Human‐induced salinity changes impact marine organisms and ecosystems

环境科学 盐度 海洋生态系统 生物地球化学循环 生态系统 全球变暖对海洋的影响 气候变化 海洋学 生态学 珊瑚礁 海洋酸化 海洋生境 全球变暖 海草 全球变化 栖息地 生物 地质学
作者
Till Röthig,Stacey M. Trevathan‐Tackett,Christian R. Voolstra,Cliff Ross,Samuel Chaffron,Paul J. Durack,Laura M. Warmuth,Michael Sweet
出处
期刊:Global Change Biology [Wiley]
卷期号:29 (17): 4731-4749 被引量:190
标识
DOI:10.1111/gcb.16859
摘要

Climate change is fundamentally altering marine and coastal ecosystems on a global scale. While the effects of ocean warming and acidification on ecology and ecosystem functions and services are being comprehensively researched, less attention is directed toward understanding the impacts of human-driven ocean salinity changes. The global water cycle operates through water fluxes expressed as precipitation, evaporation, and freshwater runoff from land. Changes to these in turn modulate ocean salinity and shape the marine and coastal environment by affecting ocean currents, stratification, oxygen saturation, and sea level rise. Besides the direct impact on ocean physical processes, salinity changes impact ocean biological functions with the ecophysiological consequences are being poorly understood. This is surprising as salinity changes may impact diversity, ecosystem and habitat structure loss, and community shifts including trophic cascades. Climate model future projections (of end of the century salinity changes) indicate magnitudes that lead to modification of open ocean plankton community structure and habitat suitability of coral reef communities. Such salinity changes are also capable of affecting the diversity and metabolic capacity of coastal microorganisms and impairing the photosynthetic capacity of (coastal and open ocean) phytoplankton, macroalgae, and seagrass, with downstream ramifications on global biogeochemical cycling. The scarcity of comprehensive salinity data in dynamic coastal regions warrants additional attention. Such datasets are crucial to quantify salinity-based ecosystem function relationships and project such changes that ultimately link into carbon sequestration and freshwater as well as food availability to human populations around the globe. It is critical to integrate vigorous high-quality salinity data with interacting key environmental parameters (e.g., temperature, nutrients, oxygen) for a comprehensive understanding of anthropogenically induced marine changes and its impact on human health and the global economy.
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