期刊
JOURNAL OF GEOPHYSICAL RESEARCH-BIOGEOSCIENCES
卷 116, 期 -, 页码 -出版社
AMER GEOPHYSICAL UNION
DOI: 10.1029/2010JG001442
关键词
-
资金
- Philecology Foundation of Fort Worth, Texas
- NSF-DEB [04189134, 0414977]
Soil respiration (R-soil) is a dominant, but variable, contributor to ecosystem CO2 efflux. Understanding how variations in major environmental drivers, like temperature and available moisture, might regulate R-soil has become extremely relevant. Plant functional-type diversity makes such assessments difficult because of the confounding influence of varied plant phenology and influences on soil microhabitats. We used automated measurement systems to quantify R-soil in the three microhabitats (under mesquites, under bunchgrasses, and in intercanopy soils) that result from mesquite encroachment into grasslands to inform our understanding of diel R-soil patterns in response to changes in temperature, seasonal variations in R-soil in response to varied soil moisture and plant phenology, and the contribution of each microhabitat to total ecosystem-scale R-soil. We detected a counterclockwise hysteretic response of R-soil to soil temperature, such that up to 100% greater fluxes were observed in the afternoon/evening than the morning for the same temperature. Phenological differences influenced ecosystem-scale R-soil in that mesquites were physiologically active months before bunchgrasses and R-soil rates under mesquites were greater and elevated longer in response to rains. Cumulative annual R-soil was 412, 229, and 202 g C m(-2) under mesquites, bunchgrasses, and intercanopy spaces, respectively. Extrapolating to the ecosystem-scale using cover estimates within the site's eddy covariance footprint illustrated that average mesquite R-soil contributed 46% to overall ecosystem-scale R-soil, though mesquite composed only about 35% of the site. As grasslands transition to shrub dominance, the contribution of R-soil to net ecosystem flux will likely increase, potentially offsetting presumed greater CO2 uptake potential of woody plants.
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