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Regional productivities of plant species in the Great Plains of the United States (1998)

Epstein, Howard E. ; Lauenroth, William K. ; Burke, Ingrid C. ; [et al.]

Springer

Plant ecology 134 (1998), S. 173-195

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ISSN: 1573-5052

Keywords: Functional types ; Grasslands ; Precipitation ; Soil texture ; Temperature

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Few studies have analyzed the production of plant species at regional scales in grassland ecosystems, due in part to limited availability of data at large spatial scales. We used a dataset of rangeland surveys to examine the productivities of 22 plant species throughout the Great Plains of the United States with respect to three environmental factors: temperature, precipitation and soil texture. Productivity of plant species was obtained from Natural Resource Conservation Service (NRCS) range site descriptions. We interpolated climate data from 296 weather stations throughout the region and used soil texture data from NRCS State Soil Geographic (STATSGO) databases. We performed regression analyses to derive models of the relative and absolute production of each species in terms of mean annual temperature (MAT), mean annual precipitation (MAP), and percentage SAND, SILT and CLAY. MAT was the most important factor for 55% of species analyzed; MAP was most explanatory for 40% of the species, and a soil texture variable was most important for only one species. Production of C3 species tended to be negatively related to MAT, MAP and positively related to CLAY. Production of C4 shortgrasses, in general, was positively related to MAT and negatively related to MAP and SAND, whereas C4 tallgrass productivity tended to be positively associated with MAP and SAND, and was highest at intermediate values of MAT. Our results indicate the extent to which functional types can be used to represent individual species. The regression equations derived in this analysis can be important inclusions in models that assess the effects of climate change on plant communities throughout the region.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1009732800810

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Plant Functional Type Effects on Trace Gas Fluxes in the Shortgrass Steppe (1998)

Epstein, Howard E. ; Burke, Ingrid C. ; Mosier, Arvin R. ; [et al.]

Springer

Biogeochemistry 42 (1998), S. 145-168

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ISSN: 1573-515X

Keywords: C3 and C4 plant functional types ; grasslands ; methane oxidation ; nitric oxide ; nitrous oxide

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Geosciences

Notes: Abstract Plant community structure is expected to regulate the microbial processes of nitrification and denitrification by controlling the availability of inorganic N substrates. Thus it could also be a factor in the concomitant release of NO and N2O from soils as a result of these processes. C3 and C4 plants differ in several attributes related to the cycling of nitrogen and were hypothesized to yield differences in trace gas exchange between soil and atmosphere. In this study we estimated fluxes of NO, N2O and CH4 from soils of shortgrass steppe communities dominated by either C3 plants, C4 plants or mixtures of the two types. We collected gas samples weekly from two sites, a sandy clay loam and a clay, throughout the growing seasons of 1995 and 1996. Plant functional type effects on gas fluxes at the clay site were not apparent, however we found several differences among plant communities on the sandy clay loam. CH4 uptake from atmosphere to soil was significantly greater on C4 plots than C3 plots in both years. NO fluxes were significantly greater from C4 plots than from C3 plots in 1995. NO fluxes from C3 and mixed plots were not significantly different between 1995 and 1996, however fluxes from C4 plots were significantly greater in 1995 compared to 1996. Results indicate that under certain environmental conditions, particularly when factors such as moisture and temperature are not limiting, plant community composition can play an important role in regulating trace gas exchange.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1005959001235

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