, Biology & Environmental Sciences (n=13) does attract a citation rate higher than the regional average (CS=1.24).
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Table 16: Bibliometric indices for publications of French Guiana per thematic area.
Publication number
Citation/Doc
% Doc without Cit
SI Citation Share (CS) Non-citation Share (NCS)
Agriculture, Biology and Environmental Sciences
189 8.06 0.14 1.61 1.38 0.48
Biomedical Research
140 11.29 0.11 1.58 1.00 0.77
Chemistry 5 10.20 0.00 0.13 1.41 0.00
Clinical Medicine 47 13.15 0.21 0.61 1.79 0.75
Engineering, Technology
12 5.08 0.33 0.34 1.05 1.12
Humanities 2 0.00 1.00 0.53 0.00 1.20
Mathematics 1 1.00 0.00 0.12 0.30 0.00
Multidisciplinary Sciences
4 41.25 0.00 1.79 0.73 0.00
Physics 19 7.21 0.11 0.55 0.89 0.55
Social Sciences 2 17.00 0.00 0.12 4.65 0.00
Table 17 : Bibliometric indices for publications of Grenada per thematic area.
Publication number
Citation/Doc
% Doc without Cit
SI Citation Share (CS)
Non-citation Share (NCS)
Agriculture, Biology and Environmental Sciences
13 7.23 0.38 0.37 1.24 1.35
Biomedical Research
52 3.73 0.29 1.95 0.33 1.93
Chemistry 0 - - - - -
Clinical Medicine 48 1.23 0.46 2.08 0.17 1.61
Engineering, Technology
1 10.00 0.00 0.09 2.07 0.00
Humanities 1 0.00 1.00 0.88 0.00 1.20
Mathematics 0 - - - - -
Multidisciplinary Sciences
2 3.00 0.00 2.97 0.05 0.00
Physics 0 - - - - -
Social Sciences 10 2.50 0.40 2.01 0.68 1.16
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Guadeloupe (Table 18) shows specialisation in Agriculture, Biology & Environmental Sciences (SI=1.33), Clinical Medicine (SI=1.02) and Mathematics (SI=5.06) and correspondingly higher than average citation in these thematic areas (CS = 1.04, 1.03, 1.18 resp.). Of these, there are also relatively fewer uncited publications in Agriculture, Biology & Environmental Sciences (NCS=0.55) and Clinical Medicine (NCS=0.86). Relatively higher citation rates and lower non-citation rates are evident in publications in Biomedical research (CS=1.24; NCS=0.47), Engineering, Technology (CS=1.16; NCS=0.31) and Physics (CS =1.12; NCS=0.96) but none of these are areas of specialisation (I=1.00, 0.48, 0.41, resp.). The low output in Social Sciences is also relatively well-cited (CS=1.51) but the citation level in Chemistry is below the regional average (CS=0.45; NCS=1.40).
Table 18: Bibliometric indices for publications of Guadeloupe per thematic area.
Publication number
Citation/Doc % Doc without
Cit
SI Citation Share (CS)
Non-citation Share (NCS)
Agriculture, Biology and Environmental Sciences
302 6.10 0.16 1.33 1.04 0.55
Biomedical Research 172 14.03 0.07 1.00 1.24 0.47
Chemistry 21 3.29 0.29 0.29 0.45 1.40
Clinical Medicine 151 7.56 0.25 1.02 1.03 0.86
Engineering, Technology 33 5.61 0.09 0.48 1.16 0.31
Humanities 7 0.00 1.00 0.96 0.00 1.20
Mathematics 85 3.88 0.44 5.06 1.18 1.09
Multidisciplinary Sciences
3 9.33 0.33 0.69 0.16 2.83
Physics 27 9.04 0.19 0.41 1.12 0.96
Social Sciences 14 5.50 0.43 0.44 1.51 1.24
Table 19: Bibliometric indices for publications of Guyana per thematic area.
Publication number
Citation/Doc % Doc without Cit
SI Citation Share (CS)
Non-citation Share (NCS)
Agriculture, Biology and Environmental Sciences
61 8.79 0.23 1.62 1.50 0.81
Biomedical Research 13 8.31 0.00 0.46 0.73 0.00
Chemistry 29 1.48 0.52 2.43 0.20 2.54
Clinical Medicine 12 2.83 0.33 0.49 0.38 1.17
Engineering, Technology 7 5.57 0.29 0.61 1.15 0.96
Humanities 1 0.00 1.00 0.83 0.00 1.20
Mathematics 0 - - - - -
Multidisciplinary Sciences
1 22.00 0.00 1.40 0.39 0.00
Physics 5 7.20 0.00 0.45 0.89 0.00
Social Sciences 6 1.83 0.33 1.13 0.50 0.97
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Like many Caribbean states, the output of Guyana (Table 19) emphasises Agriculture, Biology & Environmental Sciences (SI=1.62) and publications in this grouping have relatively high visibility (CS=1.50; NCS=0.91). While Chemistry is another specialisation of Guyana (SI=2.43), publications in this discipline are less well-cited than the regional average (CS=0.20; NCS=2.54) and this is probably the domain of Guyana with least impact. The modest output in the area of Biomedical Research (n=13) are all cited but this is not a specialisation for the country (SI=0.46).
Haiti (Table 20) has proportionately higher than average output in three areas, Agriculture, Biology & Environmental Sciences (SI=1.48), Biomedical Research (SI=1.25) and Clinical Medicine (SI=1.08). In all three areas, the publications enjoy higher citation rates than the regional average (CS= 1.44, 1.25, 2.49 resp.) and lower non-citation rates relative to the regional norm (NCS=0.23, 0.00, 0.24 resp.). No other disciplines have sufficient publications to be assessed by the bibliometric indices.
Table 20: Bibliometric indices for publications of Haiti per thematic area.
Publication number
Citation/Doc % Doc without Cit
SI Citation Share (CS)
Non-citation Share (NCS)
Agriculture, Biology & Environmental Sciences
61 8.43 0.07 1.48 1.44 0.23
Biomedical Research 39 14.13 0.00 1.25 1.25 0.00
Chemistry 2 3.00 0.00 0.15 0.41 0.00
Clinical Medicine 29 18.34 0.07 1.08 2.49 0.24
Engineering, Technology 2 5.00 0.00 0.16 1.04 0.00
Humanities 2 0.00 1.00 1.51 0.00 1.20
Mathematics 0 - - - - -
Multidisciplinary Sciences
1 204.00 0.00 1.27 3.60 0.00
Physics 4 18.25 0.00 0.33 2.26 0.00
Social Sciences 8 1.50 0.63 1.38 0.41 1.81
Jamaica has three areas of specialisation, Clinical Medicine (SI=2.40), Humanities (SI=1.67) and Social Sciences (SI=1.57) but, of these, higher than average visibility (NCS=0.84) is only apparent in Social Sciences (Table 21). There are three disciplines in which publications from Jamaica make a higher than average impact, Chemistry (CS=1.55; NCS=0.79), Engineering, Technology (CS=1.14; NCS=0.94) and Mathematics (CS=1.09; NCS= -0.52). Interestingly, none of these represent a country specialisation (SI= 0.96, 0.29, 0.96 resp.), least of all Engineering, Technology. Higher visibility with respect to proportionately fewer non-cited papers is also seen in the areas Agriculture, Biology & Environmental Sciences (NCS=0.87) and Biomedical Research (NCS=0.94). The discipline with the lowest relative citation rate for Jamaica is Humanities (CS=0.33).
Martinique shows specialisation in Clinical Medicine (SI=2.29) and Mathematics (SI=3.44) and in each of these disciplines the proportion of papers that lack citation are fewer than the regional average (NCS = 0.70, 0.74 resp.) [Table 22]. While Agriculture, Biology & Environmental Sciences is not one of the island’s specialisations (SI=0.90) it is an area in which the
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indices indicate higher citation than the regional average (CS=1.05; NCS=0.53). The lowest ranked discipline for Martinique relative to the regional average is Biomedical Research (CS=0.63; NCS=1.91).
Table 21: Bibliometric indices for publications of Jamaica per thematic area.
Publication number
Citation/Doc
% Doc without Cit
SI Citation Share (CS)
Non-citation Share (NCS)
Agriculture, Biology and Environmental Sciences
229 4.92 0.25 0.56 0.84 0.87
Biomedical Research 193 10.57 0.14 0.63 0.93 0.94
Chemistry 124 11.23 0.16 0.96 1.55 0.79
Clinical Medicine 639 6.30 0.31 2.40 0.86 1.08
Engineering, Technology 36 5.50 0.28 0.29 1.14 0.94
Humanities 22 0.18 0.86 1.67 0.33 1.03
Mathematics 29 3.59 0.21 0.96 1.09 0.52
Multidisciplinary Sciences
3 48.67 0.00 0.39 0.86 0.00
Physics 100 6.03 0.15 0.84 0.75 0.78
Social Sciences 90 3.28 0.29 1.57 0.90 0.84
Table 22: Bibliometric indices for publications of Martinique per thematic area.
Publication number
Citation/Doc
% Doc without Cit
SI Citation Share (CS)
Non-citation Share (NCS)
Agriculture, Biology and Environmental Sciences
60 6.13 0.15 0.90 1.05 0.53
Biomedical Research 42 7.17 0.29 0.83 0.63 1.91
Chemistry 2 5.00 0.00 0.09 0.69 0.00
Clinical Medicine 100 5.55 0.20 2.29 0.75 0.70
Engineering, Technology 8 14.63 0.25 0.39 3.03 0.84
Humanities 0 - - - - -
Mathematics 17 2.59 0.29 3.44 0.79 0.74
Multidisciplinary Sciences
0 - - - - -
Physics 5 1.60 0.20 0.25 0.20 1.04
Social Sciences 6 1.17 0.33 0.64 0.32 0.97
For Suriname (Table 23), there is relatively high visibility for publications in Agriculture, Biology & Environmental Sciences (CS=1.61; NCS=0.55) and Biomedical Research (CS=1.05; NCS=0.56), with only the former being a specialisation (SI= 1.65). Clinical Medicine is also a discipline in which Suriname specialises (SI=1.13) and in which it has proportionately fewer non-cited papers than the region (NCS=0.62) but in this discipline its relative citation rate is below the regional average (CS=0.70).
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Table 23 : Bibliometric indices for publications of Suriname per thematic area.
Publication number
Citation/ Doc
% Doc without Cit SI Citation Share (CS) Non-citation Share (NCS)
Agriculture, Biology and Environmental Sciences
38 9.39 0.16 1.65 1.61 0.55
Biomedical Research 12 11.83 0.08 0.69 1.05 0.56
Chemistry 2 3.50 0.00 0.27 0.48 0.00
Clinical Medicine 17 5.12 0.18 1.13 0.70 0.62
Engineering, Technology
2 10.50 0.00 0.29 2.18 0.00
Humanities 0 - - - - -
Mathematics 0 - - - - -
Multidisciplinary Sciences
0 - - - - -
Physics 8 2.75 0.25 1.18 0.34 1.30
Social Sciences 4 4.25 0.00 1.23 1.16 0.00
Trinidad & Tobago shows specialisation in Agriculture, Biology & Environmental Sciences (SI=1.14), Clinical Medicine (SI=1.28), Engineering , Technology (SI=1.28), Humanities (SI=1.78) and Social Sciences (SI=2.24) but in none of these areas does it have high visibility based on the two impact indices, CS and NCS (Table 24). Its highest impact is seen in Chemistry where proportionately fewer of its publications lack citation and those that are cited have a higher rate of citation than the regional average (CS=1.24; NCS=0.54). It also has heightened visibility in the Biomedical Research discipline where a lower proportion of its publications lack citation compared to the regional average (NCS=0.82) but once again this is not one of its areas of specialisation (SI=0.60). The discipline with the lowest visibility for Trinidad & Tobago is Mathematics (CS=0.06; NCS=2.06).
Table 24: Bibliometric indices for publications of Trinidad & Tobago per thematic area.
Publication number
Citation/ Doc
% Doc without Cit
SI Citation Share (CS)
Non-citation Share (NCS)
Agriculture, Biology & Environmental Sciences
430 4.51 0.29 1.14 0.77 1.00
Biomedical Research 172 10.60 0.12 0.60 0.94 0.82
Chemistry 64 8.95 0.11 0.53 1.24 0.54
Clinical Medicine 316 6.20 0.31 1.28 0.84 1.08
Engineering, Technology 146 3.52 0.31 1.28 0.73 1.04
Humanities 21 0.33 0.90 1.73 0.61 1.08
Mathematics 11 0.18 0.82 0.39 0.06 2.06
Multidisciplinary Sciences 5 79.80 0.00 0.70 1.41 0.00
Physics 69 6.97 0.26 0.62 0.86 1.36
Social Sciences 119 3.41 0.35 2.24 0.93 1.02
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2.3.7 Relative Performance of Caribbean Countries/Territories by Thematic Area
Norms for citation exist within a discipline which allows comparison between countries/territories with respect to the impact indices within a discipline. Some caution should, nonetheless, be exercised, bearing in mind the small numbers of publications involved in some cases. Levels of production vary widely even among the higher output Caribbean countries. With half the regional publications generated by Cuba this means that indices based on regional output in many ways reflect the contribution of Cuba. Finally, publications in the Humanities and Social Sciences tend to be published locally or regionally and to be poorly represented in the WoS database. These caveats should be borne in mind in the foregoing comparisons.
Agriculture, Biology & Environmental Sciences is the only disciplinary domain in which all of the sixteen higher output countries/territories have a large enough pool of publications to be meaningfully compared with respect to the specialisation (SI) and impact (CS, NCS) indices (Table 25). For ten countries/territories this is an area of specialisation, foremost among these being Belize (SI=2.63). Perusal of these publications for Belize reveals that these primarily deal with wildlife conservation and are produced by some twenty research centres and organisations which focus on the country’s terrestrial and marine biodiversity.
Table 25 : Agriculture, Biology and environmental Sciences Indices for relevant countries
Countries Number of publication Cit/Doc SI Citation Share (CS) Non-citation Share (CS)
Bahamas 37 7.30 1.30 1.25 0.85
Barbados 97 8.06 0.72 1.38 0.62
Belize 57 8.93 2.63 1.53 0.62
Bermuda 111 14.83 1.81 2.54 0.22
Cuba 1654 4.20 0.92 0.72 1.31
Curaçao 61 15.64 1.59 2.68 0.29
Dominican Republic 90 6.47 1.17 1.11 1.17
French Guiana 189 8.06 1.61 1.38 0.48
Grenada 13 7.23 0.37 1.24 1.35
Guadeloupe 302 6.10 1.33 1.04 0.55
Guyana 61 8.79 1.62 1.50 0.81
Haiti 61 8.43 1.48 1.44 0.23
Jamaica 229 4.92 0.56 0.84 0.87
Martinique 60 6.13 0.90 1.05 0.53
Suriname 38 9.39 1.65 1.61 0.55
Trinidad & Tobago 430 4.51 1.14 0.77 1.00
Eleven countries/territories have higher than average visibility based on both the CS and NCS indices, while two of these have higher than average visibility based on just one of these indices. Two territories are particularly outstanding. Publications from Curacao in this area have the highest relative citation rate in the region (CS=2.68) closely followed by
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those of Bermuda (CS=2.54). With respect to having the lowest proportion of papers which lack citation, the order is reversed with Bermuda more highly ranked than Curacao (NCS = 0.22, 0.29 resp.). Both of these territories are specialised in this thematic domain (Bermuda SI = 1.81; Curacao SI = 1,59). Cuba is the lowest ranked in this list based on
citation share (CS=0.72) with Trinidad & Tobago close behind (CS=0.77). In this thematic area, Cuba also has the second highest rate of non-citation of papers (NCS= 1.31) while this index for Trinidad & Tobago is the average for the region.
Table 26: Biomedical Research Indices for relevant countries
Countries Number of publication
Cit/doc SI Citation Share (CS) Non-citation Share (CS)
Bahamas 17 12.88 0.79 1.14 0.00
Barbados 85 36.28 0.84 3.21 0.55
Bermuda 15 20.13 0.32 1.78 0.89
Cuba 1593 9.76 1.17 0.86 1.14
Curaçao 18 17.00 0.62 1.50 0.74
Dominican Republic 87 18.06 1.50 1.60 0.54
French Guiana 140 11.29 1.58 1.00 0.77
Grenada 52 3.73 1.95 0.33 1.93
Guadeloupe 172 14.03 1.00 1.24 0.47
Guyana 13 8.31 0.46 0.73 0.00
Haiti 39 14.13 1.25 1.25 0.00
Jamaica 193 10.57 0.63 0.93 0.94
Martinique 42 7.17 0.83 0.63 1.91
Suriname 12 11.83 0.69 1.05 0.56
Trinidad & Tobago 172 10.60 0.60 0.94 0.82
For Biomedical Research fifteen of the sixteen higher output countries/territories qualify for consideration based on an adequate number of publications (Table 26). In this discipline, Barbados has the highest citation share (CS=3.21), considerably higher than second-ranked Bermuda (CS=1.78). While the relative proportion of papers without citation is lower than the regional average for these two countries (NCS = 0.55, 0.89, resp.), the countries ranked highest on this criterion alone are the Bahamas, Guyana and Haiti (NCS = 0.00 for all) for which there are no uncited publications. Grenada then Martinique are the lowest ranked with respect to the relative citation rate (CS = 0.33, 0.63, resp.) and also in terms of the proportion of papers lacking citation (NCS = 1.93, 1.91, resp.). Specialisation is poorly correlated with publication impact in this discipline. Four of the five countries recognised as having high citation rates or low non-citation do not show specialisation (SI < 1) while Grenada which is specialised in this field (SI=1.95) is the poorest performer.
Only six countries/territories show adequate output in Chemistry for impact analysis. Jamaica has the highest relative citation rate in this discipline followed by Trinidad & Tobago (CS = 1.55, 1.24, resp.) but the order is reversed when the ranking is on the proportion of papers without citation (NCS = 0.79, 0.54, resp.) (Table 27). Guyana and Guadeloupe are lowest ranked on the basis of both the relative citation rate (CS = 0.20, 0.45, resp.) and the proportion of papers without citation (NCS = 2.54, 1.40, resp.). Again, there is a lack of correlation between impact and specialisation with Guyana,
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the lowest ranked, being the most specialised (SI=2.43) while Jamaica and Trinidad & Tobago, the highest ranked, being relatively unspecialised in this discipline (SI = 0.96, 0.53, resp.).
Table 27 : Chemistry Indices for relevant countries
Countries Number of publication
Cit/doc SI Citation Share (CS)
Non-citation Share (CS)
Barbados 55 7.89 1.28 1.09 0.80
Cuba 821 6.67 1.43 0.92 1.03
Guyana 29 1.48 2.43 0.20 2.54
Guadeloupe 21 3.29 0.29 0.45 1.40
Jamaica 124 11.23 0.96 1.55 0.79
Trinidad & Tobago
64 8.95 0.53 1.24 0.54
Almost all the higher output countries are represented in the Clinical Medicine discipline (Table 28). The Dominican Republic is the highest ranked performer in this field with respect to the relative rate of citation (CS=3.60) followed by Haiti (CS=2.49) while the order is reversed when the proportion of papers without citation is the criterion (NCS = 0.24, 0.44, resp.). The worst performing on the basis of citation rate is Grenada followed by Guyana (CS = 0.17, 0.38, resp.) while on the basis of the proportion of papers without citation the Bahamas is weakest, followed by Grenada (NCS = 1.65, 1.61, resp.). Once again, specialisation in this field is no indicator of publication impact, e.g. one of the more specialised countries, Grenada,( SI=2.08) is least ranked.
Table 28: Clinical Medicine indices for relevant countries
Countries Number of publication
Cit/doc SI Citation Share (CS)
Non-citation Share (CS)
Bahamas 17 3.29 0.92 0.45 1.65
Barbados 83 4.66 0.94 0.63 1.22
Cuba 727 7.92 0.62 1.08 0.99
Curaçao 44 10.64 1.75 1.45 0.48
Dominican Republic 48 26.50 0.96 3.60 0.44
French Guiana 47 13.15 0.61 1.79 0.75
Grenada 48 1.23 2.08 0.17 1.61
Guadeloupe 151 7.56 1.02 1.03 0.86
Guyana 12 2.83 0.49 0.38 1.17
Haiti 29 18.34 1.08 2.49 0.24
Jamaica 639 6.30 2.40 0.86 1.08
Martinique 100 5.55 2.29 0.75 0.70
Suriname 17 5.12 1.13 0.70 0.62
Trinidad & Tobago 316 6.20 1.28 0.84 1.08
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Few Caribbean countries/territories have a high output in Engineering, Technology (Table 29). Guadeloupe has the
highest visibility in this field (CS=1.16; NCS=0.31) while Jamaica is in second place (CS=1.14; NCS=0.94). The poorest
performer in this discipline is Barbados (CS=0.35; NCS=1.73). The countries showing the least specialisation in this field -
Jamaica, French Guiana and Guadeloupe (SI = 0.29, 0.34, 0.48, resp.) – are the top performers.
Table 29: Engineering and Technology indices for relevant countries
Countries Number of publication
Cit/doc SI Citation Share (CS) Non-citation Share (CS)
Barbados 37 1.68 0.91 0.35 1.73
Cuba 776 5.00 1.42 1.04 1.00
French Guiana 12 5.08 0.34 1.05 1.12
Guadeloupe 33 5.61 0.48 1.16 0.31
Jamaica 36 5.50 0.29 1.14 0.94
Trinidad & Tobago 146 3.52 1.28 0.73 1.04
A limited number of countries are listed for Humanities (Table 30). Of these, Barbados is top-ranked (CS=1.97; NCS=0.83)
and is also the most specialised (SI=2.99). Jamaica is least-ranked in this discipline with respect to citation rate (CS=0.33)
although this position is taken by Trinidad & Tobago when the proportion of papers without citation is the criterion
(NCS=1.08). Having said that, it should be borne in mind that the WoS database is primarily a science database and the
Humanities data should be interpreted with caution. Furthermore, in this domain, books, monographs and local journals
are the major means of publication and these are not considered in this study.
Table 30: Humanities indices for relevant countries
Countries Number of publication
Cit/doc SI Citation Share (CS)
Non-citation Share (CS)
Barbados 13 1.08 2.99 1.97 0.83
Cuba 36 0.89 0.62 1.62 1.00
Jamaica 22 0.18 1.67 0.33 1.03
Trinidad & Tobago 21 0.33 1.73 0.61 1.08
In the discipline of Mathematics six countries/territories are considered (Table 31). Jamaica ranks highest on the
proportion of papers without citation (NCS=0.52) and second on the relative citation rate (CS=1.09). Guadeloupe is first-
ranked on relative citation rate (CS=1.18) while Martinique is second-ranked on the basis of the proportion of papers
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without citation (NCS=0.74). Trinidad & Tobago is ranked lowest using both of these indices (CS=0.06; NCS=2.06). In this
field there is some correspondence between specialisation and impact, with both Guadeloupe and Martinique showing
high specialisation (SI = 5.06, 3.44, resp.).
Table 31: Mathematics indices for relevant countries
Countries Number of publication
Cit/doc
SI Citation Share (CS)
Non-citation Share (CS)
Barbados 15 2.47 1.50 0.75 1.51
Cuba 104 3.34 0.78 1.02 0.92
Guadeloupe 85 3.88 5.06 1.18 1.09
Jamaica 29 3.59 0.96 1.09 0.52
Martinique 17 2.59 3.44 0.79 0.74
Trinidad & Tobago 11 0.18 0.39 0.06 2.06
In Physics, on the basis of relative citation rate, Bermuda is highest ranked (CS=2.94) while the Dominican Republic takes
second place (CS=1.34), with the order reversed when the proportion of non-cited papers is the criterion for assessing
impact (NCS = 0.32, 0.00, resp.) (Table 32). Using the criterion of citation rate, Cuba and Jamaica share the lowest
ranking (CS=0.75) while this position is taken by Trinidad & Tobago if the proportion of non-cited papers is the criterion
(NCS=1.36). As for other disciplines, the SI correlates poorly with the impact indices.
