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ARS Home » Pacific West Area » Burns, Oregon » Range and Meadow Forage Management Research » Research » Publications at this Location » Publication #194437

Title: THE INFLUENCE OF ARTEMISIA TRIDENATA SSP. WYOMINGENSIS ON MICROSITE AND VEGETATION HETEROGENEITY

Author
item Davies, Kirk
item Bates, Jonathan - Jon
item MILLER, RICHARD - OREGON STATE UNIVERSITY

Submitted to: Journal of Arid Environments
Publication Type: Peer Reviewed Journal
Publication Acceptance Date: 10/31/2006
Publication Date: 3/2/2007
Citation: Davies, K.W., Bates, J.D., Miller, R.F. 2007. The influence of artemisia tridenata ssp. wyomingensis on microsite and vegetation heterogeneity. Journal of Arid Environments. 69(2007):441-457.

Interpretive Summary: Wyoming big sagebrush creates two distinct zones within plant communities; underneath (subcanopy) and between shrub canopies (interspace). The purpose the study was to determine the influence of subcanopy and interspace zones on microsite characteristics and herbaceous vegetation. Study sites were located at the Northern Great Basin Experimental Range (NGBER) (56 km west of Burns, OR) and Baker Pass (80 km southeast of Burns, OR). At the NGBER, microsite and vegetation differences existed between subcanopy and interspace zones. Compared to the interspace, subcanopy zones were characterized by lower fluctuations in soil temperature, higher levels of soil organic matter, nitrogen, carbon, and water, and greater herbaceous biomass, cover, and density. Wyoming big sagebrush appears to strongly influence the spatial arrangement of herbaceous vegetation at the NGBER. Zonal vegetation differences measured at the NGBER were not found at Baker Pass, a location with a more north-facing aspect than the NBGER. Our results suggest that the influence of sagebrush on herbaceous spatial heterogeneity may be greater as sites become warmer and drier. Wyoming big sagebrush can create herbaceous spatial heterogeneity; however, the relationships between sagebrush and herbaceous species are complex and can be site specific.

Technical Abstract: The spatial distribution of Artemisia tridentata ssp. wyomingensis (Beetle & A. Young) S.L. Welsh within plant communities creates two distinct zones; underneath (subcanopy) and between shrub canopies (interspace). The purpose the study was to determine the influence of subcanopy and interspace zones on microsite characteristics and herbaceous vegetation. Study sites were located at the Northern Great Basin Experimental Range (NGBER) (56 km west of Burns, OR) and Baker Pass (80 km southeast of Burns, OR). At the NGBER, microsite and vegetation differences existed between subcanopy and interspace zones. Compared to the interspace, subcanopy zones were characterized by lower fluctuations in soil temperature, higher levels of soil organic matter, nitrogen, carbon, and water, and greater herbaceous biomass, cover, and density. A. tridentata ssp. wyomingensis appears to strongly influence the spatial arrangement of herbaceous vegetation at the NGBER. Zonal vegetation differences measured at the NGBER were not found at Baker Pass, a location with a more north-facing aspect than the NBGER. Our results suggest that the influence of A. tridentata ssp. wyomingensis on herbaceous spatial heterogeneity may be greater as sites become warmer and drier. Our study demonstrated the potential of A. tridentata ssp. wyomingensis to create herbaceous spatial heterogeneity, elucidated that the relationships between A. tridentata ssp. wyomingensis and herbaceous species are complex, and can be site specific.