Global distribution prediction and ecological conservation of basking shark (Cetorhinus maximus) under integrated impacts

Global climate change presents substantial threats to marine ecosystems, with particularly profound impacts on widely distributed migratory species. The basking shark (Cetorhinus maximus), the second-largest fish species, faces significant conservation challenges due to overfishing, habitat degradat...

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Published in:Global ecology and conservation 2024-12, Vol.56, p.e03310, Article e03310
Main Authors: Sun, Runlong, Liu, Kaiyu, Huang, Wenhao, Wang, Xiao, Zhuang, Hongfei, Wang, Zongling, Zhang, Zhaohui, Zhao, Linlin
Format: Article
Language:English
Subjects:
Cetorhinus maximus
chlorophyll
climate
climate change
Ecological corridor
geographical distribution
habitat destruction
habitats
humans
Marine protected area
migratory behavior
migratory species
prediction
sharks
silicates
Species distribution model
surface water temperature
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container_start_page e03310
container_title Global ecology and conservation
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creator Sun, Runlong
Liu, Kaiyu
Huang, Wenhao
Wang, Xiao
Zhuang, Hongfei
Wang, Zongling
Zhang, Zhaohui
Zhao, Linlin
description Global climate change presents substantial threats to marine ecosystems, with particularly profound impacts on widely distributed migratory species. The basking shark (Cetorhinus maximus), the second-largest fish species, faces significant conservation challenges due to overfishing, habitat degradation, and climate change, necessitating urgent research to address knowledge gaps in its spatial distribution and interactions with changing marine environments. This study employs various environmental variables and distribution data to construct a global species distribution model for basking sharks, predicting their distribution patterns under current and future climate scenarios. The results indicate that chlorophyll, sea surface temperature, silicate and mixed layer depth are the primary factors determining habitat suitability for basking sharks. Under high-emission scenarios (Shared Socioeconomic Pathway, SSP5–8.5), our model predicts a shift toward the higher latitudes of the northern hemisphere in basking shark habitats, including temperate and sub-Arctic waters. Ecological corridor analysis identifies critical migratory pathways and pinch points, emphasizing the importance of incorporating the effects of climate change and human activities in the formulation of conservation strategies. The finding underscores the importance of integrated conservation strategies, highlighting how positive human interventions can aid in accurately identifying critical ecological corridors to ensure the long-term survival of the basking shark. Adaptive, science-based conservation measures are crucial to mitigating the effects of climate change and human activities, supporting the resilience of marine ecosystems. •High-emission scenarios predict northward shift in basking shark habitats.•Integrated conservation strategies are crucial for long-term shark survival.•Ecological corridors should balance protection and human impacts.
doi_str_mv 10.1016/j.gecco.2024.e03310
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The basking shark (Cetorhinus maximus), the second-largest fish species, faces significant conservation challenges due to overfishing, habitat degradation, and climate change, necessitating urgent research to address knowledge gaps in its spatial distribution and interactions with changing marine environments. This study employs various environmental variables and distribution data to construct a global species distribution model for basking sharks, predicting their distribution patterns under current and future climate scenarios. The results indicate that chlorophyll, sea surface temperature, silicate and mixed layer depth are the primary factors determining habitat suitability for basking sharks. Under high-emission scenarios (Shared Socioeconomic Pathway, SSP5–8.5), our model predicts a shift toward the higher latitudes of the northern hemisphere in basking shark habitats, including temperate and sub-Arctic waters. 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subjects Cetorhinus maximus
chlorophyll
climate
climate change
Ecological corridor
geographical distribution
habitat destruction
habitats
humans
Marine protected area
migratory behavior
migratory species
prediction
sharks
silicates
Species distribution model
surface water temperature
title Global distribution prediction and ecological conservation of basking shark (Cetorhinus maximus) under integrated impacts
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