Connecting the Water and Carbon Cycles for the Generation of Food Security and Ecosystem Services

Authors

  • Shivaan Burke Applied Modelling and Quantitative Methods Graduate Program, Trent University
  • Raul Poncé-Hernandez GEORESLAR Laboratory, Environmental and Resource Science and Department of Geography, Trent University

Keywords:

agroforestry, wastewater irrigation, carbon sequestration, water scarcity, food security, ecosystem services

Abstract

Water scarcity and food insecurity are pervasive issues in the developing world and are also intrinsically linked to one another. Through the connection of the water cycle and the carbon cycle this study illustrates that synergistic benefits can be realized by small scale farmers through the implementation of waste water irrigated agroforestry. The WaNuLCAS model is employed using La Huerta agroforestry site in Texcoco, South Central Mexico, as the basis for parameterization. The results of model simulations depicting scenarios of water scarcity and waste water irrigation clearly show that the addition of waste water greatly increases the agroforestry system’s generation of crop yields, above - and below-ground biomass, soil organic matter and carbon storage potential. This increase in carbon sequestration by the system translates into better local food security, diversified household income through payments for ecosystem services and contributes to the mitigation of global climate change.

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Published

2019-07-05

How to Cite

Burke, S., & Poncé-Hernandez, R. (2019). Connecting the Water and Carbon Cycles for the Generation of Food Security and Ecosystem Services. Future of Food: Journal on Food, Agriculture and Society, 2(1), 8–20. Retrieved from https://thefutureoffoodjournal.com/manuscript/index.php/FOFJ/article/view/226

Issue

Section

Research Articles