期刊
HARMFUL ALGAE
卷 91, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.hal.2019.03.001
关键词
Nitrogen; Phosphorus; Stoichiometry; Warming; CO2; Diatoms; Mixotrophy; HABs; Eutrophication and climate
资金
- National Oceanic and Atmospheric Administration National Centers for Coastal Ocean Science Competitive Research program [NA17NOS4780180]
- NOAA ECOHAB program [ECO934]
Climate projections suggest-with substantial certainty-that global warming >1.5 degrees C will occur by mid-century (2050). Population is also projected to increase, amplifying the demands for food, fuel, water and sanitation, which, in turn, escalate nutrient pollution. Global projections of nutrient pollution, however, are less certain than those of climate as there are regionally decreasing trends projected in Europe, and stabilization of nutrient use in North America and Australia. In this review of the effects of eutrophication and climate on harmful algae, some of the complex, subtle, and non-intuitive effects and interactions on the physiology of both harmful and non-harmful taxa are emphasized. In a future ocean, non-harmful diatoms may be disproportionately stressed and mixotrophs advantaged due to changing nutrient stoichiometry and forms of nutrients, temperature, stratification and oceanic pH. Modeling is advancing, but there is much yet to be understood, in terms of physiology, biogeochemistry and trophodynamics and how both harmful and nonharmful taxa may change in an uncertain future driven by anthropogenic activities.
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