Rachel A Loehman, Ph.D.
My research focuses on understanding complex, multi-scale dynamics of natural and coupled human-natural systems, particularly focused on impacts of disturbance (climate changes, wildfires, insect outbreaks, erosion and sedimentation, invasive species) on landscapes, ecological communities, and natural and cultural resources.
Research summary
My projects integrate field studies, in-situ instrumentation and monitoring, ecosystem and fire models, geospatial and statistical modeling and analysis, and ecological theory to provide new insights into changing climates, disturbance regimes, and landscapes. Applications include development of strategies for restoration of forests and fire regimes, assessments of landscape resilience and vulnerability, reconstruction of long-term human-environment interactions, predictive models of climate-vegetation-disturbance interactions, quantification of fire impacts on above- and belowground cultural and natural resources, and development of new tools and techniques for quantifying and managing shifting environments. I work in coastal, boreal, and tundra ecosystems in Alaska as well as forest and woodland ecosystems in the interior west and southwestern U.S.
Professional Experience
2014 - Present Research Landscape Ecologist, US Geological Survey, Alaska Science Center, Anchorage, Alaska
2009-2014 Research Ecologist, USDA Forest Service Rocky Mountain Research Station Fire Sciences Lab, Missoula, Montana
2007-2009 Research Scientist, Systems for Environmental Management, Missoula, Montana
2007-2008 Climate Change Analyst, National Center for Landscape Fire Analysis, The University of Montana
2006-2007 Post-doctoral Research Scientist, Numerical Terradynamic Simulation Group, The University of Montana
2004-2006 National Science Foundation Graduate Fellow, The University of Montana
2001-2004 NASA Earth Systems Science Fellow, Numerical Terradynamic Simulation Group, The University of Montana
1997-2000 GIS/Remote Sensing Specialist, Sandia National Laboratories, Albuquerque, New Mexico
Education and Certifications
Ph.D. 2006 The University of Montana Ecosystems Ecology
M.A. 1999 University of New Mexico Biogeography
B.A. 1995 University of New Mexico Anthropology
Affiliations and Memberships*
Association for Fire Ecology (Board member, 2017-present)
Alaska Fire Science Consortium (Board member, 2016-present)
Society for American Archaeology
USGS Fire Science Communities of Practice
Interagency Arctic Research Policy Committee (IARPC) Wildfires Collaboration Team
Science and Products
Mean composite fire severity metrics computed with Google Earth Engine offer improved accuracy and expanded mapping potential
Effects of climate change on forest vegetation in the Northern Rockies Region
Effects of climate change on ecological disturbance in the Northern Rockies Region [Chapter 8]
Effects of climate change on forest vegetation in the northern Rockies
Effects of climate change on ecological disturbance in the northern Rockies
Climate changes and wildfire alter vegetation of Yellowstone National Park, but forest cover persists
Modeling ancient land use and resilient forests in the Jemez Mountains
Mid-21st-century climate changes increase predicted fire occurrence and fire season length, Northern Rocky Mountains, United States
Arctic Research Plan: FY2017-2021
Interactions of landscape disturbances and climate change dictate ecological pattern and process: spatial modeling of wildfire, insect, and disease dynamics under future climates
Simulating future residential property losses from wildfire in Flathead County, Montana
Science and Products
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Filter Total Items: 35
Mean composite fire severity metrics computed with Google Earth Engine offer improved accuracy and expanded mapping potential
Landsat-based fire severity datasets are an invaluable resource for monitoring and research purposes. These gridded fire severity datasets are generally produced with pre-and post-fire imagery to estimate the degree of fire-induced ecological change. Here, we introduce methods to produce three Landsat-based fire severity metrics using the Google Earth Engine (GEE) platform: the delta normalized buAuthorsSean Parks, Lisa M. Holsinger, Morgan Voss, Rachel A. Loehman, Nathaniel P. RobinsonEffects of climate change on forest vegetation in the Northern Rockies Region
The projected rapid changes in climate will affect the unique vegetation assemblages of the Northern Rockies region in myriad ways, both directly through shifts in vegetation growth, mortality, and regeneration, and indirectly through changes in disturbance regimes and interactions with changes in other ecosystem processes, such as hydrology, snow dynamics, and exotic invasions (Bonan 2008; HansenAuthorsRobert E. Keane, Mary Frances Mahalovich, Barry L. Bollenbacher, Mary E. Manning, Rachel A. Loehman, Terrie B. Jain, Lisa M. Holsinger, Andrew J. Larson, Meredith M. WebsterEffects of climate change on ecological disturbance in the Northern Rockies Region [Chapter 8]
