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Cara V Applestein

I am a quantitative ecologist using Bayesian methods to understand landscape recovery after fire in sagebrush-steppe ecosystems.

Throughout my career, I've sought to bridge the gap between restoration practitioners and scientists by working closely with land managers to provide science and predictive models useful for understanding the efficacy of restoration practices. Before working for USGS, I was a conservation project manager for the Center for Natural Land Management where I worked closely with land managers to research the efficacy of different seeding methods and prescribed fire regimes for restoring wet prairie in western Washington. My current research focuses on understanding weather effects on post-fire vegetation recovery, understanding mechanisms of invasion, and determining the utility of remote sensing products for land management decision. 

Professional Experience

  • 2013-2016: Center for Natural Land Management, Conservation Project Manager, Temecula, CA

Education and Certifications

  • Ph.D., Ecology, Evolution, and Behavior, Boise State University (2023)

  • M.S., Conservation Biology, University of Maryland (2012)

  • B.S., Environmental Science, Dickinson College, Carlisle, PA (2011)

Science and Products

two scientists working in a sagebrush experimental plot

FIREss: Fire, Invasives, and Rehabilitation of Shrub-Steppe Rangelands

The USGS FIREss team produces basic and applied scientific information needed to manage semiarid landscapes for resistance and resilience to wildfire, exotic plant invasions, and drought. These stressors impact ecosystem productivity and pose costly risks to health, safety, and economic wellbeing in the vast rangelands, protected areas, and military installations of the Western United States. We...
By
Land Management Research Program, Forest and Rangeland Ecosystem Science Center
FIREss: Fire, Invasives, and Rehabilitation of Shrub-Steppe Rangelands

FIREss: Fire, Invasives, and Rehabilitation of Shrub-Steppe Rangelands

The USGS FIREss team produces basic and applied scientific information needed to manage semiarid landscapes for resistance and resilience to wildfire, exotic plant invasions, and drought. These stressors impact ecosystem productivity and pose costly risks to health, safety, and economic wellbeing in the vast rangelands, protected areas, and military installations of the Western United States. We...
Learn More

If you are unable to access or download a product, email fresc_outreach@usgs.gov a request, including the full citation, or call (541) 750-1030.

No Result Found

If you are unable to access or download a product, email fresc_outreach@usgs.gov a request, including the full citation, or call (541) 750-1030.

Filter Total Items: 24

Monitoring for adaptive management of burned sagebrush-steppe rangelands: addressing variability and uncertainty on the 2015 Soda Megafire Monitoring for adaptive management of burned sagebrush-steppe rangelands: addressing variability and uncertainty on the 2015 Soda Megafire

• Use of adaptive management supported by robust monitoring is vital to solving severe rangeland problems, such as the exotic annual grass invasion and fire cycle in sagebrush-steppe rangelands. • Uncertainty in post-fire plant-community composition and plant response to treatments poses a challenge to land management and research but can be addressed with a high density of observations...
Authors
Matthew J. Germino, Peter Torma, Matthew Fisk, Cara Applestein
By
Ecosystems Mission Area, Land Management Research Program, Forest and Rangeland Ecosystem Science Center, Wildland Fire Science

Patterns of post-fire invasion of semiarid shrub-steppe reveals a diversity of invasion niches within an exotic annual grass community Patterns of post-fire invasion of semiarid shrub-steppe reveals a diversity of invasion niches within an exotic annual grass community

Disturbances such as fire provide an opportunity for invasive plant species to exploit newly created niche space. Whether initial invaders facilitate, compete with, or do not affect later invaders is important to determine in communities affected by multiple invaders. This analysis focuses on the newer invaders Taeniatherum caput-medusae (medusahead) and Ventenata dubia (ventenata) in...
Authors
Cara Applestein, Matthew J. Germino
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center

Bayesian modeling can facilitate adaptive management in restoration Bayesian modeling can facilitate adaptive management in restoration

