Climate-driven global redistribution of an ocean giant predicts increased threat from shipping

Freya C. Womersley; Lara L. Sousa; Nicolas E. Humphries; Kátya Abrantes; Gonzalo Araujo; Steffen S. Bach; Adam Barnett; Michael L. Berumen; Sandra Bessudo Lion; Camrin D. Braun; Elizabeth Clingham; Jesse E.M. Cochran; Rafael de la Parra; Stella Diamant; Alistair D.M. Dove; Carlos M. Duarte; Christine L. Dudgeon; Mark V. Erdmann; Eduardo Espinoza; Luciana C. Ferreira; Richard Fitzpatrick; Jaime González Cano; Jonathan R. Green; Hector M. Guzman; Royale Hardenstine; Abdi Hasan; Fábio H.V. Hazin; Alex R. Hearn; Robert E. Hueter; Mohammed Y. Jaidah; Jessica Labaja; Felipe Ladino; Bruno C.L. Macena; Mark G. Meekan; John J. Morris; Bradley M. Norman; Cesar R. Peñaherrera-Palma; Simon J. Pierce; Lina Maria Quintero; Dení Ramírez-Macías; Samantha D. Reynolds; David P. Robinson; Christoph A. Rohner; David R.L. Rowat; Ana M.M. Sequeira; Marcus Sheaves; Mahmood S. Shivji; Abraham B. Sianipar; Gregory B. Skomal; German Soler; Ismail Syakurachman; Simon R. Thorrold; Michele Thums; John P. Tyminski; D. Harry Webb; Bradley M. Wetherbee; Nuno Queiroz; David W. Sims

doi:10.1038/s41558-024-02129-5

Climate-driven global redistribution of an ocean giant predicts increased threat from shipping

Freya C. Womersley^*
, Lara L. Sousa
, Nicolas E. Humphries
, Kátya Abrantes
, Gonzalo Araujo
, Steffen S. Bach
, Adam Barnett
, Michael L. Berumen
, Sandra Bessudo Lion
, Camrin D. Braun
, Elizabeth Clingham
, Jesse E.M. Cochran
, Rafael de la Parra
, Stella Diamant
, Alistair D.M. Dove
, Carlos M. Duarte
, Christine L. Dudgeon
, Mark V. Erdmann
, Eduardo Espinoza
, Luciana C. Ferreira

Richard Fitzpatrick, Jaime González Cano, Jonathan R. Green, Hector M. Guzman, Royale Hardenstine, Abdi Hasan, Fábio H.V. Hazin, Alex R. Hearn, Robert E. Hueter, Mohammed Y. Jaidah, Jessica Labaja, Felipe Ladino, Bruno C.L. Macena, Mark G. Meekan, John J. Morris, Bradley M. Norman, Cesar R. Peñaherrera-Palma, Simon J. Pierce, Lina Maria Quintero, Dení Ramírez-Macías, Samantha D. Reynolds, David P. Robinson, Christoph A. Rohner, David R.L. Rowat, Ana M.M. Sequeira, Marcus Sheaves, Mahmood S. Shivji, Abraham B. Sianipar, Gregory B. Skomal, German Soler, Ismail Syakurachman, Simon R. Thorrold, Michele Thums, John P. Tyminski, D. Harry Webb, Bradley M. Wetherbee, Nuno Queiroz, David W. Sims

^*Autor correspondiente de este trabajo

Biología

Marine Biological Association
University of Southampton
University of Oxford
James Cook University Queensland
Biopixel Oceans Foundation
Marine Research and Conservation Foundation
Qatar University
Qatar Whale Shark Research Project
King Abdullah University of Science and Technology
Fundación Malpelo y Otros Ecosistemas Marinos
MigraMar
Woods Hole Oceanographic Institution
St Helena Government
Ch’ooj Ajuail AC
Madagascar Whale Shark Project
Georgia Aquarium
University of QueenslandBrisbane
University of Auckland
Direccion Parque Nacional Galapagos
Crawley Western Australia
Comisión Nacional de Áreas Naturales Protegidas
Galapagos Whale Shark Project
Smithsonian Institution
Yayasan Konservasi Indonesia
Universidade Federal Rural de Pernambuco
Mote Marine Laboratory & Aquarium
OCEARCH
Large Marine Vertebrates Research Institute Philippines
University of the Azores
Murdoch University
ECOCEAN Inc.
Marine Megafauna Foundation
University of the Sunshine Coast
Solmar L5
Sundive Research
Marine Conservation Society Seychelles
Australian National University
Nova Southeastern University
Elasmobranch Institute Indonesia
Massachusetts Division of Marine Fisheries
Konservasi Indonesia
University of Rhode Island
Universidade do Porto

