Caitlin M Andrews (Former Employee)
Science and Products
Filter Total Items: 17
Stand density, drought, and herbivory constrain ponderosa pine regeneration pulse
Trees in dry forests often regenerate in episodic pulses when wet periods coincide with ample seed production. Factors leading to success or failure of regeneration pulses are poorly understood. We investigated the impacts of stand thinning on survival and growth of the 2013 cohort of ponderosa pine (Pinus ponderosa Douglas ex P. Lawson & C. Lawson) seedlings in northern Arizona, United States. We
Authors
Thomas E. Kolb, Kelsey Flathers, John Bradford, Caitlin M. Andrews, Lance A. Asherin, W. Keith Moser
Transient population dynamics impede restoration and may promote ecosystem transformation after disturbance
The apparent failure of ecosystems to recover from increasingly widespread disturbance is a global concern. Despite growing focus on factors inhibiting resilience and restoration, we still know very little about how demographic and population processes influence recovery. Using inverse and forward demographic modelling of 531 post‐fire sagebrush populations across the western US, we show that demo
Authors
Robert K. Shriver, Caitlin M. Andrews, Robert Arkle, David Barnard, Michael C. Duniway, Matthew J. Germino, David S. Pilliod, David A. Pyke, Justin L. Welty, John B. Bradford
Increasing temperature seasonality may overwhelm shifts in soil moisture to favor shrub grass dominance in Colorado Plateau drylands
Ecosystems in the southwestern U.S. are hotspots for climate change, and are predicted to experience continued warming and drying. In these water-limited systems, the balance between herbaceous and woody plant abundance impacts biodiversity and ecosystem processes, highlighting the need to understand how climate change will influence functional composition. However, variability in topo-edaphic co
Authors
Jennifer R. Gremer, Caitlin M. Andrews, Jodi R. Norris, Lisa P. Thomas, Seth M. Munson, Michael C. Duniway, John B. Bradford
Adapting management to a changing world: Warm temperatures, dry soil, and interannual variability limit restoration success of a dominant woody shrub in temperate drylands
Restoration and rehabilitation of native vegetation in dryland ecosystems, which encompass over 40% of terrestrial ecosystems, is a common challenge that continues to grow as wildfire and biological invasions transform dryland plant communities. The difficulty in part stems from low and variable precipitation, combined with limited understanding about how weather conditions influence restoration o
Authors
Robert K. Shriver, Caitlin M. Andrews, David S. Pilliod, Robert Arkle, Justin L. Welty, Matthew J. Germino, Michael C. Duniway, David A. Pyke, John B. Bradford
Climate change may restrict dryland forest regeneration in the 21st century
The persistence and geographic expansion of dryland forests in the 21st century will be influenced by how climate change supports the demographic processes associated with tree regeneration. Yet, the way that climate change may alter regeneration is unclear. We developed a quantitative framework that estimates forest regeneration potential (RP) as a function of key environmental conditions for pon
Authors
M.D. Petrie, John B. Bradford, R.M. Hubbard, W.K. Lauenroth, Caitlin M. Andrews, D.R. Schlaepfer
Science and Products
Filter Total Items: 17
Stand density, drought, and herbivory constrain ponderosa pine regeneration pulse
Trees in dry forests often regenerate in episodic pulses when wet periods coincide with ample seed production. Factors leading to success or failure of regeneration pulses are poorly understood. We investigated the impacts of stand thinning on survival and growth of the 2013 cohort of ponderosa pine (Pinus ponderosa Douglas ex P. Lawson & C. Lawson) seedlings in northern Arizona, United States. We
Authors
Thomas E. Kolb, Kelsey Flathers, John Bradford, Caitlin M. Andrews, Lance A. Asherin, W. Keith Moser
Transient population dynamics impede restoration and may promote ecosystem transformation after disturbance
The apparent failure of ecosystems to recover from increasingly widespread disturbance is a global concern. Despite growing focus on factors inhibiting resilience and restoration, we still know very little about how demographic and population processes influence recovery. Using inverse and forward demographic modelling of 531 post‐fire sagebrush populations across the western US, we show that demo
Authors
Robert K. Shriver, Caitlin M. Andrews, Robert Arkle, David Barnard, Michael C. Duniway, Matthew J. Germino, David S. Pilliod, David A. Pyke, Justin L. Welty, John B. Bradford
Increasing temperature seasonality may overwhelm shifts in soil moisture to favor shrub grass dominance in Colorado Plateau drylands
Ecosystems in the southwestern U.S. are hotspots for climate change, and are predicted to experience continued warming and drying. In these water-limited systems, the balance between herbaceous and woody plant abundance impacts biodiversity and ecosystem processes, highlighting the need to understand how climate change will influence functional composition. However, variability in topo-edaphic co
Authors
Jennifer R. Gremer, Caitlin M. Andrews, Jodi R. Norris, Lisa P. Thomas, Seth M. Munson, Michael C. Duniway, John B. Bradford
Adapting management to a changing world: Warm temperatures, dry soil, and interannual variability limit restoration success of a dominant woody shrub in temperate drylands
Restoration and rehabilitation of native vegetation in dryland ecosystems, which encompass over 40% of terrestrial ecosystems, is a common challenge that continues to grow as wildfire and biological invasions transform dryland plant communities. The difficulty in part stems from low and variable precipitation, combined with limited understanding about how weather conditions influence restoration o
Authors
Robert K. Shriver, Caitlin M. Andrews, David S. Pilliod, Robert Arkle, Justin L. Welty, Matthew J. Germino, Michael C. Duniway, David A. Pyke, John B. Bradford
Climate change may restrict dryland forest regeneration in the 21st century
The persistence and geographic expansion of dryland forests in the 21st century will be influenced by how climate change supports the demographic processes associated with tree regeneration. Yet, the way that climate change may alter regeneration is unclear. We developed a quantitative framework that estimates forest regeneration potential (RP) as a function of key environmental conditions for pon
Authors
M.D. Petrie, John B. Bradford, R.M. Hubbard, W.K. Lauenroth, Caitlin M. Andrews, D.R. Schlaepfer