There is an urgent need for near-term predictions of ecological restoration outcomes despite imperfect knowledge of ecosystems. Restoration outcomes are always uncertain but integrating Bayesian modeling into the process of adaptive management allows researchers and practitioners to explicitly incorporate prior knowledge of ecosystems into future predictions. Although barriers exist...
Authors
Cara Applestein, T. Caughlin, Matthew J. Germino
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center

Weather affects post‐fire recovery of sagebrush‐steppe communities and model transferability among sites Weather affects post‐fire recovery of sagebrush‐steppe communities and model transferability among sites

Altered climate, including weather extremes, can cause major shifts in vegetative recovery after disturbances. Predictive models that can identify the separate and combined temporal effects of disturbance and weather on plant communities and that are transferable among sites are needed to guide vulnerability assessments and management interventions. We asked how functional group...
Authors
Cara Applestein, Trevor Caughlin, Matthew J. Germino
By
Ecosystems Mission Area, Land Management Research Program, Forest and Rangeland Ecosystem Science Center, Wildland Fire Science

Weather and distance to fire refugia limit landscape‐level occurrence of fungal disease in an exotic annual grass Weather and distance to fire refugia limit landscape‐level occurrence of fungal disease in an exotic annual grass

The enemy release hypothesis proposes that invasion by exotic plant species is driven by their release from natural enemies (i.e. herbivores and pathogens) in their introduced ranges. However, in many cases, natural enemies, which may be introduced or managed to regulate invasive species, may fail to impact target host populations. Landscape heterogeneity, which can affect both the...
Authors
Cara Applestein, Allison Simler-Williamson, Matthew J. Germino
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center, Wildland Fire Science

Detecting shrub recovery in sagebrush steppe: Comparing Landsat-derived maps with field data on historical wildfires Detecting shrub recovery in sagebrush steppe: Comparing Landsat-derived maps with field data on historical wildfires

Background The need for basic information on spatial distribution and abundance of plant species for research and management in semiarid ecosystems is frequently unmet. This need is particularly acute in the large areas impacted by megafires in sagebrush steppe ecosystems, which require frequently updated information about increases in exotic annual invaders or recovery of desirable...
Authors
Cara Applestein, Matthew J. Germino
By
Ecosystems Mission Area, Land Management Research Program, Forest and Rangeland Ecosystem Science Center, Wildland Fire Science

Impact of unburned remnant sagebrush versus outplants on post-fire landscape rehabilitation Impact of unburned remnant sagebrush versus outplants on post-fire landscape rehabilitation

Nearly half of the vast sagebrush steppe in the western United states has lost many or nearly all native plant species, largely due to the interaction of invasive species and increased wildfire. Re-establishing sagebrush, a keystone component of these ecosystems, has become a management focus in recent decades using aerial broadcast seeding or limited plantings. One promising avenue for...
Authors
Cara Applestein, Trevor Caughlin, Matthew Germino
By
Ecosystems Mission Area, Land Management Research Program, Forest and Rangeland Ecosystem Science Center

Bunchgrass root abundances and their relationship to resistance and resilience of a burned shrub-steppe landscape Bunchgrass root abundances and their relationship to resistance and resilience of a burned shrub-steppe landscape

Invasion of exotic annual grasses (EAG) and increased wildfire have motivated an emphasis on managing rangeland plant communities for resistance to invasion and resilience to disturbances. These traits are provided primarily by perennial bunchgrasses in rangelands such as shrub steppe, and specifically but also hypothetically, the abundances and functioning of bunchgrass roots. We asked...
Authors
Matthew J. Germino, Matthew Fisk, Cara Applestein
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center, Wildland Fire Science

Can’t see the random forest for the decision trees: Selecting predictive models for restoration ecology Can’t see the random forest for the decision trees: Selecting predictive models for restoration ecology

Improving predictions of restoration outcomes is increasingly important to resource managers for accountability and adaptive management, yet there is limited guidance for selecting a predictive model from the multitude available. The goal of this paper was to identify an optimal predictive framework for restoration ecology using eleven modeling frameworks (including, machine learning...
Authors
David Barnard, Matthew Germino, David Pilliod, Robert Arkle, Cara Applestein, Bill Davidson, Matthew Fisk
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center

Appropriate sample sizes for monitoring burned pastures in sagebrush steppe: How many plots are enough, and can one size fit all? Appropriate sample sizes for monitoring burned pastures in sagebrush steppe: How many plots are enough, and can one size fit all?

