Biocrusts buffer against the accumulation of soil metallic nutrients induced by warming and rainfall reduction
Copyright policy )Biocrusts buffer against the accumulation of soil metallic nutrients induced by warming and rainfall reduction
AbstractThe availability of metallic nutrients in dryland soils, many of which are essential for the metabolism of soil organisms and vascular plants, may be altered due to climate change-driven increases in aridity. Biocrusts, soil surface communities dominated by lichens, bryophytes and cyanobacteria, are ecosystem engineers known to exert critical functions in dryland ecosystems. However, their role in regulating metallic nutrient availability under climate change is uncertain. Here, we evaluated whether well-developed biocrusts modulate metallic nutrient availability in response to 7 years of experimental warming and rainfall reduction in a Mediterranean dryland located in southeastern Spain. We found increases in the availability of K, Mg, Zn and Na under warming and rainfall exclusion. However, the presence of a well-developed biocrust cover buffered these effects, most likely because its constituents can uptake significant quantities of available metallic nutrients. Our findings suggest that biocrusts, a biotic community prevalent in drylands, exert an important role in preserving and protecting metallic nutrients in dryland soils from leaching and erosion. Therefore, we highlight the need to protect them to mitigate undesired effects of soil degradation driven by climate change in this globally expanding biome.
- Spanish National Research Council Spain
- Cadi Ayyad University Morocco
- Life University United States
- Université Mustapha Stambouli de Mascara Algeria
- Life University United States
Arid, Rain, Metallic nutrients, Biological soil crust, Lichen, Nutrient cycle, Agricultural and Biological Sciences, Soil, Soil water, Climate change, Biological Soil Crusts, Soil Microbiology, Ecology, Temperature, Life Sciences, Química, Metals, Physical Sciences, Biocrusts, Lichens, Climate Change, Biological Availability, Bryophyta, Biological Soil Crusts and their Roles in Ecosystems, Article, Environmental science, soil, Environmental Chemistry, Lichen Symbiotic Relationships and Ecological Impact, Biology, Ecology, Evolution, Behavior and Systematics, Ecosystem, Soil science, Ecología, Spain, FOS: Biological sciences, Environmental Science, Mediterranean climate, Eutrophication and Harmful Algal Blooms, Dryland soils, Nutrient
Arid, Rain, Metallic nutrients, Biological soil crust, Lichen, Nutrient cycle, Agricultural and Biological Sciences, Soil, Soil water, Climate change, Biological Soil Crusts, Soil Microbiology, Ecology, Temperature, Life Sciences, Química, Metals, Physical Sciences, Biocrusts, Lichens, Climate Change, Biological Availability, Bryophyta, Biological Soil Crusts and their Roles in Ecosystems, Article, Environmental science, soil, Environmental Chemistry, Lichen Symbiotic Relationships and Ecological Impact, Biology, Ecology, Evolution, Behavior and Systematics, Ecosystem, Soil science, Ecología, Spain, FOS: Biological sciences, Environmental Science, Mediterranean climate, Eutrophication and Harmful Algal Blooms, Dryland soils, Nutrient
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