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Abstract
Livestock grazing is an important form of land use, affecting ecosystems worldwide. In ecoregions that evolved with low densities of large ungulates, such as those in the western United States, there is ongoing debate as to the appropriate concentrations of livestock that can be sustained. Limited landscape-scale monitoring makes it difficult to pinpoint the landscape-scale impacts of livestock on ecosystems. In this study, we use remote sensing to identify landscape-scale changes in Landsat Thematic Mapper (TM)-derived normalized difference vegetation index (NDVI), a proxy for community greenness, following changes in land use in south-central Idaho, United States. Grazing allotments in the study area have been managed by Lava Lake Land & Livestock (Lava Lake) since 2001, and recent landscape-scale changes include reduced grazing intensity, longer rest periods and reduced grazing in riparian zones. Additionally, sheep bands owned by Lava Lake were collared with Global Positioning System (GPS) receivers to track their daily locations during the 2004–2005 summer grazing seasons. We found that increased NDVI was more likely to occur adjacent to riparian channels, which have been a focus for ecological recovery by land managers at Lava Lake. Decreased NDVI was most likely within 500 m of sheep grazing. However, the extent of impact differed depending on land use and elevation. Decreased NDVI on allotments with a large reduction in total number of sheep was most likely within only 60–150 m. Grazing on lands at elevations above 2300 m had no relationship to decreased NDVI. Our results suggest that grazing impacts are heterogeneous across the landscape and depend strongly on stocking rates and elevation (which is correlated to precipitation). Spatial analysis of NDVI can identify landscape-scale changes resulting from livestock grazing that may not be apparent from local monitoring. Patterns of change identified with remote sensing can guide ecosystem monitoring across extensive public and private lands.
Acknowledgements
This work was funded by grants from the Lava Lake Institute for Science and Conservation and the High Meadows Foundation. We thank Justin Stevenson, Sunny Healey and Mike Stevens for their assistance and expertise. We also thank Nathan Gregory and Dave Marvin for their editorial skills.