breeding the next generation of cassava varieties for africa: approaches to enhance productivity and...
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Expectations for Improved Cassava Breeding: Technologies,Productivity and MarketsTRANSCRIPT
Breeding the Next Generation of Cassava
Varieties for Africa:
Approaches to Enhance Productivity and
Market-Preferred Traits
Chiedozie Egesi, PhD
3rd April 2009, IITA, Ibadan
Background
Africa is the most food insecure continent
Severe stunting is estimated at 40% in children
under 5
Complex food insecurity driven by:
o Fast growing population
o Primordial agricultural sector
o Climatic change
Background
Decreasing per capita food production characterized
by:
o Poor yielding varieties
o Biotic and abiotic stresses
o Low or zero inputs
o Poorly organized markets
New driving forces defining food production,
consumption and markets
Urgent need for development and dissemination of
improved crop varieties
Background
Cassava is the most important staple food in Africa
after maize
Expanding production in drought-prone areas ideal
for food security programmes
Close to 100 million Nigerians eat cassava – based
food at least once a day
Still a subsistence crop except for a few countries
Features as a suitable commodity to drive Africa’s
economic development
Garri Business in Nigeria is very well-established
and is a strong commercial activity
Cassava
Modified Starch
Pharmaceuticals,
Processing inputs
Livestock feed
Processed foods
Industrial Starch (e.g., drilling)
EthanolFlour
Glue
Cassava Transformation
A Business Model Example
Integrated Cassava Project (ICP) implemented by IITA
and Nigerian National partners
Pre-emptive Management of Cassava Mosaic
Disease in Nigeria
Cassava Enterprises Development Project (CEDP)
The entire cassava value chain developed as a
business plan
Need to replicate this kind of integrated project in
other African countries
A Business Model
Good knowledge of the producers to consumers continuum
Application of modern science and technology and
conventional breeding, as well as increased partnerships
Develop and adapt science and technology, and find new
growth markets for cassava
Expectations for Improved Cassava
Breeding
Technologies Productivity Markets
Target: Increased Production, Productivity, Profitability
Recent Activities and
Achievements
National Pre-release Trials:
8-12 sites for each trial yearly; a
very broad range of agro-
ecological zones
High rainfall, disease epidemics
eg. CMD, CBB
Low rainfall, pest epidemics eg.
CGM, drought tolerance
Need for diversified end-use
products with better cooking or
nutritional qualities
Specific adaptation of varieties;
early maturity
Range: Humid forests, Savannas
and Arid agro-ecozones
Multi – environment and On-farm Adaptive Trials
Multi-site Trials in 2008-09
1 NR 02/0007 9 TMS 01/1412
2 NR 02/0018 10 TMS 98/2132
3 NR 03/0211 11 AR 37-108
4 NR 03/0174 12 AR 1-82
5 NR 03/0155 13 CR 12-45
6 TMS 01/1368 14 CR 36-5
7 TMS 01/1371 15 TMS 30572
8 TMS 01/1206 16 Local
National Pre-release Trials:
1. NR 01/0004
2. TMS 01/0040
3. TMS 00/0210
4. TMS 00/0203
5. CR 41-10
On-farm Adaptive Trials in
2009
National Pre-release Trials:
419
94/0039
97/2205
98/2226
95/0379
99/2123
91/02324
82/00058
98/0002
92/0057
M 98/0028
4(2)1425
M 98/0040
92/0067
99/6012
92/0325
30572
97/016294/0561
92/032695/0289
97/3200
94/0026
92B/00061
96/1642
95/0166
96/0603
96/0523
97/476996/1632
98/2101
97/0211 99/3073
98/0510
92B/00068
97/4779
98/0505
97/4763
M 98/006898/0581
UM UDIKE
ISHIAGU
OTOBI
-0.4
-0.2
0
0.2
0.4
0.6
0.8
1
-0.4 -0.2 0 0.2 0.4 0.6 0.8 1 1.2
PC1 = 60.32%; PC2 = 24.54%; Total = 84.86%
PC1 axis
PC
2 a
xis
Env1
Env2
Fast-tracked development and release of improved varieties with
specific adaptation
Identification of key mega-environments for optimal resource use
National Pre-release Trials:
GGE Biplot
Analysis
Officially Released Varieties in Nigeria
An active variety release and/or delivery pipeline
12 varieties released within 3 years
2005
TMS 98/0581
TMS 98/0505
TMS 98/0510
TMS 97/2205
TME 419
2006
NR 87184
TMS 98/0002
TMS 96/1632
TMS 92/0057
TMS 92/0326
2008
NR 930199
TMS 96/1089A
Breeding for micronutrient-dense varieties in
cassava
Micro-nutrient deficiency is endemic especially in
children and reproductive women in all the
cassava growing regions of Nigeria
Official estimates show that one third of Nigerian
children under 5 are deficient in vitamin A
A quarter of children under five are deficient in
iron consumption
Mitigating the ‘Hidden Hunger’ in Africa
Yellow and light yellow garri is
very common and popular in
local markets.
