Phillip van Mantgem
Phil van Mantgem is a research ecologist at the Western Ecological Research Center.
RESEARCH INTERESTS
- Conservation biology
- Fire ecology
- Forest ecology
Professional Experience
Research Ecologist, USGS, Redwood Field Station, Arcata, CA, 2008 - Present
Ecologist, USGS, Sequoia and Kings Canyon Field Station, Three Rivers, CA, 2000 - 2008
Education and Certifications
Ph.D., Ecology, University of California, Davis, CA 2001
M.S., Plant Biology, University of California, Davis, CA 1996
B.S., Botany, University of Iowa, Iowa City, IA 1991
Science and Products
Filter Total Items: 72
U.S. Geological Survey wildland fire science strategic plan, 2021–26
The U.S. Geological Survey (USGS) Wildland Fire Science Strategic Plan defines critical, core fire science capabilities for understanding fire-related and fire-responsive earth system processes and patterns, and informing management decision making. Developed by USGS fire scientists and executive leadership, and informed by conversations with external stakeholders, the Strategic Plan is aligned wi
Authors
Paul F. Steblein, Rachel A. Loehman, Mark P. Miller, Joseph R. Holomuzki, Suzanna C. Soileau, Matthew L. Brooks, Mia Drane-Maury, Hannah M. Hamilton, Jason W. Kean, Jon E. Keeley, Robert R. Mason,, Alexa McKerrow, James Meldrum, Edmund B. Molder, Sheila F. Murphy, Birgit Peterson, Geoffrey S. Plumlee, Douglas J. Shinneman, Phillip J. van Mantgem, Alison York
By
Ecosystems Mission Area, Natural Hazards Mission Area, Science Synthesis, Analysis and Research Program, Science Analytics and Synthesis (SAS) Program, Alaska Science Center, Earth Resources Observation and Science (EROS) Center , Forest and Rangeland Ecosystem Science Center, Fort Collins Science Center, Geologic Hazards Science Center, Geology, Geophysics, and Geochemistry Science Center, Western Ecological Research Center (WERC), Wildland Fire Science
Vegetation community monitoring: Species composition and biophysical gradients in Klamath Network parks
The Klamath Network of the National Park Service consists of six park units located in northern California and southern Oregon. The Network began implementing a vegetation monitoring protocol in 2011 to identify ecologically significant vegetation trends in the parks. The premise of the protocol is that multivariate analyses of species composition data is the most robust early detection means for
Authors
Sean B. Smith, Phillip J. van Mantgem, Dennis Odion
Patterns of conifer invasion following prescribed fire in grasslands and oak woodlands of Redwood National Park, California
The invasion, or “encroachment”, of native conifers commonly occurs in the absence of frequent fire in deciduous woodlands and grasslands of the Pacific Northwest, USA. To effectively target restoration activities, managers require a better understanding of the outcomes of prescribed fire and the spatial patterns of conifer invasions. We examined the duration of prescribed fire effectiveness for c
Authors
Phillip J. van Mantgem, Micah C. Wright, Eamon A Engber
Seed production patterns of surviving Sierra Nevada conifers show minimal change following drought
Reproduction is a key component of ecological resilience in forest ecosystems, so understanding how seed production is influenced by extreme drought is key to understanding forest recovery trajectories. If trees respond to mortality-inducing drought by preferentially allocating resources for reproduction, the recovery of the stand to pre-drought conditions may be enhanced accordingly. We used a 20
Authors
Micah C. Wright, Phillip J. van Mantgem, Nathan L. Stephenson, Adrian Das, Jon Keeley
Evaluating and optimizing the use of logistic regression for tree mortality models in the First Order Fire Effects Model (FOFEM)
