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Hydrobiology and ecology in the context of climate change: the future of aquatic ecosystems
Çelekli, Abuzer;
Zariç, Özgür Eren
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<subfield code="a"><p>Climate change profoundly affects aquatic ecosystems, with consequential impacts on hydrobiology and global biodiversity. This review elucidates the multifaceted relationships between climate change, aquatic ecosystem&nbsp; health, and human society. By synthesizing current research and case studies, it extensively examines the&nbsp; physical impacts of climate change, including sea level rise, temperature fluctuations, and extreme weather&nbsp; events on aquatic environments. The review includes the ecological responses, identifying key areas such as&nbsp; the effects on aquatic organisms, habitat alteration, spread of invasive species, and water quality changes.&nbsp; Economic and social implications are also critically evaluated, focusing on fisheries, aquaculture, water&nbsp; provision, and recreational and cultural values. An in-depth analysis of adaptation and mitigation strategies,&nbsp; technological solutions, and policy recommendations is also presented to address these challenges.&nbsp; Hydrobiology, as the nexus of the study, offers critical insights into the interactions and complexities within&nbsp; aquatic ecosystems, underscoring the vital role of water organisms in maintaining ecosystem functions.&nbsp; Through the lens of hydrobiology, the review emphasizes the necessity for a comprehensive approach to&nbsp; understanding, predicting, and managing the changes occurring in aquatic environments. This review is a&nbsp; foundational resource for researchers, policymakers, environmental managers, and other stakeholders, aiming&nbsp; to foster informed decisions and effective strategies for conserving and sustainably managing aquatic ecosystems in the face of climate change. By highlighting the interconnectedness of climate, water, biology,&nbsp; and human society, it underscores the urgent need for integrative and collaborative efforts to protect the vitality&nbsp; and resilience of our planet&#39;s aquatic life.</p></subfield>
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