Vulnerability of desert biological soil crusts to wind erosion: the influences of crust development, soil texture, and disturbance

Biological soil crusts, consisting of cyanobacteria, green algae, lichens, and mosses, are important in stabilizing soils in semi-arid and arid lands. Integrity of these crusts is compromised by compressional disturbances such as foot, vehicle, or livestock traffic. Using a portable wind tunnel, we found threshold friction velocities (TFVs) of undisturbed crusts well above wind forces experienced at these sites; consequently, these soils are not vulnerable to wind erosion. However, recently disturbed soils or soils with less well-developed crusts frequently experience wind speeds that exceed the stability thresholds of the crusts. Crustal biomass is concentrated in the top 3 mm of soils. Sandblasting by wind can...

Categories: Publication; Types: Citation, Journal Citation; Tags: Journal of Arid Environments, cryptogamic, cyanobacteria, land degradation, lichens, All tags... microbiotic, microphytic, soil loss, wind erosion, Fewer tags

Disturbance of biological soil crusts: impacts on potential wind erodibility of sandy desert soils in southeastern Utah

Friction threshold velocities (FTVs) were determined for biological soil crusts in different stages of recovery. Particles on the surface of crusts that had been relatively undisturbed for at least 20 years were found to have significantly higher FTVs than those that had been disturbed 5, 10 or 1 years previously (376, 87, and 46 cm sec-1, respectively). FTV's for crust breakage was also much higher for undisturbed crusts when compared to the previously disturbed crusts (573, 148, and 88 cm sec-1, respectively). All crusted surfaces were more stable than bare sand, which had an FTV of 16 cm sec-1. Disturbance treatments were then applied to the three crustal classes. Disturbance significantly reduced the FTVs of...

Categories: Publication; Types: Citation, Journal Citation; Tags: Land Degradation & Development, cryptobiotic, cryptogamic, friction threshold velocity, microbiotic, All tags... microphytic, soil loss, Fewer tags

Geostatistically Derived Great Lakes USLE Monthly Rainfall Erosivity Factors

The R factor, an index of rainfall erosivity in the universal soil loss equation (USLE), fundamentally governs water related soil loss from agricultural plots and is based on well studied empirical relations. Soil particles and adsorbed contaminants from agricultural runoff inevitably end up in water-courses and ultimately the Great Lakes system, disturbing natural habitat, reducing water clarity and quality. We here use over 22 years of records containing hourly precipitation recordings for 453 meteorological-recording sites in Ontario, southwestern Quebec, Michigan, Ohio, Pennsylvania, and New York to estimate the R factor surrounding the lower Laurentian Great Lakes. We generate annual and monthly R factor maps...

Categories: Publication; Types: Citation; Tags: Ateshian, Data Visualization & Tools, Landscapes, Northeast CASC, Other Landscapes, All tags... R factor, Rainfall erosivity, Science Tools For Managers, USLE, erosion, geostatistics, interpolation, kriging, soil loss, Fewer tags