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Items: 6

1.

Analysis of cyanobacterial metabolites in surface and raw drinking waters reveals more than microcystin.

Beversdorf LJ, Rude K, Weirich CA, Bartlett SL, Seaman M, Kozik C, Biese P, Gosz T, Suha M, Stempa C, Shaw C, Hedman C, Piatt JJ, Miller TR.

Water Res. 2018 Sep 1;140:280-290. doi: 10.1016/j.watres.2018.04.032. Epub 2018 Apr 16.

PMID:
29729580
2.

Cyanobacterial Toxins of the Laurentian Great Lakes, Their Toxicological Effects, and Numerical Limits in Drinking Water.

Miller TR, Beversdorf LJ, Weirich CA, Bartlett SL.

Mar Drugs. 2017 Jun 2;15(6). pii: E160. doi: 10.3390/md15060160. Review.

3.

Variable Cyanobacterial Toxin and Metabolite  Profiles across Six Eutrophic Lakes of Differing  Physiochemical Characteristics.

Beversdorf LJ, Weirich CA, Bartlett SL, Miller TR.

Toxins (Basel). 2017 Feb 10;9(2). pii: E62. doi: 10.3390/toxins9020062.

4.

Long-term monitoring reveals carbon-nitrogen metabolism key to microcystin production in eutrophic lakes.

Beversdorf LJ, Miller TR, McMahon KD.

Front Microbiol. 2015 May 12;6:456. doi: 10.3389/fmicb.2015.00456. eCollection 2015.

5.

Microcystin mcyA and mcyE Gene Abundances Are Not Appropriate Indicators of Microcystin Concentrations in Lakes.

Beversdorf LJ, Chaston SD, Miller TR, McMahon KD.

PLoS One. 2015 May 6;10(5):e0125353. doi: 10.1371/journal.pone.0125353. eCollection 2015.

6.

The role of nitrogen fixation in cyanobacterial bloom toxicity in a temperate, eutrophic lake.

Beversdorf LJ, Miller TR, McMahon KD.

PLoS One. 2013;8(2):e56103. doi: 10.1371/journal.pone.0056103. Epub 2013 Feb 6.

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