Litcius/Paper detail

Adaptation to Environmental Extremes Structures Functional Traits in Biological Soil Crust and Hypolithic Microbial Communities

Rachel Mackelprang, Parag Vaishampayan, Kirsten M. Fisher

2022mSystems18 citationsDOIOpen Access PDF

Abstract

Biocrusts serve as a keystone element of desert and dryland ecosystems, stabilizing soils, retaining moisture, and serving as a carbon and nitrogen source in oligotrophic environments. Biocrusts cover approximately 12% of the Earth's terrestrial surface but are threatened by climate change and anthropogenic disturbance. Given their keystone role in ecosystem functioning, loss will have wide-spread consequences. Biocrust microbial constituents must withstand polyextreme environmental conditions including high UV exposure, desiccation, oligotrophic conditions, and temperature fluctuations over short time scales. By comparing biocrust communities with co-occurring hypolithic communities (which inhabit the ventral sides of semitranslucent stones and are buffered from environmental extremes), we identified traits that are likely key adaptations to extreme conditions. These include DNA damage repair, environmental sensing and response, and intracellular competition. Comparison of the two niches, which differ primarily in exposure levels to extreme conditions, makes this system ideal for understanding how functional traits are structured by the environment.

Topics & Concepts

Environmental scienceBiological soil crustThreatened speciesEcosystemAdaptation (eye)EcologyDisturbance (geology)Earth scienceTerrestrial ecosystemEcosystem engineerClimate changeEnvironmental changeGeologyBiologyHabitatGeomorphologyNeuroscienceBiocrusts and Microbial EcologyLichen and fungal ecologyAlgal biology and biofuel production