Mitigating the Expansion of Harmful Algal Blooms Across the Freshwater-to-Marine Continuum

富营养化 水华 环境科学 营养物 分水岭 微咸水 赤潮 生态学 水质 海洋学 浮游植物 水文学(农业) 水资源管理 生物 地质学 机器学习 盐度 计算机科学 岩土工程
作者
Hans W. Paerl,Timothy G. Otten,Raphael M. Kudela
出处
期刊:Environmental Science & Technology [American Chemical Society]
卷期号:52 (10): 5519-5529 被引量:325
标识
DOI:10.1021/acs.est.7b05950
摘要

Anthropogenic nutrient overenrichment, coupled with rising temperatures, and an increasing frequency of extreme hydrologic events (storms and droughts) are accelerating eutrophication and promoting the expansion of harmful algal blooms (HABs) across the freshwater-to-marine continuum. All HABs—with a focus here on cyanobacterial blooms—pose serious consequences for water supplies, fisheries, recreational uses, tourism, and property values. As nutrient loads grow in watersheds, they begin to compound the effects of legacy stores. This has led to a paradigm shift in our understanding of how nutrients control eutrophication and blooms. Phosphorus (P) reductions have been traditionally prescribed exclusively for freshwater systems, while nitrogen (N) reductions were mainly stressed for brackish and coastal waters. However, because most systems are hydrologically interconnected, single nutrient (e.g., P only) reductions upstream may not necessarily reduce HAB impacts downstream. Reducing both N and P inputs is the only viable nutrient management solution for long-term control of HABs along the continuum. This article highlights where paired physical, chemical, or biological controls may improve beneficial uses in the short term, and offers management strategies that should be enacted across watershed scales to combat the global expansion of HABs across geographically broad freshwater-to-marine continua.

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