Add to ORKGINTRODUCTION: In dryland systems, biological soil crusts (biocrusts) can occupy large areas of plant interspaces, where they fix carbon following rain. Although distinct biocrust types contain different dominant photoautotrophs, few studies to date have documented carbon exchange over time from various biocrust types. This is especially true for gypsum soils. Our objective was to assess the carbon exchange of biocrust types established at the worlds largest gypsum dune field at White Sands National Park. METHODS: We sampled five different biocrust types from a sand sheet location in three different years and seasons (summer 2020, fall 2021, and winter 2022) for carbon exchange measurements in controlled lab conditions. Biocrusts were rehydr...
Dryland ecosystems account for ca. 27% of global soil organic carbon (C) reserves, yet it is largely...
[1] Biological activity in arid grasslands is strongly dependent on moisture. We examined gas exchan...
Anthropogenic land use and changes in climate can cause severe degradation in dryland ecosystems, le...
Biological soil crusts (biocrusts) are an integral part of the soil system in arid regions worldwide...
Biocrusts are a critical biological community that represents one of the most important photosynthet...
Biocrusts are model ecosystems of global change studies. However, light and non-rainfall water (NRW)...
Links between water and carbon (C) cycles in drylands are strongly regulated by biocrusts. These wid...
Biological soil crusts (cyanobacteria, mosses and lichens collectively) perform essential ecosystem ...
Biological soil crusts (cyanobacteria, mosses and lichens collectively) perform essential ecosystem ...
Biological soil crusts (biocrusts) are common and ecologically important members of dryland ecosyste...
Precipitation is the major driver of ecosystem functions and processes in semiarid and arid regions....
The importance of biological soil crusts (biocrusts) for the biogeochemistry of drylands is widely r...
Precipitation patterns including the magnitude, timing, and seasonality of rainfall are predicted to...
Biological soil crusts, a community of cyanobacteria, lichens, and mosses that live on the soil surf...
Background and Aims Biological soil crusts cover about one third of the terrestrial soil surfaces in...
Dryland ecosystems account for ca. 27% of global soil organic carbon (C) reserves, yet it is largely...
[1] Biological activity in arid grasslands is strongly dependent on moisture. We examined gas exchan...
Anthropogenic land use and changes in climate can cause severe degradation in dryland ecosystems, le...
Biological soil crusts (biocrusts) are an integral part of the soil system in arid regions worldwide...
Biocrusts are a critical biological community that represents one of the most important photosynthet...
Biocrusts are model ecosystems of global change studies. However, light and non-rainfall water (NRW)...
Links between water and carbon (C) cycles in drylands are strongly regulated by biocrusts. These wid...
Biological soil crusts (cyanobacteria, mosses and lichens collectively) perform essential ecosystem ...
Biological soil crusts (cyanobacteria, mosses and lichens collectively) perform essential ecosystem ...
Biological soil crusts (biocrusts) are common and ecologically important members of dryland ecosyste...
Precipitation is the major driver of ecosystem functions and processes in semiarid and arid regions....
The importance of biological soil crusts (biocrusts) for the biogeochemistry of drylands is widely r...
Precipitation patterns including the magnitude, timing, and seasonality of rainfall are predicted to...
Biological soil crusts, a community of cyanobacteria, lichens, and mosses that live on the soil surf...
Background and Aims Biological soil crusts cover about one third of the terrestrial soil surfaces in...
Dryland ecosystems account for ca. 27% of global soil organic carbon (C) reserves, yet it is largely...
[1] Biological activity in arid grasslands is strongly dependent on moisture. We examined gas exchan...
Anthropogenic land use and changes in climate can cause severe degradation in dryland ecosystems, le...