Wildland fires burn millions of forested hectares annually around the world, affecting biodiversity, carbon storage, hydrologic processes, and ecosystem services largely through fire-induced tree mortality (Bond-Lamberty et al. 2007; Dantas et al. 2016). In spite of this widespread importance, the underlying mechanisms of fire-caused tree mortality remain poorly understood, (Hood et al. 2018). Pos
Authors
C. Alina Cansler, Sharon Hood, J. Morgan Varner, Phillip J. van Mantgem
Effects of postfire climate and seed availability on postfire conifer regeneration
Large, severe fires are becoming more frequent in many forest types across the western United States and have resulted in tree mortality across tens of thousands of hectares. Conifer regeneration in these areas is limited because seeds must travel long distances to reach the interior of large burned patches and establishment is jeopardized by increasingly hot and dry conditions. To better inform p
Authors
Joseph A E Stewart, Phillip J. van Mantgem, Derek J N Young, Kristen L. Shive, Haiganoush K. Preisler, Adrian Das, Nathan L. Stephenson, Jon Keeley, Hugh D. Safford, Micah C. Wright, Kevin R Welch, James H. Thorne
Whitebark pine in the national parks of the Pacific states: An assessment of population vulnerability
Whitebark pine (Pinus albicaulis) is a long-lived tree found in high-elevation forests of western North America that is declining due to the non-native white pine blister rust (Cronartium ribicola) and climate-driven outbreaks of mountain pine beetle (Dendroctonus ponderosae; MPB). The National Park Service established a monitoring program for whitebark pine in seven parks, including Sequoia & Kin
Authors
Erik S Jules, Phillip J. van Mantgem, Benjamin G Iberle, Jonathan C B Nesmith, Regina M Rochefort
A large database supports the use of simple models of post-fire tree mortality for thick-barked conifers, with less support for other species
BackgroundPredictive models of post-fire tree and stem mortality are vital for management planning and understanding fire effects. Post-fire tree and stem mortality have been traditionally modeled as a simple empirical function of tree defenses (e.g., bark thickness) and fire injury (e.g., crown scorch). We used the Fire and Tree Mortality database (FTM)—which includes observations of tree mortali
Authors
C. Alina Cansler, Sharon M. Hood, Phillip J. van Mantgem, J. Morgan Varner
Integrating the evidence for a terrestrial carbon sink caused by increasing atmospheric CO2
Atmospheric carbon dioxide concentration ([CO2]) is increasing, which increases leaf‐scale photosynthesis and intrinsic water‐use efficiency. These direct responses have the potential to increase plant growth, vegetation biomass, and soil organic matter; transferring carbon from the atmosphere into terrestrial ecosystems (a carbon sink). A substantial global terrestrial carbon sink would slow the
Authors
Anthony P. Walker, Martin G De Kauwe, Ana Bastos, Soumaya Belmecheri, Katerina Georgiou, Ralph F. Keeling, Sean M. McMahon, Belinda E. Medlyn, David J P Moore, Richard J. Norby, Sönke Zaehle, Kristina J. Anderson-Teixeira, Giovanna Battipaglia, Roel J W Brienen, Kristine G Cabugao, Maxime Cailleret, Elliott Campbell, Josep G Canadell, Philippe Ciais, Matthew E Craig, David S Ellsworth, Graham D Farquhar, Simone Fatichi, Joshua B. Fisher, David C Frank, Heather Graven, Lianhong Gu, Vanessa Haverd, Kelly A Heilman, Martin Heimann, Bruce A Hungate, Colleen M. Iverson, Fortunat Joos, Mingkai Jiang, Trevor F. Keenan, Jurgen Knauer, Christian Korner, Victor O Leshyk, Sebastian Leuzinger, Yao Liu, Natasha MacBean, Yadvinder Malhi, Tim R McVicar, Josep Penuelas, Julia Pongratz, A Shafer Powell, Terhi Riutta, Manon E B Sabot, Juergen Schleucher, Stephen Sitch, William K. Smith, Benjamin N. Sulman, Benton Taylor, Cesar Terrer, Margaret S. Torn, Kathleen K Treseder, Anna T Trugman, Susan E. Trumbore, Phillip J. van Mantgem, Steve L Voelker, Mary E Whelan, Peiter A Zuidema.
