Application of empirical land-cover changes to construct climate change scenarios in federally managed lands

Christopher E. Soulard; Matthew B. Rigge

doi:10.3390/rs12152360

Application of empirical land-cover changes to construct climate change scenarios in federally managed lands

Remote Sensing

By: Christopher E. Soulard and Matthew B. Rigge

https://doi.org/10.3390/rs12152360

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Data Release: USGS data release - Spatially-explicit land-cover scenarios of federal lands in the northern Great Basin, 2018-2050
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Abstract

Sagebrush-dominant ecosystems in the western United States are highly vulnerable to climatic variability. To understand how these ecosystems will respond under potential future conditions, we correlated changes in National Land Cover Dataset “Back-in-Time” fractional cover maps from 1985-2018 with Daymet climate data in three federally managed preserves in the sagebrush steppe ecosystem: Beaty Butte Herd Management Area, Hart Mountain National Antelope Refuge, and Sheldon National Wildlife Refuge. Future (2018 to 2050) abundance and distribution of vegetation cover were modeled at a 300-m resolution under a business-as-usual climate (BAU) scenario and a Representative Concentration Pathway (RCP) 8.5 climate change scenario. Spatially explicit map projections suggest that climate influences may make the landscape more homogeneous in the near future. Specifically, projections indicate that pixels with high bare ground cover become less bare ground dominant, pixels with moderate herbaceous cover contain less herbaceous cover, and pixels with low shrub cover contain more shrub cover. General vegetation patterns and composition do not differ dramatically between scenarios despite RCP 8.5 projections of + 1.2 °C mean annual minimum temperatures and +7.6 mm total annual precipitation. Hart Mountain National Antelope Refuge is forecast to undergo the most change, with both models projecting larger declines in bare ground and larger increases in average herbaceous and shrub cover compared to Beaty Butte Herd Management Area and Sheldon National Wildlife Refuge. These scenarios present plausible future outcomes intended to guide federal land managers to identify vegetation cover changes that may affect habitat condition and availability for species of interest.

Suggested Citation

Soulard, C.E., Rigge, M.B., 2020, Application of empirical land-cover changes to construct climate change scenarios in federally managed lands: Remote Sensing, v. 12, no. 15, 22 p., https://doi.org/10.3390/rs12152360.

Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Application of empirical land-cover changes to construct climate change scenarios in federally managed lands
Series title	Remote Sensing
DOI	10.3390/rs12152360
Volume	12
Issue	15
Publication Date	July 23, 2020
Year Published	2020
Language	English
Publisher	MDPI
Contributing office(s)	Earth Resources Observation and Science (EROS) Center, Western Geographic Science Center
Description	22 p.