Table 32: Physics indices for relevant countries
Countries Number of publication
Cit/doc SI Citation Share (CS)
Non-citation Share (CS)
Barbados 35 7.97 0.88 0.99 0.74
Bermuda 62 23.81 3.45 2.94 0.34
Cuba 662 6.05 1.25 0.75 1.15
Dominican Republic 10 10.80 0.44 1.34 0.00
French Guiana 19 7.21 0.55 0.89 0.55
Guadeloupe 27 9.04 0.41 1.12 0.96
Jamaica 100 6.03 0.84 0.75 0.78
Trinidad & Tobago 69 6.97 0.62 0.86 1.36
For Social Sciences (Table 33), the Dominican Republic is top-ranked based on both the relative citation rate (CS=1.68)
and the proportion of uncited publications (NCS=0.81). Guadeloupe is next in line based on relative citation rate
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(CS=1.51) but this place goes to Bermuda if the proportion of uncited publications is the criterion used (NCS=0.58). The
worst performer is the Bahamas, based on relative citation rate (CS=0.45), while this position is taken by Guadeloupe if
the proportion of uncited publications is the criterion used (NCS=1.24).
Table 33: Social Sciences indices for relevant countries.
Countries Number of publication
Cit/doc SI Citation Share (CS)
Non-citation Share (CS)
Bahamas 14 1.64 3.50 0.45 0.83
Barbados 60 3.67 3.16 1.00 1.11
Bermuda 10 4.30 1.16 1.18 0.58
Cuba 99 3.70 0.39 1.01 1.23
Dominican Republic 25 6.12 2.31 1.68 0.81
Grenada 10 2.50 2.01 0.68 1.16
Guadeloupe 14 5.50 0.44 1.51 1.24
Jamaica 90 3.28 1.57 0.90 0.84
Trinidad & Tobago 119 3.41 2.24 0.93 1.02
2.3.8 Collaboration Profile of Caribbean Countries/Territories
Table 37 summarises the degree and spectrum of collaboration of the thirty-one Caribbean countries/territories with
publications in the study. While politically some of these are independent countries and some are EU overseas
territories, for the purposes of this analysis we have assessed each of the thirty-one as if it was an independent
Caribbean country. This means that collaboration of a Caribbean country with a French overseas territory such as
Martinique is not scored as a collaboration with France but with Martinique. This allows us to build up a picture of
collaboration within the Caribbean which is also key to the aims of the EUCARINET project. We have not limited this
analysis to the higher output countries/territories as it was felt that that the collaboration profile of the low output
members may be quite distinct and needs to be understood, if this performance is to improve. The number of
collaborations reported is that derived from the WoS database. Collaborations are not synonymous with collaborative
publications. Instead collaborations are the number of collaborating countries co-authoring a publication, e.g. a paper
from Barbados co-authored with one Cuban institution and two French institutions is reported as two collaborations,
not three. Note also that it is not possible in our analysis to identify national collaborations, e.g. co-authorship by two
different institutions within one Caribbean state. Based on the small size of most Caribbean countries/territories we
believe these are less significant than in large countries with many research institutions.
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As Table 34 shows, there is a rough correlation between the number of publications and the number of collaborations.
For many countries/territories, there is about one collaboration per publication. Notable exceptions are low producers
where the number of collaborations tends to exceed the number of papers. While there is something approaching parity
for higher producers, notable exceptions are Belize, the Dominican Republic and Haiti where there are on average about
two collaborations per publication. It is clear from this study that the Caribbean collaborates widely, with Cuba
publishing in collaboration with 117 countries and the third highest producer Trinidad & Tobago co-publishing with 107
countries. It is noteworthy that the Dominica Republic with a much lower output almost matches these with 101
collaborating countries. Generally speaking the low producers on average publish papers with a higher number of
collaborating countries than the high producers.
In this same vein, low output countries/territories mainly publish in collaboration with others. In contrast, the
percentage of collaborative publications is often much less for the higher output members - Barbados, 53%; Cuba, 59%;
Jamaica, 46%; Martinique, 58%; Trinidad & Tobago, 50% (Table 34). This probably reflects the relatively developed state
of these societies where there is greater capacity to undertake and publish scientific research independently. Some
higher output countries/territories, nonetheless, almost entirely publish in collaboration with other countries - Belize,
94%; the Dominican Republic, 95%; Grenada, 93%; Haiti, 95%.
Table 34: Collaboration profiles of Caribbean Countries/Territories (1999-2009).
Sub-region
Country/Territory
Nu
mb
er o
f p
ub
licat
ion
s
Nu
mb
er o
f C
olla
bo
rati
on
s
Nu
mb
er o
f C
olla
bo
rati
ng
Co
un
trie
s
% C
olla
bo
rati
ve P
ub
licat
ion
s
Co
llab
ora
tio
ns/
pu
blic
atio
n
Co
llab
ora
tin
g co
un
trie
s/p
ub
licat
ion
% C
arib
bea
n C
olla
bo
rati
on
s
% E
uro
pea
n U
nio
n C
olla
bo
rati
on
s
% N
ort
h A
mer
ica
Co
llab
ora
tio
ns
% L
atin
Am
eri
can
Co
llab
ora
tio
ns
% O
ther
Co
un
try
Co
llab
ora
tio
ns
English
Anguilla 1 6 6 100 6.0 6.00 16.6 33.3 33.3 0.0 16.6
Antigua & Barbuda 25 36 14 80 1.4 0.56 13.9 25.0 44.4 2.8 13.9
The Bahamas 100 132 30 74 1.3 0.30 16.5 20.3 51.1 3.8 8.3
Barbados 488 427 65 53 0.9 0.13 14.5 23.0 45.0 4.7 12.9
Belize 79 150 32 94 1.9 0.41 10.7 17.3 43.3 24.7 4.0
Bermuda 223 284 29 87 1.3 0.13 0.7 33.1 56.3 2.1 7.7
British Virgin Islands 19 39 12 68 2.1 0.63 2.5 57.5 30.0 5.0 5.0
Cayman Islands 47 78 28 92 1.7 0.60 24.3 25.6 34.6 7.7 7.7
44 | P a g e
Dominica 39 41 19 64 1.1 0.49 19.5 22.0 48.8 2.4 7.3
Grenada 127 190 26 93 1.5 0.20 5.3 8.9 56.3 1.1 28.4
Guyana 138 141 30 67 1.0 0.22 10.7 32.6 35.5 9.2 12.1
Jamaica 1493 983 79 46 0.7 0.05 7.9 31.2 43.4 4.7 12.7
Montserrat 34 61 11 91 1.8 0.32 1.6 62.3 32.8 0.0 3.3
St Kitts & Nevis 18 34 19 78 1.9 1.06 26.5 11.5 32.4 0.0 29.4
St Lucia 14 24 18 93 1.7 1.29 29.2 33.3 20.8 4.2 12.5
St Vincent & the Grenadines 6 24 17 100 4.0 2.83 62.5 16.7 16.7 4.2 0.0
Trinidad & Tobago 1370 1079 107 50 0.8 0.08 7.1 33.5 32.5 5.9 21.0
Turks & Caicos Islands 6 14 9 100 2.3 1.50 14.3 14.3 28.6 0.0 42.9
Spanish
Cuba 6581 5688 117 59 0.9 0.02 0.6 47.2 8.6 34.5 9.1
Dominican Republic 280 676 101 95 2.4 0.36 4.5 17.2 29.4 30.3 18.6
Dutch
Aruba 4 4 3 75 1.0 0.75 0.0 25.0 50.0 0.0 25.0
Bonaire 4 5 4 100 1.3 1.00 20.0 60.0 20.0 0.0 0.0
Curacao 138 172 26 92 1.2 0.19 6.4 76.7 12.8 1.2 2.9
St Eustatius 5 5 5 80 1.0 1.00 40.0 0.0 20.0 0.0 40.0
Saba 16 30 15 94 1.9 0.94 6.7 40.0 30.0 0.0 23.3
St. Maarten 8 15 6 100 1.9 0.75 20.06 46.6 33.3 0.0 0.0
Suriname 83 115 31 86 1.4 0.37 10.4 41.7 22.6 7.0 18.3
French
Martinique 245 217 35 58 0.9 0.14 20.7 57.1 5.5 2.3 14.3
Guadeloupe 813 849 86 71 1.0 0.11 6.5 60.9 8.2 5.4 19.0
French Guiana 415 616 72 81 1.5 0.17 3.7 58.0 7.0 9.3 22.1
Haiti 148 276 53 95 1.9 0.36 10.5 18.1 47.1 10.1 14.1
Generally speaking the majority of collaborations of Caribbean countries/territories involve two regions - Europe (the 27
EU member states plus Norway) and North America (the USA & Canada). For the Anglophone Caribbean this
collaboration is typically skewed in favour of North America but St Lucia and two British Overseas Territories, the British
Virgin Islands and Montserrat, show the converse (Table 34). Also bucking this trend are Guyana and Trinidad & Tobago
where collaboration with the two regions is evenly matched. In the Dutch and French Caribbean sub-regions the
majority of collaborations are with the EU possibly reflecting the closer political ties. Exceptions to this are Dutch St
Maarten, where a high North American collaboration relates to an US off-shore medical school, and Haiti, in the French
sub-region, where the collaboration with North America (47%) is more than double that with the EU (18%). The Spanish-
speaking Caribbean, comprising Cuba and the Dominican Republic, is distinct in having the majority of its collaborations
with Latin America (here defined as Central & South America, excluding Belize, French Guiana, Guyana & Suriname).
Cuba's remaining collaborations are mainly with the EU while for the Dominican Republic those with North America
45 | P a g e
(29%) far exceed those with the EU (17%). Other notably strong collaborations with Latin America are shown by Belize,
French Guiana, Guyana and Haiti, all but the last-mentioned explicable on the basis of geographic proximity. The
collaboration with the rest of the Caribbean varies widely, with Cuba and Bermuda showing particularly low percentages
of collaborative papers (0.6%, 0.7%, resp.). In Bermuda's case this probably stems from its geographical isolation while
Cuba's focus seems more international than Caribbean.
2.3.9 Collaboration between Caribbean countries/territories
Collaboration between Caribbean countries/territories takes place, for some sub-regions, as one might expect, along
geo-linguistic lines. In the English sub-region, most of the collaborations are with other English Caribbean members
(Table 36). A similar trend is seen in the Francophone Caribbean where most of the collaborations are with other French
Caribbean territories except in the case of Haiti where collaborations with the English Caribbean predominate. In the
Dutch Caribbean, on the other hand, for the higher output territories (Curacao, St Maarten, Suriname) most
collaborative publications are with the Anglophone Caribbean and, in the case, of Suriname, surprisingly, there are no
collaborative publications with the rest of the Dutch sub-region. The Spanish sub-region comprises two countries, Cuba
and the Dominican Republic, and in both cases the largest share of their Caribbean collaboration is with the English sub-
region, especially so for the Dominican Republic.
Several countries/territories - Barbados, Belize, the Cayman Islands, Guyana, Jamaica, St. Vincent & the Grenadines,
Trinidad & Tobago, the Dominican Republic, Curacao, Martinique and Haiti - have collaborative publications with all four
geo-linguistic sub-regions (Table 34). While this is largely a list of the larger producers and so may be expected to have
Caribbean-wide collaborations, there are some important exceptions. Despite, generating the highest number of
publications, Cuba has no collaborative publications with the Dutch Caribbean, and the same is true of Guadeloupe.
Similarly, neither French Guiana nor Guyana share any publications with the Spanish sub-region.
Table 35: Collaboration of Caribbean countries/territories with each sub-region
% Total Collaborations
Sub-region Country/Territory
No
. of
pu
blic
atio
ns
Engl
ish
Car
ibb
ean
Du
tch
Car
ibb
ean
Fren
ch C
arib
bea
n
Span
ish
Car
ibb
ean
All
Car
ibb
ean
ENGLISH
Anguilla 1 16.6 0.0 0.0 0.0 16.6
Antigua & Barbuda 25 8.3 0.0 0.0 5.6 13.9
The Bahamas 100 13.5 1.5 1.5 0.0 16.5
Barbados 488 12.6 0.5 0.7 0.7 14.5
Belize 79 7.4 0.7 1.3 1.3 10.7
Bermuda 223 0.4 0.0 0.0 0.4 0.7
British Virgin Islands 22 2.5 0.0 0.0 0.0 2.5
46 | P a g e
Cayman Islands 47 20.5 1.3 1.3 1.3 24.3
Dominica 39 19.5 0.0 0.0 0.0 19.5
Grenada 127 4.2 1.1 0.0 0.0 5.3
Guyana 138 5.7 0.7 4.3 0.0 10.7
Jamaica 1493 6.6 0.1 0.4 0.8 7.9
Montserrat 34 1.6 0.0 0.0 0.0 1.6
St Kitts & Nevis 18 20.6 2.9 2.9 0.0 26.5
St Lucia 14 20.9 0.0 8.3 0.0 29.2
St Vincent & the Grenadines 6 50.0 4.2 4.2 4.2 62.5
Trinidad & Tobago 1370 4.9 0.5 1.0 0.7 7.1
Turks & Caicos Islands 6 14.3 0.0 0.0 0.0 14.3
SPANISH Cuba 6581 0.3 0.0 0.2 0.2 0.6
Dominican Republic 280 2.2 0.2 0.7 1.3 4.5
DUTCH
Aruba 4 0.0 0.0 0.0 0.0 0.0
Bonaire 4 0.0 20.0 0.0 0.0 20.0
Curacao 138 4.1 1.2 0.6 0.6 6.4
St Eustatius 5 0.0 40.0 0.0 0.0 40.0
Saba 16 0.0 6.7 0.0 0.0 6.7
St. Maarten 8 20.0 0.0 0.0 0.0 20.0
Suriname 83 6.1 0.0 4.4 0.0 10.4
FRENCH
Martinique 245 2.3 1.4 15.7 1.4 20.7
Guadeloupe 813 1.0 0.0 4.7 0.8 6.5
French Guiana 415 0.6 0.3 2.8 0.0 3.7
Haiti 148 5.4 0.4 2.5 2.2 10.5
Trinidad & Tobago is the country which shows the greatest collaboration with the rest of the Caribbean, having
published with 17 other Caribbean countries/territories (Table 36). Using co publication with ≥10 Caribbean
countries/territories as a criterion to identify countries with wide-ranging Caribbean collaborations, seven of these are
Anglophone, both Cuba and the Dominican Republic would qualify while in the Dutch and French sub-regions only
Curacao and Haiti respectively show this breadth of collaboration. Bermuda is anomalous in collaborating with only 2
Caribbean countries despite its high output and this may relate to its singular location. Yet Belize boasts ten
collaborating countries despite its distance from the rest of the Caribbean on the Central American mainland. Location
and language may explain French Guiana's collaboration with only 4 Caribbean partners, neighbouring Guyana and
Suriname and French-speaking Martinique and Guadeloupe. The collaboration of Montserrat solely with Trinidad &
Tobago reflects the specialised nature of that research (volcanology) with few centres having this expertise.
It should be noted that collaborations with British Overseas Territories are under-reported in Table 36 because they are
not indexed as countries but classified under England (and at times even under the USA in the case of the British Virgin
Islands). These collaborations are revealed where these territories are the subject of the search, i.e. Barbados
publications will not reveal Montserrat collaborations but a Montserrat search will reveal collaborations with Barbados.
47 | P a g e
An
tigu
a
The
Bah
amas
Bar
bad
os
Be
lize
Be
rmu
da
Bri
tish
Vir
gin
Isl.
Do
min
ica
Gre
nad
a
Gu
yan
a
Jam
aica
Mo
nts
err
at
St K
itts
& N
evi
s
St L
uci
a
St V
ince
nt
Trin
idad
&
To
bag
o
Cu
ba
Do
min
ican
R
ep
ub
lic
Bo
nai
re
Cu
raca
o
St E
ust
atiu
s
Sab
a
St. M
aart
en
Suri
nam
e
Mar
tin
iqu
e
Gu
ade
lou
pe
Fre
nch
Gu
ian
a
Hai
ti
Co
llab
. Co
un
trie
s
Anguilla 16.6
1
Antigua 8.3 5.6
2
Bahamas 1.5 0.8 0.8
4.5 0.8
0.8
4.5 0.8 0.8
0.8
0.8 11
Barbados 0.5
0.7 0.2
0.2
6.6 0.2
0.2 0.7
3.3 0.5
0.2
0.2 0.2
0.7 14
Belize 0.7
2.0 0.7
2.0 0.7
0.7
0.7 1.3
0.7 1.3 10
Bermuda 0.4 0.4
2
Br. Virgin I. 2.5 1
Cayman I 1.3
1.3 1.3 1.3
11.5
1.3
1.3
1.3 1.3
1.3 1.3 11
Dominica 2.4 7.3 2.4 2.4 2.4
2.4 6
Grenada 1.6
0.5 0.5 0.5
1.1 1.1 6
Guyana 1.4 4.3 0.7
1.4 2.8
5
Jamaica 0.6
2.9 0.3 0.1 0.1
0.1 0.2
0.1
0.1 0.2
1.9 0.4
0.4
0.1 0.4 15
Montserrat 1.6 1
48 | P a g e
St Kitts-Nevis 2.9
2.9 2.9 2.9
2.9 2.9
2.9 2.9 2.9 9
St Lucia 4.2 4.2
4.2 4.2 4.2
4.2
4.2 7
St Vincent s 4.2
12.5
4.2 4.2
4.2 8.3 4.2
4.2 4.2 4.2
4.2 4.2 12
Trinidad & Tobago
0.3 0.6
1.3 0.1 0.1
0.2 0.6
1.7 0.1
0.1
0.1
0.6
0.1 0.4
0.3
0.5 0.3 17
Turks & Caicos Is
7.1
7.1 2
Cuba 0.04
0.04
0.04
0.02
0.1 0.02
0.02
0.2
0.1
0.1 0.04
11
Dominican Republic
0.2
0.2 0.2 0.6 0.2
0.2
0.9 1.3
0.2 0.7 10
Aruba 0
Bonaire 20.0
1
Curacao 0.6
0.6 0.6 0.6 0.6
0.6
0.6 0.6
0.6
0.6 0.6 11
St Eustatius 20.0
20.0
2
Saba 3.3
3.3 2
St. Maarten 17.0
3.8 1.9
3
Suriname 0.9
0.9 0.9
3.5 2.6
1.7
6
Martinique 0.5
0.5 1.4 1.4
1.4
12.0
3.7
7
Guadeloupe 0.2
0.1 0.6 0.8
3.1
0.8
0.8 7
French Guiana
0.6
0.3
1.5
1.3 4
Haiti 0.4
1.1 0.7 1.5 0.4
0.4
1.1 0.4
1.8
0.4 2.5 11
49 | P a g e
Collaboration between European countries and Caribbean countries/territories
In assessing EU-Caribbean collaborations, Spain has the highest number of collaborations (1106) of all EU countries with
France close behind (1076) and the UK (838) in third place (Table 37). These EU countries would be expected to be the
most highly ranked based on past colonial linkages but the Netherlands breaks this pattern being ranked sixth (246),
behind Germany (442) and Italy (316). Two EU countries, Latvia and Slovakia, have no collaborations with the Caribbean.
As expected, Cuba is responsible for about half of all Caribbean publications and so it is not surprising that this is the
country showing the most EU collaborations (Table 37). In fact, only a few EU countries show no collaborations with
Cuba and among these are several former Soviet bloc countries (the Czech Republic, Latvia, Lithuania & Slovakia) where
such linkages might have been expected to persist.
France, the Netherlands, Spain and the UK are the EU countries with the strongest historical links to the Caribbean.
Ignoring collaborations with Cuba, most of France's collaborations are predictably with its overseas departments, French
Guiana, Guadeloupe and Martinique, with Haiti coming in behind Trinidad & Tobago (Table 37). For the Netherlands,
most collaboration are with its overseas territory Curacao, with Cuba in second place and Suriname, a former Dutch
colony, third. Spain's collaborations are overwhelmingly with Cuba, with the other Spanish-speaking country, the
Dominican Republic, doing little better than other Caribbean countries.
Ignoring collaborations with Cuba, most of the UK's collaborations are with the English Caribbean, Trinidad & Tobago
just edging out Jamaica, with the British overseas territory, Bermuda in third place. Interestingly, the UK's collaborations
with the Dominican Republic, French Guiana and Guadeloupe are each more than those with the remaining English
Caribbean countries/territories. Of the 28 European countries, only the Netherlands and the UK have collaborations with
all 16 higher output Caribbean countries/territories.
Table 37 : Collaborations between European countries (EU+Norway) and higher output Caribbean
countries/territories.
Bah
amas
Barb
ado
s
Belize
Berm
ud
a
Cu
ba
Cu
raçao
Do
min
ican
Re
pu
blic
Fren
ch G
uian
a
Gren
ada
Gu
adelo
up
e
Gu
yana
Haiti
Jamaica
Martin
iqu
e
Surin
ame
Trinitad
& T
ob
ago
Total
Austria 0 0 0 1 39 0 4 2 0 5 0 2 3 0 0 2 58
Belgium 0 0 0 0 185 0 1 8 0 22 2 3 5 0 4 2 232
Bulgaria 0 0 0 0 5 0 0 0 0 5 0 0 0 0 0 0 10
Cyprus 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 1 2
Czech republic 0 0 0 1 0 0 2 2 0 4 0 0 0 0 0 2 11
Denmark 1 0 0 4 17 0 0 3 1 1 0 0 0 0 0 4 31
Estonia 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 1 2
50 | P a g e
Finland 0 0 1 0 33 0 12 2 0 13 0 0 0 1 0 12 74
France 0 1 3 16 207 2 10 267 1 376 18 20 18 100 5 32 1076
Germany 0 1 2 10 339 4 5 13 1 11 4 4 19 3 2 24 442
Greece 1 0 0 0 7 0 4 2 1 2 0 0 1 1 1 3 23
Hungary 0 0 0 0 13 0 1 0 0 3 0 0 1 0 0 0 18
Ireland 0 0 0 5 19 0 1 0 0 4 0 0 8 0 0 11 48
Italy 0 1 2 0 265 0 11 7 1 14 0 2 3 1 0 9 316
Latvia 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Lithuania 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 1 2
Luxembourg 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 1
Malta 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 1 2
Netherlands 2 4 1 4 54 103 6 8 2 10 4 5 13 2 33 13 264
Norway 0 0 0 3 36 0 3 0 0 2 0 0 5 0 0 2 51
Poland 0 0 0 0 21 0 1 0 1 1 0 0 1 0 0 2 27
Portugal 0 1 0 0 77 2 1 1 0 5 0 0 0 0 0 3 90
Rumania 1 0 0 0 8 0 0 0 0 1 0 0 0 0 0 0 10
Slovakia 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Slovenia 0 0 0 0 7 0 0 0 0 0 0 0 0 0 0 0 7
Spain 0 1 1 5 1049 0 13 3 0 8 1 2 9 4 0 10 1106
Sweden 1 0 0 5 37 1 1 0 1 2 0 2 5 0 0 4 59
UK 2 9 13 40 239 8 25 30 7 27 15 9 196 11 3 204 838
2.3.11 Collaboration with European countries from the Caribbean perspective
We can now examine the EU-Caribbean collaboration with reference to each high output Caribbean country/territory.
The Dominican Republic collaborates with the highest number of EU countries (22), followed by Trinidad & Tobago (17)
and then Guadeloupe and Cuba tie for third place (14) (Table 38). These are the same four top collaborators, although
not in that order, identified with respect to world-wide collaboration (Table 34). The Bahamas, Curacao, Guyana and
Suriname are at the opposite extreme, collaborating with the fewest number of European countries, namely six EU
countries each.
An examination as to who are the main European collaborating partners of each Caribbean country/territory reveals
historical ties persist. For all English Caribbean countries/territories, the UK is the main collaborating EU member, with
the exception of the Bahamas and Guyana (Table 38). For the Bahamas, this is shared with the Netherlands, each
accounting for one quarter of all collaborations. For Guyana, 41% of its EU collaborations are with France while the UK
share is 34%. For all Francophone territories, France is the main collaborating EU country, viz. French Guiana 77%,
Guadeloupe 73%, Martinique 81% and Haiti 40%. France also represents the second largest EU collaboration for Belize,
Bermuda and Trinidad & Tobago.
