Assessing climate risk to support urban forests in a changing climate

Manuel Esperon-Rodriguez; Paul D. Rymer; Sally A. Power; David N. Barton; Paloma Cariñanos; Cynnamon Dobbs; Ana Alice Eleuterio; Francisco J. Escobedo; Richard Hauer; Martin Hermy; Ali Jahani; Jonathan C. Onyekwelu; Johan Östberg; Diane Pataki; Thomas B. Randrup; Tørres Rasmussen; Lara A. Roman; Alessio Russo; Charlie Shackleton; Ingjerd Solfjeld; Natalie S. van Doorn; Matthew J. Wells; Björn Wiström; Pengbo Yan; Jun Yang; Mark G. Tjoelker

doi:10.1002/ppp3.10240

Assessing climate risk to support urban forests in a changing climate

Manuel Esperon-Rodriguez^*, Paul D. Rymer, Sally A. Power, David N. Barton, Paloma Cariñanos, Cynnamon Dobbs, Ana Alice Eleuterio, Francisco J. Escobedo, Richard Hauer, Martin Hermy, Ali Jahani, Jonathan C. Onyekwelu, Johan Östberg, Diane Pataki, Thomas B. Randrup, Tørres Rasmussen, Lara A. Roman, Alessio Russo, Charlie Shackleton, Ingjerd SolfjeldNatalie S. van Doorn, Matthew J. Wells, Björn Wiström, Pengbo Yan, Jun Yang, Mark G. Tjoelker

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

32 Scopus citations

Abstract

Societal Impact Statement: Globally, cities are planning for resilience through urban greening initiatives as governments understand the importance of urban forests in improving quality of life and mitigating climate change. However, the persistence of urban forests and the ecosystem benefits they provide are threatened by climate change, and systematic assessments of causes of tree dieback and mortality in urban environments are rare. Long-term monitoring studies and adaptive management are needed to identify and prevent climate change-driven failures and mortality. Research and monitoring when coupled with systematic forecasting will enable governments to incorporate climate change resilience into urban forestry planning. Future scenarios in which urban forests are resilient or in decline will depend on the management and planning actions we make today. Summary: The management of urban forests is a key element of resilience planning in cities across the globe. Urban forests provide ecosystem services as well as other nature-based solutions to 4.2 billion people living in cities. However, to continue to do so effectively, urban forests need to be able to thrive in an increasingly changing climate. Trees in cities are vulnerable to extreme heat and drought events, which are predicted to increase in frequency and severity under climate change. Knowledge of species' vulnerability to climate change, therefore, is crucial to ensure provision of desired ecosystem benefits, improve species selection, maintain tree growth and reduce tree mortality, dieback and stress in urban forests. Yet, systematic assessments of causes of tree dieback and mortality in urban environments are rare. We reviewed the state of knowledge of tree mortality in urban forests globally, finding very few frameworks that enable detection of climate change impacts on urban forests and no long-term studies assessing climate change as a direct driver of urban tree dieback and mortality. The effects of climate change on urban forests remain poorly understood and quantified, constraining the ability of governments to incorporate climate change resilience into urban forestry planning.

Original language	English
Pages (from-to)	201-213
Number of pages	13
Journal	Plants People Planet
Volume	4
Issue number	3
DOIs	https://doi.org/10.1002/ppp3.10240
State	Published - May 2022
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2022 The Authors. Plants, People, Planet published by John Wiley & Sons Ltd on behalf of New Phytologist Foundation.

