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: 73
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
Coming to terms with the new normal: Forest health in the Sierra Nevada
The vast conifer forests of California’s Sierra Nevada range inspire awe and create lasting memories. The size and longevity of these trees make them seem both otherworldly and everlasting. Indeed, their grandeur is such that visitors may not appreciate how these forests are connected to the larger landscape, and so there is little understanding that something as common as a drought could lead to
Authors
Jodi Axelson, John J. Battles, Adrian J. Das, Phillip J. van Mantgem
Fire, climate and changing forests
A changing climate implies potential transformations in plant demography, communities, and disturbances such as wildfire and insect outbreaks. How do these dynamics play out in terrestrial ecosystems across scales of space and time? “Vegetation type conversion” (VTC) is a term used to describe abrupt and long-lasting changes in vegetation structure and composition due to various kinds of perturbat
Authors
Jon Keeley, Phillip J. van Mantgem, Donald A. Falk
Fire and tree death: Understanding and improving modeling of fire-induced tree mortality
Each year wildland fires kill and injure trees on millions of forested hectares globally, affecting plant and animal biodiversity, carbon storage, hydrologic processes, and ecosystem services. The underlying mechanisms of fire-caused tree mortality remain poorly understood, however, limiting the ability to accurately predict mortality and develop robust modeling applications, especially under nove
Authors
Sharon M. Hood, J. Morgan Varner, Phillip J. van Mantgem, C. Alina Cansler
Pre‐fire drought and competition mediate post‐fire conifer mortality in western U.S. National Parks
Tree mortality is an important outcome of many forest fires. Extensive tree injuries from fire may lead directly to mortality, but environmental and biological stressors may also contribute to tree death. However, there is little evidence showing how the combined effects of two common stressors, drought and competition, influence post‐fire mortality. Geographically broad observations of three comm
Authors
Phillip J. van Mantgem, Donald A. Falk, Emma C. Williams, Adrian J. Das, Nathan L. Stephenson
Thinning, tree-growth, and resistance to multi-year drought in a mixed-conifer forest of northern California
Drought is an important stressor in forest ecosystems that can influence tree vigor and survival. In the U.S., forest managers use two primary management techniques to promote resistance and resilience to drought: prescribed fire and mechanical thinning. Generally applied to reduce fuels and fire hazard, treatments may also reduce competition for resources that may improve tree-growth and reduce m
Authors
Michael J. Vernon, Rosemary L. Sherriff, Phillip J. van Mantgem, Jeffrey M. Kane
Characterizing interactions between fire and other disturbances and their impacts on tree mortality in western U.S. Forests
Increasing evidence that pervasive warming trends are altering disturbance regimes and their interactions with fire has generated substantial interest and debate over the implications of these changes. Previous work has primarily focused on conditions that promote non-additive interactions of linked and compounded disturbances, but the spectrum of potential interaction patterns has not been fully
Authors
Jeffrey M. Kane, J. Morgan Varner, Margaret R. Metz, Phillip J. van Mantgem
Higher sensitivity and lower specificity in post-fire mortality model validation of 11 western US tree species
Managers require accurate models to predict post-fire tree mortality to plan prescribed fire treatments and examine their effectiveness. Here we assess the performance of a common post-fire tree mortality model with an independent dataset of 11 tree species from 13 National Park Service units in the western USA. Overall model discrimination was generally strong, but performance varied considerably
Authors
Jeffrey M. Kane, Phillip J. van Mantgem, Laura Lalemand, MaryBeth Keifer
Forest restoration at Redwood National Park: Exploring prescribed fire alternatives to second-growth management: A case study
Almost half of Redwood National Park is comprised of second-growth forests characterized by high stand density, deficient redwood composition, and low understory biodiversity. Typical structure of young redwood stands impedes the recovery of old-growth conditions, such as dominance of redwood (Sequoia sempervirens (D. Don) Endl.), distinct canopy layers and diverse understory vegetation. Young for
Authors
Eamon Engber, Jason Teraoka, Phillip J. van Mantgem
Growth of coast redwood and Douglas-fir following thinning in second-growth forests at Redwood National Park and Headwaters Forest Reserve
Managers of second-growth forests at Redwood National Park and the Bureau of Land Management’s Headwaters Forest Reserve encourage the development of late seral forest characteristics using mechanical thinning, where competing vegetation is removed to promote growth of residual trees. Yet the ability to quantify and reliably predict outcomes of treatments such as these is hindered by the long time
Authors
Phillip J. van Mantgem, Jason R. Teraoka, David H. LaFever, Laura Lalemand
Low thinning and crown thinning of two severities as restoration tools at Redwood National Park
Interest in the restoration of second-growth forests has continued to increase in the redwood region, which has further increased the importance of evaluating restoration-based silvicultural strategies. This study assessed the short-term effectiveness of four silvicultural treatments (two silvicultural thinning methods, low thinning and crown thinning, and two basal area retentions, 80 percent and
Authors
Jason R Teraoka, Phillip J. van Mantgem, Christopher R. Keyes
Forest restoration at Redwood National Park: exploring prescribed fire alternatives to second-growth management: a case study
Almost half of Redwood National Park is comprised of second-growth forests characterized by high stand density, deficient redwood composition, and low understory biodiversity. Typical structure of young redwood stands impedes the recovery of old-growth conditions, such as dominance of redwood (Sequoia sempervirens (D. Don) Endl.), distinct canopy layers and diverse understory vegetation. Young for
Authors
Eamon Engber, Jason Teraoka, Phillip J. van Mantgem
