Thrust Areas Ecosystem Water Institute Classification Level
Water, Land Use and Ecosystems Water and Climate Water and Society Water Resources Sustainability Springs Wetlands Watersheds Aquifers Lakes Coastal Zone  Water Institute Classification 1  Water Institute Classification 2  Water Institute Classification 3  Water Institute Classification 4
     

Understanding and Predicting the Impact of Climate Variability and Climate Change on Land Use and Land Cover Change via Socio-Economic Institutions in Southern Africa
Goals and Objectives
 
This project develops a temporally and spatially multi-scaled understanding of the relationships between land-cover and land-use change (LCLUC), and climatic shifts in three watersheds within four southern African nations. We are analyzing these relationships at the watershed scale - as bounded hydrological basins - a compelling analytical framework for climate-society interactions. The research is necessarily transdisciplinary, crosscutting and has broader impacts that reach beyond the confines of academia. We propose research that asks "how does climate variability and climate change influence land use and land cover change as it works through socioeconomic institutions?" In answering this question we test the resilience of southern Africa's socioecological systems, enhance remote sensing applications, and provide climate scenario models. The intellectual and methodological merits of this proposal arise in the mixed methods approaches designed to validate object-oriented models of human-environment interactions. Our research will use established databases and models integrated with novel uncertainty and global sensitivity analysis tools to systematically address uncertainty issues within a practical, integrated governance/land use analysis framework. We employ historical climate, LCLUC data and recent remote sensing and socioeconomic surveys to validate and calibrate our models. These models enable scenario testing for future climate variability and coupled socioecological responses. In terms of the broader impacts of this project, these scenarios promise to enhance our ability to plan for sustainable use of natural resources, lessen human misery in marginal areas of the world threatened by climate change, and develop the next generation of environmental researchers trained to work across disciplines. NASA and associated researchers benefit from this research through experimental and advanced use of remotely sensed images (MODIS, LANDSAT, ASTER) that push the applications of space based sensors and further the integration of these sensors with on-the-ground academic and applied research.
 
Planned Outputs
Refeereed Journal Articles
Theses and Dissertations
 
Available Outputs
Title: Climate, land-use/land-cover change and institutional response: A multi-scalar approach to human-environment interactions in southern Africa
Authors: Gaughan, A.E., Stevens, F.R., Gibbes, C., Southworth, J., Keys, E., Child, B., Waylen, P., Kiker, G., Munoz-Carpena, R., and M.W. Binford
Project Lead
Southworth, Jane
 
Project Participants
Kiker, Gregory A
Southworth, Jane
 
Additional Participants
Michael Binford
Brian Child
Eric Keys
Rafael Munoz-Carpena
Youliang Qiu
Peter Waylen
 
WIClassLevel: 
Level 2: WI Assisted Project
 
ThrustArea: 
Water and Climate
Water and Society
Water, Land Use and Ecosystems
 
Sponsor
NASA
 
Grant Award Dates
5/1/2009 to 5/1/2013