Purpose Biocrust communities, which are important regulators of multiple ecosystem functions in drylands, are highly sensitive to climate change. There is growing evidence of the negative impacts of warming on the performance of biocrust constituents like lichens in the field. Here, we aim to understand the physiological basis behind this pattern. Methods Using a unique manipulative climate change experiment, we monitored every 30 minutes and for 9 months the chlorophyll a fluorescence and microclimatic conditions (lichen surface temperature, relative moisture and photosynthetically active radiation) of Psora decipiens, a key biocrust constituent in drylands worldwide. This long-term monitoring resulted in 11,847 records at the thallus...
A positive soil carbon (C)−climate feedback is embedded into the climatic models of the IPCC. Howeve...
The long-term potential for acclimation by lichens to warming climates is poorly known, despite thei...
Biological soil crusts (BSCs) are key biotic components of dryland ecosystems worldwide that control...
Purpose Biocrust communities, which are important regulators of multiple ecosystem functions in dryl...
(1) Biocrusts are key drivers of ecosystem functioning in drylands, yet our understanding of how cli...
Biocrusts are key drivers of ecosystem functioning in drylands, yet our understanding of how climate...
Data recorded in the microcosm experiment conducted at the Climate Change Outdoor Laboratory of Rey ...
Biocrusts are key drivers of ecosystem functioning in drylands, yet our understanding of how climate...
The importance of biological soil crusts (biocrusts) for the biogeochemistry of drylands is widely r...
Drylands are important reservoirs of soil phosphorus (P) at the global scale, although large uncerta...
Background: Biocrusts, communities dominated by mosses, lichens, cyanobacteria, and other microo...
Despite the important role that biocrust communities play in maintaining ecosystem structure and fun...
Climate change and atmospheric nitrogen (N) deposition on drylands are greatly threatening these esp...
Despite the high relevance of communities dominated by lichens, mosses and cyanobacteria living on t...
Despite the high relevance of communities dominated by lichens, mosses and cyanobacteria living on t...
A positive soil carbon (C)−climate feedback is embedded into the climatic models of the IPCC. Howeve...
The long-term potential for acclimation by lichens to warming climates is poorly known, despite thei...
Biological soil crusts (BSCs) are key biotic components of dryland ecosystems worldwide that control...
Purpose Biocrust communities, which are important regulators of multiple ecosystem functions in dryl...
(1) Biocrusts are key drivers of ecosystem functioning in drylands, yet our understanding of how cli...
Biocrusts are key drivers of ecosystem functioning in drylands, yet our understanding of how climate...
Data recorded in the microcosm experiment conducted at the Climate Change Outdoor Laboratory of Rey ...
Biocrusts are key drivers of ecosystem functioning in drylands, yet our understanding of how climate...
The importance of biological soil crusts (biocrusts) for the biogeochemistry of drylands is widely r...
Drylands are important reservoirs of soil phosphorus (P) at the global scale, although large uncerta...
Background: Biocrusts, communities dominated by mosses, lichens, cyanobacteria, and other microo...
Despite the important role that biocrust communities play in maintaining ecosystem structure and fun...
Climate change and atmospheric nitrogen (N) deposition on drylands are greatly threatening these esp...
Despite the high relevance of communities dominated by lichens, mosses and cyanobacteria living on t...
Despite the high relevance of communities dominated by lichens, mosses and cyanobacteria living on t...
A positive soil carbon (C)−climate feedback is embedded into the climatic models of the IPCC. Howeve...
The long-term potential for acclimation by lichens to warming climates is poorly known, despite thei...
Biological soil crusts (BSCs) are key biotic components of dryland ecosystems worldwide that control...