Key impacts of climate engineering on biodiversity and ecosystems, with priorities for future research

Caitlin G. McCormack; Wanda Born; Peter J. Irvine; Eric P. Achterberg; Tatsuya Amano; Jeff Ardron; Pru N. Foster; Jean Pierre Gattuso; Stephen J. Hawkins; Erica Hendy; W. Daniel Kissling; Salvador E. Lluch-Cota; Eugene J. Murphy; Nick Ostle; Nicholas J.P. Owens; R. Ian Perry; Hans O. Pörtner; Robert J. Scholes; Frank M. Schurr; Oliver Schweiger; Josef Settele; Rebecca K. Smith; Sarah Smith; Jill Thompson; Derek P. Tittensor; Mark van Kleunen; Chris Vivian; Katrin Vohland; Rachel Warren; Andrew R. Watkinson; Steve Widdicombe; Phillip Williamson; Emma Woods; Jason J. Blackstock; William J. Sutherland

doi:10.1080/1943815X.2016.1159578

Key impacts of climate engineering on biodiversity and ecosystems, with priorities for future research

Caitlin G. McCormack
, Wanda Born
, Peter J. Irvine
, Eric P. Achterberg
, Tatsuya Amano
, Jeff Ardron
, Pru N. Foster
, Jean Pierre Gattuso
, Stephen J. Hawkins
, Erica Hendy
, W. Daniel Kissling
, Salvador E. Lluch-Cota
, Eugene J. Murphy
, Nick Ostle
, Nicholas J.P. Owens
, R. Ian Perry
, Hans O. Pörtner
, Robert J. Scholes
, Frank M. Schurr
, Oliver Schweiger

Josef Settele, Rebecca K. Smith, Sarah Smith, Jill Thompson, Derek P. Tittensor, Mark van Kleunen, Chris Vivian, Katrin Vohland, Rachel Warren, Andrew R. Watkinson, Steve Widdicombe, Phillip Williamson, Emma Woods, Jason J. Blackstock, William J. Sutherland

SAMS UHI

科研成果: Article › 同行评审

40 引用（Scopus）

摘要

Climate change has significant implications for biodiversity and ecosystems. With slow progress towards reducing greenhouse gas emissions, climate engineering (or ‘geoengineering’) is receiving increasing attention for its potential to limit anthropogenic climate change and its damaging effects. Proposed techniques, such as ocean fertilization for carbon dioxide removal or stratospheric sulfate injections to reduce incoming solar radiation, would significantly alter atmospheric, terrestrial and marine environments, yet potential side-effects of their implementation for ecosystems and biodiversity have received little attention. A literature review was carried out to identify details of the potential ecological effects of climate engineering techniques. A group of biodiversity and environmental change researchers then employed a modified Delphi expert consultation technique to evaluate this evidence and prioritize the effects based on the relative importance of, and scientific understanding about, their biodiversity and ecosystem consequences. The key issues and knowledge gaps are used to shape a discussion of the biodiversity and ecosystem implications of climate engineering, including novel climatic conditions, alterations to marine systems and substantial terrestrial habitat change. This review highlights several current research priorities in which the climate engineering context is crucial to consider, as well as identifying some novel topics for ecological investigation.

源语言	English
页（从-至）	103-128
页数	26
期刊	Journal of Integrative Environmental Sciences
卷	13
期	2-4
DOI	https://doi.org/10.1080/1943815X.2016.1159578
出版状态	Published - 1 10月 2016

联合国可持续发展目标

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Climate action

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10.1080/1943815X.2016.1159578许可: CC BY-NC-ND

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McCormack, C. G., Born, W., Irvine, P. J., Achterberg, E. P., Amano, T., Ardron, J., Foster, P. N., Gattuso, J. P., Hawkins, S. J., Hendy, E., Kissling, W. D., Lluch-Cota, S. E., Murphy, E. J., Ostle, N., Owens, N. J. P., Perry, R. I., Pörtner, H. O., Scholes, R. J., Schurr, F. M., ... Sutherland, W. J. (2016). Key impacts of climate engineering on biodiversity and ecosystems, with priorities for future research. Journal of Integrative Environmental Sciences, 13(2-4), 103-128. https://doi.org/10.1080/1943815X.2016.1159578