The Fire and Tree Mortality Database, for empirical modeling of individual tree mortality after fire
Wildland fires have a multitude of ecological effects in forests, woodlands, and savannas across the globe. A major focus of past research has been on tree mortality from fire, as trees provide a vast range of biological services. We assembled a database of individual-tree records from prescribed fires and wildfires in the United States. The Fire and Tree Mortality (FTM) database includes records
Authors
C. Alina Cansler, Sharon M. Hood, J. Morgan Varner, Phillip J. van Mantgem, Michelle C. Agne, Robert A. Andrus, Matthew P. Ayres, Bruce D. Ayres, Jonathan D. Bakker, Michael A. Battaglia, Barbara J. Bentz, Carolyn R. Breece, James K. Brown, Daniel R. Cluck, Tom W. Coleman, R. Gregory Corace, W. Wallace Covington, Douglas S. Cram, James B. Cronan, Joseph E. Crouse, Adrian Das, Ryan S. Davis, Darci M. Dickinson, Stephen A Fitzgerald, Peter Z. Fule, Lisa M. Ganio, Lindsay M. Grayson, Charles B. Halpern, Jim L. Hanula, Brian J. Harvey, J. Kevin Hiers, David W. Huffman, MaryBeth Keifer, Tara L. Keyser, Leda N. Kobziar, Thomas E. Kolb, Crystal A. Kolden, Karen E. Kopper, Jason R. Kreitler, Jesse K. Kreye, Andrew M. Latimer, Andrew P. Lerch, Maria J. Lombardero, Virginia L. McDaniel, Charles W. McHugh, Joel D. McMillin, Jason J. Moghaddas, Joseph J. O'Brien, Daniel D. B. Perrakis, David W. Peterson, Susan J. Pritchard, Robert A. Progar, Kenneth F. Raffa, Elizabeth D. Reinhardt, Joseph C. Restaino, John P. Roccaforte, Brendan M. Rogers, Kevin C. Ryan, Hugh D. Safford, Alyson E. Santoro, Timothy M. Shearman, Alice M. Shumate, Carolyn H. Sieg, Sheri L. Smith, Rebecca J. Smith, Nathan L. Stephenson, Mary Stuever, Jens Stevens, Michael T. Stoddard, Walter G. Thies, Nicole M. Vaillant, Shelby A. Weiss, Douglas J. Westlind, Travis J. Woolley, Micah C. Wright
Tree-ring evidence of forest management moderating drought responses: Implications for dry, coniferous forests in the southwestern United States
Drought, coupled with rising temperatures, is an emerging threat to many forest types across the globe. At least to a degree, we expect management actions that reduce competition (e.g., thinning, prescribed fire, or both) to improve growth of residual trees during drought. The influences of management actions and drought on individual tree growth may be measured with high precision using tree-ring
Authors
Phillip J. van Mantgem, Lucy P Kerhoulas, Rosemary L. Sherriff, Zachary James Wenderott
Subalpine sentinels: Understanding & managing whitebark pine in California
A hardy inhabitant of the subalpine zone of western North America, whitebark pine (Pinus albicaulis) is a keystone tree species in California’s subalpine forests, where it regularly defines the upper treeline in the Sierra Nevada, Cascade, Warner, and Klamath Mountains. Walking portions of the John Muir Trail in the southern Sierra Nevada, moving through extensive stands and mats of whitebark, one
Authors
Michèle Slaton, Marc Mayer, Shana Gross, Johathan Nesmith, Joan Dudney, Phillip J. van Mantgem, Ramona J. Butz
Science and Products
Filter Total Items: 72
U.S. Geological Survey wildland fire science strategic plan, 2021–26
The U.S. Geological Survey (USGS) Wildland Fire Science Strategic Plan defines critical, core fire science capabilities for understanding fire-related and fire-responsive earth system processes and patterns, and informing management decision making. Developed by USGS fire scientists and executive leadership, and informed by conversations with external stakeholders, the Strategic Plan is aligned wi
Authors
Paul F. Steblein, Rachel A. Loehman, Mark P. Miller, Joseph R. Holomuzki, Suzanna C. Soileau, Matthew L. Brooks, Mia Drane-Maury, Hannah M. Hamilton, Jason W. Kean, Jon E. Keeley, Robert R. Mason,, Alexa McKerrow, James Meldrum, Edmund B. Molder, Sheila F. Murphy, Birgit Peterson, Geoffrey S. Plumlee, Douglas J. Shinneman, Phillip J. van Mantgem, Alison York
By
Ecosystems Mission Area, Natural Hazards Mission Area, Science Synthesis, Analysis and Research Program, Science Analytics and Synthesis (SAS) Program, Alaska Science Center, Earth Resources Observation and Science (EROS) Center , Forest and Rangeland Ecosystem Science Center, Fort Collins Science Center, Geologic Hazards Science Center, Geology, Geophysics, and Geochemistry Science Center, Western Ecological Research Center (WERC), Wildland Fire Science
Vegetation community monitoring: Species composition and biophysical gradients in Klamath Network parks
The Klamath Network of the National Park Service consists of six park units located in northern California and southern Oregon. The Network began implementing a vegetation monitoring protocol in 2011 to identify ecologically significant vegetation trends in the parks. The premise of the protocol is that multivariate analyses of species composition data is the most robust early detection means for
Authors
Sean B. Smith, Phillip J. van Mantgem, Dennis Odion
Patterns of conifer invasion following prescribed fire in grasslands and oak woodlands of Redwood National Park, California
