Integrated energy-water-land nexus planning in the Colorado River Basin (Argentina)

Integrated energy-water-land (EWL) planning promotes synergies and avoids conflicts in ways that sector-specific planning approaches cannot. Many important decisions that influence emerging EWL nexus issues are implemented at regional (e.g., large river basin, electricity grid) and sub-regional (e.g...

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Bibliographic Details
Published in:Regional environmental change 2021-09, Vol.21 (3), p.62-62, Article 62
Main Authors: Wild, Thomas B., Khan, Zarrar, Clarke, Leon, Hejazi, Mohamad, Bereslawski, Julia Lacal, Suriano, Micaela, Roberts, Paula, Casado, José, Miralles-Wilhelm, Fernando, Gavino-Novillo, Marcelo, Muñoz-Castillo, Raul, Moreda, Fekadu, Zhao, Mengqi, Yarlagadda, Brinda, Lamontagne, Jonathan, Birnbaum, Abigail
Format: Article
Language:English
Subjects:
Agricultural development
Analysis
Aquatic resources
Argentina
basins
Climate Change
Climate Change/Climate Change Impacts
Colorado
Colorado River
Earth and Environmental Science
Economic development
Electric power grids
electricity
Electricity distribution
Environment
ENVIRONMENTAL SCIENCES
food-energy-water nexus
Fossil fuels
Geography
humans
input-output modeling
integrated assessment modeling
integrated energy-water-land planning
irrigation
Linkages
multisector dynamics
Nature Conservation
Oceanography
Original Article
Regional planning
Regional/Spatial Science
Regions
River basins
Rivers
stakeholders
Surface water
Water scarcity
water shortages
water stress
Water supply
watersheds
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Summary:Integrated energy-water-land (EWL) planning promotes synergies and avoids conflicts in ways that sector-specific planning approaches cannot. Many important decisions that influence emerging EWL nexus issues are implemented at regional (e.g., large river basin, electricity grid) and sub-regional (e.g., small river basin, irrigation district) scales. However, actual implementation of integrated planning at these scales has been limited. Simply collecting and visualizing data and interconnections across multiple sectors and sub-regions in a single modeling platform is a unique endeavor in many regions. This study introduces and applies a novel approach to linking together multiple sub-regions in a single platform to characterize and visualize EWL resource use, EWL system linkages within and among sub-regions, and the EWL nexus implications of future policies and investments. This integrated planning methodology is applied in the water-stressed Colorado River Basin in Argentina, which is facing increasing demands for agricultural and fossil fuel commodities. Guided by stakeholders, this study seeks to inform basin planning activities by characterizing and visualizing (1) the basin’s current state of EWL resources, (2) the linkages between sectors within and among basin sub-regions, and (3) the EWL nexus implications of planned future agricultural development activities. Results show that water scarcity, driven in part by human demands that have historically reached 60% of total surface water supply, poses a substantial constraint to economic development in the basin. The Colorado basin has the potential to serve as a testbed for crafting novel and generalizable sub-regional EWL planning approaches capable of informing the EWL planning dialogue globally.
ISSN:1436-3798
1436-378X
DOI:10.1007/s10113-021-01775-1