Designing green spaces for biodiversity and human well-being. Designing green spaces for biodiversity and human well-being . This project aims to determine mechanisms linking urban design to socio-ecological benefits from green spaces. Ecological restoration in urban green space could attract more biodiversity into urban environments, reduce maintenance costs, provide market advantage for the development industry and improve a sense of place for residents. However, how best to encourage biodiver ....Designing green spaces for biodiversity and human well-being. Designing green spaces for biodiversity and human well-being . This project aims to determine mechanisms linking urban design to socio-ecological benefits from green spaces. Ecological restoration in urban green space could attract more biodiversity into urban environments, reduce maintenance costs, provide market advantage for the development industry and improve a sense of place for residents. However, how best to encourage biodiversity using urban design is poorly understood, and little is known about how green spaces create health and well-being. This project will alter levels of green space design explanatory variables in modular experimental plots, in both Royal Park, the City of Melbourne’s largest public green space, and Melbourne’s CBD; conduct biodiversity and human wellbeing experiments; and develop urban design recommendations that support biodiversity and human wellbeing.Read moreRead less
Beyond green facades: integrating ecology and architecture. This project aims to develop a novel architectural paradigm that embeds ecological science, working with nature to design cities that are more resilient to environmental upheavals. Methods aim to overcome substantial theoretical and technical challenges to embedding quantitative ecology into architectural design processes, including the development of new approaches for measuring and evaluating biodiversity benefits of alternative urban ....Beyond green facades: integrating ecology and architecture. This project aims to develop a novel architectural paradigm that embeds ecological science, working with nature to design cities that are more resilient to environmental upheavals. Methods aim to overcome substantial theoretical and technical challenges to embedding quantitative ecology into architectural design processes, including the development of new approaches for measuring and evaluating biodiversity benefits of alternative urban designs, from the building to landscape scale. Expected outcomes include enhanced capacity for the built form to address biodiversity considerations through nature-based solutions. The case study designs developed in this project should represent a template for more habitable, liveable, sustainable cities.Read moreRead less