The invasion, or “encroachment”, of native conifers commonly occurs in the absence of frequent fire in deciduous woodlands and grasslands of the Pacific Northwest, USA. To effectively target restoration activities, managers require a better understanding of the outcomes of prescribed fire and the spatial patterns of conifer invasions. We examined the duration of prescribed fire effectiveness for c
Authors
Phillip J. van Mantgem, Micah C. Wright, Eamon A Engber
Seed production patterns of surviving Sierra Nevada conifers show minimal change following drought
Reproduction is a key component of ecological resilience in forest ecosystems, so understanding how seed production is influenced by extreme drought is key to understanding forest recovery trajectories. If trees respond to mortality-inducing drought by preferentially allocating resources for reproduction, the recovery of the stand to pre-drought conditions may be enhanced accordingly. We used a 20
Authors
Micah C. Wright, Phillip J. van Mantgem, Nathan L. Stephenson, Adrian Das, Jon Keeley
Evaluating and optimizing the use of logistic regression for tree mortality models in the First Order Fire Effects Model (FOFEM)
Wildland fires burn millions of forested hectares annually around the world, affecting biodiversity, carbon storage, hydrologic processes, and ecosystem services largely through fire-induced tree mortality (Bond-Lamberty et al. 2007; Dantas et al. 2016). In spite of this widespread importance, the underlying mechanisms of fire-caused tree mortality remain poorly understood, (Hood et al. 2018). Pos
Authors
C. Alina Cansler, Sharon Hood, J. Morgan Varner, Phillip J. van Mantgem
Effects of postfire climate and seed availability on postfire conifer regeneration
Large, severe fires are becoming more frequent in many forest types across the western United States and have resulted in tree mortality across tens of thousands of hectares. Conifer regeneration in these areas is limited because seeds must travel long distances to reach the interior of large burned patches and establishment is jeopardized by increasingly hot and dry conditions. To better inform p
Authors
Joseph A E Stewart, Phillip J. van Mantgem, Derek J N Young, Kristen L. Shive, Haiganoush K. Preisler, Adrian Das, Nathan L. Stephenson, Jon Keeley, Hugh D. Safford, Micah C. Wright, Kevin R Welch, James H. Thorne
Whitebark pine in the national parks of the Pacific states: An assessment of population vulnerability
Whitebark pine (Pinus albicaulis) is a long-lived tree found in high-elevation forests of western North America that is declining due to the non-native white pine blister rust (Cronartium ribicola) and climate-driven outbreaks of mountain pine beetle (Dendroctonus ponderosae; MPB). The National Park Service established a monitoring program for whitebark pine in seven parks, including Sequoia & Kin
Authors
Erik S Jules, Phillip J. van Mantgem, Benjamin G Iberle, Jonathan C B Nesmith, Regina M Rochefort
A large database supports the use of simple models of post-fire tree mortality for thick-barked conifers, with less support for other species
BackgroundPredictive models of post-fire tree and stem mortality are vital for management planning and understanding fire effects. Post-fire tree and stem mortality have been traditionally modeled as a simple empirical function of tree defenses (e.g., bark thickness) and fire injury (e.g., crown scorch). We used the Fire and Tree Mortality database (FTM)—which includes observations of tree mortali
Authors
C. Alina Cansler, Sharon M. Hood, Phillip J. van Mantgem, J. Morgan Varner
Integrating the evidence for a terrestrial carbon sink caused by increasing atmospheric CO2
Atmospheric carbon dioxide concentration ([CO2]) is increasing, which increases leaf‐scale photosynthesis and intrinsic water‐use efficiency. These direct responses have the potential to increase plant growth, vegetation biomass, and soil organic matter; transferring carbon from the atmosphere into terrestrial ecosystems (a carbon sink). A substantial global terrestrial carbon sink would slow the
Authors
Anthony P. Walker, Martin G De Kauwe, Ana Bastos, Soumaya Belmecheri, Katerina Georgiou, Ralph F. Keeling, Sean M. McMahon, Belinda E. Medlyn, David J P Moore, Richard J. Norby, Sönke Zaehle, Kristina J. Anderson-Teixeira, Giovanna Battipaglia, Roel J W Brienen, Kristine G Cabugao, Maxime Cailleret, Elliott Campbell, Josep G Canadell, Philippe Ciais, Matthew E Craig, David S Ellsworth, Graham D Farquhar, Simone Fatichi, Joshua B. Fisher, David C Frank, Heather Graven, Lianhong Gu, Vanessa Haverd, Kelly A Heilman, Martin Heimann, Bruce A Hungate, Colleen M. Iverson, Fortunat Joos, Mingkai Jiang, Trevor F. Keenan, Jurgen Knauer, Christian Korner, Victor O Leshyk, Sebastian Leuzinger, Yao Liu, Natasha MacBean, Yadvinder Malhi, Tim R McVicar, Josep Penuelas, Julia Pongratz, A Shafer Powell, Terhi Riutta, Manon E B Sabot, Juergen Schleucher, Stephen Sitch, William K. Smith, Benjamin N. Sulman, Benton Taylor, Cesar Terrer, Margaret S. Torn, Kathleen K Treseder, Anna T Trugman, Susan E. Trumbore, Phillip J. van Mantgem, Steve L Voelker, Mary E Whelan, Peiter A Zuidema.