Keywords

tree failure
tree mortality
urban planning
urban sustainability
urban trees

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1002/ppp3.10240

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Esperon-Rodriguez, M., Rymer, P. D., Power, S. A., Barton, D. N., Cariñanos, P., Dobbs, C., Eleuterio, A. A., Escobedo, F. J., Hauer, R., Hermy, M., Jahani, A., Onyekwelu, J. C., Östberg, J., Pataki, D., Randrup, T. B., Rasmussen, T., Roman, L. A., Russo, A., Shackleton, C., ... Tjoelker, M. G. (2022). Assessing climate risk to support urban forests in a changing climate. Plants People Planet, 4(3), 201-213. https://doi.org/10.1002/ppp3.10240

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title = "Assessing climate risk to support urban forests in a changing climate",

abstract = "Societal Impact Statement: Globally, cities are planning for resilience through urban greening initiatives as governments understand the importance of urban forests in improving quality of life and mitigating climate change. However, the persistence of urban forests and the ecosystem benefits they provide are threatened by climate change, and systematic assessments of causes of tree dieback and mortality in urban environments are rare. Long-term monitoring studies and adaptive management are needed to identify and prevent climate change-driven failures and mortality. Research and monitoring when coupled with systematic forecasting will enable governments to incorporate climate change resilience into urban forestry planning. Future scenarios in which urban forests are resilient or in decline will depend on the management and planning actions we make today. Summary: The management of urban forests is a key element of resilience planning in cities across the globe. Urban forests provide ecosystem services as well as other nature-based solutions to 4.2 billion people living in cities. However, to continue to do so effectively, urban forests need to be able to thrive in an increasingly changing climate. Trees in cities are vulnerable to extreme heat and drought events, which are predicted to increase in frequency and severity under climate change. Knowledge of species' vulnerability to climate change, therefore, is crucial to ensure provision of desired ecosystem benefits, improve species selection, maintain tree growth and reduce tree mortality, dieback and stress in urban forests. Yet, systematic assessments of causes of tree dieback and mortality in urban environments are rare. We reviewed the state of knowledge of tree mortality in urban forests globally, finding very few frameworks that enable detection of climate change impacts on urban forests and no long-term studies assessing climate change as a direct driver of urban tree dieback and mortality. The effects of climate change on urban forests remain poorly understood and quantified, constraining the ability of governments to incorporate climate change resilience into urban forestry planning.",

keywords = "tree failure, tree mortality, urban planning, urban sustainability, urban trees",

author = "Manuel Esperon-Rodriguez and Rymer, {Paul D.} and Power, {Sally A.} and Barton, {David N.} and Paloma Cari{\~n}anos and Cynnamon Dobbs and Eleuterio, {Ana Alice} and Escobedo, {Francisco J.} and Richard Hauer and Martin Hermy and Ali Jahani and Onyekwelu, {Jonathan C.} and Johan {\"O}stberg and Diane Pataki and Randrup, {Thomas B.} and T{\o}rres Rasmussen and Roman, {Lara A.} and Alessio Russo and Charlie Shackleton and Ingjerd Solfjeld and {van Doorn}, {Natalie S.} and Wells, {Matthew J.} and Bj{\"o}rn Wistr{\"o}m and Pengbo Yan and Jun Yang and Tjoelker, {Mark G.}",

note = "Publisher Copyright: {\textcopyright} 2022 The Authors. Plants, People, Planet published by John Wiley & Sons Ltd on behalf of New Phytologist Foundation.",

year = "2022",

month = may,

doi = "10.1002/ppp3.10240",

language = "English",

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Esperon-Rodriguez, M, Rymer, PD, Power, SA, Barton, DN, Cariñanos, P, Dobbs, C, Eleuterio, AA, Escobedo, FJ, Hauer, R, Hermy, M, Jahani, A, Onyekwelu, JC, Östberg, J, Pataki, D, Randrup, TB, Rasmussen, T, Roman, LA, Russo, A, Shackleton, C, Solfjeld, I, van Doorn, NS, Wells, MJ, Wiström, B, Yan, P, Yang, J & Tjoelker, MG 2022, 'Assessing climate risk to support urban forests in a changing climate', Plants People Planet, vol. 4, no. 3, pp. 201-213. https://doi.org/10.1002/ppp3.10240

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AU - Esperon-Rodriguez, Manuel

AU - Rymer, Paul D.

AU - Power, Sally A.

AU - Barton, David N.

