Page Banner

United States Department of Agriculture

Agricultural Research Service

Title: Landscape-Scale Consequences of Small-Scale Disturbances at a Grassland-Shrubland Ecotone

Author
item Peters, Debra

Submitted to: US-International Association for Landscape Ecology
Publication Type: Abstract Only
Publication Acceptance Date: March 1, 2001
Publication Date: April 25, 2001
Citation: PETERS, D.C. LANDSCAPE-SCALE CONSEQUENCES OF SMALL-SCALE DISTURBANCES AT A GRASSLAND-SHRUBLAND ECOTONE. US-INTERNATIONAL ASSOCIATION FOR LANDSCAPE ECOLOGY. 2001. ABSTRACT P. 200.

Technical Abstract: The objective of this study was to evaluate the role of small-scale disturbances within different patch types to landscape-scale patterns in species composition and dominance at a shortgrass steppe-Chihuahuan Desert ecotone. Species removals were conducted at the Sevilleta LTER in central New Mexico within five different patch types where communities are dominated or codominated by one of two perennial grasses (blue grama, black grama) and one shrub (creosotebush). Within each patch type, all plants of the dominant species were removed from five 3m x 4m plots starting in 1995; five control plots were also located within each patch type. Cover and density by species have been estimated annually. Similarity indices were used to compare patch-scale patterns in species composition with the landscape mosaic. Annuals dominated all removal plots one year after removals were initiated. Subsequent recovery patterns depended upon the dominant species removed. Blue grama removal resulted in establishment and growth of perennial grasses, whereas removal of black grama promoted recovery by perennial forbs. Removal of creosotebush in mixed communities with black grama resulted in recovery by perennial forbs, grasses, and shrubs whereas removal of this species in shrub-dominated communities resulted in little change in the vegetation. These results indicate that mortality of dominant species by small-scale disturbances has dramatic effects on vegetation patterns that may alter the landscape mosaic at this arid-semiarid ecotone.

Last Modified: 7/23/2014