For the Dutch Caribbean territories, collaboration is strongest with the Netherlands, viz. Curacao 86%, Suriname 69%.
Dutch collaboration was already recognised as top ranking in the Bahamas and also represents the second highest
collaboration for Barbados, Grenada and Haiti. For the Spanish Caribbean, Spain takes the lion's share (86%) of Cuba's
51 | P a g e
EU collaborations, while for the Dominican Republic the UK is the main collaborator (24%) with Spain ranked second
(12%).
Of EU countries which figure less prominently in the Caribbean, Denmark, Greece, Romania and Sweden each represent
13% of the EU collaborations of the Bahamas, a tie for third place for that country (Table 38). In that same vein, Finland
is the Dominican Republic's second ranked collaborator, garnering 11% of that country's EU collaborations. While
Belgium is not a minor EU collaborator, just trailing behind the Netherlands in its collaborations with the Caribbean
(Table 37), its most significant impact is in Suriname where it takes third place in that country's share of EU
collaborations (Table 38).
2.3.12 EU Collaboration profile for the Caribbean region by thematic area
Table 39 shows that the thematic area with the least proportion of publications in collaboration with the EU is the
Humanities (1.8%) while Multidisciplinary Sciences shows the highest proportion of EU collaborative publications
(46.8%). These are also the categories with the smallest numbers and so should be interpreted with some caution. For
the remaining disciplines, EU collaboration is highest in Physics (39.4%), Chemistry (37.6%) and Engineering, Technology
(36.7%) and lowest in Social Sciences (21.3%), Clinical Medicine (24.3%) and Mathematics (24.6%). In general, EU
collaborative papers represent 25-40% of all papers, depending on the discipline.
Table 38: Percentage of collaborations with individual European countries for each Caribbean Country/territory
Bah
amas
Barb
ado
s
Be
lize
Be
rmu
da
Cu
ba
Cu
raçao
Do
min
ican
Re
pu
blic
Fren
ch G
uian
a
Gre
nad
a
Gu
ade
lou
pe
Gu
yana
Haiti
Jamaica
Martin
iqu
e
Surin
ame
Trinitad
&
Tob
aggo
Austria 0 0 0 1 1 0 4 1 0 1 0 4 1 0 0 1
Belgium 0 0 0 0 7 0 1 2 0 4 5 6 2 0 8 1
Bulgaria 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0
Cyprus 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0
Czech Republic 0 0 0 1 0 0 2 1 0 1 0 0 0 0 0 1
Denmark 13 0 0 4 1 0 0 1 6 0 0 0 0 0 0 1
Estonia 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0
Finland 0 0 4 0 1 0 11 1 0 3 0 0 0 1 0 3
France 0 6 13 17 8 2 10 77 6 73 41 40 6 81 10 9
Germany 0 6 9 11 13 3 5 4 6 2 9 8 7 2 4 7
Greece 13 0 0 0 0 0 4 1 6 0 0 0 0 1 2 1
Hungary 0 0 0 0 0 0 1 0 0 1 0 0 0 0 0 0
Ireland 0 0 0 5 1 0 1 0 0 1 0 0 3 0 0 3
Italy 0 6 9 0 10 0 10 2 6 3 0 4 1 1 0 3
52 | P a g e
Latvia 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Lithuania 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0
Luxembourg 0 0 0 0 0 0 0 0 0 0 0 2 0 0 0 0
Malta 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0
Netherlands 25 22 4 4 2 86 6 2 13 2 9 10 5 2 69 4
Norway 0 0 0 3 1 0 3 0 0 0 0 0 2 0 0 1
Poland 0 0 0 0 1 0 1 0 6 0 0 0 0 0 0 1
Portugal 0 6 0 0 3 2 1 0 0 1 0 0 0 0 0 1
Romania 13 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Slovakia 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Slovenia 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Spain 0 6 4 5 39 0 12 1 0 2 2 4 3 3 0 3
Sweden 13 0 0 5 1 1 1 0 6 0 0 4 2 0 0 1
UK 25 50 57 43 9 7 24 9 44 5 34 18 68 9 6 59
Total 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100
EU collaborators 6 7 7 11 14 6 22 12 9 14 6 10 11 8 6 17
Table 39: EU Collaboration profile by thematic area for the whole Caribbean
% Publications Without EU
Collaboration
% Publications
with EU Collaboration
Total Publications
Agriculture, Biology and Environmental Sciences 70.1 29.9 3490
Biomedical Research 63.0 37.0 2654
Chemistry 62.4 37.6 1132
Clinical Medicine 75.7 24.3 2285
Engineering. Technology 63.3 36.7 1081
Humanities 98.3 1.7 114
Mathematics 75.4 24.6 264
Multidisciplinary Sciences 53.2 46.8 62
Physics 60.6 39.4 1020
Social Sciences 78.7 21.3 475
Total 68.2 31.8 12577
53 | P a g e
2.3.13 EU Collaboration profile for each Caribbean country/territory
The Caribbean countries/territories showing the highest percentage of publications co-authored with the EU are
Curacao (75%) and French Guiana (69%) (Table 40). At the other extreme, the countries with the lowest EU-
collaboration are Barbados (2%) and the Bahamas (5%). Martinique, Guadeloupe and Suriname occupy a median
position with about half the publications in collaboration with the EU. For the remaining countries/territories, most of
their publications are not in collaboration with the EU (Table 40). These are all independent countries except for
Bermuda which is a British overseas territory.
Most Caribbean-EU collaborative publications involve just one EU country but most Caribbean countries have a few EU-
collaborative publications with two EU countries (Table 40). On the other hand, collaborative publications with five or
more EU countries are quite uncommon, limited to French Guiana, Guadeloupe and Haiti.
Table 40 : Share and degree of EU-Collaboration for each Caribbean country/territory
No. of publications
% Publications
With EU collaboration
Total Without EU collaboration
With EU collaboration
With 1 EU
country
With 2 EU
countries
With 3 EU countries
With ≥4 EU
countries
Bahamas 5 102 95 5 2 3 0 0
Barbados 11 484 98 2 2 0 0 0
Belize 20 78 74 26 22 4 0 0
Bermuda 71 220 68 32 24 7 0 0
Cuba 2205 6492 66 34 29 4 1 0
Curaçao 103 138 25 75 63 11 1 0
Dominican Republic
74 276 73 27 23 3 0 0
French Guiana
292 421 31 69 61 6 1 1
Grenada 15 127 88 12 11 1 0 0
Guadeloupe 439 815 46 54 48 5 0 1
Guyana 40 135 70 30 27 3 0 0
Haiti 34 148 77 23 20 1 1 1
Jamaica 257 1465 82 18 16 1 0 0
Martinique 111 240 54 46 41 5 0 0
Suriname 44 83 47 53 48 5 0 0
Trinidad & Tobago
283 1353 79 21 19 2 0 0
54 | P a g e
2.3.14 Evolution of documents per Caribbean sub-region with respect to EU-collaboration
Figure 9 depicts the annual production of publications without EU-collaboration for each Caribbean sub-region relative
to 1999. What is clear from this is that for the Dutch sub-region there is marked decline in the number of such papers
falling to half the initial publication rate by the end of the 11 year study period. If one ignores the final year, 2009, the
other three sub-regions all show increasing annual production. The growth is about 50% for the English sub-region and
around 30% for the French and Spanish sub-regions.
When one looks at the remaining publications produced in collaboration with the EU the pattern is quite different
(Figure 10). The Dutch sub-region shows quite erratic growth and will not be discussed further. The French and Spanish
sub-regions show very similar evolution of publications with growth of around 70% by 2008. This is higher than the
roughly 30% growth seen for the same period for papers without EU collaboration from these sub-regions. What is also
clear is that the production of EU-collaborative papers in the English sub-region is lower than that seen for the French
and Spanish sub-regions and grows by only about 25% for the same period ending in 2008. When the two graphs are
compared it is clear that for both the French and Spanish sub-regions there is greater growth in papers in collaboration
with the EU than those not in collaboration with the EU (Figure 9 & 10). This is especially so for the Spanish sub-region.
For the English sub-region it is the converse. Growth for papers in collaboration with the EU is about half that of growth
for those not co-published with the EU. The actual numbers of publications are given in Tables 41 & 42.
Table 41 : Evolution of EU-collaborative publications for each Caribbean sub-region
1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 Total
Dutch 11 10 12 19 12 15 14 10 8 25 11 147
English 56 44 64 63 53 66 72 76 70 73 65 702
French 57 61 66 66 81 86 82 81 86 95 115 876
Spanish 154 154 199 170 195 202 215 237 228 270 255 2279
Total 278 269 341 318 341 369 383 404 392 463 446 4004
Table 42: Evolution of publications without EU-collaboration for each Caribbean sub-region
1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 Total
Dutch 10 8 8 7 8 7 7 6 4 4 5 74
English 243 245 274 289 269 298 295 291 369 361 328 3262
French 57 53 49 53 54 65 66 81 74 79 117 748
Spanish 373 431 449 380 420 369 364 392 442 493 376 4489
Total 683 737 780 729 751 739 732 770 889 937 826 8573
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Figure 9: Growth in publications without EU collaboration for each Caribbean sub-region relative to 1999
Figure 10: Growth in EU-collaborative publications for each Caribbean sub-region relative to 1999
2.3.15 Visibility of EU Collaborative Papers
Table 43 reveals that there is a higher visibility of Caribbean publications produced in collaboration with EU authors than
those without such partners, as evidenced by a Relative EU to non-EU Citation Rate greater than one (1.86). This is also
true also when the data is analysed at the sub-regional level. In this case, the English sub-region derives the greatest
Dutch
English
French
Spanish
Dutch
English
French
Spanish
56 | P a g e
benefit from EU co-authorship, followed by the Spanish sub-region. For both of these, EU-collaborative papers have
about twice the visibility of those published without EU collaboration. Enhanced visibility with EU collaboration may
partly be attributable to the greater opportunity for networking and presentation of research European scientists enjoy
relative to their Caribbean counterparts. If so, this may explain the lower enhancement of visibility with EU collaboration
seen in the French and Dutch sub-regions which are mainly overseas territories of the EU whose scientists have similar
benefits to those based in Europe.
Table 43: Comparative citation rates of publications with and without EU collaboration for each Caribbean sub-region.
Caribbean Sub-region
Total
Number of EU
collab. papers
Citations of EU
collab. papers
% EU collab. papers
Citations per
document of EU collab. papers
Number of papers without
EU collab.
Citations of
papers without
EU collab.
% papers
without EU
collab.
Citations per
document of
papers without
EU collab.
Relative EU to
Non-EU Citation
Rate
English 3964 702 10201 17.7 14.53 3262 21350 82.3 6.55 2.22
French 1624 876 8950 53.9 10.22 748 4860 46.1 6.50 1.57
Spanish 6768 2279 23094 33.7 10.13 4489 23724 66.3 5.28 1.92
Dutch 221 147 1827 66.5 12.43 74 672 33.5 9.08 1.37
Entire Caribbean
12577
4004 44072 11.01 8573 50606 5.90 1.86
Table 44 affords a comparison of the citation rates by sub-discipline for papers co-authored with EU partners and those
without EU participation. For all thematic fields except Multidisciplinary Sciences the citation rate is higher for EU-
collaborative papers. No such analyses are attempted for disciplines with less than ten publications such as the
Humanities, in this case. While different citation norms for each discipline prevent comparison of direct citation rates,
these relative EU/non-EU citation rates can be compared. From this it can be seen that Clinical Medicine benefits the
most from EU-collaboration with an almost fourfold higher level of visibility (EU to Non-EU Ratio = 3.91). Social Sciences
is the discipline with the second highest enhancement of citation for EU-collaborative papers (EU to Non-EU Ratio =
2.18).
Table 45 shows the comparative citation rates for papers for the English sub-region with and without EU collaboration.
As was seen for papers from the entire Caribbean, EU collaboration increases the visibility of papers in all domains
except Multidisciplinary Sciences (Relative EU to non-EU Citation Rate = 0.68). Papers in Clinical Medicine are most
positively impacted with EU collaboration increasing visibility over six fold (EU to non-EU Citation Rate = 6.38).
57 | P a g e
Mathematics and Social Sciences are the thematic areas which show the next highest enhancement with about a
threefold increase in visibility with EU collaboration.
Table 44: Comparative citation rates of Caribbean publications with & without EU collaboration for each thematic
area.
Thematic Field
Total no. of
papers
No. of EU
collab. papers
Citations of EU collab. papers
% EU collab. papers
Citations per
document of EU collab. papers
No. of papers
without EU
collab.
Citations of
papers without
EU collab.
% papers
without EU
collab.
Citations per
document of
papers without
EU collab.
Relative EU to
Non-EU Citation
Rate
Agriculture, Biology & Envtl. Sci.
3490 1045 8625 29.9 8.25 2445 11368 70.1 4.65 1.78
Biomedical Research
2654 981 14054 37.0 14.33 1673 16125 63.0 9.64 1.49
Chemistry 1132 426 3807 37.6 8.94 706 4938 62.4 6.99 1.28
Clinical Medicine
2285 556 9466 24.3 17.03 1729 7529 75.7 4.35 3.91
Engineering, Technology
1081 397 2215 36.7 5.58 684 3001 63.3 4.39 1.27
Humanities*
114 2 20 112 43
Mathematics
264 65 270 24.6 4.15 199 596 75.4 2.99 1.39
Multi-disciplinary Sciences
62 29 1384 46.8 47.72 33 2301 53.2 69.73 0.68
Physics 1020 402 3600 39.4 8.96 618 4170 60.6 6.75 1.33
Social Sciences
475 101 632 21.3 6.26 374 1075 78.7 2.87 2.18
Mean 11.01 5.97 1.84
* Only data from disciplines with >10 papers are shown.
Table 46 examines the effect of EU collaboration on citation rates for the French sub-region. In this case, the greatest
positive effect of EU-collaboration on citation is shown by Social Sciences and Physics where citation rates are roughly
tripled and doubled respectively. Interestingly, two disciplines show lower rates of citation for EU-collaborative papers.
These are Engineering Technology and Mathematics where papers with EU collaboration are roughly cited half as
frequently as those without EU collaboration.
58 | P a g e
Table 47 shows the effect of EU collaboration on the visibility of Spanish Caribbean publications. In this case, the largest
enhancement of visibility associated with EU collaboration is shown by Clinical Medicine and Mathematics which have
roughly four times and twice the citation rates of papers without EU collaboration. No disciplines exhibit lower citation
rates with EU-collaboration compared to papers without -EU collaboration.
Table 45: Comparative citation rates of English Caribbean papers with & without EU collaboration per thematic area.
Thematic Field
Total no. of papers
No. of EU
collab. papers
Citations of EU collab. papers
% EU collab. papers
Citations per
document of EU collab. papers
No. of papers
without EU
collaboration
Citations of
papers without
EU collab.
% papers
without EU
collab.
Citations per
document of
papers without
EU collab.
Relative EU to
Non-EU Citation
Rate
Agriculture, Biology and Environmental Sciences
1035 191 2018 18.5 10.57 844 4886 81.6 5.79 1.83
Biomedical Research
551 121 1905 22.0 15.74 430 5868 78.0 13.65 1.15
Chemistry 277 51 573 18.4 11.24 226 1990 81.6 8.81 1.28
Clinical Medicine
1122 145 3193 12.9 22.02 977 3374 87.1 3.45 6.38
Engineering, Technology
238 44 247 18.5 5.61 194 657 81.5 3.39 1.66
Humanities*
64 0 0 64 30
Mathematics
57 6 41 10.5 6.83 51 103 89.5 2.02 3.38
Multi-disciplinary Sciences
28 13 712 46.4 54.77 15 1804 53.6 120.27 0.46
Physics 281 82 1148 29.2 14.00 199 1979 70.8 9.94 1.41
Social Sciences
311 49 364 15.8 7.43 262 659 84.2 2.52 2.95
Mean 14.53 6.55 2.22
* Only data from disciplines with >10 papers are shown.
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In the Dutch Caribbean, where publication numbers are fewer, only three thematic areas have sufficient numbers of
publications to permit this kind of analysis (Table 46). In this case, the Agriculture, Biology and Environmental Sciences
grouping shows just over twice the citation rate for EU-collaborative papers compared to those without EU
collaboration. In contrast, Biomedical Research papers with EU partners are less cited than those without EU partners
while Clinical Medicine is just about the same irrespective of EU involvement. That said, the relatively small number of
papers means that these data should be interpreted with caution.
Just as the number of citations per document is a measure of the visibility of a publication so too is the proportion of
uncited papers, i.e. papers without a single citation. If the ratio of the percentage of uncited EU-collaborative papers to
the percentage of uncited non-EU papers (termed here the EU to non-EU Uncited Ratio) is calculated to be less than one
this indicates a greater visibility of EU-collaborative papers compared to those without EU involvement. The closer this
value is to zero the greater is the enhancement of visibility associated with EU co-authorship.
In Table 49, it can be seen that the proportion of uncited publications from the entire Caribbean is about half as high for
EU collaborative papers relative to those without EU collaboration. When the four sub-regions are examined, this effect
is less marked in the French and Spanish sub-regions (Table 49).
Table 46: Comparative citation rates of French Caribbean papers with & without EU collaboration per thematic area.
Thematic Field
Total number of papers
Number of EU
collab. papers
Citations of EU collab. papers
% EU collab. papers
Citations per
document of EU
collab. papers
Number of
papers without
EU collab.
Citations of
papers without
EU collab.
% papers
without EU
collab.
Citations per
document of
papers without
EU collab.
Relative EU to
Non-EU Citation
Rate
Agriculture, Biology and Environmental Sciences
612 350 2660 57.19 7.60 262 1586 42.81 6.05 1.26
Biomedical Research
393 218 3290 55.47 15.09 175 1556 44.53 8.89 1.70
Chemistry 30 21 104 70.00 4.95 9 32 30.00 3.56 1.39
Clinical Medicine
327 163 1773 49.85 10.88 164 1073 50.15 6.54 1.66
Engineering, Technology
55 32 154 58.18 4.81 23 219 41.82 9.52 0.51
Humanities* 11 0 0 11 0
Mathematics 103 26 56 25.24 2.15 77 319 74.76 4.14 0.52
Multi-disciplinary Sciences*
8 6 395 2 2
Physics 55 45 420 81.82 9.33 10 42 18.18 4.20 2.22
Social Sciences 30 15 99 50.00 6.60 15 31 50.00 2.07 3.19
Mean 10.22 6.50 1.57
* Only data from disciplines with >10 papers are shown.
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Table 47: Comparative citation rates of Spanish Caribbean publications with and without EU collaboration for each
thematic area.
Thematic Field
Total number of papers
Number of EU
collaborative papers
Citations of EU
collab. papers
% EU collab. papers
Citations per
document of EU
collab. papers
Number of papers
without EU collaboration
Citations of
papers without
EU collab.
% papers
without EU
collab.
Citations per
document of papers without
EU collab.
Relative EU to
Non-EU Citation
Rate
Agriculture, Biology and Environmental Sciences
1744 451 3007 25.86 6.67 1293 4525 74.14 3.50 1.91
Biomedical Research
1680 621 8575 36.96 13.81 1059 8537 63.04 8.06 1.71
Chemistry 822 353 3125 42.94 8.85 469 2369 57.06 5.05 1.75
Clinical Medicine
775 196 4023 25.29 20.53 579 3004 74.71 5.19 3.96
Engineering, Technology
785 319 1797 40.64 5.63 466 2110 59.36 4.53 1.24
Humanities* 39 2 20 5.13
37 13
Mathematics 104 33 173 31.73 5.24 71 174 68.27 2.45 2.14
Multidisciplinary Sciences
23 8 262 34.78 32.75 15 475 65.22 31.67 1.03
Physics 672 267 1965 39.73 7.36 405 2145 60.27 5.30 1.39
Social Sciences 124 29 147 23.39 5.07 95 372 76.61 3.92 1.29
Mean
10.13
5.28 1.92
* Only data from disciplines with >10 papers are shown.
61 | P a g e
Table 48: Comparative citation rates of Dutch Caribbean publications with and without EU collaboration for each
thematic area.
Thematic Field
Total number of papers
Number of EU
collaborative papers
Citations of EU
collab. papers
% EU colla
b. paper
s
Citations per
document of EU collab. papers
Number of papers
without EU collaborati
on
Citations of
papers withou
t EU collab.
% papers without EU
collab.
Citations per
document of
papers without
EU collab.
Relative EU
to Non-EU
Citation Rate
Agriculture, Biology and Environmental Sciences
99 53 940 53.54 17.74 46 371 46.46 8.07 2.20
Biomedical Research
30 21 284 70.00 13.52 9 164 30.00 18.22 0.74
Clinical Medicine
61 52 477 85.25 9.17 9 78 14.75 8.67 1.06
Mean
12.43
9.08 1.37
Table 49: Percentage of uncited publications with and without EU collaboration for each Caribbean sub-region.
Caribbean Sub-region
Number of EU
collaborative papers
Number of uncited EU collaborativ
e papers
% Uncited EU
collaborative papers
Number of papers
without EU collaboration
Number of uncited papers
without EU collaboratio
n
% Uncited papers
without EU collaboratio
n
EU to non-EU Uncited
Ratio
English 702 94 13.39 3262 937 28.72 0.47
French 876 115 13.13 748 170 22.73 0.58
Spanish 2279 388 17.03 4489 1424 31.72 0.54
Dutch 147 13 8.84 74 14 18.92 0.47
Entire Caribbeanl
4004 610 15.23 8573 2545 29.69 0.51
In Table 50, EU-collaboration results in higher visibility of all thematic areas for papers from the entire Caribbean. As was
previously found when citation rates were the focus (Table 44), Clinical Medicine gains the greatest increase in visibility
with proportionately fewer uncited papers where there is EU collaboration (Table 50). Physics and Engineering,
Technology are the domains where the enhanced visibility associated with EU collaboration is least.
62 | P a g e
Table 50: Percentage of uncited Caribbean publications with and without EU collaboration by thematic area.
Thematic Field Number of EU
collaborative papers
Number of uncited EU collaborativ
e papers
% Uncited EU
collaborative papers
Number of papers
without EU collaboratio
n
Number of uncited papers
without EU collaboration
% Uncited papers
without EU collaboratio
n
EU to non-EU Uncited Ratio
Agriculture, Biology and Environmental Sciences
1045 179 17.13 2445 809 33.09 0.52
Biomedical Research
981 88 8.97 1673 305 18.23 0.49
Chemistry 426 55 12.91 706 176 24.93 0.52
Clinical Medicine
556 85 15.29 1729 564 32.62 0.47
Engineering, Technology
397 96 24.18 684 225 32.89 0.74
Mathematics 65 17 26.15 199 88 44.22 0.59
Physics 402 65 16.17 618 134 21.68 0.75
Social Sciences
101 22 21.78 374 145 38.77 0.56
Mean 3973 607 15.28 8428 2446 29.02 0.51
One can take this analysis further, looking at thematic areas within the four sub-regions, but the low numbers of
publications in the Dutch Caribbean eliminate this sub-region from consideration. In the French sub-region, of the three
domains for comparison, Agriculture, Biology & Environmental Sciences gains the greatest visibility through EU
collaboration while Biomedical Research is the least leveraged (Table 51). The English and Spanish Caribbean (Tables 52
& 53) show similarities in that in both sub-regions Clinical Medicine (EU to Non-UE Uncited Ratio = 0.48, 0.42, resp.)
shows the highest increase in visibility associated with EU collaboration while Physics publications are least affected (EU
to Non-UE Uncited Ratio = 0.76, 0.79, resp.). Clinical Medicine was also the discipline whose visibility was most
enhanced by EU collaboration when citation rates were considered (Tables 45 & 46).
63 | P a g e
Table 51: Percentage of uncited French Caribbean publications with and without EU collaboration by thematic area.
