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Main Authors: Qu, Yi, Zhang, Tianyu, Wang, Xin, Liu, Yongliang, Zhao, Jianmin
Format: Artículo científico
Language:en
Published: Environmental research 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/39638028/
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author Qu, Yi
Zhang, Tianyu
Wang, Xin
Liu, Yongliang
Zhao, Jianmin
author_facet Qu, Yi
Zhang, Tianyu
Wang, Xin
Liu, Yongliang
Zhao, Jianmin
Qu, Yi
Zhang, Tianyu
Wang, Xin
Liu, Yongliang
Zhao, Jianmin
collection PubMed - marine biology
contents Synergistic effects of ocean acidification and sulfamethoxazole on immune function, energy allocation, and oxidative stress in Trochus niloticus. Qu, Yi Zhang, Tianyu Wang, Xin Liu, Yongliang Zhao, Jianmin Sulfamethoxazole Oxidative Stress Seawater Animals Hydrogen-Ion Concentration Water Pollutants, Chemical Energy Metabolism Oceans and Seas Gastropoda Anti-Bacterial Agents Climate Change Ocean Acidification Ocean acidification, a major consequence of climate change, poses significant threats to marine organisms, particularly when combined with other environmental stressors such as chemical pollution. This study investigated the physiological responses of Trochus niloticus to a 28-day exposure of ocean acidification and/or sulfamethoxazole, a commonly detected antibiotic in the South China Sea. Exposure to either acidification or sulfamethoxazole individually triggered adaptive responses through immune activation, antioxidant reactions, and metabolic adjustments. However, concurrent exposure resulted in significant adverse effects, including compromised immunity, oxidative damage, and disrupted energy budget. These findings provide new insights into how ocean acidification interacts with antibiotic pollution to synergistically impact marine gastropods, suggesting that multiple stressors may pose greater threats to T. niloticus populations than single stressors alone.
format Artículo científico
id pubmed_39638028
institution PubMed
language en
publishDate 2025
publisher Environmental research
record_format pubmed
spellingShingle Synergistic effects of ocean acidification and sulfamethoxazole on immune function, energy allocation, and oxidative stress in Trochus niloticus.
Qu, Yi
Zhang, Tianyu
Wang, Xin
Liu, Yongliang
Zhao, Jianmin
Sulfamethoxazole
Oxidative Stress
Seawater
Animals
Hydrogen-Ion Concentration
Water Pollutants, Chemical
Energy Metabolism
Oceans and Seas
Gastropoda
Anti-Bacterial Agents
Climate Change
Ocean Acidification
Synergistic effects of ocean acidification and sulfamethoxazole on immune function, energy allocation, and oxidative stress in Trochus niloticus. Qu, Yi Zhang, Tianyu Wang, Xin Liu, Yongliang Zhao, Jianmin Sulfamethoxazole Oxidative Stress Seawater Animals Hydrogen-Ion Concentration Water Pollutants, Chemical Energy Metabolism Oceans and Seas Gastropoda Anti-Bacterial Agents Climate Change Ocean Acidification Ocean acidification, a major consequence of climate change, poses significant threats to marine organisms, particularly when combined with other environmental stressors such as chemical pollution. This study investigated the physiological responses of Trochus niloticus to a 28-day exposure of ocean acidification and/or sulfamethoxazole, a commonly detected antibiotic in the South China Sea. Exposure to either acidification or sulfamethoxazole individually triggered adaptive responses through immune activation, antioxidant reactions, and metabolic adjustments. However, concurrent exposure resulted in significant adverse effects, including compromised immunity, oxidative damage, and disrupted energy budget. These findings provide new insights into how ocean acidification interacts with antibiotic pollution to synergistically impact marine gastropods, suggesting that multiple stressors may pose greater threats to T. niloticus populations than single stressors alone.
title Synergistic effects of ocean acidification and sulfamethoxazole on immune function, energy allocation, and oxidative stress in Trochus niloticus.
topic Sulfamethoxazole
Oxidative Stress
Seawater
Animals
Hydrogen-Ion Concentration
Water Pollutants, Chemical
Energy Metabolism
Oceans and Seas
Gastropoda
Anti-Bacterial Agents
Climate Change
Ocean Acidification
url https://pubmed.ncbi.nlm.nih.gov/39638028/