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Assessment of Juniper Encroachment With the Use of Satellite Imagery and Geospatial Data
Issue Date
2008-07-01Keywords
change detectiongeographic information system (GIS)
grazing
Landsat Thematic Mapper
remote sensing
spatial patterns
Metadata
Show full item recordCitation
Sankey, T. T., & Germino, M. J. (2008). Assessment of juniper encroachment with the use of satellite imagery and geospatial data. Rangeland Ecology & Management, 61(4), 412-418.Publisher
Society for Range ManagementJournal
Rangeland Ecology & ManagementDOI
10.2111/07-141.1Additional Links
https://rangelands.org/Abstract
Juniper encroachment into otherwise treeless shrub lands and grasslands is one of the most pronounced environmental changes observed in rangelands of western North America in recent decades. Most studies on juniper change are conducted over small areas, although encroachment is occurring throughout regions. Whether changes in juniper cover can be assessed over large areas with the use of long-term satellite data is an important methodological question. A fundamental challenge in using satellite imagery to determine tree abundance in rangelands is that a mix of trees, sagebrush, and herbaceous cover types can occur within a given image pixel. Our objective was to determine if spectral mixture analysis could be used to estimate changes in Rocky Mountain juniper (Juniperus scopulorum Sarg) and Utah juniper (Juniperus osteosperma [Torr.] Little) cover over 20 yr and 20 000 ha in southeast Idaho with the use of Landsat imagery. We also examined the spatial patterns and variation of encroachment within our study area using Geographic Information Systems-based data sets of grazing use, land-cover types, and topography. Juniper cover determined from 15-cm-resolution digital aerial orthophotography was used to train and validate juniper presence/absence classification in 1985 and 2005 Landsat images. The two classified images were then compared to detect changes in juniper cover. The estimated rate of juniper encroachment over our study area was 22-30% between 1985 and 2005, consistent with previous ground-based studies. Moran’s I analysis indicated that juniper encroachment pattern was spatially random rather than clustered or uniform. Juniper encroachment was significantly greater in grazed areas (P 5 0.02), and in particular in grazed shrub land cover type (P 5 0.06), compared to ungrazed areas. Juniper encroachment was also greater on intermediate slopes (10-35% slopes) compared to steeper or flatter terrain, and encroachment was somewhat less on north-facing (P 5 0.03) and more on west-facing (P 5 0.02) slopes compared to other aspects.Type
textArticle
Language
enISSN
0022-409Xae974a485f413a2113503eed53cd6c53
10.2111/07-141.1