The food-water-climate nexus of green infrastructure: Examining ecosystem services trade-offs of peri-urban agriculture

Emission reduction, heat mitigation, and improved access to water and food provision are increasingly critical challenges for urban areas in the context of global climate change adaptation and mitigation. The revival of local agricultural production is often lauded as a potential nature-based solution. However, an expansion of peri-urban agriculture (peri-UA) may entail significant ecosystem trade-offs. This study explores the impacts on the foodwater-climate nexus of different scenarios of peri-urban agricultural expansion in a semi-arid, Mediterranean climate, addressing local food provision, freshwater use, local temperature regulation, global climate change mitigation, and the trade-offs thereof. We estimate food provision and irrigation water requirements based on a georeferenced urban metabolism approach along with atmospheric and biosphere models to examine four landuse scenarios in the Metropolitan Area of Barcelona. Our study reveals that a 31 % (+17.27 km(2)) and 115 % (+64.25 km(2)) increase in the current peri-UA in the AMB, results in an increase in local food production of 24 % (+16,503 tons year(-1)) and 86 % (+58,940 tons year(-1)), and irrigation water requirements by 10.0 % (+3.2 hm(3)) and 43.5 % (+14.1 hm(3)), respectively. The expansion of irrigated peri-UA potentially reduces near-surface temperatures by 0.7 degrees C, albeit temperature reductions in the densest urban areas are minimal. Since the additional peri-UA is achieved by replacing natural non-forested and forest areas, the simulations predict reductions in the net ecosystem productivity of up to 18.5 % and total carbon stocks by 3.3 %. This integrated approach combining urban metabolism and atmospheric modelling to determine the trade-offs appears to be a promising tool for informing land-use decision-making in the context of urban climate adaptation and mitigation.