Multiple environmental variables influence diatom assemblages across an arsenic gradient in 33 subarctic lakes near abandoned gold mines-Reference-Cited by-同舟云学术

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Multiple environmental variables influence diatom assemblages across an arsenic gradient in 33 subarctic lakes near abandoned gold mines

Published:2019-07-06 Issue:1 Volume:841 Page:133-151
ISSN:0018-8158
Container-title:Hydrobiologia
language:en
Short-container-title:Hydrobiologia

Author:

Sivarajah Branaavan^ORCID,Korosi Jennifer B.,Blais Jules M.,Smol John P.

Funder

Natural Sciences and Engineering Research Council of Canada

Publisher

Springer Science and Business Media LLC

Subject

Aquatic Science

Link

http://link.springer.com/content/pdf/10.1007/s10750-019-04014-1.pdf

Reference93 articles.

1. Antoniades, D., M. S. V. Douglas & J. P. Smol, 2005. Benthic diatom autecology and inference model development from the Canadian High Arctic Archipelago. Journal of Phycology 41: 30–45.

2. Antoniades, D., M. S. V. Douglas & J. P. Smol, 2009. Biogeographic distributions and environmental controls of stream diatoms in the Canadian Arctic Archipelago. Botany 87: 443–454.

3. Austin, A., J. Deniseger & M. J. R. Clark, 1985. Lake algal populations and physico-chemical changes after 14 years input of metallic mining wastes. Water Research 19: 299–308.

4. Barral-Farga, L., S. Morin, M. D. M. Rovira, G. Urrea, K. Magellan & H. Guasch, 2016. Short-term arsenic exposure reduces diatom cell size in biofilm communities. Environmental Science and Pollution Research 23: 4257–4270.

5. Barral-Fraga, L., D. Martiñá-Prieto, M. T. Barral, S. Morin & H. Guasch, 2018. Mutual interaction between arsenic and biofilm in a mining impacted river. Science of the Total Environment 636: 985–998.

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