Threat of Invasive Barred Owls to Northern Spotted Owls and their Habitats Active
As an apex predator and fiercely territorial invader, barred owls at high densities have the potential to affect a variety of native wildlife through competition, niche displacement, and predation. Such impacts may be especially problematic for conservation of the federally threatened northern spotted owl, whose populations have continued to decline despite widespread protection of old forest habitat for the owl and associated wildlife. We conduct research to address the implications of the barred owl range expansion to conservation of northern spotted owls and other native wildlife in the Pacific Northwest. We work closely with resource managers to provide information on the status and ecology of barred owls, their role in population declines of northern spotted owls, and effectiveness of management options.
Current and Recent Studies
Effects of Barred Owls on Population Demography of Spotted Owls
A clear understanding of how competition with newly established barred owls contributes to population declines of northern spotted owls is required to inform potential control, mitigation, and recovery strategies. In collaboration with US Fish & Wildlife Service we are using large-scale field experiments to determine whether removing barred owls from select areas can improve population trends of northern spotted owls. This research will provide a definitive answer to whether competition with barred owls is contributing to population declines of spotted owls, and if so, whether control of barred owl numbers is an ecologically practical and cost-effective management tool to consider in future conservation strategies for spotted owls. Please visit the USGS project website here.
Collaborators: U.S. Fish and Wildlife Service, Oregon State University, Colorado State University, The Hoopa Tribe, California Academy of Sciences
Predator-prey Interactions of a Non-native Raptor
Little research exists on the overall impacts of the barred owl, a newly established apex predator in the Pacific Northwest, on other forest species, besides spotted owls, and food-web dynamics. This project takes advantage of the experimental design associated with an on-going barred owl removal experiment to evaluate the impact this novel avian predator is having on the food web in Pacific Northwest forests. Understanding the impact of barred owls on the food web is critical for spotted owls and other native species, particularly as barred owl densities reach carrying capacity in these forests.
Collaborators: U.S. Fish and Wildlife Service
Anticoagulant Rodenticide Risk to Pacific Northwest Predators
Contamination of nontarget wildlife by anticoagulant rodenticides is a global conservation concern. Recent studies in remote forests of California have shown anticoagulant rodenticide contamination of the food web and transfer to sensitive forest predators, including the federally threatened northern spotted owl. The USGS is leading a team of scientists that are using barred owl carcasses to test if anticoagulant rodenticides pose a risk to the spotted owl and other old-forest wildlife in the Pacific Northwest. For information on a recent publication, click here.
Collaborators: U.S. Fish and Wildlife Service, Bureau of Land Management, U.S. Forest Service, University of California at Davis
Competitive Interactions and Resource Use
Understanding the competitive relationship between spotted owls and barred owls requires primary information on individual life-history traits, resource use, and population dynamics. This research investigates the distribution, habitat associations, diets, and demography of barred owls and spotted owls so that the potential mechanisms and consequences of interspecific competition can be identified and addressed within a management context.
Collaborators: U.S. Fish and Wildlife Service, U.S. Forest Service, National Park Service, Bureau of Land Management, Oregon Department of Forestry, Oregon State University, Boise State University, Colorado State University
Survey and Monitoring Tools for Barred Owls
Most information on occurrence and distribution of barred owls in the Pacific Northwest is limited to ancillary data from studies of spotted owls. Our research addresses this shortcoming by developing, testing, and implementing survey designs that allow researchers and land managers to monitor occurrence and distribution of barred owls with high confidence.
Collaborators: U.S. Fish and Wildlife Service, U.S. Forest Service, Oregon State University
Conservation Genetics of Spotted Owls
The USGS has been collecting and analyzing information about spotted owl genetics for decades. Management agencies use these and other genetic information to review the status of the northern spotted owl, and in combination with population estimates and habitat assessments, to consider management options for all three subspecies - California, northern, and Mexican - of spotted owl and their hybrids.
Collaborators: U.S. Fish and Wildlife Service, U.S. Forest Service, Oregon State University
Below are other science projects associated with this project.
If you are unable to access a product or publication online, you can request a copy by sending an email with your contact information and the publication's citation to fresc_outreach@usgs.gov or call (541) 750-1030.
Northern spotted and barred owl pics.
If you are unable to access a product or publication online, you can request a copy by sending an email with your contact information and the publication's citation to fresc_outreach@usgs.gov or call (541) 750-1030.
Potential trophic cascades triggered by the barred owl range expansion
Effects of experimental removal of barred owls on population demography of northern spotted owls in Washington and Oregon—2015 progress report
The effects of habitat, climate, and Barred Owls on long-term demography of Northern Spotted Owls
Competitive interactions and resource partitioning between northern spotted owls and barred owls in western Oregon
The roles of competition and habitat in the dynamics of populations and species distributions
Improving strategies to assess competitive effects of barred owls on northern spotted owls in the Pacific Northwest
Population trends in northern spotted owls: Associations with climate in the Pacific Northwest
Genetics Show Current Decline and Pleistocene Expansion in Northern Spotted Owls
Landscape Features Shape Genetic Structure in Threatened Northern Spotted Owls
Blood parasites in Owls with conservation implications for the Spotted Owl (Strix occidentalis)
Microsatellite loci for distinguishing spotted owls (Strix occidentalis), barred owls (Strix varia), and their hybrids
Status and trends in demography of northern spotted owls, 1985-2003
News Releases and plain language summaries of some of our products.