Fields Number of
EU
collaborative
papers
Number of
uncited EU
collaborative
papers
% Uncited
EU
collaborative
papers
Number of
papers
without EU
collaboration
Number of
uncited
papers
without EU
collaboration
% Uncited
papers
without EU
collaboration
EU to
non-EU
Uncited
Ratio
Agriculture,
Biology and
Environmental
Sciences
350 40 11.43 262 46 17.56 0.65
Biomedical
Research 218 20 9.17 175 20 11.43 0.80
Clinical Medicine 163 28 17.18 164 41 25.00 0.69
Total 731 88 13.13 601 107 22.73 0.58
Table 52: Percentage of uncited English Caribbean publications with and without EU collaboration by thematic area.
Fields Number of
EU
collaborative
papers
Number of
uncited EU
collaborative
papers
% Uncited
EU
collaborative
papers
Number of
papers
without EU
collaboration
Number of
uncited
papers
without EU
collaboration
% Uncited
papers
without EU
collaboration
EU to
non-EU
Uncited
Ratio
Agriculture,
Biology and
Environmental
Sciences
191 28 14.66 844 214 25.36 0.58
Clinical Medicine 145 24 16.55 977 336 34.39 0.48
Engineering,
Technology 44 10 22.73 194 68 35.05 0.65
Physics 82 10 12.20 199 32 16.08 0.76
Social Sciences 49 10 20.41 262 95 36.26 0.56
Total 511 82 13.39 2476 745 28.72 0.47
64 | P a g e
Table 53: Percentage of uncited Spanish Caribbean publications with and without EU collaboration by thematic area.
Fields Number of
EU
collaborativ
e papers
Number of
uncited EU
collaborativ
e papers
% Uncited
EU
collaborativ
e papers
Number of
papers
without EU
collaboratio
n
Number of
uncited
papers
without EU
collaboratio
n
% Uncited
papers
without EU
collaboratio
n
EU to
non-EU
Uncite
d Ratio
Agriculture,
Biology and
Environmental
Sciences
191 28 14.66 844 214 25.36 0.58
Clinical
Medicine 145 24 16.55 977 336 34.39 0.48
Engineering,
Technology 44 10 22.73 194 68 35.05 0.65
Physics 82 10 12.20 199 32 16.08 0.76
Social Sciences 49 10 20.41 262 95 36.26 0.56
Total 511 82 13.39 2476 745 28.72 0.47
2.4 CONCLUSIONS OF THE BIBLIOMETRIC STUDY
Using the Web of Science database, it was found that for the period 1999-2009 the thirty-two Caribbean
countries/territories together published 12,817 papers, an estimated 0.08% of world publications for that same period.
Cuba produced about half the publications while Jamaica and Trinidad & Tobago each produced about 10% of the total
with Guadeloupe next in line producing about 6% of the Caribbean output. Half the territories examined produced less
than 50 publications in the 11 year period, 1.7% of the sum total, and were not included in further analyses. Marked
growth in output was evident in all geo-linguistic regions except the Dutch Caribbean. Most of the publications from the
region fall into three thematic domains – Agriculture, Biology & Environmental Sciences (28%) ; Biomedical Research
(21%) ; Clinical Medicine (18%). When the thematic profile of the constituent countries of each sub-region were
examined, the English sub-region proved the most heterogeneous.
The visibility and specialisation of the publication profile of each Caribbean country/territory was also analysed and the
relative performance of Caribbean countries/territories by thematic area compared. In the Agriculture, Biology &
Environmental Science area Curacao and Bermuda had the highest visibility while Belize showed the strongest
65 | P a g e
specialisation. In Biomedical Research, Barbados and Bermuda showed the highest visibility while Grenada was the most
specialised in this area. In Chemistry, publications of Jamaica and Trinidad & Tobago were better cited than the average
for the region. In Clinical Medicine, the Dominican Republic and Haiti led the way with respect to visibility of
publications.
With respect to collaboration, countries with fewer papers tend to publish with more collaborating countries. Typically,
Caribbean countries tend to publish in collaboration with Europe and with North America. Generally, the Anglophone
Caribbean tended to collaborate more with North America than Europe while the converse tended to be the case for the
other Caribbean sub-regions. With few exceptions, present day patterns of collaboration tended to mirror historical links
between European countries and Caribbean territories. Of European countries, most collaborations were with Spain,
France and the UK while the Netherlands and the UK had collaborative publications with the largest number of
Caribbean partners. Of Caribbean countries, the Dominican Republic then Trinidad & Tobago collaborated with the
highest number of EU states.
EU collaboration was highest in Physics - about 40% of all collaborative papers. The evolution of papers in collaboration
with the EU is higher in the Spanish- and French-speaking Caribbean and grew faster than papers not co-authored with
the EU. Finally, the visibility of Caribbean papers published with European collaboration was higher (on average two-
fold) than those without. This was seen in virtually all thematic fields, the greatest enhancement evident in Clinical
Medicine.
3. A SURVEY OF CARIBBEAN SCIENTIFIC RESEARCH INSTITUTIONS
Prepared by
Gustavo Perez, Chemistry Department, Science Faculty, Universitat Autònoma de Barcelona, Spain
&
C. M. Sean Carrington, Faculty of Pure & Applied Sciences, the University of the West Indies, Barbados
3.1 INTRODUCTION TO THE SURVEY
This survey has the overall aim to map Caribbean scientific institutions on the basis of their excellence in STI. More
specifically, it was designed to provide information on basic statistics and capacities of these scientific research centres,
their resources and funding, their activities, their research priorities, their collaborative links and their networks. It relies
on self-reporting and so, where there is overlap with the companion bibliometric study, data from the latter will be
more objective and reliable.
To date there has been no published database of the scientific research institutions of the entire Caribbean. A detailed,
comprehensive, though slightly dated, listing of Caribbean agricultural research centres (Roseboom et al., 2001) proved
useful in providing a starting list for this sector as did the EU-funded WINDS-Caribe report for the ICT sector (Cortés et al.
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2009). In contrast, the EU-funded LAC Access Directory (Johann, 2008) focused on Latin America and listed only a
handful of Caribbean centres in Cuba and the Dominican Republic.-
The centres targeted in the survey range from relevant units in Government Ministries of Agriculture, Environment,
Forestry and Fisheries to research institutes and discrete University units such as Faculties. These were all selected by
the relevant Caribbean project partners (see section 3.2). Subsequent to the survey launch, a UNESCO report was
published which listed CARICOM scientific centres (Lemarchand, 2010) but did not add to the list developed by the
EUCARINET project. A very practical deliverable from this survey therefore is the first comprehensive database of
scientific research institutions for the entire Caribbean, the core of which is available in this report as Appendix 2 and
which will be available subsequently as an on-line searchable database.
3.2 METHODOLOGY & ADMINISTRATION OF THE SURVEY
In the original project proposal it was envisaged that the survey would only be administered to a select group of
institutions based on certain criteria agreed by the partners. It was, however, agreed that imposing too stringent criteria
in a region where many research institutions were in their developmental stage might be counter-productive to the
objectives of the project. It was therefore agreed to be inclusive with the invitation to participate in the survey and have
Caribbean partners send the questionnaire to all entities they considered to be involved in scientific research, no matter
how limited. As indicated below, four agreed criteria were then imposed on the responding institutions to ensure that
those surveyed conveyed a representative picture of Caribbean research institutions which could be targeted to foster
the intra-regional and interregional cooperation central to the project;
1. The institution is a physical entity located in the Caribbean and is not simply a research network.
2. The institution is also sustainable and is not simply an entity established by project-funding with no future
beyond the life of the project.
3. The institution is engaged in some form of scientific research as evidenced by the answers to the survey, its
published mission and/or its publications or patents.
4. The Institution participates in the survey beyond simply providing contact information.
The survey questionnaire (Appendix 1) was developed by the UWI and the Centre d’Etude des Relations entre l’Union
Européenne et l’Amérique Latine (CERCAL) with input from other EUCARINET project partners, using as a starting point a
related survey employed in the EULARINET project.
CERCAL provided French and Spanish language versions of the survey while the Ministerie Van Economische Zaken
(EL&I) provided the Dutch translation. The survey in the four languages was then available on-line for the period
September 8, 2010, through April 29, 2011, hosted by a commercial site, SurveyMonkey ©. EUCARINET Caribbean
partners, the Université des Antilles et de la Guyane (UAG), the University of the Netherlands Antilles (UNA), and the
UWI invited suitable institutions involved in scientific research from the French, Dutch and English Caribbean
respectively to take part in the survey while the Universidad Iberoamericana (UNIBE) did the same in the Dominican
Republic. Through the Cuban Ministry of Science, Technology & the Environment (CITMA), Cuban institutes were also
expected to participate but this activity was not launched in Cuba aside from two preliminary responses which do not
reflect the numerous research institutions in that country and so have been ignored. As a result the Spanish Caribbean is
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represented solely in this report by responses from the Dominican Republic. In light of the dire situation in Haiti
following the 2010 earthquake, it was decided at the start of the project not to include Haiti in the survey. Each month,
Caribbean partners were provided by CERCAL with a list of respondents from their sub-region and were urged to follow-
up on those who had not yet responded and to thank those who had.
The questionnaire comprised five sections; (i) Identity of the institution (ii) Identity of the respondent (iii) Research
activities (iv) Identification of R&D priorities (v) Resources and funding (vi) Cooperation, collaboration and development.
The survey results are presented and analysed in this sequence, with the questionnaire available for consultation in
Appendix 1.
A total of 137 persons responded to the survey as shown in Table 54. Of those 137 persons, 43 provided only their
contact information and did not answer the research activities, resource/funding and cooperation/collaboration sections
of the survey, in breach of Criterion 4. This left a final total of 94 respondents in the survey which all met the remaining
criteria for inclusion.
Table 54: Participation in the Survey
Fields Number of
EU
collaborativ
e papers
Number of
uncited EU
collaborativ
e papers
% Uncited
EU
collaborativ
e papers
Number of
papers
without EU
collaboratio
n
Number of
uncited
papers
without EU
collaboratio
n
% Uncited
papers
without EU
collaboratio
n
EU to
non-EU
Uncite
d Ratio
Agriculture,
Biology and
Environmental
Sciences
191 28 14.66 844 214 25.36 0.58
Clinical
Medicine 145 24 16.55 977 336 34.39 0.48
Engineering,
Technology 44 10 22.73 194 68 35.05 0.65
Physics 82 10 12.20 199 32 16.08 0.76
Social Sciences 49 10 20.41 262 95 36.26 0.56
Total 511 82 13.39 2476 745 28.72 0.47
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3.3 SURVEY RESULTS
3.3.1 Characterisation of the Surveyed Institutions
3.3.1.1 Institutional Type
Figure 11 illustrates the make-up of institutions responding to the survey. For the Dominican Republic and the English
and French Caribbean, the majority belong to the University or Higher Education (HE) category, with this largest in the
Dominican Republic (68%). The Dutch Caribbean stands out in that the HE component is matched in first place by the
Private non-profit sector. This sector is the second largest in the Dominican Republic while in the English sub-region this
shares second place with Government Agencies. In the French Caribbean, the Private non-Profit organisation represents
the smallest fraction of respondents while the Governmental sector is the second largest. The only respondents in the
Business Enterprise category came from the English Caribbean and the Dominican Republic while the Other category
(International Organizations excluding business enterprises and institutions beyond a country's borders) was restricted
to the English Caribbean. Some institutions choosing the Other category were reassigned based on the definition of
these categories in the Frascati Manual (OECD, 2002).
Figure 9 Sectoral composition of the institutions in the survey. (number of respondents in parentheses). The other category includes institutions/organisations (except business entreprises) beyond a country's border
3.3.3.2 Institutional Funding
One striking funding similarity in the Dutch, French and English Caribbean is that half the institutions are supported
financially by both the public and private sector (Figure 12). The French sub-region is distinctive in that none of the
respondents are solely funded by the private sector while this category is sizeable in the other sub-regions, representing
almost half of the institutions in the Dominican Republic and 17% and 20% from the Dutch and English Caribbean
respectively.
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Figure 10 Composition of surveyed institutions based on their funding (number of respondents in parentheses)
3.3.3.3 Geographical Range of the Scientific Institutions
National institutions comprise the majority of the respondents in all sub-regions, representing 95% and 75% of
institutions in the Dominican Republic and the Dutch sub-region respectively but only just over half in the French and
English Caribbean (Figure 13). The Dominican Republic is distinctive in having no regional institutions but does have a
small proportion of international institutions. The Dutch, French and English Caribbean respondents included both
regional and international institutions with the regional institutions outnumbering international ones in both the English
and Dutch sub-regions. Although the wording of the question made clear that regional meant the Caribbean, the
responses must be interpreted with some caution for the French Caribbean where, strictly speaking, national equates
with France and regional can mean Martinique, Guadeloupe or French Guyana, which are each regions of France.
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Figure 11 Classification of Caribbean scientific institutions based on their operational geographic area (Number of respondents in parentheses)
3.3.3.4 Involvement in Postgraduate Training
Institutions were queried as to whether they offered any of three levels of postgraduate training - Taught Masters,
Research Masters or PhD. As Figure 14 shows, the Dutch and French Caribbean are at two ends of this spectrum with the
majority of Dutch institutions (58%) offering no such programmes while few (13%) of the French institutions had no
postgraduate programmes. Only in the Dutch Caribbean were there no institutions offering all three types of
postgraduate training while most of the French institutions with postgraduate training offered the full range of
programmes (Figure 14). The Dutch profile may reflect the fact that its survey comprised a relatively low proportion of
University or HE institutions (Figure 11). With respect to the range of postgraduate programmes mounted, the
Dominican Republic and English Caribbean show a similar pattern (Figure 15).
Figure 12 Institutions characterized by the number of types of postgraduate programmes (taught masters, research masters, PhD) each offers. (number of respondents in parentheses)
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When one looks to see which of the three types of training are offered, there seems to be completely different
postgraduate training strategies in the different sub-regions. In the French and English sub-regions PhD and Research
Masters programmes predominate (Figure 16). Furthermore, on a proportionate basis, French institutions lead the
region in the provision of these research degree programmes. The situation in the Dominican Republic differs from the
other sub-regions in that Taught Masters programmes outnumber the research-based postgraduate programmes (Figure
15). While the Dutch rub-region has fewer respondents, on a proportionate basis, its institutions lag behind the rest of
the Caribbean in the provision of postgraduate training (Figure 15).
Figure 13 Proposition of various types of postgraduate programmes by the surveyed institutions (number of respondents in parentheses)
3.3.4 Research Activities
3.3.4.1 Time Devoted to Research and Other Activities
Institutions from the Dutch, French and English sub-regions show a similar distribution of time allocated to various types
of work, with research being the main activity and French centres devoting the highest proportion of time to this (Figure
16). The Dominican Republic differs markedly from these in that teaching is the predominate activity (51%) in its
institutions. Teaching is second-ranked (29%) in the English Caribbean but is third ranked in the French and Dutch sub-
regions (15% and 22% respectively) after the Other category.
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Figure 14 Distribution of time devoted to various activities by the surveyed institutions
Respondents listed the following activities as Other;- clinical services, public health services, diagnosis and prevention,
development and cooperation, public services, social services, technical assistance, extension programmes, think tanks
and outreach activities such as exhibitions, communication and dissemination. This component was third ranked in all
sub-regions except the Dominican Republic where the least time was allocated to this. Administration typically occupied
10-16% of time while only 6% of time was spent on product development in the Dominican Republic and French and
English Caribbean, while Dutch institutions devoted twice as much time to this.
3.3.4.2 Types of Research Undertaken
Institutions were asked whether they were involved in Experimental, Applied or Basic Research or combinations of
these. To avoid ambiguity, these classes of research were clearly defined in the questionnaire (for convenience,
repeated below in parentheses). As Figure 17 shows, the main type of research performed in Caribbean scientific
institutions is applied research (original research applied to a specific problem), taking place in 88-100% of centres.
Experimental research (drawing on previous studies to produce new/improved products/processes) and basic research
(acquisition of new knowledge without regard to applicability) are less common, with between one third and two thirds
of institutions engaged in this type of research (Figure 17). The Dominican Republic with its relatively strong industrial
sector stands out with the highest proportion of institutions engaged in experimental research (63%) while the French
Caribbean leads with the proportion of centres engaged in basic research (58%).
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Figure 15 Percentage of institutions undertaking basic, applied and experimental research in the Caribbean
Figure 16 Number of types of research (applied, basic and experimental) per surveyed partner.
Figure 18 shows quite different trends in different parts of the Caribbean with respect to the number of classes of
research in which institutions are engaged. In the Dominican Republic, almost a third of institutions are involved in all
three types of research, applied, basic and experimental, while a similar proportion undertake two of these three kinds
of research and the remaining portion (just over a third) undertake only one of these types of research. The pattern in
the English Caribbean is quite similar to this but the spread is less even with only 24% of institutions involved in all three
types of research and 40 % undertaking two of the three types of research. The Dutch and French sub-regions differ
from this pattern. In the French Caribbean, about half of the institutions are engaged in two types of research and 30%
are involved in all three types while only 17% undertake only one type of research (Figure 17). The Dutch Caribbean is
the converse; half the institutions engage in only one type of research, a third undertake two types of research and 17%
carry out all three types (Figure 18). The Dutch sub-region is therefore quite different with half of its institutions doing
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one type of research whereas for other parts of the Caribbean most institutions (63-83%) are engaged in multiple forms
of research.
3.3.4.3 Current Key Research Areas
Each institution provided up to five key words that encapsulated their research focus. For each sub-region, keywords
were sorted according to the FP7 thematic area under which each fell. In this case we have used the current FP7 theme
name (e.g. KBBE or Knowledge Based Bio-Economy) vs the earlier name (e.g. Agriculture & Food Supply). Figure 19
depicts the distribution of these key research topics for each sub-regional grouping of institutions. Although respondents
were not asked to rank these research areas one might expect that the first keyword given would be a more important
research area compared to that provided last.
For the English, French and Dutch Caribbean there is little evidence of ranking with the proportion of research areas in
the various thematic domains much the same irrespective of whether the first or last keyword is considered (Figure 19).
Only for the Dominican Republic does the thematic profile seem to differ with the order of the keywords. The English
and French Caribbean present the most similar profiles with Environment being the largest category, Health the second
ranked and KBBE a close third. The English Caribbean differs from the French with the consistent inclusion of
Information and Communication Technologies (ICT) topics as well as mention of Energy-related topics. The Dutch
Caribbean is distinguished by its emphasis on Socio-economic research while the only other consistent research domains
are KBBE and Environment, the former slightly more prominent than the latter. For the Dominican Republic, while four
thematic areas are consistently singled out – Environment/Climate, ITC, Energy and Health - the relative prevalence of
these varies with the keyword order. If one assumes the first keyword represents the most important research topic
then one would argue that foremost and equally important are ITC, Energy and Health. Interestingly, only in the
Dominican Republic was the Energy domain consistently reported as a research focus.
A full listing of the keywords can be consulted in the profiles of the institutions in Appendix 2, but a synopsis of these
research topics is provided here. For the English Caribbean, six distinct clusters were apparent. There was an ICT
grouping which included key words like internet security, high performance computing and telecommunications. Under
the broad Environment/Climate umbrella there was an Earth Sciences grouping which included natural hazards,
volcanology, seismology, climate change and water management and then biological topics like biodiversity, coral reefs,
ecosystem services, invasive species, protected areas, sea turtles and wildlife management. In the Health area, asthma,
chronic diseases, infectious diseases, HIV/AIDS and public health were prominent while in the Energy domain renewable
energy was the recurring theme. Under the Socio-economic category, crime, livelihoods and tourism were listed while
prominent in the KBBE sector were fisheries, animal diseases, biotechnology, natural products, crop and livestock
improvement as well as various named crops.
For the French Caribbean, Environment/Climate keywords also fell into two clusters, those relating to Earth Sciences like
hydrology, seismology, volcano monitoring, tsunami and natural hazards and then the bioscience ones like biodiversity,
ecology, forestry and mangrove ecosystems. In the KBBE area topics included agroecology, fisheries, forage systems and
various animal diseases/pathogens (e.g. arbovirus). The Health domain included epidemiology, public health, emerging
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diseases and specific diseases such as dengue and malaria. Several keywords relating to computer science and
mathematics were also listed.
For the Dutch Caribbean, Socio-economic sciences and the humanities was the largest domain with keywords like
cultural & social awareness, migration/integration, gender relations, creole linguistics, Caribbean literature, multilingual
education, small island development, economics and governance. The Environment group included climate change,
coastal zone management, coral reef ecology, geology, water resources and forecasting. The Energy domain comprised
renewable energy and wind energy.
For the Dominican Republic, ICT keywords included mobile applications, real time software, GIS, GPS and virtual
communities. Under Environment, natural resource management, environmental quality and disaster were listed while
socio-economic keywords included knowledge creation, languages, gender, human development, institutional
strengthening, sustainability and violence. Health keywords were HIV/AIDS, rehabilitation and cognitive neuroscience
while those for KBBE were agricultural development, food safety, fermentation and biotechnology. Energy keywords
included biofuels, clean energies and renewable energy. Unlike other sub-regions this was the only one to list
nanotechnology as a research area.
Institutions were also presented with a list of eight FP7 research domains and asked to indicate whether these were
research areas in which they were very active, active or not active, an exercise complementary to the previous open-
ended one where they had indicated their research profile by submitting five keywords. In this case, we retain the FP7
areas used in the questionnaire. One general trend is that for all parts of the Caribbean there was little or no research
activity (0-21% active institutions) reported for the Transport & Construction area (Figure 19).
For the English Caribbean, Environment & climate, Biology & medicine and Agriculture & Food Supply are the three
major research areas (Figure 20), a similar result gleaned from the research keywords for this sub-region (Figure
19).What is quite different is the strong research activity (69% institutions active or very active) in the socio-economic
domain (Figure 20) which was not apparent from the keywords submitted (Figure 19). Energy and ICT are also significant
research areas for this sub-region (Figure 20) although energy was less prominent based on keywords (Figure 19).
The French sub-region is very similar in its research profile to the English Caribbean (Figure 20) but with an even
stronger focus on Environment/Climate (87% of respondents). It also differs by reporting less research activity in the
Energy, ICT and Socio-economic domains (Figure 20). While the profile of the top three research areas confirms that
inferred from the keywords, again, the strong reporting of socio-economic research differs from the keyword research
profile (Figure 19).
The Dutch sub-region shows a completely different trend, with Social & Economic Concerns being the research area with
the highest activity, followed by Energy and Environment/Climate tied in second place and ICT and Agriculture/Food
Supply next in prominence (Figure 20). This is very consistent with the profile derived from keywords except in that case
Energy research had a low and inconsistent ranking (Figure 19).
The Dominican Republic differs from the preceding in that its institutions appear to be quite active in every research
area (except Transport & Construction) and generally at a higher level than in the other sub-regions. Unlike the other
parts of the Caribbean, ICT and Industry & industrial Technologies are the leading areas of research but, as in other sub-
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regions, Environment/Climate is also an area of high activity (Figure 20). A tier below these, the Energy, Socio-economic,
Biology/Medicine and Agriculture/Food domains also figure prominently (Figure 20). The profile based on keywords is
consistent with this pattern in that it showed a relatively even spread of research activity across domains compared to
the other sub-regions (Figure 19).