AU - Cariñanos, Paloma

AU - Dobbs, Cynnamon

AU - Eleuterio, Ana Alice

AU - Escobedo, Francisco J.

AU - Hauer, Richard

AU - Hermy, Martin

AU - Jahani, Ali

AU - Onyekwelu, Jonathan C.

AU - Östberg, Johan

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AU - Russo, Alessio

AU - Shackleton, Charlie

AU - Solfjeld, Ingjerd

AU - van Doorn, Natalie S.

AU - Wells, Matthew J.

AU - Wiström, Björn

AU - Yan, Pengbo

AU - Yang, Jun

AU - Tjoelker, Mark G.

PY - 2022/5

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N2 - Societal Impact Statement: Globally, cities are planning for resilience through urban greening initiatives as governments understand the importance of urban forests in improving quality of life and mitigating climate change. However, the persistence of urban forests and the ecosystem benefits they provide are threatened by climate change, and systematic assessments of causes of tree dieback and mortality in urban environments are rare. Long-term monitoring studies and adaptive management are needed to identify and prevent climate change-driven failures and mortality. Research and monitoring when coupled with systematic forecasting will enable governments to incorporate climate change resilience into urban forestry planning. Future scenarios in which urban forests are resilient or in decline will depend on the management and planning actions we make today. Summary: The management of urban forests is a key element of resilience planning in cities across the globe. Urban forests provide ecosystem services as well as other nature-based solutions to 4.2 billion people living in cities. However, to continue to do so effectively, urban forests need to be able to thrive in an increasingly changing climate. Trees in cities are vulnerable to extreme heat and drought events, which are predicted to increase in frequency and severity under climate change. Knowledge of species' vulnerability to climate change, therefore, is crucial to ensure provision of desired ecosystem benefits, improve species selection, maintain tree growth and reduce tree mortality, dieback and stress in urban forests. Yet, systematic assessments of causes of tree dieback and mortality in urban environments are rare. We reviewed the state of knowledge of tree mortality in urban forests globally, finding very few frameworks that enable detection of climate change impacts on urban forests and no long-term studies assessing climate change as a direct driver of urban tree dieback and mortality. The effects of climate change on urban forests remain poorly understood and quantified, constraining the ability of governments to incorporate climate change resilience into urban forestry planning.

AB - Societal Impact Statement: Globally, cities are planning for resilience through urban greening initiatives as governments understand the importance of urban forests in improving quality of life and mitigating climate change. However, the persistence of urban forests and the ecosystem benefits they provide are threatened by climate change, and systematic assessments of causes of tree dieback and mortality in urban environments are rare. Long-term monitoring studies and adaptive management are needed to identify and prevent climate change-driven failures and mortality. Research and monitoring when coupled with systematic forecasting will enable governments to incorporate climate change resilience into urban forestry planning. Future scenarios in which urban forests are resilient or in decline will depend on the management and planning actions we make today. Summary: The management of urban forests is a key element of resilience planning in cities across the globe. Urban forests provide ecosystem services as well as other nature-based solutions to 4.2 billion people living in cities. However, to continue to do so effectively, urban forests need to be able to thrive in an increasingly changing climate. Trees in cities are vulnerable to extreme heat and drought events, which are predicted to increase in frequency and severity under climate change. Knowledge of species' vulnerability to climate change, therefore, is crucial to ensure provision of desired ecosystem benefits, improve species selection, maintain tree growth and reduce tree mortality, dieback and stress in urban forests. Yet, systematic assessments of causes of tree dieback and mortality in urban environments are rare. We reviewed the state of knowledge of tree mortality in urban forests globally, finding very few frameworks that enable detection of climate change impacts on urban forests and no long-term studies assessing climate change as a direct driver of urban tree dieback and mortality. The effects of climate change on urban forests remain poorly understood and quantified, constraining the ability of governments to incorporate climate change resilience into urban forestry planning.

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Assessing climate risk to support urban forests in a changing climate

Abstract

Bibliographical note

Keywords

UN SDGs

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