Microbial diversity and functional capacity in polar soils.

Global change is disproportionately affecting cold environments (polar and high elevation regions), with potentially negative impacts on microbial diversity and functional processes. In most cold environments the combination of low temperatures, and physical stressors, such as katabatic wind episode...

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Bibliographic Details
Main Authors: Makhalanyane, Thulani Peter, Van Goethem, Marc Warwick, Cowan, Don Arthur
Format: Article in Journal/Newspaper
Language:unknown
Published: eScholarship, University of California 2016
Subjects:
Bacteria
Soil
Soil Microbiology
Arctic Regions
Metagenomics
Biotechnology
Biological Sciences
Technology
Engineering
Arctic
Antarc*
Antarctica
Climate change
Online Access:https://escholarship.org/uc/item/4vc8904n
Description
Summary:Global change is disproportionately affecting cold environments (polar and high elevation regions), with potentially negative impacts on microbial diversity and functional processes. In most cold environments the combination of low temperatures, and physical stressors, such as katabatic wind episodes and limited water availability result in biotic systems, which are in trophic terms very simple and primarily driven by microbial communities. Metagenomic approaches have provided key insights on microbial communities in these systems and how they may adapt to stressors and contribute towards mediating crucial biogeochemical cycles. Here we review, the current knowledge regarding edaphic-based microbial diversity and functional processes in Antarctica, and the Artic. Such insights are crucial and help to establish a baseline for understanding the impact of climate change on Polar Regions.

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