Abstract
Food security is essential to sustain human societies. Food production is often limited by scarcities in one or more of these resources. An integrated Water-Energy-Food (W-E-F) Nexus planning and management approach promises improved resource efficiencies, new business opportunities, more coherent resource and environmental policies, and economies of scale for the data and information services underpinning better decision-making. This paper distils discussions on data and information from four regional workshops held as part of a Future Earth W-E-F Nexus Cluster project. The workshops aimed to enhance integrated management through better governance; collecting, analyzing, and communicating data and information; and integrating both for better planning and decision-making. Opportunities for enhancing food, energy, and water sustainability decisions through a data and information system are the focus of this paper. Data from each sector are needed to provide a full overview of the W-E-F Nexus. Relevant datasets and potential satellite products for water include water quality, watershed use change, snow and glacier monitoring, wetlands monitoring, water reservoir mapping, irrigation water management, aquifer monitoring, and measurements of critical water variables like precipitation, soil moisture, and evapotranspiration. Food and agricultural products include land use change maps, crop type mapping, crop acreage mapping, early warning indicators, yield assessment, precision agriculture, land degradation, clear-cut and burnt area maps, and soil moisture. Energy products include geological mapping, habitat assessment maps, logistic planning support, mine waste monitoring, renewable energy monitoring and mapping, and crop yield estimates for biofuels. However, specific priorities for W-E-F Nexus data products await further guidance from the W-E-F Nexus community. Data and information, along with modern technologies, can play a role in facilitating the paradigm shifts that benefit the W-E-F Nexus: explicitly assessing environmental services, meeting the growing urban food demand, valuing water and other resources used to produce food and energy for export, promoting resource use efficiency through integrated planning and management, and strengthening links between the W-E-F Nexus and the appropriate Sustainable Development Goals (SDGs). This paper explores the hypothesis that a properly defined system that integrates and consolidates W-E-F Nexus information and data could support the implementation of a W-E-F Nexus approach.
Highlights
Providing adequate food for the world’s growing population is a major challenge
This paper described the opportunities for bringing data from the latest observational systems together within a new multidisciplinary data and information platform design to support the implementation of an integrated W-E-F Nexus planning and decision-making management approach
While the plan is ambitious, it is more focused than most of the other W-E-F Nexus implementation approaches that were discussed during the W-E-F Nexus regional workshops
Summary
Providing adequate food for the world’s growing population is a major challenge. Developing the necessary food production capabilities will require more effective and sustainable use of key input resources, most notably water and energy. Each of the workshops included sessions on in situ and satellite data sources and applications for decision-making and planning Their findings have been documented and are available at http://water-future. Global water use estimates in agriculture and forestry are needed for improved management and to assess the feasibility of W-E-F Nexus trade-offs. Evidence-based decisionmaking depends on reliable observation systems that provide data for a risk assessment framework To make this approach feasible, W-E-F Nexus management must have access to all reliable data and information services whenever needed. It draws on the discussions held during the regional workshops in which participants gave their views on data needs. Their satellites provide data from the same domain every 30 min or less over their field of coverage overcoming the low repeat times associated with observations from polarorbiting satellites
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