Statistically defensible information on vegetation conditions is needed to guide rangeland management decisions following disturbances such as wildfire, often for heterogeneous pastures. Here we evaluate the number of plots needed to make informed adaptive management decisions using >2000 plots sampled on the 2015 Soda Fire that burned across 75 pastures and 113,000 ha in Idaho and...
Authors
Cara Applestein, Matthew J. Germino, David Pilliod, Matthew Fisk, Robert Arkle
By
Ecosystems Mission Area, Land Management Research Program, Forest and Rangeland Ecosystem Science Center

Vegetative community response to landscape-scale post-fire herbicide (imazapic) application Vegetative community response to landscape-scale post-fire herbicide (imazapic) application

Disturbances such as wildfire create time-sensitive windows of opportunity for invasive plant treatment, and the timing of herbicide application relative to the time course of plant community development following fire can strongly influence herbicide effectiveness. We evaluated the effect of herbicide (imazapic) applied in the first winter or second fall after the 113,000 ha Soda...
Authors
Cara Applestein, Matthew J. Germino, Matthew Fisk
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center, Wildland Fire Science

Thresholds and hotspots for shrub restoration following a heterogeneous megafire Thresholds and hotspots for shrub restoration following a heterogeneous megafire

Context Reestablishing foundational plant species through aerial seeding is an essential yet challenging step for restoring the vast semiarid landscapes impacted by plant invasions and wildfire-regime shifts. A key component of the challenge stems from landscape variability and its effects on plant recovery.Objectives We assessed landscape correlates, thresholds, and tipping points for...
Authors
Matthew Germino, David Barnard, Bill Davidson, Robert Arkle, David S. Pilliod, Matthew Fisk, Cara Applestein
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center

Non-USGS Publications**

Cara Applestein, Jonathan D. Bakker, Eric G. Delvin, Sarah T. Hamman "Evaluating Seeding Methods and Rates for Prairie Restoration," Natural Areas Journal, 38(5), 347-355, (1 October 2018)

**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.

To request an interview, contact fresc_outreach@usgs.gov or call (541) 750-1030.

Science and Products

two scientists working in a sagebrush experimental plot

FIREss: Fire, Invasives, and Rehabilitation of Shrub-Steppe Rangelands

The USGS FIREss team produces basic and applied scientific information needed to manage semiarid landscapes for resistance and resilience to wildfire, exotic plant invasions, and drought. These stressors impact ecosystem productivity and pose costly risks to health, safety, and economic wellbeing in the vast rangelands, protected areas, and military installations of the Western United States. We...
By
Land Management Research Program, Forest and Rangeland Ecosystem Science Center
FIREss: Fire, Invasives, and Rehabilitation of Shrub-Steppe Rangelands

FIREss: Fire, Invasives, and Rehabilitation of Shrub-Steppe Rangelands

The USGS FIREss team produces basic and applied scientific information needed to manage semiarid landscapes for resistance and resilience to wildfire, exotic plant invasions, and drought. These stressors impact ecosystem productivity and pose costly risks to health, safety, and economic wellbeing in the vast rangelands, protected areas, and military installations of the Western United States. We...
Learn More

If you are unable to access or download a product, email fresc_outreach@usgs.gov a request, including the full citation, or call (541) 750-1030.

No Result Found

If you are unable to access or download a product, email fresc_outreach@usgs.gov a request, including the full citation, or call (541) 750-1030.

