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Main Authors: Xu, Yong, Sui, Jixing, Ma, Lin, Wang, Jinbao, Kou, Qi, Gan, Zhibin, Gong, Lin, Yang, Mei, Han, Qingxi, Li, Xinzheng, Dong, Dong
Format: Artículo científico
Language:en
Published: Journal of environmental management 2026
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/41380381/
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author Xu, Yong
Sui, Jixing
Ma, Lin
Wang, Jinbao
Kou, Qi
Gan, Zhibin
Gong, Lin
Yang, Mei
Han, Qingxi
Li, Xinzheng
Dong, Dong
author_facet Xu, Yong
Sui, Jixing
Ma, Lin
Wang, Jinbao
Kou, Qi
Gan, Zhibin
Gong, Lin
Yang, Mei
Han, Qingxi
Li, Xinzheng
Dong, Dong
Xu, Yong
Sui, Jixing
Ma, Lin
Wang, Jinbao
Kou, Qi
Gan, Zhibin
Gong, Lin
Yang, Mei
Han, Qingxi
Li, Xinzheng
Dong, Dong
collection PubMed - marine biology
contents Distinct links between climate warming, mariculture activities, and coastal benthic ecosystem change. Xu, Yong Sui, Jixing Ma, Lin Wang, Jinbao Kou, Qi Gan, Zhibin Gong, Lin Yang, Mei Han, Qingxi Li, Xinzheng Dong, Dong Climate Change Ecosystem China Biodiversity Animals Bays Seasons Climate warming and mariculture activities are reshaping marine ecosystems, yet how these drivers differentially influence coastal benthic ecosystems, especially within temperate bays, remains insufficiently resolved. This study examined 30 years (1991-2020) of benthic data from a large northern temperate bay - Jiaozhou Bay - China to disentangle the links between climate warming, mariculture activities, and coastal benthic ecosystem change. The results showed that benthic α diversity trajectories varied among the ten fixed inshore/offshore sites, displaying non-monotonic relationships with mariculture activities and winter warming (peaking under moderate pressure) while declining with summer warming; β diversity displayed a non-monotonic temporal trend while declined with mariculture activities and winter warming; γ diversity displayed a significant downward temporal trend. Assemblage structure shifted significantly over space and time, with most sites following similar directional trajectories and significantly related to both stressors. Climate warming explained more than twice the variation in α diversity than mariculture activities, whereas the opposite occurred in β diversity and assemblage structure. Furthermore, among 19 taxa showing significant temporal trends, none of the species sensitive to disturbance increased in abundance. These findings offer valuable insights for understanding and predicting the distinct ecological links of climate change and anthropogenic activities to coastal ecosystems.
format Artículo científico
id pubmed_41380381
institution PubMed
language en
publishDate 2026
publisher Journal of environmental management
record_format pubmed
spellingShingle Distinct links between climate warming, mariculture activities, and coastal benthic ecosystem change.
Xu, Yong
Sui, Jixing
Ma, Lin
Wang, Jinbao
Kou, Qi
Gan, Zhibin
Gong, Lin
Yang, Mei
Han, Qingxi
Li, Xinzheng
Dong, Dong
Climate Change
Ecosystem
China
Biodiversity
Animals
Bays
Seasons
Distinct links between climate warming, mariculture activities, and coastal benthic ecosystem change. Xu, Yong Sui, Jixing Ma, Lin Wang, Jinbao Kou, Qi Gan, Zhibin Gong, Lin Yang, Mei Han, Qingxi Li, Xinzheng Dong, Dong Climate Change Ecosystem China Biodiversity Animals Bays Seasons Climate warming and mariculture activities are reshaping marine ecosystems, yet how these drivers differentially influence coastal benthic ecosystems, especially within temperate bays, remains insufficiently resolved. This study examined 30 years (1991-2020) of benthic data from a large northern temperate bay - Jiaozhou Bay - China to disentangle the links between climate warming, mariculture activities, and coastal benthic ecosystem change. The results showed that benthic α diversity trajectories varied among the ten fixed inshore/offshore sites, displaying non-monotonic relationships with mariculture activities and winter warming (peaking under moderate pressure) while declining with summer warming; β diversity displayed a non-monotonic temporal trend while declined with mariculture activities and winter warming; γ diversity displayed a significant downward temporal trend. Assemblage structure shifted significantly over space and time, with most sites following similar directional trajectories and significantly related to both stressors. Climate warming explained more than twice the variation in α diversity than mariculture activities, whereas the opposite occurred in β diversity and assemblage structure. Furthermore, among 19 taxa showing significant temporal trends, none of the species sensitive to disturbance increased in abundance. These findings offer valuable insights for understanding and predicting the distinct ecological links of climate change and anthropogenic activities to coastal ecosystems.
title Distinct links between climate warming, mariculture activities, and coastal benthic ecosystem change.
topic Climate Change
Ecosystem
China
Biodiversity
Animals
Bays
Seasons
url https://pubmed.ncbi.nlm.nih.gov/41380381/