SOIL RESPIRATION IN THE COLD DESERT ENVIRONMENT OF THE COLORADO PLATEAU (USA): ABIOTIC REGULATORS AND THRESHOLDS

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dc.contributor.author Fernandez D.P.
dc.contributor.author Neff Ja.C.
dc.contributor.author Belnap Ja.
dc.contributor.author Reynolds R.L.
dc.date.accessioned 2024-09-20T06:16:53Z
dc.date.available 2024-09-20T06:16:53Z
dc.date.issued 2006
dc.identifier https://www.elibrary.ru/item.asp?id=52868335
dc.identifier.citation Biogeochemistry, 2006, 78, 3, 247-265
dc.identifier.issn 0168-2563
dc.identifier.uri https://repository.geologyscience.ru/handle/123456789/45244
dc.description.abstract Decomposition is central to understanding ecosystem carbon exchange and nutrient-release processes. Unlike mesic ecosystems, which have been extensively studied, xeric landscapes have received little attention; as a result, abiotic soil-respiration regulatory processes are poorly understood in xeric environments. To provide a more complete and quantitative understanding about how abiotic factors influence soil respiration in xeric ecosystems, we conducted soil- respiration and decomposition-cloth measurements in the cold desert of southeast Utah. Our study evaluated when and to what extent soil texture, moisture, temperature, organic carbon, and nitrogen influence soil respiration and examined whether the inverse-texture hypothesis applies to decomposition. Within our study site, the effect of texture on moisture, as described by the inverse texture hypothesis, was evident, but its effect on decomposition was not. Our results show temperature and moisture to be the dominant abiotic controls of soil respiration. Specifically, temporal offsets in temperature and moisture conditions appear to have a strong control on soil respiration, with the highest fluxes occurring in spring when temperature and moisture were favorable. These temporal offsets resulted in decomposition rates that were controlled by soil moisture and temperature thresholds. The highest fluxes of CO2 occurred when soil temperature was between 10 and 16 °C and volumetric soil moisture was greater than 10%. Decomposition-cloth results, which integrate decomposition processes across several months, support the soil-respiration results and further illustrate the seasonal patterns of high respiration rates during spring and low rates during summer and fall. Results from this study suggest that the parameters used to predict soil respiration in mesic ecosystems likely do not apply in cold-desert environments.
dc.subject COLD DESERT
dc.subject REGRESSION TREE
dc.subject SOIL CARBON
dc.subject SOIL RESPIRATION
dc.title SOIL RESPIRATION IN THE COLD DESERT ENVIRONMENT OF THE COLORADO PLATEAU (USA): ABIOTIC REGULATORS AND THRESHOLDS
dc.type Статья
dc.identifier.doi 10.1007/s10533-005-4278-0


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