Filter Total Items: 24

Monitoring for adaptive management of burned sagebrush-steppe rangelands: addressing variability and uncertainty on the 2015 Soda Megafire Monitoring for adaptive management of burned sagebrush-steppe rangelands: addressing variability and uncertainty on the 2015 Soda Megafire

• Use of adaptive management supported by robust monitoring is vital to solving severe rangeland problems, such as the exotic annual grass invasion and fire cycle in sagebrush-steppe rangelands. • Uncertainty in post-fire plant-community composition and plant response to treatments poses a challenge to land management and research but can be addressed with a high density of observations...
Authors
Matthew J. Germino, Peter Torma, Matthew Fisk, Cara Applestein
By
Ecosystems Mission Area, Land Management Research Program, Forest and Rangeland Ecosystem Science Center, Wildland Fire Science

Patterns of post-fire invasion of semiarid shrub-steppe reveals a diversity of invasion niches within an exotic annual grass community Patterns of post-fire invasion of semiarid shrub-steppe reveals a diversity of invasion niches within an exotic annual grass community

Disturbances such as fire provide an opportunity for invasive plant species to exploit newly created niche space. Whether initial invaders facilitate, compete with, or do not affect later invaders is important to determine in communities affected by multiple invaders. This analysis focuses on the newer invaders Taeniatherum caput-medusae (medusahead) and Ventenata dubia (ventenata) in...
Authors
Cara Applestein, Matthew J. Germino
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center

Bayesian modeling can facilitate adaptive management in restoration Bayesian modeling can facilitate adaptive management in restoration

There is an urgent need for near-term predictions of ecological restoration outcomes despite imperfect knowledge of ecosystems. Restoration outcomes are always uncertain but integrating Bayesian modeling into the process of adaptive management allows researchers and practitioners to explicitly incorporate prior knowledge of ecosystems into future predictions. Although barriers exist...
Authors
Cara Applestein, T. Caughlin, Matthew J. Germino
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center

Weather affects post‐fire recovery of sagebrush‐steppe communities and model transferability among sites Weather affects post‐fire recovery of sagebrush‐steppe communities and model transferability among sites

Altered climate, including weather extremes, can cause major shifts in vegetative recovery after disturbances. Predictive models that can identify the separate and combined temporal effects of disturbance and weather on plant communities and that are transferable among sites are needed to guide vulnerability assessments and management interventions. We asked how functional group...
Authors
Cara Applestein, Trevor Caughlin, Matthew J. Germino
By
Ecosystems Mission Area, Land Management Research Program, Forest and Rangeland Ecosystem Science Center, Wildland Fire Science

Weather and distance to fire refugia limit landscape‐level occurrence of fungal disease in an exotic annual grass Weather and distance to fire refugia limit landscape‐level occurrence of fungal disease in an exotic annual grass

The enemy release hypothesis proposes that invasion by exotic plant species is driven by their release from natural enemies (i.e. herbivores and pathogens) in their introduced ranges. However, in many cases, natural enemies, which may be introduced or managed to regulate invasive species, may fail to impact target host populations. Landscape heterogeneity, which can affect both the...
Authors
Cara Applestein, Allison Simler-Williamson, Matthew J. Germino
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center, Wildland Fire Science

Detecting shrub recovery in sagebrush steppe: Comparing Landsat-derived maps with field data on historical wildfires Detecting shrub recovery in sagebrush steppe: Comparing Landsat-derived maps with field data on historical wildfires

Background The need for basic information on spatial distribution and abundance of plant species for research and management in semiarid ecosystems is frequently unmet. This need is particularly acute in the large areas impacted by megafires in sagebrush steppe ecosystems, which require frequently updated information about increases in exotic annual invaders or recovery of desirable...
Authors
Cara Applestein, Matthew J. Germino
By
Ecosystems Mission Area, Land Management Research Program, Forest and Rangeland Ecosystem Science Center, Wildland Fire Science

Impact of unburned remnant sagebrush versus outplants on post-fire landscape rehabilitation Impact of unburned remnant sagebrush versus outplants on post-fire landscape rehabilitation

