Structure of microbial communities in amended and unamended acid-generating mine wastes along gradients of soil amelioration and revegetation

Structure of microbial communities in amended and unamended acid-generating mine wastes along gradients of soil amelioration and revegetation

Understanding the structure of microbial communities in acidic, metal contaminated tailings and waste rock in cool, continental northern temperate climates is important for identifying their potential for use in phytostabilization and bioremediation programs. In this study, microbial community compo...

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Published in:Applied soil ecology : a section of Agriculture, ecosystems & environment Vol. 155; p. 103645
Main Authors: Asemaninejad, Asma, Munford, Kimber, Watmough, Shaun, Campbell, Daniel, Glasauer, Susan, Basiliko, Nathan, Mykytczuk, Nadia
Format: Journal Article
Language:English
Published: Elsevier B.V 01-11-2020
Subjects:
Bacteria
Bioremediation
Fungi
Microbial co-occurrence
Network association
Tailings
Fungi
Bacteria
Microbial co-occurrence
Network association
Bioremediation
Tailings
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Summary:Understanding the structure of microbial communities in acidic, metal contaminated tailings and waste rock in cool, continental northern temperate climates is important for identifying their potential for use in phytostabilization and bioremediation programs. In this study, microbial community compositions across two large mine waste sites in the Sudbury basin, Ontario Canada were analyzed along gradients of barren-to-vegetated tailings and waste rock. Microbial communities were less diverse, more homogenous, and mainly chemolithoautotrophic in barren sites, transitioning to more diverse communities of organoheterotrophs, nitrogen-fixing/plant-growth promoting bacteria, and ectomycorrhizal fungi in the vegetated areas. Co-occurrence analyses of microbial communities demonstrated higher levels of association among microbial groups in the barren tailings, which were related to the extreme environmental and chemical conditions and restricted anabolic nutrient availability of the substrates. We also show that vegetation and plant-derived organic matter in the tailings are associated with the shifts observed in the structure of microbial communities towards more soil-like communities. These changes in microbial communities can improve soil fertility through increased rates of heterotrophic decomposition of plant-derived organic matter, and sequentially further aid in the establishment of vegetation. These findings will help develop phytostabilization approaches in mine tailings and waste rock in cool, continental northern temperate and boreal climates. •Microbial communities in vegetated tailings were more diverse than barren tailings.•Microorganisms showed higher extent of interspecies associations in barren tailings.•Geochemical properties of tailings shaped microbial community composition.
ISSN:0929-1393
1873-0272
DOI:10.1016/j.apsoil.2020.103645