Enhanced real-time cyanobacterial fluorescence monitoring through chlorophyll-a interference compensation corrections.

Choo, Florence; Zamyadi, Arash; Stuetz, Richard M.; Newcombe, Gayle; Newton, Kelly; Henderson, Rita K.

Published October 15, 2018

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Enhanced real-time cyanobacterial fluorescence monitoring through chlorophyll-a interference compensation corrections.

1. University of New South Wales
2. South Australian Water Corporation

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Publication Details

Journal article

Journal: Water research

Publisher: Elsevier BV

ISSN: 18792448

Volume: 148

Pages: 86-96

Persistent Identifiers

DOI 10.1016/j.watres.2018.10.034 Read more

MAGID 2897052221

PMID 30352324 Read more

Funding

Financial Support

Australian Research Council's Linkage Projects — Grant: LP130100033 Read more

South Australian Water Corporation Read more

Water Corporation and Water Research Australia Ltd. Read more

UNSW UNESCO Centre for Membrane Science and Technology Read more

Government Research Training Program Scholarship Read more

WaterRA PhD scholarship Read more

the Nancy Millis Memorial PhD scholarship Read more

Women in Engineering Award (UNSW) Read more

Engineering research award (UNSW) Read more

References

Ziegmann . Use of fluorescence fingerprints for the estimation of bloom formatio... Read more

Koreivien\u0117 . Cyanotoxin management and human health risk mitigation in recr... Read more

Carmichael . Health impacts from cyanobacteria harmful algae blooms: implication... Read more

Bowling . Assessment of in situ fluorometry to measure cyanobacterial presence i... Read more

Gaget . Benthic cyanobacteria: a source of cylindrospermopsin and microcystin in... Read more

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Scholarly Citations

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MeSH Terms

Chlorophyll Chlorophyll A Cyanobacteria Environmental Monitoring Fluorescence Phycocyanin

MeSH (Medical Subject Headings) is the NLM controlled vocabulary for indexing biomedical articles. Click any term to view its definition and hierarchy.

Chemical Substances

Phycocyanin

CAS: 11016-15-2

D010798

Chlorophyll

CAS: 1406-65-1

D002734

Chlorophyll A

CAS: YF5Q9EJC8Y

D000077194

3 chemical substances identified from Medical Subject Headings (MeSH).

Enhanced real-time cyanobacterial fluorescence monitoring through chlorophyll-a interference compensation corrections.

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