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39%
47%
58%
55%
53%
0%
0%
0%
5%
5%
0%
0%
0%
0%
0%
33%
32%
26%
23%
26%
28%
21%
16%
14%
16%
0%
0%
0%
5%
0%
0%
0%
0%
0%
0%
0% 20% 40% 60% 80% 100%
1st keyword
2nd keyword
3rd keyword
4th keyword
5th keyword
Percentage
French Caribbean
ENV ICT ENERGY HEALTH KBBE SOCIAL NMP
11%
13%
13%
29%
17%
0%
0%
0%
14%
17%
11%
0%
0%
0%
0%
11%
13%
13%
0%
0%
22%
25%
13%
14%
17%
44%
50%
63%
43%
50%
0%
0%
0%
0%
0%
0% 20% 40% 60% 80% 100%
1st keyword
2nd keyword
3rd keyword
4th keyword
5th keyword
Percentage
Dutch Caribbean
ENV ICT ENERGY HEALTH KBBE SOCIAL NMP
14%
36%
50%
13%
0%
29%
18%
20%
25%
25%
29%
18%
10%
13%
25%
29%
9%
20%
25%
25%
0%
18%
0%
13%
25%
0%
0%
0%
0%
0%
0%
0%
0%
13%
0%
0% 20% 40% 60% 80% 100%
1st keyword
2nd keyword
3rd keyword
4th keyword
5th keyword
Percentage
Dominican Republic
ENV ICT ENERGY HEALTH KBBE SOCIAL NMP
50%
41%
44%
36%
41%
14%
11%
12%
15%
15%
0%
2%
7%
6%
0%
21%
25%
23%
24%
21%
10%
20%
7%
18%
24%
5%
0%
7%
0%
0%
0%
2%
0%
0%
0%
0% 20% 40% 60% 80% 100%
1st keyword
2nd keyword
3rd keyword
4th keyword
5th keyword
Percentage
English Caribbean
ENV ICT ENERGY HEALTH KBBE SOCIAL NMP
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29%
29%
8%
41%
2%
12%
18%
0%
25%
29%
27%
35%
10%
27%
51%
10%
45%
41%
65%
24%
88%
61%
31%
90%
0% 20% 40% 60% 80% 100%
Agriculture & Food Supply
Biology & medicine
Energy
Environment and climate
Industry & industrial technology
Information and communication…
Social & economic concerns
Transport and construction
English Caribbean
33%
29%
4%
38%
4%
4%
13%
0%
21%
21%
13%
46%
13%
25%
33%
0%
46%
50%
83%
17%
83%
71%
54%
100%
0% 20% 40% 60% 80% 100%
Agriculture & Food Supply
Biology & medicine
Energy
Environment and climate
Industry & industrial technology
Information and communication…
Social & economic concerns
Transport and construction
French Caribbean
8%
0%
17%
25%
0%
8%
25%
0%
25%
25%
33%
25%
17%
25%
58%
8%
67%
75%
50%
50%
83%
67%
17%
92%
0% 20% 40% 60% 80% 100%
Agriculture & Food Supply
Biology & medicine
Energy
Environment and climate
Industry & industrial technology
Information and communication…
Social & economic concerns
Transport and construction
Dutch Caribbean
21%
26%
21%
42%
37%
42%
16%
5%
26%
32%
53%
37%
42%
37%
47%
16%
53%
42%
26%
21%
21%
21%
37%
79%
0% 20% 40% 60% 80% 100%
Agriculture & Food Supply
Biology & medicine
Energy
Environment and climate
Industry & industrial technology
Information and communication…
Social & economic concerns
Transport and construction
Dominican Republic
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Previous figure, showed the classification by FP7 themes of key words provided by institutions to indicate their research
focus. ENV = Environment, ICT = Information and communication Technology, KBBE = Knowledge-Based Bio-Economy,
SOCIAL = Socio-economic sciences & Humanities; NMP = Nanotechnology & Nanomaterials.
Figure 20 shows the ranking of research areas classified in terms of active participation by the surveyed institutions.
3.3.4.4 Contribution of Visiting Scientists To Research Output
From Figure 21 it is clear that for all parts of the Caribbean region that visiting scientists make only a minor contribution
to the research output of the majority of institutions (58-67%). The French Caribbean is also distinctive in that it is the
only sub-region in which all institutions reported some contribution from overseas-based scientists. The other sub-
regions all had a minority of institutions (4-17%) which reported no contribution at all from visiting, overseas-based
scientists. This difference probably reflects the unique political situation of the French Caribbean where its major
territories are regions of France and their institutions are more integrated with Europe counterparts than elsewhere. A
minority of institutions (4-10%) in the English, Dutch and French Caribbean, but none from the Dominican Republican,
indicated that most of their scientific output relied on visiting overseas-based scientists. There are several small field
stations and marine research centres in the region (and the survey) which employ just a few scientists but host a steady
stream of visiting scientists from North America and Europe year round who make use of their unique location to carry
out their research and these may well explain this category. Institutions of the Dominican Republic are the most self-
sufficient of those surveyed in that none of these depended on overseas visitors for most of their publications and a
sizeable proportion (11%) had no publications co-authored with visiting scientists (Figure 21).
Figure Impact of overseas-based scientists on Caribbean institutions research output
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3.3.4.5 Numbers of Publications And Patents
There are stark differences in the reported number of publications for each sub-region. The English sub-region clearly
dominates with more than 6800 publications, followed by the French sub-region with up to 2234 publications and with
the Dutch sub-region and Dominican Republic far behind (Figure 22). These numbers though inflated do reflect the
trends obtained objectively from the Web of Science © database for a similar time period and presented in the
accompanying Bibliometric Survey. It must be borne in mind that the Dominican Republic is but one, albeit populous,
country and not a sub-region. No patent data was examined in the Bibliometric Report and so these results fill a void.
What is significant here is the relatively high number of patents reported for the Dominican Republic which exceeds that
for the French Caribbean (Figure 22). This may reflect the high level of industrialisation found in the Dominican Republic.
Figure total number of total publications and patents reported by the surveyed institutions
Due to differences in the number of institutions surveyed in the various sub-regions it seemed useful to also present the
data as an average number per institution (Figure 23). On this basis, the difference in publication numbers between the
French and English sub-regions is considerably reduced, averaging 126 and 168 respectively. On average, the number of
patents in Dominican Republic is very close to the claimed by the English sub-region institutions, 0.9 and 1.2
respectively, and three times that found in the French Caribbean (Figure 23).
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Figure Average number of publications ans patents within the surveyed institutions
3.3.5 Identification of Priorities for the Next Five Years
When presented with the list of eight FP7 research domains, all sub-regions of the Caribbean identified the same three
areas as the top priority for the next five years, namely, Energy, Agriculture & Food Supply and Environment & Climate
(Figure 24). While all of these tie for first place in the Dominican Republic, for the other sub-regions each had its own
ranking. The French prioritised Environment/Climate (31%) over Energy (21%) and Agriculture/Food (17%), the English
put Agriculture/Food (26%) before Environment/Climate (24%) and Energy (19%) and the Dutch ranked Energy highest
(21%) then Environment/Climate (18%), then Agriculture/Food (15%). In fact, the Dutch also ranked Socio-economic
concerns equally (15%) with Agriculture/Food and this was also priority #4 for the English sub-region. In the French
Caribbean, Biology/Medicine took fourth place (10%) which was also the case in the Dominican Republic (14%) except in
this case this was tied with ICT (Figure 24), an area of very active research for that country (Figure 20).
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Figure Areas of science, technology & Innovation selected as most important for the Caribbean over the next five years
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The other domains were not rated as priorities and only the Dutch made use of the Other category (Figure 24), listing
several topics which actually fall under the socio-economic umbrella (linguistics, literature, language acquisition,
education, parent child relationships and criminology).
3.3.6 Resources and Funding
3.3.6.1 Size and Staffing Of Institutions
Analyzing the reported total employee numbers of the institutions surveyed clearly shows that the Dominican Republic
has the highest proportion of large institutions with up to 30% of these having more than 500 employees (Figure 25 ). In
contrast, at the other extreme is the Dutch sub-region with no institutions of more than one hundred employees and
with the highest percentage (50%) of small institutions with less than ten employees. The English and French sub-regions
are similar in that a quarter of the institutions have more than 100 and around a half of the institutions, 50% for the
French and 60% for the English, comprise 11-99 employees (Figure 25 ). Institutions were also asked to indicate their
total annual budget but many skipped this question and those figures provided seem too unreliable to analyse and
include.
Figure Classification of the institutions based on the size of their workforce
Figure 26 shows a much higher proportion of employees engaged in research in the French sub-region (75%) and the
Dominican Republic (72%) compared to the Dutch (43%) and English (35%) sub-regions. Even where there may be many
researchers, however, the percentage of employees who work full-time in research is generally low (9-35%) with Dutch
institutions having the highest proportion of full-time researchers (35%). With respect to the qualifications of employees
of scientific institutions, those in the French sub-region have the highest percentage of PhD-level employees (26%) while
those in the English Caribbean and the Dominican Republic have the lowest (12%), with the Dutch intermediate (18%).
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Figure 26 Average percentages of employees of the surveyed institutions who are researchers, full time researchers and PhD degree.
3.3.6.2 Grant Funding
Institutions were asked to report up to three of their largest current or recent research grants. As Figure 27 shows, 67-
93% of institutions responded, with the lowest response from the Dutch Caribbean and the highest from the Dominican
Republic. Most of the respondents from any sub-region listed three projects, 52-60% of respondents in the case of the
Dominican Republic and English and French Caribbean, but only 33% in the case of the Dutch sub-region (Figure 27).
Figure 17 percentage of Caribbean centers providing details on up to three recent research grants
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Table 55 gives a flavour of the size of the grants reported. While the size of the largest grant varied considerably
between sub-regions, from about $2 million in the Dominican Republic to about $16 million (all in US$), there was more
consistency in the average grant reported. In the English, French and Dutch sub-regions this average was around $1
million but the Dominican Republic was considerably less ($0.3 million). When one looks at the source of this funding,
not surprisingly the bulk of research funding come from Europe in the case of the French and Dutch Caribbean which are
respectively regions of France within the Caribbean and, with the exception of Suriname, parts of the Kingdom of the
Netherlands in the Caribbean. Interestingly, only 40% of research funds reported for the English sub-region came from
Europe and no European grants were reported by the Dominican Republic. While there may be some questions as to the
accuracy of these self-reported figures, the trend of comparatively low European funding for the English Caribbean and
the Dominican Republic is important.
Table 55: Largest, smallest and average research grant s reported by Caribbean institutions along with the
percentage of European funding (EU agencies and European governments).
Maximum Grant / $US Mean Grant / $US % European Funding
English sub-region 16,011,000 918,300 40.3
French sub-region 5,000,000 949,600 97.5
Dutch sub-region 6,200,000 1,338,000 76.1
Dominican Republic 2,319,000 317,000 0.0
Research funding for the English sub-region is the most heterogeneous with, in addition to EU funding, funding from
Caribbean governments and a range of donors and lending agencies. International agencies reported include the
Caribbean Development Bank (CDB), the Global Environmental Facility (GEF), the Inter-American Development Bank
(IADB), the Organisation of American States (OAS), the Pan-American Health Organisation (PAHO), UNEP, UNICEF and
the World Bank. Non-Caribbean Governmental agencies include the Canadian International Development Agency (CIDA),
the International Development Research Corporation of Canada (IDRC), DAAD of Germany, the Government of Italy, the
UK Darwin Initiative and from the USA - the National Institutes of Health (NIH), National Oceanographic and
Atmospheric Agency (NOAA), National Science Foundation (NSF), US Agency for International Development (USAID) and
US Forestry & Wildlife Service. Private charitable foundations listed are the Durrell Wildlife Conservation Trust, the
Gates Foundation, the Lighthouse Fund, the MacArthur Foundation, the Moore Foundation and the Save our Seas
Foundation.
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3.3.7 Cooperation, Collaboration & Development
3.3.7.1 Research Networks Active in The Region
Respondents were asked to identify up to five research networks in which their institution participated. As Figure 28
shows, only a minority of respondents (3-10%) listed five networks. The Dutch and the English sub-regions had the
highest proportion of answers listing multiple networks while the Dominican Republic was the least informative with
half of the respondents providing the name of just one network (Figure 28). All sub-regions listed Caribbean networks
but the Dominican Republic also included South American networks reflecting their shared linguistic heritage. In the case
of the English and French sub-regions, the participation in networks was more global including several European
research networks compared to those reported by the Dutch sub-region and Dominican Republic. The names and/or
acronyms of a total of 156 networks were submitted but some of these were organisations, e.g. named universities,
which may themselves host networks but are not networks per se. Several of these networks were listed more than
once, namely the Association of Marine Laboratories of the Caribbean (AMLC), the Caribbean Food Crops Society (CFCS),
the Consortium of Southeastern Hypertension Control (COSEHC), the Gulf & Caribbean Fisheries Institute (GCFI), the
International Society for Reef Studies (ISRS) and the Wider Caribbean Sea Turtle Conservation Network (WIDECAST). Not
surprisingly for island nations, four of these six focus on marine science. The remaining 'networks' with multiple listing
were either funding agencies like Groupe de recherche international (GDRI) and Programa iberoamericano de ciencia y
tecnología para el Desarrollo (CYTED) or institutions like the US National Oceanic and Atmospheric Administration
(NOAA), the University of the West Indies (UWI) and the World Health Organisation (WHO). It should also be noted that
many institutions did not answer this question.
Figure 28 Percentage of institutions from each sub-region identifying one to five research networks
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3.3.7.2 Institutional Industrial Collaborations
Figure 29 suggests that industrial collaboration in research in the Caribbean does not seem particularly well-developed,
especially in the case of the French and Dutch sub-regions where only 22% and 29% of institutions reported
collaboration with industry. The Dominican Republic (50%) has the highest percentage of reported industrial
collaborations (50%), followed by the English sub-region (40%).
Figure 29 Collaboration reported between Caribbean research institutions and the insdustrial sector
Figure 30 Number of insdustrial partners named by institutions with industrial collaborators
Within the English sub-region, all surveyed who affirmatively answered the question provided at least one contact and
country location of their industrial collaborators. These were mainly Caribbean companies, primarily in Jamaica and
Trinidad, but extra-regional collaborations were reported with companies in Australia, Belgium, Canada, South Africa,
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the UK and the USA. In the case of the Dominican Republic, all reported collaborations were with industries within the
country. For the French sub-region, few provided contact details for their industrial collaborations which were either in
Guadeloupe, France or Japan. For the Dutch sub-region, few collaborators were again named but these were either in
the Netherlands or Suriname. One trend was apparent for all those who reported industrial collaboration. Despite being
asked to provide the names of up to five, the tendency was to name only one industrial link (33-75%) and even less
common to name two (Figure 30 ). In fact, no Dutch or French institutions provided five industrial contacts, suggesting
industrial linkages are less common in research institutions in those sub-regions (Figure 30 ). Companies named were in
the agro-industry, cement, hotel, mining, petroleum and gas and spirit sectors.
3.3.7.3 Intra-Caribbean Collaboration
Figure 31 reveals that, irrespective of the sub-region, greater collaboration takes place between Caribbean research
institutions than was observed between Caribbean research institutions and private companies (Figure 29). The English
sub-region represents the area where the highest proportion of institutions (85%) report collaboration with a different
Caribbean institution, followed by the French (74%) and Dutch (71%) sub-regions and then the Dominican Republic
(55%). Interestingly, in the case of the Dominican Republic, this percentage is similar to that reported for industrial
collaboration (Figure 29).
Figure 31 Collaboration reported between differents Caribbean research institutions
As was the case for industrial collaborations (Figure 30), although institutions were asked to list up to 5 collaborating
institutions most only listed one (33-56%), with progressively fewer institutions listing 2, 3, 4 and 5 collaborating
institutions (Figure 32).
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Figure 18 Number of Caribbean research institutions named as collaborators by surveyed institutions reporting collaboration
As Figure 33 shows, English respondents mainly collaborate with other English Caribbean institutions with few
exceptions, namely a handful of collaborations with Cuba, Martinique, Guadeloupe, Saba and Suriname as well as
bilingual Puerto Rico. In addition, they reported single instances of collaboration with countries not in our definition of
the Caribbean, namely, Colombia, Nicaragua and Venezuela. Within the Dutch sub-region, those with collaborations
provided very limited details of the cooperating institutions but these were in the Dutch and English sub-regions with
the exception of a single collaboration with Panama. Most of the French institutions who reported collaboration with
other institutions provided details and generally these were more wide-ranging geographically than for other sub-
regions, encompassing not only French-speaking territories but Jamaica, Trinidad & Tobago, Montserrat, Cuba, the
Dominican Republic and Puerto Rico. Two French collaborations with Brazil were also mentioned. For the Dominican
Republic, collaboration was reported with Haiti, Jamaica, Trinidad and Martinique but most was with Spanish-speaking
islands like Cuba and Puerto Rico as well as non-Caribbean, Spanish speaking countries like Costa Rica, El Salvador,
Panama and Colombia.
Institutions that were repeatedly mentioned as collaborators were the Caribbean Community Climate Change Centre
(CCCCC), the Chronic Diseases Research Centre (CDRC) of the UWI, the Observatoire volcanologique de Guadeoupe,
UAG, the UWI, the University of Puerto Rico and the Inter-American Institute for Co-operation in Agriculture (IICA).
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Figure 33 Percentage of caribbean collaborations for research institutions of each sub-region
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3.3.7.4 Collaboration with European Research Institutions
Majority of English (64%) and French (61%) Caribbean research institutions have research collaborations with EU
research institutions, but this proportion falls to 50% for the Dutch Caribbean and 45% for the Dominican Republic
(Figure 34 ).
Figure 34 percentage of Caribbean research institutions reporting collaboration with european research institutions
As Figure 35 shows, the majority of Caribbean institutions reported multiple EU collaborators with a similar pattern
across the sub-regions except for the Dutch where no institution named more than three EU collaborators. It should be
noted that relatively few respondents provided this specific information compared to simply affirming EU collaboration.
Figure 35 Number of European research institutions named as collaborators by Caribbean institutions reporting collaboration
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Figure 3619 Percentage of EU collaborations for research institutions of each sub region
Figure 36 shows that the main EU collaborating country for each sub-region was the one with which it had the strongest
historical and linguistic ties, i.e. for the English Caribbean - the UK, the French Caribbean - France, the Dutch Caribbean -
the Netherlands, the Dominican Republic - Spain. It also suggests that for the whole Caribbean the UK is the EU country
involved in the most collaborations. Of all sub-regions, the French Caribbean collaborates with the widest range of EU
countries in that it with the English Caribbean collaborated with the most EU countries yet it had almost a third of the
number of respondent institutions as the English Caribbean.
Only the English and French Caribbean provided enough collaborators that certain institutions occured more than once
in the lists. These recurring institutions are Bristol University, CIRAD (France), Exeter University, INRA (France), Nuffield
Health Taunton Hospital (UK), University of Leeds, University of Oxford, University of Newcastle and the University of
Reading. The University of Zurich was also cited more than once but Switzerland is not part of the EU.
3.3.7.5 Familiarity with the EU 7th Framework Programme (FP7)
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The survey shows that there is an abysmal lack of knowledge in the Caribbean about the EU FP7 on RTD with 26-42% of
institutions never having heard of it (Figure 37 ). This situation is worst in the Dutch sub-region which had the highest
percentage of respondents who had never heard of it (42%) and which had no respondents in the "know something
about it" category. Even for the Dominican Republic and English and French sub-regions this most aware category was
42%, 26% and 35% respectively. Surprisingly, knowledge of the programme seemed no better in the French Caribbean
territories which are part of the EU compared to the English Caribbean which largely comprises independent countries.
Figure 37 knowledge of respondents about the EU FP7 on RTD
Related to the previous question, the perceived ignorance regarding the existence of FP7 is countered by a strong
interest for information from respondents of the different sub-regions. All respondents (104) except one from the Dutch
Caribbean indicated they would be interested in applying for FP7 support for future research activities (data not shown).
3.3.8 Interest in the Eucarinet Project
As Figure 38 shows, most respondents indicated they would be willing to provide further information toward the
identification of priorities and research needs of their countries. More than 83% of them responded affirmatively
although, surprisingly, a minority in each region (2-17%) declined to participate further.
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Figure 38 Willingness to proactively contribute to identification of country research priorities and needs
Respondents were then asked whether the information they provided could form part of an on-line directory of
Caribbean research institutions and more than 83% responded in the affirmative (Figure 39). The few institutions which
declined such use of the information may have done so due to confidential agreements related to their activities. On the
other hand, the pattern of unwillingness to be part of an on-line directory (Figure 39 ) closely mirrors that declining to
participate further in the project and may simply reflect an overall lack of interest.
Figure 39 20 Institutional agreement for the survey information to be included on a public on-line directory
3.4 CONCLUSIONS OF THE SURVEY
A total of 94 Caribbean scientific research centres are included in the final mapping excercise, 50 from the English sub-
region, 20 from the French sub-region, 9 from the Dutch region and 15 from the Dominican Republic. The majority of
these belong to the University/Higher Education category. The Dutch Caribbean differs in this regard in that the number
of Higher Education institutions is matched in first place by private non-profit institutions which constitute the second
largest category in other sub-regions, except in the French Caribbean where Government agencies come second. Half
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the research institutions are financed by both the public and private sector in the Dutch, French and English Caribbean
while in the Dominican Republic almost half the centres are financed by the private sector alone. In the French sub-
region there are no institutions funded solely by the private sector. National institutions comprise the majority of the
respondents in all sub-regions, especially in the Dominican Republic and the Dutch sub-region. All regions had a minority
of international institutions while regional institutions were a major category except in the Dominican Republic where
none were recorded.
The majority of Dutch Caribbean institutions (58%) offer no postgraduate training while at the opposite extreme few of
the French Caribbean institutions (13%) are without postgraduate programmes. In the French and English sub-regions,
PhD and Research Masters programmes predominate with French institutions, on a proportionate basis, leading the
region in the provision of research degree programmes. The situation in the Dominican Republic differs from the other
sub-regions in that Taught Masters programmes outnumber research-based postgraduate programmes.
Institutions from the Dutch, French and English sub-regions show a similar distribution of time allocated to various types
of work, with research being the main activity and French centres devoting the highest proportion of time to this. The
Dominican Republic differs markedly from these in that teaching is the predominate activity in its institutions. Product
development is an activity to which institutions devote the least amount of time except in the Dutch Caribbean which
spends twice as much time on this. Applied research (research to solve a problem) is the type of research taking place in
the majority of Caribbean research centres (88-100%, depending on sub-region). Less common are experimental
research (products/process improvement) and basic research (research without regard to applicability) in which roughly
half the respondents are active. The Dominican Republic with its relatively strong industrial sector stands out with the
highest proportion of institutions engaged in experimental research (63%) while the French Caribbean leads with the
proportion of centres engaged in basic research (58%).
French and English sub-regions indicated Environment & Climate, Medicine & Biology (Health) and Agriculture & Food
Supply (KBBE) as their three main research areas. The Dominican Republic reported broad research activities but was
strong on Energy and ICT. The Dutch Caribbean was quite distinct in placing most research emphasis on Socio-economic
concerns, a theme selected as fourth ranked by the English & French sub-regions. Research key words common to all
sub-regions were natural hazards, climate change, water resources, biodiversity, marine ecosystems, chronic diseases,
HIV/AIDS, public health and renewable energy.
AIl sub-regions of the Caribbean identified the same three areas as the top priority for the next five years;- Energy,
Agriculture & Food Supply and Environment & Climate. The Dutch sub-region also ranked Socio-economic concerns
equally with Agriculture & Food Supply and this was also priority #4 for the English sub-region. In the French Caribbean,
Biology & Medicine took fourth place which was also the case in the Dominican Republic except in this case this was tied
with ICT. Generally, these priority areas agree with current research areas except the high ranking of Energy as a priority
which until now has not been a strong research area for the region.
While for all parts of the Caribbean visiting scientists make only a minor contribution to the research output of the
majority of institutions (58-67%), the French Caribbean is distinctive in that all its institutions reported some
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contribution from overseas-based scientists. A minority of institutions (4-10%) in the English, Dutch and French
Caribbean, but none from the Dominican Republic, indicated that most of their scientific output relied on visiting
overseas-based scientists. These probably represent the several small field stations and marine research centres in the
region which employ hardly any staff but host visiting field researchers from abroad each year.
The total publications reported for the last decade by institutions suggest three times as many publications from the
English sub-region than the French sub-region which is compatible with objective data from the Bibliometric Report.
These are both much higher than reported numbers from the Dutch sub-region and from the Dominican Republic and
this is also to be expected. The total number of patents for the region is around 60 for the decade with patents per
institution being higher for the English Caribbean and the Dominican Republic.