@article{89be085dcbc34b5b8026ead4d88352a9,

title = "Key impacts of climate engineering on biodiversity and ecosystems, with priorities for future research",

abstract = "Climate change has significant implications for biodiversity and ecosystems. With slow progress towards reducing greenhouse gas emissions, climate engineering (or {\textquoteleft}geoengineering{\textquoteright}) is receiving increasing attention for its potential to limit anthropogenic climate change and its damaging effects. Proposed techniques, such as ocean fertilization for carbon dioxide removal or stratospheric sulfate injections to reduce incoming solar radiation, would significantly alter atmospheric, terrestrial and marine environments, yet potential side-effects of their implementation for ecosystems and biodiversity have received little attention. A literature review was carried out to identify details of the potential ecological effects of climate engineering techniques. A group of biodiversity and environmental change researchers then employed a modified Delphi expert consultation technique to evaluate this evidence and prioritize the effects based on the relative importance of, and scientific understanding about, their biodiversity and ecosystem consequences. The key issues and knowledge gaps are used to shape a discussion of the biodiversity and ecosystem implications of climate engineering, including novel climatic conditions, alterations to marine systems and substantial terrestrial habitat change. This review highlights several current research priorities in which the climate engineering context is crucial to consider, as well as identifying some novel topics for ecological investigation.",

keywords = "Biodiversity, carbon dioxide removal, climate engineering, ecosystems, geoengineering, solar radiation management",

author = "McCormack, \{Caitlin G.\} and Wanda Born and Irvine, \{Peter J.\} and Achterberg, \{Eric P.\} and Tatsuya Amano and Jeff Ardron and Foster, \{Pru N.\} and Gattuso, \{Jean Pierre\} and Hawkins, \{Stephen J.\} and Erica Hendy and Kissling, \{W. Daniel\} and Lluch-Cota, \{Salvador E.\} and Murphy, \{Eugene J.\} and Nick Ostle and Owens, \{Nicholas J.P.\} and Perry, \{R. Ian\} and P{\"o}rtner, \{Hans O.\} and Scholes, \{Robert J.\} and Schurr, \{Frank M.\} and Oliver Schweiger and Josef Settele and Smith, \{Rebecca K.\} and Sarah Smith and Jill Thompson and Tittensor, \{Derek P.\} and \{van Kleunen\}, Mark and Chris Vivian and Katrin Vohland and Rachel Warren and Watkinson, \{Andrew R.\} and Steve Widdicombe and Phillip Williamson and Emma Woods and Blackstock, \{Jason J.\} and Sutherland, \{William J.\}",

note = "Publisher Copyright: {\textcopyright} 2016 Informa UK Limited, trading as Taylor \& Francis Group.",

year = "2016",

month = oct,

day = "1",

doi = "10.1080/1943815X.2016.1159578",

language = "English",

volume = "13",

pages = "103--128",

journal = "Journal of Integrative Environmental Sciences",

issn = "1943-815X",

publisher = "Taylor and Francis Ltd.",

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McCormack, CG, Born, W, Irvine, PJ, Achterberg, EP, Amano, T, Ardron, J, Foster, PN, Gattuso, JP, Hawkins, SJ, Hendy, E, Kissling, WD, Lluch-Cota, SE, Murphy, EJ, Ostle, N, Owens, NJP, Perry, RI, Pörtner, HO, Scholes, RJ, Schurr, FM, Schweiger, O, Settele, J, Smith, RK, Smith, S, Thompson, J, Tittensor, DP, van Kleunen, M, Vivian, C, Vohland, K, Warren, R, Watkinson, AR, Widdicombe, S, Williamson, P, Woods, E, Blackstock, JJ & Sutherland, WJ 2016, 'Key impacts of climate engineering on biodiversity and ecosystems, with priorities for future research', Journal of Integrative Environmental Sciences, 卷 13, 号码 2-4, 页码 103-128. https://doi.org/10.1080/1943815X.2016.1159578

TY - JOUR

T1 - Key impacts of climate engineering on biodiversity and ecosystems, with priorities for future research

AU - McCormack, Caitlin G.

