Author
Steiner, Jean | |
Gowda, Prasanna | |
Garbrecht, Jurgen | |
Brauer, David | |
Howell, Terry | |
MOJARRO, FRANCISCO - Autonomous University Of Zacatecas | |
BAUTISTA, CARLOS - Autonomous University Of Zacatecas | |
JUNEZ, HUGO - Autonomous University Of Zacatecas | |
AVILA, ROBERTO - Autonomous University Of Zacatecas | |
ECHEVARRIA, FRANCISCO - Instituto Nacional De Investigaciones Forestales Y Agropecuarias (INIFAP) | |
SERNA, ALFONSO - Instituto Nacional De Investigaciones Forestales Y Agropecuarias (INIFAP) | |
DIAZ, JUAN CARLOS - University Of Georgia |
Submitted to: USDA Miscellaneous Publication 1343
Publication Type: Abstract Only Publication Acceptance Date: 2/18/2011 Publication Date: N/A Citation: N/A Interpretive Summary: Abstract only. Technical Abstract: Groundwater aquifers, which supply water for billions of the world’s inhabitants, are under stress due to increasing human population, water demand for economic development, and environmental constraints. Projected climate change increases uncertainty regarding sustainability of groundwater systems. A coalition was formed to address aquifer management in the state of Zacatecas, Mexico; Oklahoma, USA: and the Ogallala Aquifer in the Southern High Plains of the USA, including stakeholder groups, university, federal, state, and local researchers, educators, and policy makers in each region. The framework developed has broad applicability to other regions with depleting aquifers. Surface and subsurface hydrology models are being linked to address climate, technology, management, and policy scenarios of interest in the Calera Aquifer Region (CAR) located in central Zacatecas. With 300,000 inhabitants (27% of the state population), the CAR accounts for 13% of employment and 73% of gross domestic product in the state. Limited rainfall, inefficient irrigation, and growing urban and industrial water demand contribute to unacceptable rates of decline in the groundwater levels. Scenarios of interest to water managers and stakeholders in the CAR include adoption of efficient irrigation technologies, conversion to rainfed crops or crops with lower irrigation requirement, conversion to high value crops to maintain economic viability in communities, and restoration of degraded rangelands to enhance recharge. The paper will present the framework for analysis of these scenarios to provide better decision support to organizations and individuals who must develop and implement policy to reduce groundwater depletion. |