Turning to resources and funding, for the Dutch, French and English Caribbean 50-60% of the institutions comprise 11-99
employees. The Dutch sub-region has no centres of over 500 employees and for the French and English these represent
less than 7% of institutions but for the Dominican Republic 30% of the centres are of this large size. A much higher
proportion of employees are engaged in research in the French sub-region (75%) and the Dominican Republic (72%)
compared to the Dutch (43%) and English (35%) sub-regions. Even where there may be many researchers, however, the
percentage of employees who work full-time in research is generally low (9-35%). With respect to employee
qualifications, the French institutions have the highest percentage of PhD-level employees (26%) while those in the
English Caribbean and the Dominican Republic have the lowest (12%), with the Dutch sub-region intermediate (18%).
While there are big differences in terms of the maximum grants reported by each region the mean grant values for the
English, French and Dutch sub-regions are quite similar, of about 1 million US dollars. Interestingly, the Dominican
Republic reported no EU-funded research grants while at the other extreme almost all funding for the French sub-region
is from Europe. Research funding for the English sub-region is the most heterogeneous with funding from Caribbean
governments, the EU, international agencies, US, Canadian and European governmental agencies and a range of private
international charitable foundations.
With respect to research networks, the Dutch and the English sub-regions had the highest proportion of answers listing
multiple networks while the Dominican Republic was the least informative with half of the respondents providing the
name of just one network. All sub-regions listed Caribbean networks but the Dominican Republic also included South
American networks, reflecting their shared linguistic heritage. In the case of the English and French sub-regions, the
participation in networks was more global including several European research networks, compared to those reported
by the Dutch sub-region and the Dominican Republic. Over one hundred actual networks were reported and six were
common to several sub-regions, four of these six focusing on marine science.
Turning to collaboration, industrial collaboration in research in the Caribbean does not seem particularly well-
developed, especially in the case of the French and Dutch sub-regions where only 22% and 29% of institutions reported
collaboration with industry. The Dominican Republic has the highest percentage of reported industrial collaborations
(50%), followed by the English sub-region (40%). Most collaborations were within the country or sub-region with a
sprinkling of extra-regional industrial links. Companies named were in the agriculture, food, cement, hotel, mining,
petroleum, gas and spirit sectors.
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Irrespective of the sub-region, greater collaboration takes place between Caribbean research institutions than is
observed between Caribbean research institutions and private companies. The English sub-region represents the area
where the highest proportion of institutions (85%) report collaboration with a different Caribbean institution, followed
by the French (74%) and Dutch (71%) sub-regions and then the Dominican Republic (55%). Institutions that were
repeatedly mentioned as collaborators were the Caribbean Community Climate Change Centre (CCCCC), the Chronic
Diseases Research Centre (CDRC) of the UWI, the Observatoire volcanologique de Guadeloupe, UAG, the UWI, the
University of Puerto Rico and the Inter-American Institute for Co-operation in Agriculture (IICA).
A majority of English (64%) and French (61%) Caribbean research institutions have research collaborations with EU
research institutions, but this proportion falls to 50% for the Dutch Caribbean and 45% for the Dominican Republic. The
main EU collaborating country for each sub-region was the one with which it had the strongest historical and linguistic
ties, i.e. for the English Caribbean - the UK, the French Caribbean - France, the Dutch Caribbean - the Netherlands, the
Dominican Republic - Spain. It also appears that for the whole Caribbean the UK is the EU country involved in the most
collaborations. Several institutions were repeatedly mentioned as collaborators. There consisted of a number of British
Universities as well as the French agencies INRA and CIRAD.
The survey shows that there is an abysmal lack of knowledge in the Caribbean about the EU FP7 on RTD with 26-42% of
institutions never having heard of it. The Dutch sub-region is worst in this regard having the highest percentage of
respondents who had never heard of it (42%) and was the only sub-region which had no respondents in the "know
something about it" category. Knowledge of the programme seemed no better in EU Caribbean territories than in
independent Caribbean countries. All respondents except one indicated they would be interested in applying for FP7
support for future research activities.
GENERAL CONCLUSIONS OF THE COMBINED STUDIES
4.1 INTRODUCTORY REMARKS
The bibliometric study quantitatively maps the research output of the Caribbean region comprehensively in an objective manner based on quality publications in the WoS database. It speaks to general productivity, the subject areas of the publications, the visibility of the output and the collaborations involved in the publications. The survey of Caribbean scientific institutions (hereafter the survey) is by its nature based on a sample of the complete set of institutions whose publications were analysed in the bibliometric study and so is more subjective but ideally is based on a representative sample. Lastly, while the survey elicited 94 usable responses - 50 from the English sub-region, 20 from the French sub-region, 9 from the Dutch region and 15 from the Dominican Republic - typically this translates into a relatively small number of responses from any one country. This meant that analysing the survey results on a country basis would not be statistically meaningful and so these data are analysed at the sub-regional level with country-data restricted to the bibliometric survey, except in the case of the Dominican Republic.
4.2 RESEARCH OUTPUT IN THE CARIBBEAN REGION
The analysis of the Caribbean publications for 1999-2009 showed that the thirty-two countries/territories together published 12,817 papers, an estimated 0.08% of world publications for that same period.
Of the thirty-two Caribbean countries/territories targeted in the bibliometric study, the following sixteen are the focus as they account for 98.3% of the publications, namely, the Bahamas, Barbados, Belize, Bermuda, Cuba, Curacao, the Dominican Republic, French Guiana, Grenada, Guadeloupe, Guyana, Haiti, Jamaica, Martinique,
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Suriname and Trinidad & Tobago. Of these, two will be omitted from further discussion. Geographically, Bermuda was always a questionable inclusion in the project and the failure of its institutions to partake in the survey suggest it does not consider itself part of the Caribbean and will not be considered further. Haiti is very much a Caribbean nation but it was early on agreed by the EUCARINET partners that due to the devastation caused by the recent earthquake there it was not practical to actively include it in this phase of the project.
Just over half of the publications are produced by the Spanish-speaking Caribbean (mainly Cuba), about 32% by the Anglophone Caribbean, about 13% by the French Caribbean and less than 2% by the Dutch Caribbean (Table 4). The Spanish, French and English Caribbean all showed an annual growth in publications of about 5% but there was no growth for the Dutch sub-region (Figure 2). In harmony with this, the total number of publications in the survey reported by the English Caribbean is about three times that reported by the French sub-region while those for the Dutch sub-region are an order of magnitude less. These similar trends from the survey suggest we are dealing with a representative sample although the absolute numbers of publications for the decade differ, as expected, from those reported in the bibliometric study.
Half the publications in the 11 year period were produced by Cuba (Table 3) making it the most productive country scientifically in the study. Unfortunately, Cuba did not participate in the survey of scientific institutions and so further discussion of Cuba is based on the bibliometric study alone. The other major publication centres in decreasing order of output (Table 3) are Jamaica (1465), Trinidad & Tobago (1353), Guadeloupe (818), Barbados (485), French Guiana (421), the Dominican Republic (276) and Martinique (242). Not surprisingly these are the countries with the highest representation in the survey. Curacao while not in this league is the highest output territory from the Dutch Caribbean.
4.3 THEMATIC PROFILE OF CARIBBEAN RESEARCH
The bibliometric study shows objectively the thematic areas in which the Caribbean has been actively researching and publishing.
Most of the publications from the region fall into three thematic domains – Agriculture, Biology & Environmental Sciences (28%); Biomedical Research (21%); Clinical Medicine (18%) [Figure 3]. Unfortunately, these thematic domains to which WoS publications have been assigned do not match exactly the FP7 thematic areas but comparisons are simple. The Agriculture, Biology & Environmental Sciences is a combination of two FP7 categories, Agriculture & Food (KBBE) and Environment & Climate, while Biomedical Research and Clinical Medicine equate to the single Biology & Medicine (Health) FP7 category. Chemistry, then Engineering & Technology then Physics were the next three largest areas of publications respectively (Table 5). These have no clear FP7 equivalents but the FP7 domains ICT and Industrial & Industrial Technology fall under the Engineering & Technology publication grouping.
In the survey, subject areas of active research were determined in two ways, by asking respondents to provide key words describing their research and by having institutions select which of the eight FP7 domains reflected their active research.
By both methods the French and English Caribbean selected Environment & Climate, Medicine & Biology (Health) and Agriculture & Food Supply (KBBE) as their three top research areas (Error! Reference source not ound. & 21). These three choices clearly agree with what was found to be the case in the bibliometric study.
According to the bibliometric survey, the Dutch sub-region and the Dominican Republic also published most in the same top three areas as the English and French Caribbean (Figure 7 & 8). In contrast, in the survey the Dutch Caribbean reported socio-economic concerns as the prime current research focus while for the Dominican Republic only the Environment/Climate FP7 area remained at the top, a ranking shared with ICT and Industry & Industrial Technology (Error! Reference source not found. & 21).
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This discordance between the publication profiles and the survey for the Dutch sub-region and to a lesser extent the Dominican Republic suggest the sampling for the survey in these regions may not have been representative or that there has been a recent marked shift in research focus.
In all sub-regions except the Dutch Caribbean, the majority of surveyed respondents belong to the University/Higher Education category (Error! Reference source not found.) and this discrepancy for the Dutch ub-region survey might be symptomatic of a sampling issue.
Key words recurring in the active research topics from all sub-regions were natural hazards, climate change, water resources, biodiversity, marine ecosystems, chronic diseases, HIV/AIDS, public health and renewable energy.
Related to all this, in the survey, institutions were asked what areas of STI were most important for the region for the next five years. Agriculture & Food Supply and Environment & Climate still remained in the top three in all sub-regions but Energy was now consistently prioritised over Medicine & Health (Error! Reference source not ound.).
4.4 VISIBILITY OF CARIBBEAN RESEARCH
This mapping exercise has focussed more on identifying what S&T research is being done in the region rather than singling out centres of excellence. That said, the bibliometric study used the WoS database which only indexes journals with high editorial standards and this stringency ensures that the output assessed was of high quality. In one area, however, objective comparisons were made and this was in the relative visibility or impact of a country's publications. In the bibliometric study this was assessed based on whether papers of one country in a particular research area were
more highly cited than the regional average using two indices, Citation Share (CS) and Non-citation share (NCS). By this approach:
Curacao then Belize have the highest visibility in the Agriculture/Biology/Environment domain (Table 25). For Biomedical research, the top performers are Barbados followed by the Dominican Republic (Table 26) while for Clinical Medicine it is the Dominican Republic that leads followed by Haiti (Table 28). For Chemistry, Jamaica is most visible followed by Trinidad & Tobago (Table 27) while for Engineering/Technology it is Guadeloupe first with Jamaica in second place (Table 29). For Mathematics, Jamaica, Martinique and Guadeloupe are all top performers (Table 31) while in Physics the Dominican Republic and Guadeloupe out-perform other countries (Table 32).
A specialisation index was also calculated to assess whether some countries tend to publish more in particular areas than the regional average and in most cases the research areas of specialisation or apparent focus were not necessarily the areas with high impact. This is clearly a matter of concern as a country would like to think that its emphasis on a particular discipline pays off in high impact publications in that discipline.
4.5 COLLABORATION OF CARIBBEAN COUNTRIES
The degree of collaboration between Caribbean countries and between Caribbean countries and Europe was examined objectively in the bibliometric study.
Low output Caribbean countries/territories mainly publish in collaboration with others while the percentage of collaborative publications is often much less for the higher output members, e.g. Barbados, 53%; Cuba, 59%; Martinique, 58% (Table 34).
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While this probably reflects the relatively developed state of these societies and their research capacity, some higher output countries/territories almost entirely publish in collaboration with other countries, e.g. Belize (94%) and the Dominican Republic (95%).
Caribbean countries collaborate widely, with some Caribbean countries publishing with over 100 countries. The Anglophone Caribbean tends to collaborate more with North America than Europe while the other sub-regions generally collaborate more with Europe than North America (Table 34). Cuba and the Dominican Republic are distinct in also having very strong collaboration with Latin America.
In terms of intra-Caribbean collaboration, the bibliometric study shows that the English and French sub-regions collaborate most with countries in their own sub-region while the Dutch and Spanish sub-regions publish most with Anglophone Caribbean countries (Table 36).
The survey confirmed that the majority of institutions had collaborations with other Caribbean territories (Error! eference source not found.) and for the English and Dutch Caribbean most of these were with the English Caribbean (Error! Reference source not found.), as the bibliometric study also reported.
The survey, however, suggests that the intra-Caribbean collaborations for the French Caribbean and Dominican Republic are not biased toward any sub-region (Error! Reference source not found.), as indicated by the ibliometric study.
In assessing EU-Caribbean collaborations, the bibliometric study shows that:
Spain, France and the UK are the main EU collaborators for the Caribbean but the Netherlands, despite equally strong colonial links, is less engaged and lags well behind (Table 37). Most of France's Caribbean co-publications are with its overseas departments, for the Netherlands most are with its overseas territory Curacao, for Spain most are with Cuba and for the UK most are with the English Caribbean (Table 37). This same pattern of collaboration, reflecting strong historical ties, is confirmed by the survey (Error! Reference source not found.).
It should be noted that most co-publications with the EU involve only one EU country, suggesting a limited involvement of the Caribbean in large, multi-partner EU projects. This is not surprising based on the survey findings that Caribbean institutions are not knowledgeable about the EU FP7 programme (Error! Reference ource not found.).
It is important to note that the output of Caribbean-EU publications is growing faster than that of Caribbean publications without EU collaboration for the French and Spanish sub-regions but the opposite is true for the English Caribbean (Error! Reference source not found. & 10). (The trends in the Dutch sub-region are unclear in his regard.) There therefore seems to be an opportunity for increasing collaboration between the English Caribbean and the EU to reverse this trend, especially since this sub-region tends to publish more with North America.
There are clear advantages for the Caribbean in increasing its collaboration with Europe:
From the bibliometric study, Caribbean publications produced in collaboration with EU authors have higher visibility than those without EU partners, on average being cited twice as much (Table 43).
The differences in EU collaboration seen within the Caribbean probably relate to funding opportunities. The survey, based on research grants, reports that the French and Dutch Caribbean get most of their research funding from the EU while the Dominican Republic lacks EU funding and the English Caribbean supports research from a broad mix of sources, viz. Caribbean governments, the EU, international agencies, US, Canadian and European governmental agencies and a range of private international charitable foundations.
Greater collaboration between the English and Spanish Caribbean and the EU will require greater access to EU funding for these sub-regions.
4.6 INDICATORS FOR MONITORING CARIBBEAN STI ACTIVITY
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This study has generated a range of indicators of STI activity of Caribbean countries which identify trends and reflect performance of the S&T sector and can be used to help formulate STI policy. Indicators may be on the input side, reflecting the human or financial resources devoted to S&T or on the output side such as the various bibliometric indices reported right up to the level of changes in national development. We conclude:
The bibliometric indicators reported can be used to benchmark Caribbean countries with respect to other parts of the world and have the advantage of being objective and are derived from reliable raw data which is relatively easy to obtain.
While we have attempted to gather some data on human resources in science and technology (HRST) in the survey, these and other economic and social data relevant to S&T activities require the gathering of these statistics by institutions dedicated to this purpose, so called S&T observatories.
The Caribbean Council on Science & Technology (CCST) has demonstrated leadership in this regard but requires the resources to do this systematic and consistent gathering of S&T statistics from across the region.
4.7 CARIBBEAN-EU COLLABORATION - BARRIERS, CHALLENGES AND OPPORTUNITIES
The Caribbean region is a complex one comprising some thirty islands varying greatly in size and economic development. It is a mixture of ethnicities and languages and of political and economic systems and a region of inadequate internal travel links. Below we highlight some opportunities, barriers and challenges which can be translated into future EU-collaboration:
Opportunities
The Caribbean's very geographic location presents an opportunity to forge stronger economic links with North, South and Central America.
The Caribbean is also a biodiversity hotspot which can be sustainably exploited and through a bio-economy sector generate new jobs.
As island states, the Caribbean has great potential to develop new renewable energy resources, be they solar, geothermal or ocean energy, while those mainland Caribbean states of Belize and the Guianas complement the insular Caribbean with their mineral, forestry and land resources.
In all of this, the overarching advantage that the Caribbean possesses is a well-educated, resilient people who as this report demonstrates have built capacity in RTD and generated a body of scientific knowledge in this region despite the challenges they face.
Innovation is not simply the application of technology but typically transforms the existing economy and involves economic and social processes and actors besides those who create new technologies (Holbrook, n.d.). All nations engage in the importation of knowledge and this may be a more important engine for fuelling innovation in the small countries of the Caribbean than formal R&D (Holbrook, n.d.).
Barriers
Public research funding is very limited and is primarily organised at the national level and this leads to costly duplication and fragmentation.
Regional integration is key to addressing this but the main vehicle for this, CARICOM, is essentially an affiliation of Anglophone Caribbean countries, Haiti and Suriname being the exceptions. While most CARICOM members are independent countries, the French and Dutch Caribbean territories (Haiti and Suriname excepted) are parts of France and the Netherlands respectively. This political disparity does not foster regionalism. Cuba and the Dominican Republic have also been on the periphery of Caribbean regionalism probably due to their large size, location and language.
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There is no regional funding mechanism for S&T.
The private sector does not effectively link the region. It is largely focused on distribution and sales of goods and tends to comprise small national companies with few regional entreprises and these generally do not cross linguistic barriers.
In developed countries there is typically a National System of Innovation (NSI) which is based on relationships between public and private institutions involving the movement of knowledge, finances and human resources. No such NSIs have been identified among Caribbean states (except possibly in the French Caribbean) but ideally if these existed they should interact to generate a Caribbean Regional System of Innovation which is greater than the sum of its parts.
While there are many opportunities for the EU to collaborate with the Caribbean in STI for mutual benefit, the diverse political systems of the Caribbean seem a serious barrier to the regionalism that seems critical to EU-Caribbean collaboration. This suggests that to be successful future EU-Caribbean STI collaboration must include the provision of a mechanism to forge a regional public-private sector framework through which multiple Caribbean states and territories can collaborate with Europe.
Critical mass is a serious issue which is inescapable for the majority of Caribbean countries. The smallest islands will probably always have limited research capacity for this reason alone. For the larger more developed Caribbean territories there are a few regional institutions (e.g. UAG, UWI) and frameworks which can lead to coordinated division of labour with different research activities focused in different parts of the region.
There is a disconnect between research which takes place largely in academic centres and the limited product and process development undertaken by business entreprises. All this means that there is underinvestment in research and innovation.
The diverse countries of the region with a matching complexity of legislation and regulations do not make matters easier.
Challenges
The Caribbean faces a number of societal challenges which can be addressed by coordinated research action and Science and Technology need to be harnessed to find new ways to improve the economic future of the region.
The insular Caribbean is also an area at great risk from natural hazards. Each year tropical storms and hurricanes cause major damage and loss of life and, in addition, most of the islands of the Lesser Antilles are volcanic. The
region is also one of great seismological activity as the people of Haiti were recently reminded. Added to these threats is the potential for sea level rise as a result of global warming for islands that are already small in area. Natural hazard mitigation and management is therefore an absolute priority for regional scientific research.
The Caribbean is currently a net importer of food and with a year long growing season this should not be. Likewise surrounded by bountiful marine resources that can be exploited sustainably and more profitably, this should not be.
Another major challenge is the very nature of the region, islands scattered over a broad expanse of ocean, in need of an efficient, green transport system to allow them to work efficiently together and of cutting edge ICT that effectively eliminates this insularity.
Above all, unless the Caribbean can find new ways to increase competitiveness and create jobs the current problems of increasing crime and lack of security will only get worse.
The over-riding challenge is to increase the interaction between neighbouring countries/territories and create a synergism in the Caribbean through the creation of a Regional System of Innovation.
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REFERENCES
Cetto AM, Alonso-Gamboa JO (2010) Latin America and Caribbean scientific journals, pp 64-65, in National Science, Technology and Innovation Systems in Latin America and the Caribbean. Lemarchand, GA (ed.). UNESCO Regional Bureau for Science in Latin America and the Caribbean, Montevideo. http://unesdoc.unesco.org/images/0018/001898/189823e.pdf.
Chinchilla-Rodríguez Z, Vargas-Quesada B, Hassan-Montero Y, González-Molina A, Moya-Anegón F (2009) New approach to the visualization of international scientific collaboration. Information Visualization 9: 277-287.
Cortés U, Davidziuk A, Moreau O, Muñoz D, Nascimbeni F, Pimienta D, Sanatan R, Eds. (2009) ICT Research in the Caribbean: Insights and perspective of Cooperation with Europe. MENON Network EEIG, Brussels. http://www.winds-la.eu/winds/images/WINDS-Caribe%20ICT%20R&D%20in%20the%20Caribbean%20Report.pdf
Gómez I, Bordons M, Morillo F, DeFilippo D, Aparicio J (2009) Science & technology indicators for EULARINET. A Report prepared for the EULARINET project funded by the EC. 108pp.
Holbrook, JAD (n.d.) Capacities of Anglophone Caribbean countries for collecting and analysing indicators on science, technology and innovation. Inter-American Development Bank, Washington. http://docs.politicascti.net/documents/Doc%2005%20-%20regional%20caribe.pdf.
Johann D (ed.) (2008) Directory LAC Access2008, Austrian Latin American Institute, Vienna. http://lac-access.net/images/directorio_lac_access_final.pdf
Lemarchand GA, ed. (2010) National Science, Technology and Innovation Systems in Latin America and the Caribbean. UNESCO Regional Bureau for Science in Latin America and the Caribbean, Montevideo. http://unesdoc.unesco.org/images/0018/001898/189823e.pdf
Mustar P, Esterle L (eds.) (2006) Key Figures on Science and Technology. Observatoire des Sciences et des Techniques. Paris.
OECD (2002) Frascati Manual. Propoposed standard practice for surveys on research and experimental development. OECD Publications Service, Paris.
Ramkissoon H, Kahwa IA (2010) pp 133-146 in UNESCO Science report 2010. The Current Status of Science around the World. UNESCO, Paris. http://www.unesco.org/new/fileadmin/MULTIMEDIA/HQ/SC/pdf/sc_usr10_caricom_EN.pdf.
Rosebroom J, Cremers M, Lauckner B (2001) Agricultural R&D in the Caribbean: An Institutional and Statistical Profile. International Service for National Agricultural Research (ISNAR ), the Hague.
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ABBREVIATIONS
AMLC, Association of Marine Laboratories of the Caribbean
CARICOM, Caribbean Community
CCCCC, Caribbean Community Climate Change Centre
CCST, Caribbean Council on Science & Technology
CDB, Caribbean Development Bank
CDRC, Chronic Diseases Research Centre
CERCAL, Centre d'Étude des Relations entre l'Union Européenne et l'Amérique Latine
CFCS, Caribbean Food Crops Society
CIDA, Canadian International Development Agency
CIRAD, Centre de Coopération Internationale en Recherche Agronomique pour le Développement
CITMA, Cuban Ministry of Science, Technology & the Environment
COSEHC, Consortium of Southeastern Hypertension Control
CS, Citation Share
CYTED, Programa iberoamericano de ciencia y tecnología para el Desarrollo
DAAD, Deutscher Akademischer Austauschdienst
EL&I, Economische Zaken, Landbouw en Innovatie
EU, European Union
EUCARINET, European Union - Caribbean research and innovation networks
EULARINET, European Union - Latin American research and innovation networks
FP7, Framework Programme 7
GCFI, Gulf & Caribbean Fisheries Institute
GDRI, Groupe de recherche international
GEF, Global Environmental Facility
HE, Higher Education
HIV/AIDS, Human Immunodeficiency Virus/Acquired Immune Deficiency Syndrome
HRST, Human resources in science and technology
IADB, Inter-American Development Bank
ICT, Information and Communication Technologies
IDRC, International Development Research Corporation of Canada
IICA, Inter-American Institute for Co-operation in Agriculture
INRA, Institut National de la Recherche Agronomique
ISRS, International Society for Reef Studies
KBBE or Knowledge Based Bio-Economy
NCS, Non-citation share
NIH, National Institutes of Health
NOAA, National Oceanographic and Atmospheric Agency
NSF, National Science Foundation
NSI, National System of Innovation
OAS, Organisation of American States
OCT, Overseas Countries & Territories
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OECD, Organisation for Economic Co-operation and Development
OVSG, Observatoire volcanologique de Guadeoupe
PAHO, Pan-American Health Organisation
RTD, Research & Technical Development
S&T, Science & Technology
SI, Specialisation Index
STI, Science, Technology & Innovation
UAG, Université des Antilles et de la Guyane
UK, United Kingdom
UNA, University of the Netherlands Antilles
UNEP, United Nations Environment Program
UNESCO, United Nations Educational, Scientific and Cultural Organization
UNIBE, Universidad Iberoamericana
UNICEF, United Nations Children's Fund
USAID, US Agency for International Development
UWI, University of the West Indies
WB, World Bank.