This chapter describes the ecology of important disturbance regimes in the Forest Service, U.S. Department of Agriculture (USFS) Northern Region and the Greater Yellowstone Area, hereafter called the Northern Rockies region, and potential shifts in these regimes as a consequence of observed and projected climate change. The term disturbance regime describes the general temporal and spatial charactAuthorsRachel A. Loehman, Barbara J. Bentz, Gregg A. DeNitto, Robert E. Keane, Mary E. Manning, Jacob P. Duncan, Joel M. Egan, Marcus B. Jackson, Sandra Kegley, I. Blakey Lockman, Dean E. Pearson, James A. Powell, Steve Shelly, Brytten E. Steed, Paul J. ZambinoEffects of climate change on forest vegetation in the northern Rockies
Increasing air temperature, through its influence on soil moisture, is expected to cause gradual changes in the abundance and distribution of tree, shrub, and grass species throughout the Northern Rockies, with drought tolerant species becoming more competitive. The earliest changes will be at ecotones between lifeforms (e.g., upper and lower treelines). Ecological disturbance, including wildfireAuthorsRobert E. Keane, Mary Frances Mahalovich, Barry L. Bollenbacher, Mary E. Manning, Rachel A. Loehman, Terrie B. Jain, Lisa M. Holsinger, Andrew J. LarsonEffects of climate change on ecological disturbance in the northern Rockies
Disturbances alter ecosystem, community, or population structure and change elements of the biological and/or physical environment. Climate changes can alter the timing, magnitude, frequency, and duration of disturbance events, as well as the interactions of disturbances on a landscape, and climate change may already be affecting disturbance events and regimes. Interactions among disturbance regimAuthorsRachel A. Loehman, Barbara J. Bentz, Gregg A. DeNitto, Robert E. Keane, Mary E. Manning, Jacob P. Duncan, Joel M. Egan, Marcus B. Jackson, Sandra Kegley, I. Blakey Lockman, Dean E. Pearson, James A. Powell, Steve Shelly, Brytten E. Steed, Paul J. ZambinoClimate changes and wildfire alter vegetation of Yellowstone National Park, but forest cover persists
We present landscape simulation results contrasting effects of changing climates on forest vegetation and fire regimes in Yellowstone National Park, USA, by mid-21st century. We simulated potential changes to fire dynamics and forest characteristics under three future climate projections representing a range of potential future conditions using the FireBGCv2 model. Under the future climate scenariAuthorsJason A. Clark, Rachel A. Loehman, Robert E. KeaneModeling ancient land use and resilient forests in the Jemez Mountains
No abstract available.AuthorsRachel A. LoehmanMid-21st-century climate changes increase predicted fire occurrence and fire season length, Northern Rocky Mountains, United States
Climate changes are expected to increase fire frequency, fire season length, and cumulative area burned in the western United States. We focus on the potential impact of mid-21st-century climate changes on annual burn probability, fire season length, and large fire characteristics including number and size for a study area in the Northern Rocky Mountains. Although large fires are rare they accountAuthorsKarin L. Riley, Rachel A. LoehmanArctic Research Plan: FY2017-2021
The United States is an Arctic nation—Americans depend on the Arctic for biodiversity and climate regulation and for natural resources. America’s Arctic—Alaska—is at the forefront of rapid climate, environmental, and socio-economic changes that are testing the resilience and sustainability of communities and ecosystems. Research to increase fundamental understanding of these changes is needed to iAuthorsSandy Starkweather, Martin O Jeffries, Simon Stephenson, Rebecca D. Anderson, Benjamin M. Jones, Rachel A. Loehman, Vanessa R. von BielaInteractions of landscape disturbances and climate change dictate ecological pattern and process: spatial modeling of wildfire, insect, and disease dynamics under future climates
ContextInteractions among disturbances, climate, and vegetation influence landscape patterns and ecosystem processes. Climate changes, exotic invasions, beetle outbreaks, altered fire regimes, and human activities may interact to produce landscapes that appear and function beyond historical analogs.ObjectivesWe used the mechanistic ecosystem-fire process model FireBGCv2 to model interactions of wiAuthorsRachel A. Loehman, Robert E. Keane, Lisa M. Holsinger, Zhiwei WuSimulating future residential property losses from wildfire in Flathead County, Montana
Wildfire damages to private residences in the United States and elsewhere have increased as a result of expansion of the wildland-urban interface (WUI) and other factors. Understanding this unwelcome trend requires analytical frameworks that simulate how various interacting social, economic, and biophysical factors influence those damages. A methodological framework is developed for simulating expAuthorsTony Prato, Travis B Paveglio, Yan Barnett, Robin Silverstein, Michael Hardy, Robert Keane, Rachel A. Loehman, Anthony Clark, Daniel B. Fagre, Tyron Venn, Keith Stockmann - News
*Disclaimer: Listing outside positions with professional scientific organizations on this Staff Profile are for informational purposes only and do not constitute an endorsement of those professional scientific organizations or their activities by the USGS, Department of the Interior, or U.S. Government