Nearly half of the vast sagebrush steppe in the western United states has lost many or nearly all native plant species, largely due to the interaction of invasive species and increased wildfire. Re-establishing sagebrush, a keystone component of these ecosystems, has become a management focus in recent decades using aerial broadcast seeding or limited plantings. One promising avenue for...
Authors
Cara Applestein, Trevor Caughlin, Matthew Germino
By
Ecosystems Mission Area, Land Management Research Program, Forest and Rangeland Ecosystem Science Center

Bunchgrass root abundances and their relationship to resistance and resilience of a burned shrub-steppe landscape Bunchgrass root abundances and their relationship to resistance and resilience of a burned shrub-steppe landscape

Invasion of exotic annual grasses (EAG) and increased wildfire have motivated an emphasis on managing rangeland plant communities for resistance to invasion and resilience to disturbances. These traits are provided primarily by perennial bunchgrasses in rangelands such as shrub steppe, and specifically but also hypothetically, the abundances and functioning of bunchgrass roots. We asked...
Authors
Matthew J. Germino, Matthew Fisk, Cara Applestein
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center, Wildland Fire Science

Can’t see the random forest for the decision trees: Selecting predictive models for restoration ecology Can’t see the random forest for the decision trees: Selecting predictive models for restoration ecology

Improving predictions of restoration outcomes is increasingly important to resource managers for accountability and adaptive management, yet there is limited guidance for selecting a predictive model from the multitude available. The goal of this paper was to identify an optimal predictive framework for restoration ecology using eleven modeling frameworks (including, machine learning...
Authors
David Barnard, Matthew Germino, David Pilliod, Robert Arkle, Cara Applestein, Bill Davidson, Matthew Fisk
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center

Appropriate sample sizes for monitoring burned pastures in sagebrush steppe: How many plots are enough, and can one size fit all? Appropriate sample sizes for monitoring burned pastures in sagebrush steppe: How many plots are enough, and can one size fit all?

Statistically defensible information on vegetation conditions is needed to guide rangeland management decisions following disturbances such as wildfire, often for heterogeneous pastures. Here we evaluate the number of plots needed to make informed adaptive management decisions using >2000 plots sampled on the 2015 Soda Fire that burned across 75 pastures and 113,000 ha in Idaho and...
Authors
Cara Applestein, Matthew J. Germino, David Pilliod, Matthew Fisk, Robert Arkle
By
Ecosystems Mission Area, Land Management Research Program, Forest and Rangeland Ecosystem Science Center

Vegetative community response to landscape-scale post-fire herbicide (imazapic) application Vegetative community response to landscape-scale post-fire herbicide (imazapic) application

Disturbances such as wildfire create time-sensitive windows of opportunity for invasive plant treatment, and the timing of herbicide application relative to the time course of plant community development following fire can strongly influence herbicide effectiveness. We evaluated the effect of herbicide (imazapic) applied in the first winter or second fall after the 113,000 ha Soda...
Authors
Cara Applestein, Matthew J. Germino, Matthew Fisk
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center, Wildland Fire Science

Thresholds and hotspots for shrub restoration following a heterogeneous megafire Thresholds and hotspots for shrub restoration following a heterogeneous megafire

Context Reestablishing foundational plant species through aerial seeding is an essential yet challenging step for restoring the vast semiarid landscapes impacted by plant invasions and wildfire-regime shifts. A key component of the challenge stems from landscape variability and its effects on plant recovery.Objectives We assessed landscape correlates, thresholds, and tipping points for...
Authors
Matthew Germino, David Barnard, Bill Davidson, Robert Arkle, David S. Pilliod, Matthew Fisk, Cara Applestein
By
Ecosystems Mission Area, Forest and Rangeland Ecosystem Science Center

Non-USGS Publications**

Cara Applestein, Jonathan D. Bakker, Eric G. Delvin, Sarah T. Hamman "Evaluating Seeding Methods and Rates for Prairie Restoration," Natural Areas Journal, 38(5), 347-355, (1 October 2018)

**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.

To request an interview, contact fresc_outreach@usgs.gov or call (541) 750-1030.

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