Climate change impacts on living marine resources in the Eastern Tropical Pacific

Aim Project shifts in the habitat suitability of 505 fish and invertebrate species in the Eastern Tropical Pacific that are likely to occur by the mid‐21st century under “high greenhouse gas emissions” (RCP 8.5) and “strong mitigation” (RCP 2.6) scenarios. Location The Eastern Tropical Pacific Ocean...

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Veröffentlicht in:	Diversity & distributions 2021-01, Vol.27 (1), p.65-81
Hauptverfasser:	Clarke, Tayler M., Reygondeau, Gabriel, Wabnitz, Colette, Robertson, Ross, Ixquiac-Cabrera, Manuel, López, Myrna, Coghi, Ana Rosa Ramírez, del Río Iglesias, José Luis, Wehrtmann, Ingo, Cheung, William W.L.
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Schlagworte:	Biogeography California Current Centroids Climate change Climate effects Coastal fisheries Compression Compression zone deoxygenation Environmental impact Equator Equatorial regions Fish Fisheries Fisheries management Fluid dynamics Geographical distribution Greenhouse effect Greenhouse gases Habitats Humboldt Current Invertebrates Laboratories large pelagics Marine resources Marine resources management Mitigation Physiology Population decline Resource conservation Resource management Salinity shrimp trawl fishery small pelagics small‐scale fisheries Species Upwelling URCADEBIODIVERSITY RESEARCH
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creator	Clarke, Tayler M. Reygondeau, Gabriel Wabnitz, Colette Robertson, Ross Ixquiac-Cabrera, Manuel López, Myrna Coghi, Ana Rosa Ramírez del Río Iglesias, José Luis Wehrtmann, Ingo Cheung, William W.L.
description	Aim Project shifts in the habitat suitability of 505 fish and invertebrate species in the Eastern Tropical Pacific that are likely to occur by the mid‐21st century under “high greenhouse gas emissions” (RCP 8.5) and “strong mitigation” (RCP 2.6) scenarios. Location The Eastern Tropical Pacific Ocean, a discrete biogeographic region from the Gulf of California to northern Peru. Methods Ensemble simulations of climate change effects on fish and invertebrate species caught by four major fisheries in the region, based on four species distribution models and three Earth system models. Results Simulation results indicated that species' habitat suitability increased or remained the same in the northern and southern margins of the Eastern Tropical Pacific but decreased by up to 14% in some fisheries along Central America. The largest declines in the average species habitat suitability index were projected for small pelagic fisheries (up to −46%), while the highest local species turnover was projected for coastal small‐scale fisheries (up to 80%). Under RCP 8.5, species in the southern half and northern equatorial region of the Eastern Tropical Pacific were projected to shift south‐east at a rate of approximately 30–60 km decade‐1, respectively. Demersal species were projected to move into shallower, inshore waters with a shift in depth centroids estimated at a rate of around 1 to 13 m decade−1. Range shifts towards the equator reflect movements to cooler habitats that are characteristic of equatorial upwelling systems. Range shifts towards shallower, inshore waters reflect habitat compression associated with the expansion of oxygen minimum zones. Main conclusions Our findings highlight the importance of local‐scale oceanographic and biological data to elucidate the multidimensional biogeographic shifts of key species, their potential impacts on fisheries in the region and the need to consider such shifts in the design of effective conservation and marine resource management measures.
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Location The Eastern Tropical Pacific Ocean, a discrete biogeographic region from the Gulf of California to northern Peru. Methods Ensemble simulations of climate change effects on fish and invertebrate species caught by four major fisheries in the region, based on four species distribution models and three Earth system models. Results Simulation results indicated that species' habitat suitability increased or remained the same in the northern and southern margins of the Eastern Tropical Pacific but decreased by up to 14% in some fisheries along Central America. The largest declines in the average species habitat suitability index were projected for small pelagic fisheries (up to −46%), while the highest local species turnover was projected for coastal small‐scale fisheries (up to 80%). Under RCP 8.5, species in the southern half and northern equatorial region of the Eastern Tropical Pacific were projected to shift south‐east at a rate of approximately 30–60 km decade‐1, respectively. Demersal species were projected to move into shallower, inshore waters with a shift in depth centroids estimated at a rate of around 1 to 13 m decade−1. Range shifts towards the equator reflect movements to cooler habitats that are characteristic of equatorial upwelling systems. Range shifts towards shallower, inshore waters reflect habitat compression associated with the expansion of oxygen minimum zones. Main conclusions Our findings highlight the importance of local‐scale oceanographic and biological data to elucidate the multidimensional biogeographic shifts of key species, their potential impacts on fisheries in the region and the need to consider such shifts in the design of effective conservation and marine resource management measures.