c fs pr fr fr c-05 human impacts on urban subsurface ... · subsurface conditions merit particular...
TRANSCRIPT
14
Project LeaderTANIGUCHI Makoto RIHN
Project objectives Most global environmental studies have focused on above ground environments. Subsurface environments, though they are involved in biogeochemical circulations and are critical to overall environmental quality, have been largely ignored, perhaps because of their invisibility and difficulty of evaluation. Subsurface environmental problems such as subsidence and groundwater contami-nation are repeatedly manifest in major Asian cities, though there is often a time lag between the “stage” of urban development and recognition of subsurface impacts. It may be possible to assess and improve future urban environments through understanding of urban
areas’ historical impact on surface environments. This project investigates subsurface environmental
conditions in Tokyo, Osaka, Bangkok, Jakarta, Seoul, Taipei and Manila. The relationships between these cit-ies’ historical development and their impact on subsur-face environments will be assessed by socio-economical analyses and historical records. Hydrogeochemical and in-situ/satellite-GRACE gravity data will describe groundwater flow systems and changes in groundwater
http://www.chikyu.ac.jp/USE/ C-05
2004 2005 2006 2007 2008 2009 2010FS PR FR① FR② FR③ FR④ FR⑤
This project assesses the effect of human activities on urban subsurface environments, an important but largely unexamined field of human-environmental interactions. Subsurface conditions merit particular attention in Asian coastal cities where population numbers, urban density and use of subsurface environments have expanded rapidly. The primary goals of this project are to evaluate the relationships between urban development and subsurface environmental problems such as extreme subsidence, groundwater contamination, and thermal anomalies associated with the urban “heat island” effect, and to provide ecommendations of how these impacts can be addressed or voided in the seven Asian coastal cities under study.
Human Impacts on Urban Subsurface Environments
YOSHIKOSHI Akihisa College of Letters, Ritsumeikan University YAMANO Makoto Earthquake Research Institute, The University of Tokyo KANEKO Shinji Graduate School for International Development and Cooperation, Hiroshima UniversityONODERA Shin-ichi Graduate School of Integrated Arts and Sciences, Hiroshima University FUKUDA Yoichi Graduate School of Science, Kyoto University SHIMADA Jun Faculty of Science, Kumamoto UniversityNAKANO Takanori RIHNENDO Takahiro RIHNSIRINGAN, Fernando University of the PhilippinesDELINOM, Robert Indonesia Institute of ScienceWANG Chung-Ho Academia Sinica, TaiwanBUAPENG Somkid Ministry of Natural Resources and Environment, ThailandLEE Backjin KRIHS, Korea
Core Members
Prof. Taniguchi earned a doctorate in hydrology from the University of Tsukuba. In addition to his work at RIHN he is a leader of the UNESCO-GRAPHIC Project “Groundwater Resources Assessment under the Pressures of Humanity and Climate Change”, and vice president of the International Committee of Groundwater
of the IAHS/IUGG. He has published several books and journal articles on hydrology, geophysics and environmental science.
Subsurface environment
M. Taniguchi
Urban Geography: A. Yoshikoshi
Sub-surface thermalanomalies: M. Yamano
Groundwater: J. ShimadaGravity: Y. Fukuda , K. Yamamoto
S. Onodera T. Nakano
Urban
Water
Heat
Material
Database: T. Toyoda
Integrativemodel : J. Yasumoto
Institutions/Religion: T. Endo
Cross-cutting
Social Economy: S. Kaneko
Figure 1 Research Structure Figure 2 Cross-cutting analysis: Integrated models
The model working group (MWG) integrates observed data and constructs a framework that allows comparative analysis of the seven cities.
The groundwater models are used to estimate the total impact of natural and human processes on subsurface environments.
Groundwater storage and flow patterns are quantitatively modeled.
Circulation
15
storage, and indicate where significant problems in sub-surface environments exist. Chemical analyses of sub-surface waters, sediments and tracers will allow us to evaluate contaminant accumulation and their transport from land to ocean. Finally, we will use urban meteoro-logical analyses to reconstruct surface temperature his-tories in the seven cities and to examine the impact of the urban “heat island” effect on subsurface thermal contamination.
Progress in 2008Subsurface environment in targeted cities have been sur-veyed, and monitoring of subsurface environments in Bangkok, Jakarta, Manila, Seoul, Taipei, Tokyo and Osaka is ongoing.
Natural and social data have been assessed in each city, and compiled into a GIS database. Based on this data, land use/cover maps of 0.5 km mesh were composed for each city at three development stages (1930s, 1970s, and 2000s)
RIHN project members co-organized the interna-
tional symposium, HydroChange2008, based on which the book “From Headwater to the Ocean” was published by CRC press (2008).
Several cross-cutting themes, such as the relation between groundwater and religious sites and beliefs in Bangkok and Jakarta, have been identified and investi-gated.
Interim results of the project were published as a spe-cial issue of the journal Science of the Total Environ-ment (STOTEN vol. 407[9], 2009), which included an overview of the project and 15 original papers.
Future works and challengesAnalysis of water use and quality in relation to public/private water rights and the distinct regulatory histories of surface and groundwater in the various cities.
The Model Working Group has been formed in order to integrate the impacts of economics, water resources, environmental loads, and policy on subsurface environ-ments.
Land use/cover data taken at three dates (1930s, 1970s and 2000s) in the study cities will be used to evaluate the rate of groundwater recharge, thermal storage in aquifer, and subsurface contamination.
62 7877767574737271706967651958
100
90
80
70
60
50
40
30
20
10
0
4.50
4.00
3.50
3.00
2.50
2.00
1.50
1.00
0.50
0.00
25
20
15
10
5
0
35
30
25
20
15
10
5
0
% %
1950 55 60 65 70 75 80 85 90 95 2000 05
BangkokVolume of water supply by Metropolitan Water Authority
Groundwater use ratio (volume of groundwater pumping / volume of water supply by Metropolitan Water Authority)
’77 Groundwater Act
‘83 Measures on Mitigation of Groundwater Crisis and Land Subsidence in Bangkok Metropolis
‘85 Groundwater Charge System’04 Groundwater Preservation Charge System
’56 Industrial Water Law’62 Industrial Water Law amended
0.1 million / day 0.1 million / dayGroundwater dependence ratio in industrial sector(volume of groundwater pumping /volume of water supply by industrial waterworks)
Volume of groundwater pumping for industrial uses
Volume of water supply by industrial waterworks
Osaka
Volume of groundwater pumping
1930s 1970s 2000sRailway
Land-cover/useForestGrass & WastelandPaddy fieldAgriculture fieldIndustriesResidentialWater & Wetland
OtherOcean
Figure 4Cross-cutting themes: Legal institutionsThis figure demonstrates that appropriate regulation and balanced use of surface- and ground-water can reduce inefficient use. In both Osaka and Bangkok, facilitating access to abundant surface water reduced use of groundwater.
Figure 3 Cross-cutting analysis : GIS working group
Changes in land use/cover in Osaka. Residential areas have expanded along the railway corridors.