WHO, World Health Organisation
WIDECAST, Wider Caribbean Sea Turtle Conservation Network
WINDS, Widening IST Networking Development Support
WoS, Web of Science
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APPENDIX 1
Survey Questionnaire
1. Guidance note
This survey aims to compile information about the known research centres in the Caribbean. The ultimate goal of collecting such information about Caribbean Research & Technology Development (RTD) is to have a clear map of:
- The kinds of research going on
- The level of excellence
- The sources and levels of funding
- The familiarity of the region with the EU 7th Framework Programme (FP7)
- The barriers, opportunities and special needs relating to regional FP7 participation
- Regional and international Science & Technology (S&T) collaboration
2. The structure of the questionnaire
The questions that follow collect several types of information about the research centres. Those in the first part will be used to make a public on-line directory of Caribbean research institutions. Those in the second part will be treated confidentially. The questions address the following:-:
- Identification of the research centre
- Identification of the contact person
- Research activities
- Priority settings
- Resources/Funding
- Training
- Cooperation, connections and collaboration
IF YOU ARE RESPONDING AS HEAD OF A DIVISION WITHIN A LARGE ORGANISATION YOUR ANSWERS SHOULD PERTAIN TO YOUR DIVISION SPECIFICALLY, NOT THE ENTIRE ORGANISATION.
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IDENTIFICATION OF THE RESEARCH CENTRE
1. Organisation name:
2. Division/Department: (if applicable)
3. Acronym: (if any)
4. Country:
5. Postal Address:
6. Website:
7. Type of Organisation:
University or Higher Education
Business enterprise
Government Agency
Private non-profit
Other specify :
8. Which sectors fund your Organization?:
Private
Public
Both
9. Is your organisation? :
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National (located only in your country)
Regional (located also in other regional countries)
International (located also beyond the Caribbean)
10. Is your Institution involved in postgraduate training?
Not at all
Taught Masters progamme(s)
Research Masters progamme(s)
PhD programmes
IDENTIFICATION OF THE CONTACT PERSON
11. Gender:
Male
Female
12. Title:
Mr.
Mrs.
Ms.
Dr.
Prof.
13. Last name:
14. First name:
15. Position (e.g. Director):
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16. Tel. No.:
17. Email:
RESEARCH ACTIVITIES
18. Indicate the approximate % of time your institution devotes to the following:
Teaching
Research
Product development
Administrative tasks
Other (specify):
19. Summarise (<15 words) your institution’s Research & Development activities:
20. List up to five keywords that indicate these Research Areas:
1.
2.
3.
4.
5.
21. In which of these research areas is your institution/division active?
Very Active Active Not active
Agriculture & Food Supply
Biology & medicine
Energy
Environment and climate
Industry & industrial technology
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Information and communication technology
Social & economic concerns
Transport and construction
22. What kind of research are you doing?
Basic research: to acquire new knowledge without regard to its applicability
Applied research: original research mainly directed to a specific problem
Experimental research: draws on previous studies to produce new
or improved products or processes.
23. Do visiting, overseas-based scientists contribute much to your research output?
Not at all
Minor contribution
About half of our publications
Most of our publications
24. Please indicate the number of publications and patents your institution had in the past ten years
Scientific publications
Patents
25. How aware are you of the EU 7th Framework Programme (FP7) on RTD?
Never heard of it
Heard about it, but know little about it
Aware of it and know something about it
26. Would you be interested in applying for FP7 support for your research? Yes No
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PRIORITY SETTINGS
27. Aside from your research area, what TWO research areas do you think are the most important for the Caribbean over the next 5 years?
Agriculture & Food Supply
Biology & medicine
Energy
Environment and climate
Industry & industrial technology
Information and communication technology
Social & economic concerns
Transport and construction
Other (specify)...............................
28. Would you be willing to provide further feedback on research priorities and needs for your country?
Yes No
29. Do you agree to allow us to use the information you have provided so far for our study of Caribbean RTD and for our public on-line directory of Caribbean research institutions?
Yes No
YOUR ANSWERS TO THE QUESTIONS THAT FOLLOW WILL NOT FORM PART OF THE ON-LINE DIRECTORY AND WILL BE TREATED CONFIDENTIALLY.
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RESOURCES – FUNDING
30. List the largest current or recent research projects of your division or institution:
Project Title Funding Agencies Collaboratoring institutions and countries
Project budget (USD)
1.
2.
3.
31. Please indicate for your division/institution the:
total number of employees
number of researchers who are full-time employees:
number of researchers who are full-time researchers:
number of PhD-level Researchers:
annual Research Budget :
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OPERATION, COLLABORATION AND CONNECTIONS
32. Give the names of some of the research networks in which your staff participate.
Research network Acronym
1.
2.
3.
4.
5.
33. Does your institution have any industrial collaborations? Give examples.
Company name Acronym Country
1.
2.
3.
4.
5.
34. Does your institution work with other Caribbean research Institutions? Give examples.
Institution name Country
1.
2.
3.
4.
5.
35. Does your institution work with European research Institutions? Give examples.
Institution name Country
1.
2.
3.
4.
5.
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APPENDIX 2
SUMMARY OF SURVEY RESPONDENTS
Dutch Sub-region
ARUBA
Centrale Bank van Aruba, Research Department, Aruba
J.E. Irausquin Boulevaard 8
www.cbaruba.org
Private non profit organisation (bv. Stichting), Public sector; National
Mr. Rendell de Kort, Economist, Research Department 2975252173 [email protected]
Central banking related research mostly using economic tecnhiques, monetary, economics, finance, forecasting, banking
Fundación Aruba Consciente, F.A.C., Aruba
http://www.facebook.com/ArubaConsciente
Private non profit organisation (bv. Stichting), Public & Private sector; National
Mr. Urvin Leest, [email protected]
Reduce dependence on food imports through promoting, Permaculture practices, Permaculture, Aquaponics, Cultural awareness, Environmental awareness, Social awareness
Government of Aruba
Enseñansa Pa Empleo Aruba
EPE Aruba
Governmetnal organization, Public sector, National
Mr. Gregory Koolman, Director, (297) 582-5662, [email protected]
Consult with Private Sector to see what training demands exist in the marketplace., Customer Service,Business Ethics, Professional Needs, Communications (Language), Technical (Computer)
Instituto Pedagógico Arubano
Centro di Investigación y Desaroyo di Ensenansa
CIDE
I. Wagemakerstraat 11
www.ipa.aw
University or higher education institution. Private sector, National
Mrs. Regine Croes coordinator of the Center for Educational R&D (CIDE), 00-297-5843100, [email protected]
Researching and developing innovative educational practices in Aruban education within cooperative learning communities, Multilingual education, Active learning in meaningful contexts, Parent and Community Involvement Healthy schools
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BONAIRE
STINAPA Bonaire
STINAPA
P.O. Box 368
www.stinapa.org
Private non-profit. National
No postgraduate programmes
Ms. Elsmarie Beukenboom Director, 5997178444, [email protected], Marine, terrestrial
CURACAO
Caribbean Management and Research of Biodiversity, CARMABI
Curacao, Piscaderabaai z/n
www.researchstationcarmabi.org
Private non profit organisation, Public&private sector, International PhD programma’s
Dr. Mark Vermeij, Science director, 59995103067, [email protected]
nature management, research support, Coral reef ecology, Geology, Terrestrial biology, Bat biology, Nature conservation
Curacaosche Huisartsen Vereniging, CHV, Curacao
www.chv-site.org
Anders
Business enterprise; Private sector; National
Mr. Human Jeung, voorzitter, 5999-5611999, [email protected]
interests in preparation, teaching assistants, epidemiology
Fundashon Antiyano Pa Energia, FAPE
Curacao, Jan Noorduynweg 111, Greater Willemstad, Curaçao
Private non profit organisation, Public&Private sector, National
Mrs. Margo Guda, manager & senior scientist, +5999-869-6970, [email protected]
project acquisition, mostly wind resource assessment both island-wide and for specific sites, wind energy
UNIVERSITEIT NETHERLANDS ANTILLES
faculty social and behavioral sciences
FMG 1234
www.una.an
University or higher education institution. Public&Private sector. Regional
PhD programma’s
Prof. Jeanne De Bruijn, HOOGLERAAR, 005999 5164913, [email protected]
Small island development, Gender studies, matrifocality, migration studies, higher education, social work, public administration, good governance, fraude, creative society, small island development gender relations and matrifocality, good governance, migration and integration, creative society
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SURINAME
UNIVERSITY OF SURINAME, FACULTY OF TECHNOLOGICAL SCIENCES
Departement of Infrastructure, Orientation: Land and water management
AdeKUS-FTeW-Infra- LWB
Leysweg 86, WBL
http://adekus.uvs.edu/
University or Higher Education, Public&Private sector, National, Taught Masters programme(s)
Prof. Sieuwnath Naipal Coordinator, 597-8715714, [email protected]; [email protected]
Early Flood Warning Systems; Renwable energy implementation coastal zone mangement and Climate change, coastal zone management, climate change and impacts, renewable energy, water resources, early flood warning systems
Spanish sub-region
DOMINICAN REPUBLIC
Fundación Naturaleza, Ambiente y Desarrollo
FNAD
Costa Rica 139 Ens. Alma Rosa, Santo Domingo Este.
Private non-profit organisation. Public&Private sector. National
Dr./Dra. Santana Richardson Frank Presidente, 809-594-3460, [email protected]
Technical assistance, basic research on environmental and clean energy technologies and developing them., Clean energy, food security, environmental quality, natural resources management, institutional strengthening
Fundación Redes y Desarrollo
FUNREDES
Aptdo 2972 Santo Domingo
http://funredes.org
Private non-profit organisation. Public&Private sector. International
Sr. Daniel Pimienta, Director, [email protected]
Creating indicators of linguistic diversity on the Internet. Action Research in ICT for development (social, virtual communities, multilingüísnmo), indicators, languages, TICpD (ICT4D), methodologies, virtual communities
Instituto Dominicano para el Estudio de la Salud Integral y la Psicología Aplicada
IDESIP
Calle Eugenio Deschamps #5, Esquina Mercedes Mota. La Castellana, Santo Domingo, D.N. 10133. República Dominicana
www.idesip.org
Private non-profit organisation. National
Taught Masters programme, PhD programmes
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Dr./Dra. Cesar Ernesto Castellanos Araujo, Director Ejecutivo, +1 (809) 549-7071, [email protected]
Mental Health Clinical Services, Mental Health and natural disasters, neuroscience and HIV / AIDS, domestic violence, development of protocols for mental health care, AIDS, Disaster, Cognitive Neuroscience, Rehabilitation, Violence
Instituto Tecnológico de Las Américas, ITLA
Aut. Las Américas km. 27 1/2, La Caleta, Boca Chica
www.itla.edu.do
University or Higher Education, Public. National
Srta. Liana Marien Polanco Ramos Vicerrectora Académica, +8097384852 ext. 305 ó 254, [email protected]
Technology Solutions, Development of a technological model that integrates Radio Frequency Identification, Global Positioning System and Geographic Information Systems for inventory management. Identification, Radio Frequency, Global Positioning System, GIS, Inventories
INSTITUTO TECNOLÓGICO DE SANTO DOMINGO, INTEC
Vicerrectoría de Investigación y Vinculación
Avenida de Los Próceres, Galá, P.O. Box 342-9 y 249-2
www.intec.edu.do
University or Higher Education, Private. National
Taught Masters programme
Sra Andrea Paz López, Directora Ejecutiva de Investigación, (809) 567-9271, [email protected]
Draw lines with respect to the pursuit of human and financial resources to further develop research to strengthen the scientific-technological development, Human Development, Science and Technology Development, Innovation, Knowledge Creation, Transfer
Instituto Virtual de Programación Avanzada
Desarrollo de Software
INVIPROA
Calle 3 #2 Residencial Caribe
http://www.inviproa.com
Business enterprise. Private. National
Research Masters programme
Dra. Rina Familia Director, 18099386271, [email protected]
Development of specialized software to control robots, mechatronics, mobile applications and software engineering of real time., Real Time Software, Control, Robotics, Mobile Applications, Mechatronics
Ministerio de Educación Superior, Ciencia y Tecnología MESCyT
Dirección de Fomento a la Investigación Científica y Tecnológica
Av. Máximo Gómez No.31 es. Pedro Henriquez Ureña, Santo Domingo 10204
www.seescyt.gov.do
Governmental agency. Public. National
Taught Masters programme, Research Masters programme
Dr./Dra. Carlos Manuel Rodríguez Peña, Director Fomento Investigación Científica y Tecnológica, 829-452-8046
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Regulates and supports your research work. The promotion is done by funding research projects with grant funds., Basic Sciences, Environment, Technology, Innovation, Biotechnology
PONTIFICIA UNIVERSIDAD CATOLICA MADRE Y MAESTRA
Vicerrectoría de Investigación
PUCMM
Autopista Duarte km 1 1/2
http://www.pucmm.edu.do/PUCMM/
University or Higher Education, Private. National
Taught Masters programme
Dr. Fabrice Piazza, Lider del grupo de investigacion en materiales nanoestructurados de carbono, NANOCARBON, +1 809 580 1962 ext. 4081, [email protected]
Sevice to society, supports the implementation of research projects sponsored by the Ministry of Higher Education, Science and Technology. It has an internal fund to promote research (seed fund). It is in the process of defining institutional policy matter and a strategic plan of development for 4 years, At an early stage of development, limited financial resources, some doctors with experience to develop new research programs, some linked to teaching, disconnected from the productive sector
Universidad Abierta Para Adultos, UAPA
Centro Universitario de Información y Comunicación Educativa
Avenida Hispanoamericana, URb. Thomén #100
www.uapa.edu.do
University or Higher Education, Private. National
Taught Masters programme
Dra. Reyna María Hiraldo Trejo, Directora, 1-809-724-0266 ext 257 [email protected]
Outreach Program to support communities, Ivestigaciones in the interest of the institution and according to themes or issues that affect society. Social problem, Relevance, institutional interest, originality, novelty
Universidad APEC (UNAPEC)
Centro de Innovación, Desarrollo y Transferencia Tecnológica de la Universidad APEC, CIDTEC
Ave. Máximo Gómez #72, El Vergel, Santo Domingo
www.unapec.edu.do
University or Higher Education, Private. National
Taught Masters programme, PhD programmes
Sra Teresa Hidalgo, Directora, 809 686 0021 Ext. 2323/2283, [email protected]
No keywords given.
UNIVERSIDAD AUTÓNOMA DE SANTO DOMINGO
Escuela de Ingenieria Quimica, Facultad de Ingeniería y Arquitectura, Cuidad Universitaria
http://www.uasd.edu.do
University or Higher Education, Public&Private sector. National
Taught Masters programme
Prof. Luis Mejia Terrero Docente-investigador, (809) 6861124 (Ext 26, Ingenieria Quimica), [email protected]
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Participation in research projects with contestants from public and private financial, energy, biotechnology, fermentation, Biorefinery Nanotechnology. Participating in projects of research, product and process design and participation in Fermentation Bioprocess Day científica.Biotecnologia Biofuels Biomass Conversion
UNIVERSIDAD AUTÓNOMA DE SANTO DOMINGO
Dirección de Investigaciones Científicas y Tecnológicas
Av. Alma Mater, Distrito Nacional, santo Domingo
www.uasd.edu.do
University or Higher Education, Public. National
Taught Masters programme, Research Masters programme, PhD programmes
Profra. Bélgica Cesarina Naut Medina, Directora, 1-809-682-9052, [email protected]
Extension days will be credited scientific research in universities, a day reliza year scientific research which includes the results of completed investigations. Projects that are prepared will be subject to competition at national and international funds. Has some 18 sections of the Council for Scientific and Technological year, which approves the hiring of researchers themselves and partners, as well as new research projects. Are monitored ongoing projects., Applied Sciences, Renewable Energy, Environment, Health, Agriculture
Has implemented 70 projects of research: humanities Area (7), economic and social area (7), Area of science (34), legal and political area (3), area of engineering and architecture (7), Area health (1), agricultural and veterinary Area (9). Applied Sciences Gender Renewable Agricultural Health
has 20 institutes. They run 48 projects of research, some funded FONDOCYT or international organizations, others with own funds. Scientific conferences conducted in each school (8) and a general where the results of the investigations are reported. Promoted the Investigator of the Year Award. We keep constantly updated. Our researchers are involved in national and international scientific conferences. Renewable Energies Applied Sciences, Agricultural Development, Health
Universidad Nacional Pedro Henríquez Ureña
UNPHU Autopista Duarte Km. 6 1/2 Santo Domingo, D. N:
www.unphu.edu.do
University or Higher Education, Public&Private sector. National
Taught Masters programme, Research Masters programme, PhD programmes
Dr. José Guillén Sarita, , Esc. Informática, (809) 562 6601 ext. 2202, [email protected]
Extension services, institutional research are limited to institutional interests, and scientific research are restricted to the area of agriculture and the environment. Environment, agriculture, natural resources, basic science, innovation
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French sub-region
GUADELOUPE
CIRAD Guadeloupe
UMR CMAEE
Domaine Duclos, prise d'eau 97122 Petit Bourg
University or Higher Education. Public & Private sector. International
Research Masters programme, PhD programmes
M. Thierry, Lefrancois, Directeur adjoint UMR CMAEE, 590590255995, [email protected]
epidemiology, animal diseases, Caribbean, emerging diseases, ticks and diseases,
CRPMEM Guadeloupe
2 bis rue Schoelcher 97 110 Pointe-à-Pitre FWI
Business enterprise. Public. National
Research Masters programme
M. Nicolas, Diaz,Secrétaire Général, 590590909787, [email protected]
Fisheries, Fisheries, Sustainable, Sea, Aquaculture
Inserm - Université des Antilles et de la Guyane
UMR 763
CHU, Hôpital Ricou, BP465, 97159 Pointe-à-Pitre
Governmental agency. Public. National
Taught Masters programme, Research Masters programme, PhD programmes
M. Jacques, Elion, Director, 33140032339, [email protected]
Sickle cell anemia, genetic diseases, cell biology, molecular
genetics, clinical research,
Université des Antilles et de la Guyane
Biologie
UMR 7138 SAE
UFR SEN. Département de biologie. BP 592. 97159 Pointe à Pitre cedex
http://www2.univ-ag.fr/SAEmangrove/index.html
University or Higher Education
Prof. Olivier, Gros, Directeur du laboratoire de biologie Marine. Responsable de l'équipe Biologie de la Mangrove au sein de l'UMR 7138 SAE, 00 590 590 48 30 06, [email protected]
Taught Masters programme, Research Masters programme, PhD programmes
Biodiversity, Microbiology, interactions between bacteria and invertebrates, mangrove and seagrass ecosystem, Phanerogams, molecular interactions
Institut Karibéen et Amazonien de l'Elevage IKARE
BP 35 Convenance 97122 Baie Mahault - Guadeloupe
University or Higher Education. Public. Public&Private sector. Régional.
No postgraduate programmes
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M. Frederic Galan, responsable de projet, (590)0590320886, [email protected]
Forage systems in breeding ruminants, monogastric feed production, environmental, technical and economic references, quality initiatives
Centre de Recherches et de Ressources en Education et Formation CRREF
IUFM de Guadeloupe, Morne Ferret, BP 517, 97178 Abymes Cedex (Guadeloupe)
http://www.iufm.univ-ag.fr/guadeloupe/RECHERCHE/1-presentation.php
University or Higher Education. Public. National
Taught Masters programme, Research Masters programme, PhD programmes
Prof. Antoine, Delcroix, Directeur, 590 (0) 590 21 36 13, [email protected]
Analysis of practices, teaching, learning contextualisation, education, vocational training
INRA Antilles-Guyane
97170 Petit-Bourg
www.antilles.inra.fr
Governmental agency. Institut de Recherches Agronomiques. Public. National
Taught Masters programme, Research Masters programme, PhD programmes
Mme. Danielle Alice, Celestine-Mirtyl-Marlin, Présidente, 0590 590 25 59 00, [email protected]
Tropical crops, livestock, forestry, sustainable development,
Institut Pasteur de Guadeloupe IPGp
Morne Joiliviere BP 484 97183 ABYMES CEDEX
http://www.pasteur-guadeloupe.fr
Private non-profit organisation. Public&Private sector International
Research Masters programme, PhD programmes
M. Antoine, Talarmin, Directeur, 00 590 590 89 76 60, [email protected]
Mycobacterium tuberculosis, molecular epidemiology, arbovirus vectors, antiobioresistance, environmental pathogens
L'Office National des Forêts ONF
Direction Régionale Gaudeloupe
Jardin Botanique BP 648 97109 Basse-Terre Cedex
http://www.onf.fr
Governmental Agency. Public&Private sector. National.
No postgraduate programmes
Dr./Dre. Patrice, Mengin-Lecreulx, Directeur Régional, (590) 5 90 99 28 99, [email protected] Forest biodiversity, Continuous monitoring of the forest, Sylvicuture Mahogany, Pear Breeding countries, Invasive Species
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FRENCH GUYANA (GUYANE)
Bibliothèque Numérique de Recherche en Mathématiques et Informatique BNRMI
Université des Antilles et de la Guyane (UAG)
http://malavoi3.martinique.univ-ag.fr/buag/bnrmi
University or Higher Education. Public. National
Taught Masters programme, Research Masters programme, PhD programmes
M. Abdennebi, Omrane, Directeur Scientifique, + (590) 590 48 30 85, [email protected]
All research areas in Mathematics and Computer Science: Analysis, Algebra, Geometry, Statistics, Applications, Image, Artificial intelligence, reconnaissance, partial differential equations, optimization, control, image processing, numerical analysis, distributed systems
UAG
Epidémiologie des Parasitoses Tropicales Equipe UPRES EA 3593
EPaT
Campus Saint Denis, 97306 Cayenne
En cours de réfection
University or Higher Education. Public. National
Research Masters programme
Prof. Carme Bernard, Directeur, (594) 594 39 53 09, [email protected]
Epidemiology, parasitic, fungal infections, Diagnosis, Public Health
Institut PASTEUR de la Guyane IP-Guyane
23 avenue Pasteur BP 6010 - 97306 Cayenne Cedex
http://www.pasteur-cayenne.fr
Private non-profit organisation. Public&Private sector. National
No postgraduate programmes.
