TY - JOUR
T1 - Nature-based biopsychosocial resilience
T2 - An integrative theoretical framework for research on nature and health
AU - White, Mathew
AU - Hartig, Terry
AU - Martin, Leanne
AU - Pahl, Sabine
AU - van den Berg, Agnes E.
AU - Wells, Nancy M.
AU - Costongs, Caroline
AU - Dzhambov, Angel M.
AU - Elliott, Lewis R.
AU - Godfrey, Alba
AU - Hartl, Arnulf
AU - Konijnendijk, Cecil
AU - Litt, Jill S.
AU - Lovell, Rebecca
AU - Lymeus, Freddie
AU - O'Driscoll, Colm
AU - Pichler, Christina
AU - Pouso, Sarai
AU - Razani, Nooshin
AU - Secco, Laura
AU - Steininger, Maximilian
AU - Stigsdotter, Ulrika K.
AU - Uyarra, Maria
AU - van den Bosch, Matilda
PY - 2023/11
Y1 - 2023/11
N2 - Nature-based solutions including urban forests and wetlands can help communities cope better with climate change and other environmental stressors by enhancing social-ecological resilience. Natural ecosystems, settings, elements and affordances can also help individuals become more personally resilient to a variety of stressors, although the mechanisms underpinning individual-level nature-based resilience, and their relations to social-ecological resilience, are not well articulated. We propose ‘nature-based biopsychosocial resilience theory’ (NBRT) to address these gaps. Our framework begins by suggesting that individual-level resilience can refer to both: a) a person’s set of adaptive resources; and b) the processes by which these resources are deployed. Drawing on existing nature-health perspectives, we argue that nature contact can support individuals build and maintain biological, psychological, and social (i.e. biopsychosocial) resilience-related resources. Together with nature-based social-ecological resilience, these biopsychosocial resilience resources can: i) reduce the risk of various stressors (preventive resilience); ii) enhance adaptive reactions to stressful circumstances (response resilience), and/or iii) facilitate more rapid and/or complete recovery from stress (recovery resilience). Reference to these three resilience processes supports integration across more familiar pathways involving harm reduction, capacity building, and restoration. Evidence in support of the theory, potential interventions to promote nature-based biopsychosocial resilience, and issues that require further consideration are discussed.
AB - Nature-based solutions including urban forests and wetlands can help communities cope better with climate change and other environmental stressors by enhancing social-ecological resilience. Natural ecosystems, settings, elements and affordances can also help individuals become more personally resilient to a variety of stressors, although the mechanisms underpinning individual-level nature-based resilience, and their relations to social-ecological resilience, are not well articulated. We propose ‘nature-based biopsychosocial resilience theory’ (NBRT) to address these gaps. Our framework begins by suggesting that individual-level resilience can refer to both: a) a person’s set of adaptive resources; and b) the processes by which these resources are deployed. Drawing on existing nature-health perspectives, we argue that nature contact can support individuals build and maintain biological, psychological, and social (i.e. biopsychosocial) resilience-related resources. Together with nature-based social-ecological resilience, these biopsychosocial resilience resources can: i) reduce the risk of various stressors (preventive resilience); ii) enhance adaptive reactions to stressful circumstances (response resilience), and/or iii) facilitate more rapid and/or complete recovery from stress (recovery resilience). Reference to these three resilience processes supports integration across more familiar pathways involving harm reduction, capacity building, and restoration. Evidence in support of the theory, potential interventions to promote nature-based biopsychosocial resilience, and issues that require further consideration are discussed.
KW - Nature-based solutions
KW - Nature-based therapies
KW - Greenspace
KW - Bluespace
KW - Coping
UR - http://www.scopus.com/inward/record.url?scp=85174514595&partnerID=8YFLogxK
U2 - 10.1016/j.envint.2023.108234
DO - 10.1016/j.envint.2023.108234
M3 - Review
C2 - 37832260
VL - 181
JO - Environment International
JF - Environment International
SN - 0160-4120
M1 - 108234
ER -