Vulnerability of diatom communities in the Peace-Athabasca Delta to environmental change

Habitat degradation associated with resource development is a major ecological concern, particularly in Canada's boreal zone where limited information on biodiversity is available. Habitat degradation can lead to reductions in biodiversity and ecosystem function, especially when drivers of vari...

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Bibliographic Details
Published in:PeerJ (San Francisco, CA) CA), 2018-08, Vol.6, p.e5447-e5447, Article e5447
Main Authors: Connor, Stephanie J, Alexander-Trusiak, Alexa C, Baird, Donald J
Format: Article
Language:English
Subjects:
Acidification
Alkalinity
Biodiversity
Buffalo
Climate change
Community composition
Conductance
Creeks & streams
Diatoms
Drought
Ecology
Environmental change
Freshwater Biology
National parks
Ordination
Phosphorus
Resource development
Rivers
Sampling
Seasonal variations
Turbidity
Wetlands
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Summary:Habitat degradation associated with resource development is a major ecological concern, particularly in Canada's boreal zone where limited information on biodiversity is available. Habitat degradation can lead to reductions in biodiversity and ecosystem function, especially when drivers of variability and diversity patterns have not been identified for a region of interest. In this study, the distribution of diatom genera in the Peace-Athabasca Delta in northeastern Alberta was examined in relation to seasonal, geographic, and alkalinity gradients. Grab samples of six abiotic variables (total dissolved nitrogen, total dissolved phosphorus, dissolved iron, turbidity, pH, and specific conductance (SPC)) were taken from 12 remote wetlands over three sampling periods, and regressed against an ordination of diatom community composition to identify key environmental drivers of diatom community variation. Indirect gradient analysis identified two major gradients among sites. First, separation of sites among sampling periods showed successional seasonal changes in diatom community composition. Second, separation of sites from the Peace sub-delta and Birch sub-delta showed a gradient of geographic separation. Direct gradient analysis failed to explain the underlying drivers of these two gradients, but did show that alkalinity is a key driver of diatom community composition in the Embarras sub-delta, and that these sites could be particularly vulnerable to community changes associated with acidification.
ISSN:2167-8359
2167-8359
DOI:10.7717/peerj.5447