Assessing vegetation recovery from energy development using a dynamic reference approach

Adrian P. Monroe; Travis W. Nauman; Cameron L. Aldridge; Michael O'Donnell; Michael C. Duniway; Brian S. Cade; Daniel Manier; Patrick J. Anderson

doi:10.1002/ece3.8508

Assessing vegetation recovery from energy development using a dynamic reference approach

Ecology and Evolution

By: Adrian P. Monroe, Travis W. Nauman, Cameron L. Aldridge, Michael O'Donnell, Michael C. Duniway, Brian S. Cade, Daniel Manier, and Patrick J. Anderson

https://doi.org/10.1002/ece3.8508

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Abstract

Ecologically relevant references are useful for evaluating ecosystem recovery, but references that are temporally static may be less useful when environmental conditions and disturbances are spatially and temporally heterogeneous. This challenge is particularly acute for ecosystems dominated by sagebrush (Artemisia spp.), where communities may require decades to recover from disturbance. We demonstrated application of a dynamic reference approach to studying sagebrush recovery using three decades of sagebrush cover estimates from remote sensing (1985–2018). We modelled recovery on former oil and gas well pads (n = 1200) across southwestern Wyoming, USA, relative to paired references identified by the Disturbance Automated Reference Toolset. We also used quantile regression to account for unmodelled heterogeneity in recovery, and projected recovery from similar disturbance across the landscape. Responses to weather and site-level factors often differed among quantiles, and sagebrush recovery on former well pads increased more when paired reference sites had greater sagebrush cover. Little (<5%) of the landscape was projected to recover within 100 years for low to mid quantiles, and recovery often occurred at higher elevations with cool and moist annual conditions. Conversely, 48%–78% of the landscape recovered quickly (within 25 years) for high quantiles of sagebrush cover. Our study demonstrates advantages of using dynamic reference sites when studying vegetation recovery, as well as how additional inferences obtained from quantile regression can inform management.

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Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Assessing vegetation recovery from energy development using a dynamic reference approach
Series title	Ecology and Evolution
DOI	10.1002/ece3.8508
Volume	12
Issue	2
Year Published	2022
Language	English
Publisher	Wiley
Contributing office(s)	Fort Collins Science Center, Southwest Biological Science Center
Description	e8508, 22 p.
First page	1
Last page	22
Country	United States
State	Wyoming
Other Geospatial	Colorado River Basin
Google Analytic Metrics	Metrics page