![]() ![]() Energy requirement and economic analysis of citrus production in Turkey. Water and energy footprint of irrigated agriculture in the Mediterranean region. Water-energy-food (WEF) nexus tool 2.0: guiding integrative resource planning and decision-making. Reducing the reliance on nitrogen fertilizer for wheat production. The energy-water-food nexus: strategic analysis of technologies for transforming the urban metabolism. World Energy Outlook 2015 (International Energy Agency, 2015). ![]() Progress on Sanitation and Drinking Water: 2015 Update and MDG Assessment (WHO, UNICEP, 2015). The nexus across water, energy, land and food (WELF): potential for improved resource use efficiency? Curr. 78, 525–532 (2015).ĭevelopment and globalization: facts and figures. Waste heat and water recovery opportunities in California tomato paste processing. Energy-water nexus of wind power in China: the balancing act between CO 2 emissions and water consumption. Anatomy of a buzzword: the emergence of ‘the water-energy-food nexus’ in UK natural resource debates. ![]() The water-energy-food nexus: Is the increasing attention warranted, from either a research or policy perspective? Env. Overcoming food security challenges within an energy/water/food nexus (EWFN) approach. Advancing the Water-Energy-Food Nexus: Social Networks and Institutional Interplay in the Blue Nile Report 9290907991 (CGIAR Research Program on Water, Land and Ecosystems, 2014).ĭe Laurentiis, V., Hunt, V. Interdisciplinary research for ecosystem management. Ten principles for a landscape approach to reconciling agriculture, conservation, and other competing land uses. Integrated water resources management: Is it working? Int. Planetary boundaries: guiding human development on a changing planet. Humanity’s unsustainable environmental footprint. ![]() Changes in the global value of ecosystem services. Nature’s Services: Societal Dependence On Natural Ecosystems (Island Press, Washington DC, 1997).Ĭostanza, R. Irrigation-induced environmental changes around the Aral Sea: An integrated view from multiple satellite observations. IPCC Climate Change 2014: Synthesis Report (eds Core Writing Team, Pachauri, R. Systems integration for global sustainability. These include expanding nexus frameworks that consider interactions among more sectors, across scales, between adjacent and distant places, and linkages with Sustainable Development Goals incorporating overlooked drivers and regions diversifying nexus toolboxes and making these strategies central in policy-making and governance for integrated Sustainable Development Goal implementation. To further implement nexus approaches and realize their potential, we propose a systematic procedure and provide perspectives on future directions. No studies have explicitly quantified the contributions of nexus approaches to progress toward meeting the Sustainable Development Goals. However, application and implementation of nexus approaches are in their infancy. If well implemented, nexus approaches have the potential to reduce negative surprises and promote integrated planning, management and governance. Recent quantitative studies have revealed that nexus approaches can uncover synergies and detect trade-offs among sectors. Nexus approaches simultaneously examine interactions among multiple sectors. Many global challenges, though interconnected, have been addressed singly, at times reducing one problem while exacerbating others. ![]()
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