Science and Products
Filter Total Items: 73
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
Coming to terms with the new normal: Forest health in the Sierra Nevada
The vast conifer forests of California’s Sierra Nevada range inspire awe and create lasting memories. The size and longevity of these trees make them seem both otherworldly and everlasting. Indeed, their grandeur is such that visitors may not appreciate how these forests are connected to the larger landscape, and so there is little understanding that something as common as a drought could lead to
Authors
Jodi Axelson, John J. Battles, Adrian J. Das, Phillip J. van Mantgem
Fire, climate and changing forests
A changing climate implies potential transformations in plant demography, communities, and disturbances such as wildfire and insect outbreaks. How do these dynamics play out in terrestrial ecosystems across scales of space and time? “Vegetation type conversion” (VTC) is a term used to describe abrupt and long-lasting changes in vegetation structure and composition due to various kinds of perturbat
Authors
Jon Keeley, Phillip J. van Mantgem, Donald A. Falk
Fire and tree death: Understanding and improving modeling of fire-induced tree mortality
Each year wildland fires kill and injure trees on millions of forested hectares globally, affecting plant and animal biodiversity, carbon storage, hydrologic processes, and ecosystem services. The underlying mechanisms of fire-caused tree mortality remain poorly understood, however, limiting the ability to accurately predict mortality and develop robust modeling applications, especially under nove
Authors
Sharon M. Hood, J. Morgan Varner, Phillip J. van Mantgem, C. Alina Cansler
Pre‐fire drought and competition mediate post‐fire conifer mortality in western U.S. National Parks
Tree mortality is an important outcome of many forest fires. Extensive tree injuries from fire may lead directly to mortality, but environmental and biological stressors may also contribute to tree death. However, there is little evidence showing how the combined effects of two common stressors, drought and competition, influence post‐fire mortality. Geographically broad observations of three comm
Authors
Phillip J. van Mantgem, Donald A. Falk, Emma C. Williams, Adrian J. Das, Nathan L. Stephenson
Thinning, tree-growth, and resistance to multi-year drought in a mixed-conifer forest of northern California
Drought is an important stressor in forest ecosystems that can influence tree vigor and survival. In the U.S., forest managers use two primary management techniques to promote resistance and resilience to drought: prescribed fire and mechanical thinning. Generally applied to reduce fuels and fire hazard, treatments may also reduce competition for resources that may improve tree-growth and reduce m
Authors
Michael J. Vernon, Rosemary L. Sherriff, Phillip J. van Mantgem, Jeffrey M. Kane
Characterizing interactions between fire and other disturbances and their impacts on tree mortality in western U.S. Forests
Increasing evidence that pervasive warming trends are altering disturbance regimes and their interactions with fire has generated substantial interest and debate over the implications of these changes. Previous work has primarily focused on conditions that promote non-additive interactions of linked and compounded disturbances, but the spectrum of potential interaction patterns has not been fully
Authors
Jeffrey M. Kane, J. Morgan Varner, Margaret R. Metz, Phillip J. van Mantgem
Higher sensitivity and lower specificity in post-fire mortality model validation of 11 western US tree species
Managers require accurate models to predict post-fire tree mortality to plan prescribed fire treatments and examine their effectiveness. Here we assess the performance of a common post-fire tree mortality model with an independent dataset of 11 tree species from 13 National Park Service units in the western USA. Overall model discrimination was generally strong, but performance varied considerably
Authors
Jeffrey M. Kane, Phillip J. van Mantgem, Laura Lalemand, MaryBeth Keifer
Forest restoration at Redwood National Park: Exploring prescribed fire alternatives to second-growth management: A case study
Almost half of Redwood National Park is comprised of second-growth forests characterized by high stand density, deficient redwood composition, and low understory biodiversity. Typical structure of young redwood stands impedes the recovery of old-growth conditions, such as dominance of redwood (Sequoia sempervirens (D. Don) Endl.), distinct canopy layers and diverse understory vegetation. Young for
Authors
Eamon Engber, Jason Teraoka, Phillip J. van Mantgem
Growth of coast redwood and Douglas-fir following thinning in second-growth forests at Redwood National Park and Headwaters Forest Reserve
Managers of second-growth forests at Redwood National Park and the Bureau of Land Management’s Headwaters Forest Reserve encourage the development of late seral forest characteristics using mechanical thinning, where competing vegetation is removed to promote growth of residual trees. Yet the ability to quantify and reliably predict outcomes of treatments such as these is hindered by the long time
Authors
Phillip J. van Mantgem, Jason R. Teraoka, David H. LaFever, Laura Lalemand
Low thinning and crown thinning of two severities as restoration tools at Redwood National Park
Interest in the restoration of second-growth forests has continued to increase in the redwood region, which has further increased the importance of evaluating restoration-based silvicultural strategies. This study assessed the short-term effectiveness of four silvicultural treatments (two silvicultural thinning methods, low thinning and crown thinning, and two basal area retentions, 80 percent and
Authors
Jason R Teraoka, Phillip J. van Mantgem, Christopher R. Keyes
Forest restoration at Redwood National Park: exploring prescribed fire alternatives to second-growth management: a case study
Almost half of Redwood National Park is comprised of second-growth forests characterized by high stand density, deficient redwood composition, and low understory biodiversity. Typical structure of young redwood stands impedes the recovery of old-growth conditions, such as dominance of redwood (Sequoia sempervirens (D. Don) Endl.), distinct canopy layers and diverse understory vegetation. Young for
Authors
Eamon Engber, Jason Teraoka, Phillip J. van Mantgem