</description><identifier>ISSN: 1366-9516</identifier><identifier>EISSN: 1472-4642</identifier><identifier>DOI: 10.1111/ddi.13181</identifier><language>eng</language><publisher>Oxford: Wiley</publisher><subject>Biogeography ; California Current ; Centroids ; Climate change ; Climate effects ; Coastal fisheries ; Compression ; Compression zone ; deoxygenation ; Environmental impact ; Equator ; Equatorial regions ; Fish ; Fisheries ; Fisheries management ; Fluid dynamics ; Geographical distribution ; Greenhouse effect ; Greenhouse gases ; Habitats ; Humboldt Current ; Invertebrates ; Laboratories ; large pelagics ; Marine resources ; Marine resources management ; Mitigation ; Physiology ; Population decline ; Resource conservation ; Resource management ; Salinity ; shrimp trawl fishery ; small pelagics ; small‐scale fisheries ; Species ; Upwelling ; URCADEBIODIVERSITY RESEARCH</subject><ispartof>Diversity & distributions, 2021-01, Vol.27 (1), p.65-81</ispartof><rights>2020 The Authors</rights><rights>2020 The Authors. published by John Wiley & Sons Ltd.</rights><rights>2021. 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Location The Eastern Tropical Pacific Ocean, a discrete biogeographic region from the Gulf of California to northern Peru. Methods Ensemble simulations of climate change effects on fish and invertebrate species caught by four major fisheries in the region, based on four species distribution models and three Earth system models. Results Simulation results indicated that species' habitat suitability increased or remained the same in the northern and southern margins of the Eastern Tropical Pacific but decreased by up to 14% in some fisheries along Central America. The largest declines in the average species habitat suitability index were projected for small pelagic fisheries (up to −46%), while the highest local species turnover was projected for coastal small‐scale fisheries (up to 80%). Under RCP 8.5, species in the southern half and northern equatorial region of the Eastern Tropical Pacific were projected to shift south‐east at a rate of approximately 30–60 km decade‐1, respectively. Demersal species were projected to move into shallower, inshore waters with a shift in depth centroids estimated at a rate of around 1 to 13 m decade−1. Range shifts towards the equator reflect movements to cooler habitats that are characteristic of equatorial upwelling systems. Range shifts towards shallower, inshore waters reflect habitat compression associated with the expansion of oxygen minimum zones. Main conclusions Our findings highlight the importance of local‐scale oceanographic and biological data to elucidate the multidimensional biogeographic shifts of key species, their potential impacts on fisheries in the region and the need to consider such shifts in the design of effective conservation and marine resource management measures.</description><subject>Biogeography</subject><subject>California Current</subject><subject>Centroids</subject><subject>Climate change</subject><subject>Climate effects</subject><subject>Coastal fisheries</subject><subject>Compression</subject><subject>Compression zone</subject><subject>deoxygenation</subject><subject>Environmental impact</subject><subject>Equator</subject><subject>Equatorial regions</subject><subject>Fish</subject><subject>Fisheries</subject><subject>Fisheries management</subject><subject>Fluid dynamics</subject><subject>Geographical distribution</subject><subject>Greenhouse effect</subject><subject>Greenhouse 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invertebrate species in the Eastern Tropical Pacific that are likely to occur by the mid‐21st century under “high greenhouse gas emissions” (RCP 8.5) and “strong mitigation” (RCP 2.6) scenarios. Location The Eastern Tropical Pacific Ocean, a discrete biogeographic region from the Gulf of California to northern Peru. Methods Ensemble simulations of climate change effects on fish and invertebrate species caught by four major fisheries in the region, based on four species distribution models and three Earth system models. Results Simulation results indicated that species' habitat suitability increased or remained the same in the northern and southern margins of the Eastern Tropical Pacific but decreased by up to 14% in some fisheries along Central America. The largest declines in the average species habitat suitability index were projected for small pelagic fisheries (up to −46%), while the highest local species turnover was projected for coastal small‐scale fisheries (up to 80%). Under RCP 8.5, species in the southern half and northern equatorial region of the Eastern Tropical Pacific were projected to shift south‐east at a rate of approximately 30–60 km decade‐1, respectively. Demersal species were projected to move into shallower, inshore waters with a shift in depth centroids estimated at a rate of around 1 to 13 m decade−1. Range shifts towards the equator reflect movements to cooler habitats that are characteristic of equatorial upwelling systems. Range shifts towards shallower, inshore waters reflect habitat compression associated with the expansion of oxygen minimum zones. Main conclusions Our findings highlight the importance of local‐scale oceanographic and biological data to elucidate the multidimensional biogeographic shifts of key species, their potential impacts on fisheries in the region and the need to consider such shifts in the design of effective conservation and marine resource management measures.</abstract><cop>Oxford</cop><pub>Wiley</pub><doi>10.1111/ddi.13181</doi><tpages>17</tpages><orcidid>https://orcid.org/0000-0002-5076-9163</orcidid><orcidid>https://orcid.org/0000-0002-9438-5794</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Biogeography California Current Centroids Climate change Climate effects Coastal fisheries Compression Compression zone deoxygenation Environmental impact Equator Equatorial regions Fish Fisheries Fisheries management Fluid dynamics Geographical distribution Greenhouse effect Greenhouse gases Habitats Humboldt Current Invertebrates Laboratories large pelagics Marine resources Marine resources management Mitigation Physiology Population decline Resource conservation Resource management Salinity shrimp trawl fishery small pelagics small‐scale fisheries Species Upwelling URCADEBIODIVERSITY RESEARCH
title	Climate change impacts on living marine resources in the Eastern Tropical Pacific
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