BIOphilic MetroPOLIS, a holistic model for urban planning and building climate resilience

Funding programme
H2020
Project ID
PR-H2020-07
Key
RIDB_212
Acronym
BIO-POLIS
Description
In the Anthropocene climate change is the greatest threat to socio-economical prosperity, environmental and human health as well as a priority in the European and Global Agenda. In an increasing and unbalanced urban planet, metropolises play a key role in addressing climate challenge but this requires a significant paradigm shift in urban planning. Nature contributes to urban climate and improves the quality of life. The growing attention to biophilic design confirms this power. BIO-POLIS aims to promote biophilic metropolis as a holistic urban model able to enhance livability restoring the man-nature relationship and to drive decision-makers in placing nature at the core of planning as the most ecological strategy to build climate resilience. The research is designed as a comparative study among overpopulated zonobiomes. Through an integrated, interdisciplinary and cross-scale method, it will advance the framework on Biophilic Urbanism, map the natural capital by digitalisation, explore biophilic features and processes, assess the biophilic potential in building climate resilience, provide an atlas of biophilic mitigation and adaption nature-based solutions in different biomes. The proposal will have multiple impacts. The biophilic guiding model aspires to turn the functional approach of city planning into a scientific one based on the human-nature interaction. Project results will influence citizens increasing public awareness of urban nature and inspiring biophilic lifestyle. Comparing various geo-contexts will encourage international cooperation among cities and partner institutions towards global and local strategies and boost the European role in R&I for sustainable development and climate change. The excellence of partners will offer me the best training and research experience to become an expert in urban challenges, complementary knowledge to be transferred, advanced skills and a leading network to maximise my career prospects both in and outside academia.
Lead entity
TECHNISCHE UNIVERSITEIT DELFT
Lead Country
Netherlands
Partners
-
Partners countries
Netherlands
Start end date
-
Time frame
2021 - 2024
NBS type
Type 3
Societal challenges
Climate Resilience
Water management
Approach
Ecosystem-based adaptation
Environment
Urban Ecosystems