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

17 Citas (Scopus)

Resumen

Climate change is shifting animal distributions. However, the extent to which future global habitats of threatened marine megafauna will overlap existing human threats remains unresolved. Here we use global climate models and habitat suitability estimated from long-term satellite-tracking data of the world’s largest fish, the whale shark, to show that redistributions of present-day habitats are projected to increase the species’ co-occurrence with global shipping. Our model projects core habitat area losses of >50% within some national waters by 2100, with geographic shifts of over 1,000 km (∼12 km yr⁻¹). Greater habitat suitability is predicted in current range-edge areas, increasing the co-occurrence of sharks with large ships. This future increase was ∼15,000 times greater under high emissions compared with a sustainable development scenario. Results demonstrate that climate-induced global species redistributions that increase exposure to direct sources of mortality are possible, emphasizing the need for quantitative climate-threat predictions in conservation assessments of endangered marine megafauna.

Idioma original	Inglés
Número de artículo	8890
Páginas (desde-hasta)	1282-1291
Número de páginas	10
Publicación	Nature Climate Change
Volumen	14
N.º	12
DOI	https://doi.org/10.1038/s41558-024-02129-5
Estado	Publicada - dic. 2024

ODS de las Naciones Unidas

Este resultado contribuye a los siguientes Objetivos de Desarrollo Sostenible

ODS 3: Salud y bienestar
ODS 13: Acción por el clima
ODS 14: Vida submarina

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10.1038/s41558-024-02129-5

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Womersley, F. C., Sousa, L. L., Humphries, N. E., Abrantes, K., Araujo, G., Bach, S. S., Barnett, A., Berumen, M. L., Lion, S. B., Braun, C. D., Clingham, E., Cochran, J. E. M., de la Parra, R., Diamant, S., Dove, A. D. M., Duarte, C. M., Dudgeon, C. L., Erdmann, M. V., Espinoza, E., ... Sims, D. W. (2024). Climate-driven global redistribution of an ocean giant predicts increased threat from shipping. Nature Climate Change, 14(12), 1282-1291. Artículo 8890. https://doi.org/10.1038/s41558-024-02129-5

@article{71a563c21d7249ce84ae31339d01c374,

title = "Climate-driven global redistribution of an ocean giant predicts increased threat from shipping",

abstract = "Climate change is shifting animal distributions. However, the extent to which future global habitats of threatened marine megafauna will overlap existing human threats remains unresolved. Here we use global climate models and habitat suitability estimated from long-term satellite-tracking data of the world{\textquoteright}s largest fish, the whale shark, to show that redistributions of present-day habitats are projected to increase the species{\textquoteright} co-occurrence with global shipping. Our model projects core habitat area losses of >50\% within some national waters by 2100, with geographic shifts of over 1,000 km (∼12 km yr−1). Greater habitat suitability is predicted in current range-edge areas, increasing the co-occurrence of sharks with large ships. This future increase was ∼15,000 times greater under high emissions compared with a sustainable development scenario. Results demonstrate that climate-induced global species redistributions that increase exposure to direct sources of mortality are possible, emphasizing the need for quantitative climate-threat predictions in conservation assessments of endangered marine megafauna.",

