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Ecosystem Water Use Efficiency in a Semiarid Shrubland and Grassland Community

Permanent URL:
http://handle.nal.usda.gov/10113/7008
File:
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Abstract:
Ecosystem water use efficiency (EWUE) is defined as the net carbon uptake per amount of water lost from the ecosystem and is a useful measure of the functionality in semiarid shrub and grassland communities. C4 grasses have higher water use efficiency (WUE) than do C3 shrubs, although it has been postulated that C4 plants have lost much of their advantage due to the rising atmospheric CO2 concentrations. The hypothesis was that C4-grass-dominated ecosystems have a higher EWUE than C3-shrub-dominated ecosystems under the present CO2 concentration and climatic variability. Evapotranspiration (ET) and CO2 fluxes were measured with Bowen ratio systems at a shrub and grass site for 6 years in southeastern Arizona. Two different methods were used to evaluate growing season EWUE using the ET and CO2 fluxes. The first method estimated a net daytime growing season EWUE for the grass site at 1.74 g CO2·mm-1 ET and 1.28 g CO2·mm-1 ET at the shrub site. The second method estimated maximum EWUE during part of the growing season at 7.35 g CO2·mm-1 ET for the grass site and 4.68 g CO2·mm-1 ET for the shrub site, which was considered a significant difference at P=0.056. Data variability of the first method precluded a statistical difference determination between sites, but the results indicated that the grass-dominated ecosystem was between 1.4 and 1.6 times more water use efficient than the shrub-dominated ecosystem. Mean annual growing season precipitation and ET were similar in the two ecosystems, but the higher EWUE of the grassland system enabled it to take up more carbon during the growing season than the shrub ecosystem. Ecosystem differences in CO2 and H2O flux have important management implications including primary productivity, C sequestration, and rangeland health.
Author(s):
Emmerich, W.E.
Subject(s):
ecosystems , water use efficiency , semiarid zones , shrublands , grasslands , carbon , C4 plants , carbon dioxide , elevated atmospheric gases , evapotranspiration , grasses , climatic factors , growing season , precipitation , water , carbon sequestration , rangelands , C3 plants , Arizona
Format:
p. 464-470.
Note:
Includes references
Source:
Rangeland ecology & management 2007 Sept. v. 60, issue 5
Language:
English
Year:
2007
Collection:
Journal Articles, USDA Authors, Peer-Reviewed
Rights:
Works produced by employees of the U.S. Government as part of their official duties are not copyrighted within the U.S. The content of this document is not copyrighted.