Abstract
Growing food in urban areas could solve a multitude of social and environmental problems. These potential benefits have resulted in an increased demand for urban agriculture (UA), though quantitative data is lacking on the feasibility of conversion to large-scale practices. This study uses multiple land use scenarios to determine different spaces that could be allocated to vegetable production in Montréal, including residential gardens, industrial rooftops and vacant space. Considering a range of both soil-bound and hydroponic yields, the ability of these scenarios to render Montréal self-sufficient in terms of vegetable production is assessed. The results show that the island could easily satisfy its vegetable demand if hydroponics are implemented on industrial rooftops, though these operations are generally costly. Using only vacant space, however, also has the potential to meet the city’s demand and requires lower operating costs. A performance index was developed to evaluate the potential of each borough to meet its own vegetable demand while still maintaining an elevated population density. Most boroughs outside of the downtown core are able to satisfy their vegetable demand efficiently due to their land use composition, though results vary greatly depending on the farming methods used, indicating the importance of farm management.
Highlights
In the face of a growing global population, food security has become a pressing concern [1]
In Island Scenario 4, albeit a very idealistic scenario, the vegetable demand could be met if all vacant space, industrial rooftops and specified residential garden space were utilized for urban agriculture (UA)
The analysis reveals that a strong potential exists for UA to play a significant role in meeting Montréal’s vegetable needs
Summary
In the face of a growing global population, food security has become a pressing concern [1]. Urban sprawl is continuously expanding onto natural landscapes [2,3] and is often located in the vicinity of very rich and fertile soil that could be useful for agriculture [4]. This worrying trend has been observed in several different parts of the world [5,6,7,8]. By 2025, two thirds of the world’s population will be concentrated in urban areas, increasing the importance of a resilient food system for city dwellers [9]. Diversifying food sources and becoming at least partially self-sufficient through UA is one way to increase the resiliency of food systems, as well as to ensure food security in urban areas [10,11]
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