author = "Womersley, \{Freya C.\} and Sousa, \{Lara L.\} and Humphries, \{Nicolas E.\} and K{\'a}tya Abrantes and Gonzalo Araujo and Bach, \{Steffen S.\} and Adam Barnett and Berumen, \{Michael L.\} and Lion, \{Sandra Bessudo\} and Braun, \{Camrin D.\} and Elizabeth Clingham and Cochran, \{Jesse E.M.\} and \{de la Parra\}, Rafael and Stella Diamant and Dove, \{Alistair D.M.\} and Duarte, \{Carlos M.\} and Dudgeon, \{Christine L.\} and Erdmann, \{Mark V.\} and Eduardo Espinoza and Ferreira, \{Luciana C.\} and Richard Fitzpatrick and Cano, \{Jaime Gonz{\'a}lez\} and Green, \{Jonathan R.\} and Guzman, \{Hector M.\} and Royale Hardenstine and Abdi Hasan and Hazin, \{F{\'a}bio H.V.\} and Hearn, \{Alex R.\} and Hueter, \{Robert E.\} and Jaidah, \{Mohammed Y.\} and Jessica Labaja and Felipe Ladino and Macena, \{Bruno C.L.\} and Meekan, \{Mark G.\} and Morris, \{John J.\} and Norman, \{Bradley M.\} and Pe{\~n}aherrera-Palma, \{Cesar R.\} and Pierce, \{Simon J.\} and Quintero, \{Lina Maria\} and Den{\'i} Ram{\'i}rez-Mac{\'i}as and Reynolds, \{Samantha D.\} and Robinson, \{David P.\} and Rohner, \{Christoph A.\} and Rowat, \{David R.L.\} and Sequeira, \{Ana M.M.\} and Marcus Sheaves and Shivji, \{Mahmood S.\} and Sianipar, \{Abraham B.\} and Skomal, \{Gregory B.\} and German Soler and Ismail Syakurachman and Thorrold, \{Simon R.\} and Michele Thums and Tyminski, \{John P.\} and Webb, \{D. Harry\} and Wetherbee, \{Bradley M.\} and Nuno Queiroz and Sims, \{David W.\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = dec,

doi = "10.1038/s41558-024-02129-5",

language = "Ingl{\'e}s",

volume = "14",

pages = "1282--1291",

journal = "Nature Climate Change",

issn = "1758-678X",

publisher = "Nature Research",

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}

Womersley, FC, Sousa, LL, Humphries, NE, Abrantes, K, Araujo, G, Bach, SS, Barnett, A, Berumen, ML, Lion, SB, Braun, CD, Clingham, E, Cochran, JEM, de la Parra, R, Diamant, S, Dove, ADM, Duarte, CM, Dudgeon, CL, Erdmann, MV, Espinoza, E, Ferreira, LC, Fitzpatrick, R, Cano, JG, Green, JR, Guzman, HM, Hardenstine, R, Hasan, A, Hazin, FHV, Hearn, AR, Hueter, RE, Jaidah, MY, Labaja, J, Ladino, F, Macena, BCL, Meekan, MG, Morris, JJ, Norman, BM, Peñaherrera-Palma, CR, Pierce, SJ, Quintero, LM, Ramírez-Macías, D, Reynolds, SD, Robinson, DP, Rohner, CA, Rowat, DRL, Sequeira, AMM, Sheaves, M, Shivji, MS, Sianipar, AB, Skomal, GB, Soler, G, Syakurachman, I, Thorrold, SR, Thums, M, Tyminski, JP, Webb, DH, Wetherbee, BM, Queiroz, N & Sims, DW 2024, 'Climate-driven global redistribution of an ocean giant predicts increased threat from shipping', Nature Climate Change, vol. 14, n.º 12, 8890, pp. 1282-1291. https://doi.org/10.1038/s41558-024-02129-5

TY - JOUR

T1 - Climate-driven global redistribution of an ocean giant predicts increased threat from shipping

AU - Womersley, Freya C.

AU - Sousa, Lara L.

AU - Humphries, Nicolas E.

AU - Abrantes, Kátya

AU - Araujo, Gonzalo

AU - Bach, Steffen S.

AU - Barnett, Adam

AU - Berumen, Michael L.