But the yellow colour is derived
from palm oil
Yellow garri has higher price
premium than white colour garri
by 30-60% in Nigeria!
Location
Ibadan Mokwa Onne Ubiaja Zaria
Mean 4.51 5.38 4.11 5.18 5.61
Min 0.60 0.80 0.00 0.40 0.70
Max 8.90 11.0 9.40 9.30 9.40
SD 1.92 2.22 2.23 2.13 2.40
CV (%) 42 37 35 41 42
Variation for carotene content (µg/g)
01/1368
Onne
Ikenne
98/212301/1277
01/164695/037994/0006
01/1206
94/033001/1380
01/1663
01/1371
01/133101/1224
01/141201/144201/1413
01/1649
Mokw a
Ubiaja
90/01554
96/1089ATME1
91/0232430572 Abuja
Ibadan
Zaria01/1335
01/1235
01/161001/140401/1273
Warri 01/1335
-2
-1.5
-1
-0.5
0
0.5
1
1.5
2
0 1 2 3 4 5 6 7 8 9 10
Mean total carotenoid (ug/g) FW
IPC
A1
Trait Correlations
Negative association
between dry matter
and carotene, Fe and
Zn contents. Linkage
drag?
But dry matter content
is crucial for adoption
Positive correlation
between Fe, Zn and
carotene
Candidates for Pre-release On-farm Adaptive Trials:
1. TMS 01/1371
2. TMS 01/1610
3. TMS 01/1277
4. TMS 01/1115
5. TMS 01/1412
6. TMS 01/1368
7. TMS 01/1663
Promotion of yellow root cassava in Nigeria
should become a priority and farmers mutually
share valuable resources
Diffusion of improved varieties is routine but
should be strengthened
Fast-tracked combined Demonstration and On-
farm adaptive trials an informal release strategy
National sensitization
- Regulatory agencies: NAFDAC, SON, State ADPs, NSS,
NGOs
Strategies for Reaching End-users
Target Areas: All cassava growing areas
Deliverables:
Short term: Intermediate levels of total carotene
(8-10 ug/g FW)
Medium term: At least 15 ug/g FW
Partnerships with nutritionists, agronomists,
etc.
Critical Next Steps
Critical need for adaptive breeding of yellow-flesh
varieties with local elite lines
Networking for sharing of germplasm and
information at regional (or sub-regional) level
Deliberate promotion of yellow roots for improved
health and livelihoods
Demonstration trials and Commercial scale
multiplication
Critical Next Steps
Adaptive Breeding: Clonal Evaluation Trials
2008-09
Proportion of Pro-Vitamin A Germplasm (n = 543)
35%
31%
26%
8%
White Cream Light Yellow Deep Yellow
New Cassava initiatives in Nigeria on production and
processing since 2002
40% increment in production from 2001 (32.07m MT) to
2006 (45.72m MT) – FAOSTAT, 2007
15% increment in area under cultivation from 2001
(3.3m Ha) to 2006 (3.81m Ha) – FAOSTAT, 2007
30 – 40% of cassava grown in Nigeria are improved
varieties
Standing policy on 10% cassava composite flour
Adoption of E-10 Policy for implementation
25% decline in cassava mosaic disease incidence
Impact of Achievements
Improved varieties that will drive down costs of
production, processing and marketing
Improve the quantity and quality of cassava
products for diversified uses
Making cassava products competitive with other
raw materials
A major food and cash crop in Africa that will
cause farmers to give more attention to their crop
husbandry
Vision for the Cassava Sub-sector
Constraints
Post-harvest physiological deterioration
Long breeding cycle
Changing climate
Wide yield gaps
Insufficient planting materials
Emerging pest and disease threats
Untapped markets
Bulkiness and perishability
Constraints: pests and diseases
Green spider
mite
Cassava
bacterial
blight
Cassava
mealybug
Cassava Brown
Streak DiseaseWhiteflies
Cassava Mosaic
Disease
MCOL 1505:
27.8%
MBRA 337:
9.48%
CM 523-7:
51.9%
CW 429-1:
0%
Delayed post-harvest physiological deterioration F1
hybrid of Manihot walkerae 14 days after harvest
Urgent Research Needs
Delayed post-harvest physiological deterioration
Drought tolerance
Enhanced nutritional quality
Multiple resistance to pests and diseases (pyramiding)
Nutrient responsiveness
Industrial high value root quality
Germplasm management
Genotype – neutral regeneration technologies
