Prospects for Rooftop Farming System Dynamics: An Action to Stimulate Water-Energy-Food Nexus Synergies toward Green Cities of Tomorrow

Rooftop farming is a practical solution of smart urban agriculture to furnish diverse socio-environmental benefits and short food supply chains, especially in densely populated cities. This study aims to raise urban food security with less use of public water and energy in food production, through u...

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Veröffentlicht in:	Sustainability 2021-08, Vol.13 (16), p.9042
Hauptverfasser:	Huang, Angela, Chang, Fi-John
Format:	Artikel
Sprache:	eng
Schlagworte:	Agriculture Case studies Cities Clean energy Climate change COVID-19 Drinking water Energy Energy utilization Farming Farming systems Farms Food Food chains Food production Food security Food supply Gardens & gardening Humidity Onsite Photovoltaics Population density Potatoes Public waters Radiation Rain Rain water Rainwater recovery systems Self sufficiency Solar power Supply chains Sustainability Sustainability management Sustainable development System dynamics Urban agriculture Urban areas Urban farming Urban planning Vegetables Water harvesting
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container_title	Sustainability
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creator	Huang, Angela Chang, Fi-John
description	Rooftop farming is a practical solution of smart urban agriculture to furnish diverse socio-environmental benefits and short food supply chains, especially in densely populated cities. This study aims to raise urban food security with less use of public water and energy in food production, through utilizing green water and energy for sustainable management. A system dynamics (SD) model framed across the nexus of climate, water, energy and food (WEF) sectors is developed for a rooftop farm in Taipei City of Taiwan. The urban WEF Nexus is structured to address how local weather affects water and energy utilization to grow vegetables. The SD results showed that the annual yields of sweet potato leaves achieved 9.3 kg/m2, at the cost of 3.8 ton/m2 of harvested rainwater and 2.1 ton/m2 of tap water together with 2.1 kwh/m2 of solar photovoltaic power and 0.4 kwh/m2 of public electricity. This study not only demonstrates that green resources show great potential to make a significant reduction in consuming urban irrigation resources for rooftop farming, but contributes to urban planning through a sustainable in situ WEF Nexus mechanism at a city scale. The WEF Nexus can manifest the rooftop farming promotion as cogent development to facilitate urban sustainability.
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subjects	Agriculture Case studies Cities Clean energy Climate change COVID-19 Drinking water Energy Energy utilization Farming Farming systems Farms Food Food chains Food production Food security Food supply Gardens & gardening Humidity Onsite Photovoltaics Population density Potatoes Public waters Radiation Rain Rain water Rainwater recovery systems Self sufficiency Solar power Supply chains Sustainability Sustainability management Sustainable development System dynamics Urban agriculture Urban areas Urban farming Urban planning Vegetables Water harvesting
title	Prospects for Rooftop Farming System Dynamics: An Action to Stimulate Water-Energy-Food Nexus Synergies toward Green Cities of Tomorrow
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