AU - Lion, Sandra Bessudo

AU - Braun, Camrin D.

AU - Clingham, Elizabeth

AU - Cochran, Jesse E.M.

AU - de la Parra, Rafael

AU - Diamant, Stella

AU - Dove, Alistair D.M.

AU - Duarte, Carlos M.

AU - Dudgeon, Christine L.

AU - Erdmann, Mark V.

AU - Espinoza, Eduardo

AU - Ferreira, Luciana C.

AU - Fitzpatrick, Richard

AU - Cano, Jaime González

AU - Green, Jonathan R.

AU - Guzman, Hector M.

AU - Hardenstine, Royale

AU - Hasan, Abdi

AU - Hazin, Fábio H.V.

AU - Hearn, Alex R.

AU - Hueter, Robert E.

AU - Jaidah, Mohammed Y.

AU - Labaja, Jessica

AU - Ladino, Felipe

AU - Macena, Bruno C.L.

AU - Meekan, Mark G.

AU - Morris, John J.

AU - Norman, Bradley M.

AU - Peñaherrera-Palma, Cesar R.

AU - Pierce, Simon J.

AU - Quintero, Lina Maria

AU - Ramírez-Macías, Dení

AU - Reynolds, Samantha D.

AU - Robinson, David P.

AU - Rohner, Christoph A.

AU - Rowat, David R.L.

AU - Sequeira, Ana M.M.

AU - Sheaves, Marcus

AU - Shivji, Mahmood S.

AU - Sianipar, Abraham B.

AU - Skomal, Gregory B.

AU - Soler, German

AU - Syakurachman, Ismail

AU - Thorrold, Simon R.

AU - Thums, Michele

AU - Tyminski, John P.

AU - Webb, D. Harry

AU - Wetherbee, Bradley M.

AU - Queiroz, Nuno

AU - Sims, David W.

PY - 2024/12

Y1 - 2024/12

N2 - Climate change is shifting animal distributions. However, the extent to which future global habitats of threatened marine megafauna will overlap existing human threats remains unresolved. Here we use global climate models and habitat suitability estimated from long-term satellite-tracking data of the world’s largest fish, the whale shark, to show that redistributions of present-day habitats are projected to increase the species’ co-occurrence with global shipping. Our model projects core habitat area losses of >50% within some national waters by 2100, with geographic shifts of over 1,000 km (∼12 km yr−1). Greater habitat suitability is predicted in current range-edge areas, increasing the co-occurrence of sharks with large ships. This future increase was ∼15,000 times greater under high emissions compared with a sustainable development scenario. Results demonstrate that climate-induced global species redistributions that increase exposure to direct sources of mortality are possible, emphasizing the need for quantitative climate-threat predictions in conservation assessments of endangered marine megafauna.

AB - Climate change is shifting animal distributions. However, the extent to which future global habitats of threatened marine megafauna will overlap existing human threats remains unresolved. Here we use global climate models and habitat suitability estimated from long-term satellite-tracking data of the world’s largest fish, the whale shark, to show that redistributions of present-day habitats are projected to increase the species’ co-occurrence with global shipping. Our model projects core habitat area losses of >50% within some national waters by 2100, with geographic shifts of over 1,000 km (∼12 km yr−1). Greater habitat suitability is predicted in current range-edge areas, increasing the co-occurrence of sharks with large ships. This future increase was ∼15,000 times greater under high emissions compared with a sustainable development scenario. Results demonstrate that climate-induced global species redistributions that increase exposure to direct sources of mortality are possible, emphasizing the need for quantitative climate-threat predictions in conservation assessments of endangered marine megafauna.

UR - https://www.scopus.com/pages/publications/85205967646

U2 - 10.1038/s41558-024-02129-5

DO - 10.1038/s41558-024-02129-5

M3 - Artículo

AN - SCOPUS:85205967646

SN - 1758-678X

VL - 14

SP - 1282

EP - 1291

JO - Nature Climate Change

JF - Nature Climate Change

IS - 12

M1 - 8890

ER -

Climate-driven global redistribution of an ocean giant predicts increased threat from shipping

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