Abstract
Toxic planktonic cyanobacterial blooms are a pressing environmental and human health problem. Blooms are expanding globally and threatening sustainability of our aquatic resources. Anthropogenic nutrient enrichment and hydrological modifications, including water diversions and reservoir construction, are major drivers of bloom expansion. Climatic change, i.e., warming, more extreme rainfall events, and droughts, act synergistically with human drivers to exacerbate the problem. Bloom mitigation steps, which are the focus of this review, must consider these dynamic interactive factors in order to be successful in the short- and long-term. Furthermore, these steps must be applicable along the freshwater to marine continuum connecting streams, lakes, rivers, estuarine, and coastal waters. There is an array of physical, chemical, and biological approaches, including flushing, mixing, dredging, application of algaecides, precipitating phosphorus, and selective grazing, that may arrest and reduce bloom intensities in the short-term. However, to ensure long term, sustainable success, targeting reductions of both nitrogen and phosphorus inputs should accompany these approaches along the continuum. Lastly, these strategies should accommodate climatic variability and change, which will likely modulate and alter nutrient-bloom thresholds.
Highlights
Cyanobacteria were the first oxygenic phototrophs that appeared on Earth, with fossil records indicating that they were present at least 2 billion years ago [1,2]
Excessive inputs of both phosphorus (P) and nitrogen (N) promote eutrophic and hypereutrophic conditions [23,24,25]; a major result being chronic result being chronic CyanoHABs [8,16,26,27]
These forms can be supplied from non-point and point sources, and many soluble forms are biologically available to CyanoHABs
Summary
Cyanobacteria were the first oxygenic phototrophs that appeared on Earth, with fossil records indicating that they were present at least 2 billion years ago [1,2]. Of microorganisms, higher plants and animals, which help alleviate environmental stresses and These numerous intra- and extra-cellular adaptations are instrumental in countering and taking limitations [11,12]. (nitrogen, phosphorus, phosphorus, iron) iron) supply supply rates These adaptations are highly relevant in regimes of changing and extreme climatic conditions. They are are important important to to consider consider in in the the context context of of developing developing effective effective long-term long-term mitigation mitigation strategies, and take advantage of of a range of strategies, as as the theadaptations adaptationsdiscussed discussedallow allowCyanoHABs. CyanoHABstotocounter counter and take advantage a range environmental pressures. Discussed in the context of a climatically and hydrologically more variable and extreme world
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
