Components and Predictors of Biological Soil Crusts Vary at the Regional vs. Plant Community Scales
Open Access
- 8 January 2020
- journal article
- research article
- Published by Frontiers Media SA in Frontiers in Ecology and Evolution
Abstract
Although biological soil crusts (biocrusts) occur globally in arid and semi-arid environments, most of our knowledge of biocrust cover and ecology is from a relatively small number of locations worldwide. Some plant communities are known to have high cover of biocrusts, but the abundance of biocrusts is largely undocumented in most plant communities. Using a data driven approach, we identified 16 plant communities based on plant cover from the Assessment, Inventory, and Monitoring Strategy data from the Bureau of Land Management (AIM, 5,200 plots). We found that abundance of lichens and mosses varies among communities, but that both components of biocrusts are present in all plant communities. Biocrusts are indicators of two of these communities: one that is defined by high cover of mosses and basin big sagebrush and one that is defined by high cover of lichens and shadscale saltbush. Using non-parametric multiplicative regression, we evaluated a suite of abiotic and disturbance variables to assess the degree to which climate and soils are associated with the abundance of lichens and mosses at the regional scale. At the regional scale, soil depth and maximum vapor pressure deficit were found to be strongly associated with the abundance of lichens and January minimum temperature dictated the abundance of mosses. At the scale of plant communities, community specific metrics of soils and climate were better able to explain the abundance of biocrusts. Our demonstration of the presence of biocrusts across the western US suggests that studies on ecosystem function could include these organisms because they are present in all plant communities, maintain arguably stronger associations with climatic variation, are directly associated with soils, and contribute to ecosystem functions that are not solely maintained by vascular plants.Keywords
This publication has 63 references indexed in Scilit:
- Denitrification from nitrogen-fixing biologically crusted soils in a cool desert environment, southeast Utah, USAEcological Processes, 2013
- Dynamic cyanobacterial response to hydration and dehydration in a desert biological soil crustThe ISME Journal, 2013
- Dryland soil microbial communities display spatial biogeographic patterns associated with soil depth and soil parent materialFEMS Microbiology Ecology, 2013
- Biological soil crust recovery after long-term grazing exclusion in the Monte Desert (Argentina). Changes in coverage, spatial distribution, and soil nitrogenActa Oecologica, 2012
- Biological soil crust and surface soil properties in different vegetation types of Horqin Sand Land, ChinaCATENA, 2010
- Properties and spatial distribution of microbiotic crusts in the Negev Desert, IsraelCATENA, 2010
- Grazing Density Effects on Cover, Species Composition, and Nitrogen Fixation of Biological Soil Crust in an Inner Mongolia SteppeRangeland Ecology & Management, 2009
- Carbon and nitrogen fixation differ between successional stages of biological soil crusts in the Colorado Plateau and Chihuahuan DesertJournal of Arid Environments, 2006
- Species Assemblages and Indicator Species: The Need for a Flexible Asymmetrical ApproachEcological Monographs, 1997
- SPECIES ASSEMBLAGES AND INDICATOR SPECIES:THE NEED FOR A FLEXIBLE ASYMMETRICAL APPROACHEcological Monographs, 1997