AU - Born, Wanda

AU - Irvine, Peter J.

AU - Achterberg, Eric P.

AU - Amano, Tatsuya

AU - Ardron, Jeff

AU - Foster, Pru N.

AU - Gattuso, Jean Pierre

AU - Hawkins, Stephen J.

AU - Hendy, Erica

AU - Kissling, W. Daniel

AU - Lluch-Cota, Salvador E.

AU - Murphy, Eugene J.

AU - Ostle, Nick

AU - Owens, Nicholas J.P.

AU - Perry, R. Ian

AU - Pörtner, Hans O.

AU - Scholes, Robert J.

AU - Schurr, Frank M.

AU - Schweiger, Oliver

AU - Settele, Josef

AU - Smith, Rebecca K.

AU - Smith, Sarah

AU - Thompson, Jill

AU - Tittensor, Derek P.

AU - van Kleunen, Mark

AU - Vivian, Chris

AU - Vohland, Katrin

AU - Warren, Rachel

AU - Watkinson, Andrew R.

AU - Widdicombe, Steve

AU - Williamson, Phillip

AU - Woods, Emma

AU - Blackstock, Jason J.

AU - Sutherland, William J.

PY - 2016/10/1

Y1 - 2016/10/1

N2 - Climate change has significant implications for biodiversity and ecosystems. With slow progress towards reducing greenhouse gas emissions, climate engineering (or ‘geoengineering’) is receiving increasing attention for its potential to limit anthropogenic climate change and its damaging effects. Proposed techniques, such as ocean fertilization for carbon dioxide removal or stratospheric sulfate injections to reduce incoming solar radiation, would significantly alter atmospheric, terrestrial and marine environments, yet potential side-effects of their implementation for ecosystems and biodiversity have received little attention. A literature review was carried out to identify details of the potential ecological effects of climate engineering techniques. A group of biodiversity and environmental change researchers then employed a modified Delphi expert consultation technique to evaluate this evidence and prioritize the effects based on the relative importance of, and scientific understanding about, their biodiversity and ecosystem consequences. The key issues and knowledge gaps are used to shape a discussion of the biodiversity and ecosystem implications of climate engineering, including novel climatic conditions, alterations to marine systems and substantial terrestrial habitat change. This review highlights several current research priorities in which the climate engineering context is crucial to consider, as well as identifying some novel topics for ecological investigation.

AB - Climate change has significant implications for biodiversity and ecosystems. With slow progress towards reducing greenhouse gas emissions, climate engineering (or ‘geoengineering’) is receiving increasing attention for its potential to limit anthropogenic climate change and its damaging effects. Proposed techniques, such as ocean fertilization for carbon dioxide removal or stratospheric sulfate injections to reduce incoming solar radiation, would significantly alter atmospheric, terrestrial and marine environments, yet potential side-effects of their implementation for ecosystems and biodiversity have received little attention. A literature review was carried out to identify details of the potential ecological effects of climate engineering techniques. A group of biodiversity and environmental change researchers then employed a modified Delphi expert consultation technique to evaluate this evidence and prioritize the effects based on the relative importance of, and scientific understanding about, their biodiversity and ecosystem consequences. The key issues and knowledge gaps are used to shape a discussion of the biodiversity and ecosystem implications of climate engineering, including novel climatic conditions, alterations to marine systems and substantial terrestrial habitat change. This review highlights several current research priorities in which the climate engineering context is crucial to consider, as well as identifying some novel topics for ecological investigation.

KW - Biodiversity

KW - carbon dioxide removal

KW - climate engineering

KW - ecosystems

KW - geoengineering

KW - solar radiation management

UR - https://www.scopus.com/pages/publications/84961393724

UR - https://www.scopus.com/pages/publications/84961393724#tab=citedBy

U2 - 10.1080/1943815X.2016.1159578

DO - 10.1080/1943815X.2016.1159578

M3 - Article

AN - SCOPUS:84961393724

SN - 1943-815X

VL - 13

SP - 103

EP - 128

JO - Journal of Integrative Environmental Sciences

JF - Journal of Integrative Environmental Sciences

IS - 2-4

ER -

Key impacts of climate engineering on biodiversity and ecosystems, with priorities for future research

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