Dataset for climate legacy and lag effects on dryland plant communities in the southwestern U.S.
September 21, 2018
This climate and vegetation index dataset was collected from readily available open source data, such as Landsat. The data represents points across the northern Colorado plateau. The vegetation type was defined based on U.S. Geological Survey ReGAP data. Using compositing techniques by season we developed a dataset of lag and legacy for each point. We could then look to understand how both lag and legacy impacted vegetation production across the time series. In this dataset we focus on the soil adjusted vegetation index (SAVI), the standardized precipitation and evapotranspiration index (SPEI), and precipitation. Included in this dataset are climate lags of 3,6,9 and 12 months. Additionally, the legacy construct is included in the latter columns.
Citation Information
| Publication Year | 2018 |
|---|---|
| Title | Dataset for climate legacy and lag effects on dryland plant communities in the southwestern U.S. |
| DOI | 10.5066/P90CRK5N |
| Authors | Erin L. Bunting, Seth M Munson, Miguel Villarreal |
| Product Type | Data Release |
| Record Source | USGS Asset Identifier Service (AIS) |
| USGS Organization | Southwest Biological Science Center - Flagstaff, AZ, Headquarters |
| Rights | This work is marked with CC0 1.0 Universal |
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Climate legacy and lag effects on dryland plant communities in the southwestern U.S.
Climate change effects on vegetation will likely be strong in the southwestern U.S., which is projected to experience large increases in temperature and changes in precipitation. Plant communities in the southwestern U.S. may be particularly vulnerable to climate change as the productivity of many plant species is strongly water-limited. This study examines the relationship between...
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Erin Bunting, Seth M. Munson, Miguel L. Villarreal
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Climate legacy and lag effects on dryland plant communities in the southwestern U.S.
Climate change effects on vegetation will likely be strong in the southwestern U.S., which is projected to experience large increases in temperature and changes in precipitation. Plant communities in the southwestern U.S. may be particularly vulnerable to climate change as the productivity of many plant species is strongly water-limited. This study examines the relationship between...
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Erin Bunting, Seth M. Munson, Miguel L. Villarreal