Litcius/Paper detail

Adapting to climate change in arid agricultural systems: An optimization model for water-energy-food nexus sustainability

Riza Radmehr, B. Wade Brorsen, Samira Shayanmehr

2024Agricultural Water Management24 citationsDOIOpen Access PDF

Abstract

Sustainable management of water, energy, and food (WEF) under climate change will be a significant challenge for arid agricultural systems. This study developed a fractional non-linear multi-objective programming (FNLMOP) model to optimize resource allocation and improve agricultural sustainability in these systems under climate change. The model was designed in the framework of the WEF nexus to simultaneously improved energy productivity (profit/energy), and water productivity (profit/water), while mitigating environmental damage (damage to groundwater resources/output) and ensuring food security in an arid watershed in Iran. The long Ashton research station weather generator (LARS-WG) and the coupled model intercomparison project 6 (CMIP6) were employed to project climate parameters for both future dry and wet conditions. The sustainability of the optimal solutions was then assessed using a hybrid criteria importance through intercriteria correlation (CRITIC)-VIKOR approach. The optimal solutions revealed a reduction in the land under cultivation and produced less water-intensive crops. The optimization model can ensure WEF security, enhancing agricultural system sustainability by optimizing crop cultivation patterns and resource allocation. Current crop choices were highly inefficient with the bigger changes being from the current crops to optimal crops. Climate change showed a substantial but lesser influence on optimal crop choice.

Topics & Concepts

Nexus (standard)SustainabilityClimate changeAgricultureAridWater energyFood energyEnvironmental scienceNatural resource economicsWater useEnvironmental resource managementEnvironmental economicsWater resource managementGeographyEconomicsComputer scienceEcologyBiologyBiochemistryArchaeologyChemistryEmbedded systemWater-Energy-Food Nexus StudiesEnvironmental Impact and SustainabilityWater resources management and optimization