Urban Cultivate uses an interdisciplinary approach to cover all areas of human and urban development. The methods of the project covers the biological, social and architectural concerns of urban areas.
The methodology of the project is primarily spatial, where software is used to integrate the different disciplines required to get a holistic picture of urban agriculture.
The project has developed a new decision-making dashboard for urban food growers and land-use planners. The dashboard is used to identify underutilised spaces in the London Borough of Islington, assess these spaces with respect to environmental, spatial, and social data, and suggest which spaces would be best for an array of food growing functions (e.g., composting, cultivation, food vending, etc).
(add in as a tool for the community)
Spatial Analysis
Space syntax is a tool that analyses urban spaces in order to identify areas that are ideal for urban agriculture. By mapping connectivity and accessibility, this approach helps policymakers to make informed decisions on allocating resources for urban agriculture projects. This reduces barriers for residents and promotes sustainability and resilience by creating localised food production networks, reducing the negative impact of food transportation.
Apart from looking at and considering the spatial layout of the urban environment, the research team also engages with the collecting of soil data to further improve the location and engagement of urban growing. By incorporating data on factors such as soil quality, water availability and microclimates, areas that are particularly well-suited for specific types of crops or growing techniques can be identified.
For example, areas with high-quality soil may be more conducive to large-scale vegetable production. By using environmental data to inform decisions on where and how to grow food in urban areas, we can maximise yield and promote sustainable practices.
Our tools incorporate the engagement of community members in the urban agriculture process. By involving residents weighing one preference over another, we can empower them to take ownership of their food systems and become more invested in the success of urban agriculture initiatives.
Urban agriculture initiatives hence promote social cohesion, provide fresh and healthy food options, and address food insecurity and diet-related illnesses. In conclusion, leveraging space syntax to identify urban areas for growing food promotes sustainability, social equity, and healthy living.
Environmental Science
Soil Engineering