Herbicide resistance
Efficient and effective seed delivery systems
Next Generation of Varieties
Multiple resistance genes for durable resistance to new
pest threats
Enhanced nutritional contents (micronutrients and
high protein) in the storage roots
Delayed postharvest physiological deterioration of
roots
High starch yields (quantity and quality) per unit time
and area
Low cyanogenic potential
Next Generation of Varieties
Drought resistant
Nutrient-use efficiency
Herbicide resistant (Round-up Ready)
High dry matter yield per unit time and area
Increased sugar content of roots
Mechanisms for Delivery
A Breeding Tool Box:
Field-based breeding
Marker-assisted breeding
Genetic modification
A seamless continuum of all 3 will deliver varieties with
attributes desired by different end-users and markets
Other avenues:
Induced mutations
Ploidy manipulation
Dist MarkercM Name
rGY1157.9
rGY9
15.6
rGY1
16.1
rSSRY2811.3
Ai19
CMD2
R
Pyramiding Multiple Sources of CMD Resistance Genes for MAS
DY66
18.5rI18b
20.5
rJ1a
20.0
rGY57
21.0
rGY25
21.2
SSRY9
23.9
SSRY316.2
SSRY23CMD1
Fregene et al. 2000
Akano et al. 2001
M
SSRY182
SSRY102
24.4
SSRY230
16.6
Ns9059.1
GY3911.2
SSRY299
NS170
SSRY182
SSRY102
24.4
SSRY230
16.6
Ns9059.1
GY3911.2
SSRY299
SSRY102
24.4
SSRY230
16.6
Ns9059.1
GY3911.2
SSRY299
CMD3
CIAT 2007
Achieving Set Targets
Pre-breeding and Breeding
Combining and fixing of new traits derivable from
primary and secondary gene pools in elite parents
through inbreeding
Wide distribution of the new parents to NARs for
breeding with locally preferred resistant germplasm
MAS will help in efficiently reducing breeding
population by selecting only those with desirable genes
Strategic germplasm exchanges
Achieving Set Targets
Engaging private sector in the value chain
development especially in markets
Adopting models and strategies such as CLAYUCA and
Thai Tapioca Development Institute (TTDI) in sub-
regions in Africa
Strategic engagement and empowerment of NARs in all
stages of product development
Partnerships with relevant ARIs and CGIAR centers
Indicators
Varieties with long shelf life
Little or no yield loss due to water stress
Novel starch types
Enhanced nutritional status
Increased nitrogen use efficiency
Higher dry matter yield
Herbicide resistance
Indicators
Aggressive dissemination of improved varieties
Cassava value chain development
Enabling government policies
Integration of field-based and molecular breeding
as well as genetic modification
Increased alliances between NARs, IARs and ARIs
Cassava Breeding Community of Practice for
Africa
Capacity Building
Raising the next generation of cassava breeders,
combining field-based and molecular breeding:
Partnerships with AGRA
Universities
ACCI, Orange Free State Univ., South Africa
WACCI, Univ. of Ghana
Universities of agriculture
Generation Challenge Programme (CoP)
Contingencies
Continued support from management
Support from the CGIAR
Support from the Nigerian and other African
governments
Development agencies in agriculture
Recent Externally – funded Cassava Breeding Projects at NRCRI
1. Development of Low-Cost Marker Technologies for Pyramiding
Useful Gene from Wild Relatives of Cassava into Elite
Progenitors (GCP)
2. SSR Diversity of Elite Cassava Varieties in Nigeria (GCP)
3. SSR Tagging of New Genes for Resistance to Cassava Mosaic
Disease – Genotyping Support Service (GSS-GCP)
4. Marker-Aided Development of Nutritionally Enhanced
Cassava for Nigeria (GCP)
5. Cassava breeding Community of Practice for Africa (GCP)
6. Mutation Breeding (IAEA)
Partnerships
African NARs
AGRA
CORAF/WECARD
ASARECA
FARA
NEPAD
IFAD
USAID
BMGF
BioCassava Plus
Farmers’ Associations
Harvest Plus
Generation Challenge Programme
CIAT
Hellen Keller
IAEA
EMBRAPA
Private Sector
Other Researchers
Other Stakeholders
Many
Thanks!