Prof. ,Andre, Spiegel, Director, +594 594 29 26 01, [email protected]
dengue (virological and entomology), malaria (resistance and entomology), vriales emerging diseases, immunology and leishmaniasis, arbovirus
UMR Ecologie des Forêts de Guyane UMR EcoFoG
Campus agronomique / BP 316 / F97310 Kourou
http://www.ecofog.gf
University or Higher Education. Public. National
Research Masters programme, PhD programmes
M., Eric, Marcon, Director, +594 594 32 93 00, [email protected]
Ecology, Forest, Tropical Biodiversity, Carbon
Adaptation, Climat Tropical, Exercice et Santé ACTES
UFR-STAPS, Université des Antilles et de la Guyane, Campus de Fouillole, 97157 pointe à Pitre
http://calamar.univ-ag.fr/uag/staps/actes/index.html
University or Higher Education. Public&Private sector. National
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Taught Masters programme, Research Masters programme, PhD programmes
Prof. Christian Olivier, Dominique, Hue, Directeur, 00 590 690 55 19 95, [email protected]
Physiology, physical activities and sports, health, tropical climate, Caribbean environment,
MARTINIQUE
CIRAD
Direction Régionale Antilles-Guyane
CIRAD-DRAG
PRAM, B.P. 214, F-97285 Lamentin Cedex 2
www.cirad.fr
Governmental agency. Public&Private sector. International
Research Masters programme, PhD programmes
Dr. Christian, Chabrier, Directeur, (596)596423042, [email protected]
Agro-ecology, nematology, entomology, modeling, soil science
Bureau de Recherches Géologiques et Minières
Service Géologique Régional Martinique / Regional Office in Martinique
BRGM
4 Lot. Miramar, Route Pointe des Nègres, 97200 Fort-de-France
www.brgm.fr/brgm//Fichiers/SGR/fiche_mar.pdf
Governmental Agency. Public&Private sector. International
PhD programmes
Dr. Jean-Christophe, Audru, Directeur régional / Regional Director, +(596)596 711 770, [email protected]
Natural Hazards, Groundwater, Geology, Geothermal Energy, Contaminated land
Centre de recherche sur les pouvoirs locaux dans la Caraïbe CRPLC
Faculté de droit de Martinique, BP 7209, 97275 Schoelcher Cédex
http://www2.univ-ag.fr/CRPLC
University or Higher Education. Public. National
PhD programmes
M., Daniel Justin, Directeur, (596)596727418, [email protected]
Governance, regional cooperation, sustainable development, local government, public policy
CIRAD
Performance des systèmes agronomiques
Unité HortSys
PRAM petit Morne entrée CTCS 97232 LE LAMENTIN
www.pram-martinique.org
University or Higher Education. Public Public&Private sector. International
Taught Masters programme, Research Masters programme, PhD programmes
Dr. Magalie, Lesueur Jannoyer, chercheur, responsable d'équipe de recherche, 596-596423039, [email protected]
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Agricultural innovation, agricultural practices, health and environmental impact, biological regulation, agro ecosystem
Institut de recherche pour le développement Martinique - Guadeloupe
IRD - Martinique
IRD BP 8006 97259 - Fort-de-France cedex
www.mq.ird.fr
University or Higher Education. Public. International
Taught Masters programme, Research Masters programme, PhD programmes
M. Marc, Morell, Représentant, 596596397739 , [email protected]
Nematology, soil physics, microbiology, hydrology, remote sensing,
Observatoire Volcanologique et Sismologique de la Martinique, Institut de Physique du Globe de Paris
OVSM/IPGP
Morne des Cadets, Fonds Saint Denis
http://www.ipgp.fr/pages/030303.php
University or Higher Education. Public.National
Taught Masters programme, Research Masters programme, PhD programmes
DR. Valérie, Clouard, Directrice +596 596 78 41 41, [email protected]
Monitoring, volcano seismology, instrumentation, tsunami
UNIVERSITE DES ANTILLES ET DE LA GUYANE (UAG)
Centre d'étude, de recherche en économie, gestion modélisation et informatique appliquée
Faculté de Droit et d'Economie - Campus de Schoelcher- BP 7205 - 97275 SCHOELCHER CEDEX
www.ceregmia.eu
University or Higher Education. Public & Private sector. Regional
Taught Masters programme, Research Masters programme, PhD programmes
M. Fred, Celimen, Professeur, Directeur du CEREGMIA, 00 596 72 73 98, [email protected]
Optimization, Health, Environment, Society and territories, Risk
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English sub-region
ANTIGUA & BARBUDA
Environmental Awareness Group EAG
Antigua & Barbuda
PO Box 2103, St. John's, Antigua
www.eagantigua.org
Private non-profit. Both. National (located only in your country)
No postgraduate programmes
Ms. Lia Nicholson, Executive Director, (268) 462-6236, [email protected]
Biodiversity, Invasive Species, Sea Turtles, Flora, Roaming Livestock
THE BAHAMAS
The College of The Bahamas COB
P O Box N 4912, Nassau, The Bahamas
www.con.edu.bs
University or Higher Education. Both. National (located only in your country)
Taught Masters programme(s)
Mr. William Fielding, Director, 242 302 4311, [email protected]
Social issues, Environment and sustainability, Health, Marine Technology,
The Cape Eleuthera Institute CEI
PO Box 29, Rock Sound, Eleuthera, The Bahamas
http://www.ceibahamas.org/about-us.aspx
Private non-profit. Both. National (located only in your country)
PhD programmes
Mr. Aaron Shultz, Research Manager, 609-945-0710, [email protected],
Flats Ecology, Shark Ecology, Marine Ecology, Terrestrial Ecology, Sustainable Food,
BARBADOS
Agronomy Research and Variety Testing Unit ARVTU
Groves, St. George
University or Higher Education.Both. National (located only in your country)
No postgraduate programmes
Mr. Harm de Boer, Senior Agronomist, (1246) 433 4157, [email protected]
Varieties, sugarcane, energycane, extension, recommendations
BARBADOS PRIMATE RESEARCH CENTER AND WILDLIFE RESERVE
Farley Hill, St. Peter, Barbados
Private non-profit. Private. National (located only in your country)
No postgraduate programmes
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Mr. Jean Baulu, Director, 1 246 422 8826, [email protected]
Wildlife Management, SPF Breeding - Polio Vaccine, Medical Devices, Pharmaco Kinetics, Inflammation
Bellairs Research Institute of McGill University
Folkestone, St. James, Barbados
http://www.mcgill.ca/bellairs/
University or Higher Education. Both. International (located also beyond the Caribbean).
Taught Masters programme(s), Research Masters programme(s), PhD programmes
Ms., Susan Mahon, Managing Director, (246) 422-2087, [email protected]
Ecosystems, efficiency, people, creativity, ,sustainability,
Caribbean Agricultural Research and Development Institute Breeding and Biotechnology
CARDI
P.O. Box 64, Cave Hill Campus, UWI
www.cardi.org
Government Agency. Both. Regional (located also in other regional countries).
Research Masters programme(s), PhD programmes
Dr., Cyril Roberts, CARDI Representative, Barbados, 246-425-1334, [email protected]
Pepper, sheep, marketing, cassava, biotechnology
Caribbean Institute for Meteorology & Hydrology CIMH
Husbands, St. James, Barbados
www.cimh.edu.bb
University or Higher Education. Public. Regional (located also in other regional countries)
Research Masters programme(s), PhD programmes
Dr., David Farrell, Principal, +12464251362/63, [email protected]
tropical meteorology, water resources management for small island developing states, disaster risk reduction (flood and drought forecasting), instrument development, climatology,
Coastal Zone Management Unit CZMU
Ministry of the Environment, Water Resources and Drainage
Bay Street, St. Michael, BB11156
www.coastal.gov.bb
Government Agency. Public. National (located only in your country)
No postgraduate programmes
Dr., Leo Brewster, Director, 246 - 228 – 5955, [email protected]
Coastasl Zone Management
The University of the West Indies
Faculty of Medical Sciences
FMS
Cave Hill, St. Michael
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http://www.cavehill.uwi.edu/fms/
University or Higher Education. Both. Regional (located also in other regional countries)
Taught Masters programme(s), PhD programmes
Prof. Joseph Branday, Dean, 1246 417 – 4260, [email protected]
Chronic diseases, Epidemiology, Infectous diseases, Human Immunodeficiency Disease, Health promotion
The University of the West Indies
Chronic Disease Research Centre
CDRC
Jemmott's Lane, Bridgetown, BB 11115
University or Higher Education. Both. Regional (located also in other regional countries)
Taught Masters programme(s), Research Masters programme(s), PhD programmes
Prof. Anselm Hennis, Director, 246 426 6416, [email protected]
cardiovascular surveillance, cancer genetic risk factors, mecahnisms of vascular inflammation, chronic non-, Communicable disease risk factors, informing policy
The University of the West Indies
Faculty of Pure & Applied Sciences
FPAS
Cave Hill Campus, St. Michael, Barbados
www.cavehill.uwi.edu
University or Higher Education. Both. Regional (located also in other regional countries)
Taught Masters programme(s), Research Masters programme(s), PhD programmes
Mr., Peter Gibbs, Dean, 246-417-4715, [email protected]
Biotechnology, Renewable Energy, Telecommunications, Mobile Applications, Computer Simulations
The University of the West Indies
Centre for Resource Management and Environmental Studies
CERMES
Cave Hill Campus, St. Michael
www.cavehill.uwi.edu/cermes
University or Higher Education. Both. Regional (located also in other regional countries)
Taught Masters programme(s), Research Masters programme(s), PhD programmes
Prof., Robin Mahon, Director, 246-417-4570, [email protected]
water management, climate change, goverance, fisheries, marine affairs
West Indies Central Sugar Cane Breeding Station WICSCBS
Barbados
Groves, St. George
www.wicscbs.org
Private non-profit. Private. Regional (located also in other regional countries)
PhD programmes
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Dr. Anthony Kennedy, Director, , [email protected]
Genetics, Breeding, Selection methods, Statisical analysis experimental design, Sugar cane
BELIZE
Galen University
www.galen.edu.bz
University or Higher Education. Private. National (located only in your country)
Taught Masters programme(s)
Dr. Henry Alegria Provost/Professor, 501-824-3226, [email protected]
Project Management Services, IT Planning, Design, System Selection & Implementation, Environmental & , ecological Studies, Organizational and Management Consulting Services, Strategic Planning, Budgeting & New Development
Ministry of Health Belize
Policy Analysis and Planning Unit PAPU
www.health.gov.bz
Government Agency. Public. National (located only in your country)
No postgraduate programmes
Ms. Michelle Vanzie, Ag. Director / Health Economist, 822-2059, [email protected]
University OF Belize
Faculty of Science and Technology FST
Belmopan, Belize, Central America
www.ub.edu.bz
University or Higher Education. Public. National (located only in your country)
No postgraduate programmes
Dr. Thippi Thiagarajan, Dean, 501-605-1164 [email protected]
Watershed Management, Antimicrobial plant products, Plant tissue culture, Organic chemistry, human impact on ,Ecosystems and conservation
University of Belize
Environmental Research Institute ERI
P.O. Box 340
www.eriub.org
University or Higher Education. Private. National (located only in your country)
Taught Masters programme(s)
Dr. Leandra Cho-Ricketts Marine Science Director 501-822-2701 [email protected]
Wildlife corridors Marine ecosystem health, Lowland savannah diversity, Fisheries monitoring, Climate change
CAYMAN ISLANDS
Cayman Islands Government, Department of Environment
Department of Environment DOE
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P.O. Box 486, Grand Cayman KY1-1106, Cayman Islands.
www.doe.ky
Government Agency. Public. National (located only in your country)
No postgraduate programmes
Mr. Timothy Austin, Deputy Director, Research and Assessment, +(345) 949-8469, [email protected]
Conservation, Protected areas, Monitoring, Invasive species, Coral reefs
Central Caribbean Marine Institute
Little Cayman Research Centre CCMI
PO Box 37
http://reefresearch.org
Private non-profit. Both. International (located also beyond the Caribbean)
Research Masters programme(s), PhD programmes
Dr. Carrie Manfrino, President, 609 933 4559, [email protected]
Deep Corals, Recruitment and regeneration, Climate and stress, coral fluorescence, reef monitoring
DOMINICA
Ross University School of Medicine RUSM
PO Box 266, Roseau, Dominica
http://www.rossu.edu/medical-school/
University or Higher Education. Private. International (located also beyond the Caribbean)
No postgraduate programmes
Dr. Mary Moore, Chair, Research Committee, 767-445-5355 x6316, [email protected]
medical education, community health, biomedical
Institute for Tropical Marine Ecology Inc (ITME)
www.itme.org
Private non-profit. Private. National (located only in your country)
Research Masters programme(s)
Dr. Sascha Steiner, Founder & Director, [email protected],
habitat surveys, monitoring, impact assessments, data base development, curriculum development
GRENADA
Windward Islands Research & Education Foundation WINDREF
P.O. Box 7, St. George's, Grenada
http://etalk.sgu.edu/windref/index.html
Private non-profit. Both. International (located also beyond the Caribbean)
Research Masters programme(s), PhD programmes
Dr. Calum Macpherson, , Director, 473-444-3997, [email protected]
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Public Health, Tropical Medicine, Climate Change, Renewable Energy,
GUYANA
Guyana Rice Development Board GRDB
Rice Research Station, Burma
117 Cowan Street, Kingston, Georgetown
http://www.grdb.gy/
Other. Private. National (located only in your country)
No postgraduate programmes
Dr. Mahendra Persaud, Plant Breeder/Chief Scientist, 592-6146234,2321301, [email protected]
Varietal improvent, Improved crop management, Diseases management, Integrated Pest Management, High Quality Seed
University of Guyana
School of Earth and Environmental Sciences SEES
Turkeyen Campus, Greater Georgetown, Guyana
www.uog.edu.gy/sees
University or Higher Education. Public. National (located only in your country)
Taught Masters programme(s)
Dr. Paulette Bynoe, Director, 592 222 4180, [email protected]
Geographical, Environmental, Policy Formulation and Implementation, Climate Change and the Low Carbon , Development, Urban Planning
University of Guyana
Faculty of Agriculture and Forestry FAF
Turkeyen Campus, PO Box 101101
www.uog.edu.gy
University or Higher Education. Public. National (located only in your country)
Taught Masters programme(s), Research Masters programme(s)
Mr. Lawrence Lewis, Dean, 1 592 222 3599, [email protected]
Estimating the use of NTFP in communities, The effects of Crabwood seed harvesting on natural predators, Biomass estimation for the ACP countries, Understanding whiteflies assemblages and their natural predators, Microscopic identification of mushrooms in the Upper Potaro Basin & Examining the water quality and community composition on the sea coast of Guyana.
Iwokrama International Centre for Rain Forest Conservation and Development
77 High Street, Kingston, Georgtown, Guyana, South America
www.iwokrama.org
International NGO. Private. National (located only in your country)
PhD programmes
Dr. Raquel Thomas-Caesar, Director, Resource Management and Training, 592 225 1504, [email protected]
Biodiversity, Climate and Hydrology, Business Development, Livlihoods and Capacity building, Ecosystem Services
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JAMAICA
Institute of Jamaica
Natural History Museum of Jamaica NHMJ
10-16 East Street, Kingston
www.instituteofjamaica.org.jm
Government Agency. Public. National (located only in your country)
Research Masters programme(s), PhD programmes
Mrs. Tracy Commock, Director, (876) 948-8116 or (876) 922-0620-7, [email protected]
Taxonomic, Biodiversity (Endemic, endangered, invasives), Protected areas, Collections Management, Bioinformatics
International Centre for Environmental & Nuclear Sciences ICENS
2 Anguilla Close, University of the West Indies, Mona, Kingston 7
www.icens.org
University or Higher Education. Both. National (located only in your country)
Research Masters programme(s), PhD programmes
Prof. Gerald Lalor, Director General, 876 927-1777, [email protected]; [email protected]
soil geochemistry, lead exposure, cadmium, trace elements
Mona GeoInformatics Institute MGI
University of the West Indies, Mona Campus, Kingston 7, Jamaica
Www.monagis.com
Hybrid R&D and commercial organization. Both. National (located only in your country)
Taught Masters programme(s), Research Masters programme(s)
Dr. Parris Lyew-Ayee, Director, 876-977-3160, [email protected]
Crime, Natural hazards, Software development, Mapping, GPS
SCIENTIFIC RESEARCH COUNCIL PRODUCT RESEARCH & DEVELOPMENT
P.O. BOX 350, HOPE GARDENS, KINGSTON 6
www.src-jamaica.org
Government Agency. Public. National (located only in your country)
No postgraduate programmes
Mrs. Ann Marie Smith, MANAGER, (876) 927-1771, [email protected]
Bioactivity, nutraceuticals, functional foods, food products, chemical & microbial analysis
The University of the West Indies
The Biotechnology Center
Mona Campus, Kingston 7, Jamaica
http://myspot.mona.uwi.edu/biotech.
University or Higher Education. Both National (located only in your country)
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Research Masters programme(s),PhD programmes
Prof. Roye Ahmad, Director, 1 876 977 1828, [email protected] [email protected]
Microbiology, Genetics, Agro-Technology, Tissue-Culture, Medicine
The University of the West Indies
Faculty of Medical Sciences, Mona Campus
Mona, Kingston 7
www.mona.uwi.edu
University or Higher Education. Public. Regional (located also in other regional countries)
Taught Masters programme(s), Research Masters programme(s), PhD programmes
Prof. Archibald McDonald, , Dean, 876-927-2556 [email protected]
Chronic non- communicable disease, HIV/ AIDS, Trauma and injuries, Early Childhood Development, Cancer
The University of the West Indies
Discovery Bay Marine Laboratory, Centre for Marine Sciences DBML
P.O. Box 35 Queen’s Highway Discovery Bay ; St. Ann; JAMAICA
http://www.mona.uwi.edu/cms/dbml.htm
University or Higher Education. Both. National (located only in your country)
Taught Masters programme(s), Research Masters programme(s),PhD programmes
Prof. Dale Webber, Director, 876 935 8835/6, [email protected]
reef monitoring, coral gardening, fisheries management, coral bleaching, Lionfish
The University of the West Indies, Mona Campus
Faculty of Pure and Applied Sciences FP&AS, UWI Mona
Kingston 7, Jamaica
http://www.mona.uwi.edu/
University or Higher Education. Both. Regional (located also in other regional countries)
Taught Masters programme(s), Research Masters programme(s), PhD programmes
Prof., Ishenkumba Kahwa, Dean, 1-876-702-4660, [email protected]
stochastic processes, ICT Services, Climate change, viral diseases, natural product
University of Technology, Jamaica
Faculty of Engineering and Computing - Graduate Studies Research and Enterpreneurship FGSRE
237 Old Hope Road KIngston 6
www.utech.edu.jm
University or Higher Education. Public. National (located only in your country)
Research Masters programme(s), PhD programmes
Dr. Felix Akinladejo, Vice Dean, 1-876-9704309, [email protected],
Tribology, Mechanical Engineering, Computer Science, Alternative/Renewable Energy, Internet Security, Identity Management
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MONTSERRAT
Montserrat Volcano Observatory MVO
Flemmings, Montserrat West Indies
www.mvo.ms
Government Agency. Both. National (located only in your country)
No postgraduate programmes
Dr. Paul Cole, Director, [email protected]
Volcanology, Monitoring, Surveillance, Petrology
ST KITTS & NEVIS
Ross University School of Vetinary Medicine Research RUSVM
P.O. Box 334
www.rossu.edu
University or Higher Education. Private. International (located also beyond the Caribbean)
No postgraduate programmes
Dr. Rosina Krecek, Associate Dean for Research, 1 869 465 4161, ext 119, [email protected]
Public Health, Epidemiology, Zootonic Infections and Parasitic Diseases, Conservation Medicine, Novel Teaching , Methodologies
ST. LUCIA
Ministry of Agriculture, Lands, Forestry and Fisheries
Forestry Department MALFF; DFOR
Government Agency. Public. National (located only in your country)
No postgraduate programmes
Mr. Andrew Gaspard, CHIEF FOREST OFFICER, 7584502078; 7584685634; 7584685635;7585207065, [email protected];[email protected]
Sustainable Livelihoods, Participatory, Low costs, Conservation, Rural economy
ST.VINCENT AND THE GRENADINES
Caribbean Agricultural Research and Development Institute
Root / Tuber Crops and Fruit Crops
CARDI, P.O.Box 594, Kingstown, St.Vincent and the Grenadines
www.cardi.org
Government Agency. Both. Regional (located also in other regional countries)
Research Masters programme(s), PhD programmes
Dr. Gregory Robin, CARDI Representative, OECS Technical Coordinator, 1 784 494 2715, 1 268 788 6988, 1 767 616 2715, [email protected]
Productivity, , Poast-harvest,Technical assistance, Training, Value adding
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TRINIDAD & TOBAGO
Seismic Reseach Centre SRC
The University of the West Indies, St. Augustine, Trinidad, W.I.
www.uwiseismic.com
University or Higher Education. Both. Regional (located also in other regional countries)
Research Masters programme(s), PhD programmes
Dr. Richard Robertson, Director, 868-662-4659, [email protected]
Physical Volcanology, Seismic Hazard and Risk Assessment, Natural Hazard and Risk Communication, ICT , Applications in monitoring geologic hazards, Seismology
Caribbean Epidemiology Centre
CAREC/ PAHO/ WHO
16-18 Jamaica Blvd., Federation Pk, Port of Spain, Trinidad
www.carec.org
International Public Health Agency of PAHO. Both. International (located also beyond the Caribbean)
No postgraduate programmes
Dr. Beryl Irons, Director, 1 868 622 4261 OR 1 868 622 4262, [email protected]
Public Health, Communicable Diseases, Non-Communical Diseases, Mortality Risk Factors
The University of the West Indies
Faculty of Medical Sciences
University or Higher Education. Both. Regional (located also in other regional countries)
Taught Masters programme(s), Research Masters programme(s), PhD programmes
Prof. Samuel Ramsewak, Campus Dean, 1 868 645 3232, [email protected]
Diabetes, Asthma, Child Dental Health, Tropical Medicine/ Diseases, Capacity building in HIV/ AIDS treatment
Caribbean Agricultural Research and Development Institute CARDI
P.O. Bag 212, University of the West Indies, St. Augustine Campus, St. Augustine, TRINIDAD AND TOBAGO
www.cardi.org
University or Higher Education. Both. Regional (located also in other regional countries)
No postgraduate programmes
Dr. H. Arlington Chesney D., Executive Director, 868-645-1205/1206/1207, [email protected]
Crops: Roots & Tubers, Hot Peppers, Fruits, Vegetables, Cereals and Grain Legumes, Small Ruminants, Natural Resource Management, New & Emerging Issues
Caribbean Natural Resources Institute CANARI
Fernandez Industrial Compound, Eastern Main Road, Laventille
www.canari.org
Private non-profit. Both0 Regional (located also in other regional countries)
No postgraduate programmes
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Ms., Nicole Leotaud, Executive Director, 868-626-6062, [email protected],
Participation, livelihoods, natural resources, Caribbean,
The University of the West Indies
Faculty of science and agriculture FSA
ST. AUGUSTINE, TRINIDAD
http://sta.uwi.edu/
University or Higher Education. Public. Regional (located also in other regional countries)
Taught Masters programme(s), Research Masters programme(s), PhD programmes
Prof. Dyer Narinesingh, PROFESSOR AND DEAN1-868-662-5012, [email protected]
Agri-food Systems, Material Science, Ecosystems services, Alternate energy, ICTs
University of Trinidad and Tobago UTT
Office of the Vice Provost
O'Meara Industrial Estate, Arima
www.edu.tt
University or Higher Education. Public. National (located only in your country)
Taught Masters programme(s), Research Masters programme(s), PhD programmes
Prof. Adel Sharaf, VICE PROVOST, 18686428888, [email protected]
Value Added Research, Technological innovation, Vanguard of Engineering, emerging technologies in the , National and global contexts Post Graduate Studies
U.W.I, St. Augustine
Department of Mathematics & Statisitcs DMS
St. Augustine Trinidad & Tobago
University or Higher Education. Public. Regional (located also in other regional countries)
Taught Masters programme(s), Research Masters programme(s), PhD programmes
Dr. Shanaz Wahid, HEAD OF DEPARTMENT, 868-498-6007, [email protected],
Applied Mathematics, High Performance Computing, E Learning, Fluid Dynamics
TURKS AND CAICOS ISLANDS
The School for Field Studies Center for Marine Resource Studies
SFS-CMRS
Turks and Caicos Islands
1 West Street, South Caicos, Turks and Caicos Islands
www.fieldstudies.org
University or Higher Education. Private. International (located also beyond the Caribbean)
No postgraduate programmes
Dr. John Claydon, Centre Director, +1 649 332 3365, [email protected]
Lionfish, Fisheries, socio-econ, tourism, tropical marine systems,