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Main Authors: Xu, Min, Liu, Yong, Zhang, Hui, Ling, Jianzhong, Li, Huiyu
Format: Artículo científico
Language:en
Published: Biology 2025
Online Access:https://pubmed.ncbi.nlm.nih.gov/41154731/
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author Xu, Min
Liu, Yong
Zhang, Hui
Ling, Jianzhong
Li, Huiyu
author_facet Xu, Min
Liu, Yong
Zhang, Hui
Ling, Jianzhong
Li, Huiyu
Xu, Min
Liu, Yong
Zhang, Hui
Ling, Jianzhong
Li, Huiyu
collection PubMed - marine biology
contents Seasonal Spatial Distribution of in the Southern Yellow and East China Seas and Habitat Area Variation Prediction Under Climate Scenarios. Xu, Min Liu, Yong Zhang, Hui Ling, Jianzhong Li, Huiyu In real fisheries management practices, ecological information on the seasonal distribution patterns and characteristics of marine economic fauna and responses to climate change is necessary. In this study, we analyzed data obtained from surveys conducted between 2018 and 2019 in the southern Yellow and East China Seas, using ensemble models to predict variations in the habitat area of across seasons and under different climate scenarios. The highest abundances were observed at the following water temperature and salinity conditions, respectively: 18.5 °C and 34.5‱-35‱ in spring, 18.9-28 °C and 33.4-34.6‱ in summer, 18.6-21.7 °C and 33.5-34.4‱ in autumn, and 18-21.5 °C and 34‱ in winter. The major cohort was concentrated at depths of 100-110 m and 85-105 m in spring and summer, respectively, and at 80-100 m and 70-120 m in autumn and winter, respectively. In spring and winter, was distributed in the continental shelf waters of the East China Sea, at wider salinity (30-35‱) and water temperature (8-26 °C) ranges, whereas in summer and autumn, the distribution shifted offshore. The values predicted for habitat loss under different climate scenarios were ranked as follows: ~70% loss under SSP585-2100 > ~50% loss under SSP370-2100 > ~30% loss under SSP245-2100 > ~15% loss under SSP126-2100 and SSP370-2050 > ~1-5% under SSP126-2050, SSP245-2050, and SSP585-2050. No great gains in habitat were predicted under any scenario. Our findings can contribute to the establishment of appropriate fisheries management schemes for the rational exploitation of . Our predictions can assist in improving fisheries management practices within the context of climate change.
format Artículo científico
id pubmed_41154731
institution PubMed
language en
publishDate 2025
publisher Biology
record_format pubmed
spellingShingle Seasonal Spatial Distribution of in the Southern Yellow and East China Seas and Habitat Area Variation Prediction Under Climate Scenarios.
Xu, Min
Liu, Yong
Zhang, Hui
Ling, Jianzhong
Li, Huiyu
Seasonal Spatial Distribution of in the Southern Yellow and East China Seas and Habitat Area Variation Prediction Under Climate Scenarios. Xu, Min Liu, Yong Zhang, Hui Ling, Jianzhong Li, Huiyu In real fisheries management practices, ecological information on the seasonal distribution patterns and characteristics of marine economic fauna and responses to climate change is necessary. In this study, we analyzed data obtained from surveys conducted between 2018 and 2019 in the southern Yellow and East China Seas, using ensemble models to predict variations in the habitat area of across seasons and under different climate scenarios. The highest abundances were observed at the following water temperature and salinity conditions, respectively: 18.5 °C and 34.5‱-35‱ in spring, 18.9-28 °C and 33.4-34.6‱ in summer, 18.6-21.7 °C and 33.5-34.4‱ in autumn, and 18-21.5 °C and 34‱ in winter. The major cohort was concentrated at depths of 100-110 m and 85-105 m in spring and summer, respectively, and at 80-100 m and 70-120 m in autumn and winter, respectively. In spring and winter, was distributed in the continental shelf waters of the East China Sea, at wider salinity (30-35‱) and water temperature (8-26 °C) ranges, whereas in summer and autumn, the distribution shifted offshore. The values predicted for habitat loss under different climate scenarios were ranked as follows: ~70% loss under SSP585-2100 > ~50% loss under SSP370-2100 > ~30% loss under SSP245-2100 > ~15% loss under SSP126-2100 and SSP370-2050 > ~1-5% under SSP126-2050, SSP245-2050, and SSP585-2050. No great gains in habitat were predicted under any scenario. Our findings can contribute to the establishment of appropriate fisheries management schemes for the rational exploitation of . Our predictions can assist in improving fisheries management practices within the context of climate change.
title Seasonal Spatial Distribution of in the Southern Yellow and East China Seas and Habitat Area Variation Prediction Under Climate Scenarios.
url https://pubmed.ncbi.nlm.nih.gov/41154731/