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This data set represents modeled Greater Sage-Grouse (GRSG) Breeding Habitat or Breeding Distribution. Modeled data developed by US FWS Kevin Doherty et al. 2015. Model outputs clipped to Current Occupied Range (US FWS 2015). GRSG Breeding Habitat models built within Management Zones because wide variation exists in occupied habitats across the range, and risks to sage-grouse vary across Management Zones. Lek data assembled by WAFWA was used to develop the breeding habitat model. Detailed model outputs were reviewed by biologist from each state, including statistical tables of model fit and how predictions aligned with landscapes local biologist work in. A probabilistic model of occupied breeding habitat was developed...
Plant community response to climate change will be influenced by individual plant responses that emerge from competition for limiting resources that fluctuate through time and vary across space. Projecting these responses requires an approach that integrates environmental conditions and species interactions that result from future climatic variability. Dryland plant communities are being substantially affected by climate change because their structure and function are closely tied to precipitation and temperature, yet impacts vary substantially due to environmental heterogeneity, especially in topographically complex regions. Here, we quantified the effects of climate change on big sagebrush (Artemisia tridentata...
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This data set represents modeled Greater Sage-Grouse (GRSG) Relative Abundance or Population Index categorized into 10% relative percent bins. Modeled data developed by US FWS Kevin Doherty et al. 2015. Model outputs clipped to Current Occupied Range (US FWS 2015). GRSG Relative Abundancemodels built within Management Zones because wide variation exists in occupied habitats across the range, and risks to sage-grouse vary across Management Zones. Lek data assembled by WAFWA was used to develop the Relative Abundancemodel. Detailed model outputs were reviewed by biologist from each state, including statistical tables of model fit and how predictions aligned with landscapes local biologist work in.A model was developed...
This data set represents modeled Greater Sage-Grouse (GRSG) Relative Abundance or Population Index. Modeled data developed by US FWS Kevin Doherty et al. 2015. Model outputs clipped to Current Occupied Range (US FWS 2015). GRSG Relative Abundancemodels built within Management Zones because wide variation exists in occupied habitats across the range, and risks to sage-grouse vary across Management Zones. Lek data assembled by WAFWA was used to develop the Relative Abundancemodel. Detailed model outputs were reviewed by biologist from each state, including statistical tables of model fit and how predictions aligned with landscapes local biologist work in.A model was developed to quantify the relative density of breeding...
This data set represents modeled Greater Sage-Grouse (GRSG) Relative Abundance or Population Index categorized into 25% relative percent bins. Modeled data developed by US FWS Kevin Doherty et al. 2015. Model outputs clipped to Current Occupied Range (US FWS 2015). GRSG Relative Abundancemodels built within Management Zones because wide variation exists in occupied habitats across the range, and risks to sage-grouse vary across Management Zones. Lek data assembled by WAFWA was used to develop the Relative Abundancemodel. Detailed model outputs were reviewed by biologist from each state, including statistical tables of model fit and how predictions aligned with landscapes local biologist work in.A model was developed...
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