Cyanotoxin Response Leads to Successful Resilience Planning | Zendy

Johnson Christopher | Zendy; Davis Jason | Zendy; Sherman Timothy | Zendy

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Cyanotoxin Response Leads to Successful Resilience Planning

Author(s) -

Johnson Christopher,

Davis Jason,

Sherman Timothy

Publication year - 2021

Publication title -

opflow

Language(s) - English

Resource type - Journals

eISSN - 1551-8701

pISSN - 0149-8029

DOI - 10.1002/opfl.1515

Subject(s) - resilience (materials science) , environmental planning , process (computing) , algal bloom , environmental resource management , cyanotoxin , quality (philosophy) , term (time) , risk analysis (engineering) , environmental science , business , computer science , geology , ecology , cyanobacteria , paleontology , microcystin , quantum mechanics , bacteria , philosophy , physics , phytoplankton , epistemology , biology , nutrient , thermodynamics , operating system

Although Salem, Ore., had a well‐designed monitoring and treatment process in place, an algal bloom with historic consequences led the city to implement immediate mitigation measures and establish a long‐term strategy for meeting future water quality challenges.

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