The Fire and Tree Mortality Database, for empirical modeling of individual tree mortality after fire
Wildland fires have a multitude of ecological effects in forests, woodlands, and savannas across the globe. A major focus of past research has been on tree mortality from fire, as trees provide a vast range of biological services. We assembled a database of individual-tree records from prescribed fires and wildfires in the United States. The Fire and Tree Mortality (FTM) database includes records
Authors
C. Alina Cansler, Sharon M. Hood, J. Morgan Varner, Phillip J. van Mantgem, Michelle C. Agne, Robert A. Andrus, Matthew P. Ayres, Bruce D. Ayres, Jonathan D. Bakker, Michael A. Battaglia, Barbara J. Bentz, Carolyn R. Breece, James K. Brown, Daniel R. Cluck, Tom W. Coleman, R. Gregory Corace, W. Wallace Covington, Douglas S. Cram, James B. Cronan, Joseph E. Crouse, Adrian Das, Ryan S. Davis, Darci M. Dickinson, Stephen A Fitzgerald, Peter Z. Fule, Lisa M. Ganio, Lindsay M. Grayson, Charles B. Halpern, Jim L. Hanula, Brian J. Harvey, J. Kevin Hiers, David W. Huffman, MaryBeth Keifer, Tara L. Keyser, Leda N. Kobziar, Thomas E. Kolb, Crystal A. Kolden, Karen E. Kopper, Jason R. Kreitler, Jesse K. Kreye, Andrew M. Latimer, Andrew P. Lerch, Maria J. Lombardero, Virginia L. McDaniel, Charles W. McHugh, Joel D. McMillin, Jason J. Moghaddas, Joseph J. O'Brien, Daniel D. B. Perrakis, David W. Peterson, Susan J. Pritchard, Robert A. Progar, Kenneth F. Raffa, Elizabeth D. Reinhardt, Joseph C. Restaino, John P. Roccaforte, Brendan M. Rogers, Kevin C. Ryan, Hugh D. Safford, Alyson E. Santoro, Timothy M. Shearman, Alice M. Shumate, Carolyn H. Sieg, Sheri L. Smith, Rebecca J. Smith, Nathan L. Stephenson, Mary Stuever, Jens Stevens, Michael T. Stoddard, Walter G. Thies, Nicole M. Vaillant, Shelby A. Weiss, Douglas J. Westlind, Travis J. Woolley, Micah C. Wright
Tree-ring evidence of forest management moderating drought responses: Implications for dry, coniferous forests in the southwestern United States
Drought, coupled with rising temperatures, is an emerging threat to many forest types across the globe. At least to a degree, we expect management actions that reduce competition (e.g., thinning, prescribed fire, or both) to improve growth of residual trees during drought. The influences of management actions and drought on individual tree growth may be measured with high precision using tree-ring
Authors
Phillip J. van Mantgem, Lucy P Kerhoulas, Rosemary L. Sherriff, Zachary James Wenderott
Subalpine sentinels: Understanding & managing whitebark pine in California
A hardy inhabitant of the subalpine zone of western North America, whitebark pine (Pinus albicaulis) is a keystone tree species in California’s subalpine forests, where it regularly defines the upper treeline in the Sierra Nevada, Cascade, Warner, and Klamath Mountains. Walking portions of the John Muir Trail in the southern Sierra Nevada, moving through extensive stands and mats of whitebark, one
Authors
Michèle Slaton, Marc Mayer, Shana Gross, Johathan Nesmith, Joan Dudney, Phillip J. van Mantgem, Ramona J. Butz