These are our partners.
- Overview
As an apex predator and fiercely territorial invader, barred owls at high densities have the potential to affect a variety of native wildlife through competition, niche displacement, and predation. Such impacts may be especially problematic for conservation of the federally threatened northern spotted owl, whose populations have continued to decline despite widespread protection of old forest habitat for the owl and associated wildlife. We conduct research to address the implications of the barred owl range expansion to conservation of northern spotted owls and other native wildlife in the Pacific Northwest. We work closely with resource managers to provide information on the status and ecology of barred owls, their role in population declines of northern spotted owls, and effectiveness of management options.
Current and Recent Studies
Effects of Barred Owls on Population Demography of Spotted Owls
A clear understanding of how competition with newly established barred owls contributes to population declines of northern spotted owls is required to inform potential control, mitigation, and recovery strategies. In collaboration with US Fish & Wildlife Service we are using large-scale field experiments to determine whether removing barred owls from select areas can improve population trends of northern spotted owls. This research will provide a definitive answer to whether competition with barred owls is contributing to population declines of spotted owls, and if so, whether control of barred owl numbers is an ecologically practical and cost-effective management tool to consider in future conservation strategies for spotted owls. Please visit the USGS project website here.
Collaborators: U.S. Fish and Wildlife Service, Oregon State University, Colorado State University, The Hoopa Tribe, California Academy of Sciences
Predator-prey Interactions of a Non-native Raptor
Little research exists on the overall impacts of the barred owl, a newly established apex predator in the Pacific Northwest, on other forest species, besides spotted owls, and food-web dynamics. This project takes advantage of the experimental design associated with an on-going barred owl removal experiment to evaluate the impact this novel avian predator is having on the food web in Pacific Northwest forests. Understanding the impact of barred owls on the food web is critical for spotted owls and other native species, particularly as barred owl densities reach carrying capacity in these forests.
Collaborators: U.S. Fish and Wildlife Service
Anticoagulant Rodenticide Risk to Pacific Northwest Predators
Contamination of nontarget wildlife by anticoagulant rodenticides is a global conservation concern. Recent studies in remote forests of California have shown anticoagulant rodenticide contamination of the food web and transfer to sensitive forest predators, including the federally threatened northern spotted owl. The USGS is leading a team of scientists that are using barred owl carcasses to test if anticoagulant rodenticides pose a risk to the spotted owl and other old-forest wildlife in the Pacific Northwest. For information on a recent publication, click here.
Collaborators: U.S. Fish and Wildlife Service, Bureau of Land Management, U.S. Forest Service, University of California at Davis
Competitive Interactions and Resource Use
Understanding the competitive relationship between spotted owls and barred owls requires primary information on individual life-history traits, resource use, and population dynamics. This research investigates the distribution, habitat associations, diets, and demography of barred owls and spotted owls so that the potential mechanisms and consequences of interspecific competition can be identified and addressed within a management context.
Collaborators: U.S. Fish and Wildlife Service, U.S. Forest Service, National Park Service, Bureau of Land Management, Oregon Department of Forestry, Oregon State University, Boise State University, Colorado State University
Survey and Monitoring Tools for Barred Owls
Most information on occurrence and distribution of barred owls in the Pacific Northwest is limited to ancillary data from studies of spotted owls. Our research addresses this shortcoming by developing, testing, and implementing survey designs that allow researchers and land managers to monitor occurrence and distribution of barred owls with high confidence.
Collaborators: U.S. Fish and Wildlife Service, U.S. Forest Service, Oregon State University
Conservation Genetics of Spotted OwlsThe USGS has been collecting and analyzing information about spotted owl genetics for decades. Management agencies use these and other genetic information to review the status of the northern spotted owl, and in combination with population estimates and habitat assessments, to consider management options for all three subspecies - California, northern, and Mexican - of spotted owl and their hybrids.
Collaborators: U.S. Fish and Wildlife Service, U.S. Forest Service, Oregon State University
- Science
Below are other science projects associated with this project.
- Data
If you are unable to access a product or publication online, you can request a copy by sending an email with your contact information and the publication's citation to fresc_outreach@usgs.gov or call (541) 750-1030.
- Multimedia
Northern spotted and barred owl pics.
- Publications
If you are unable to access a product or publication online, you can request a copy by sending an email with your contact information and the publication's citation to fresc_outreach@usgs.gov or call (541) 750-1030.
Filter Total Items: 32Potential trophic cascades triggered by the barred owl range expansion
Recently, the barred owl (Strix varia) has expanded its range into the Pacific Northwest of the United States resulting in pronounced effects on the demography and behavior of the northern spotted owl (S. occidentalis caurina). The range expansion has brought together historically allopatric species, creating the potential for significant changes in the avian predator community with possible cascaAuthorsSamantha R. Holm, Barry R. Noon, David Wiens, William J. RippleEffects of experimental removal of barred owls on population demography of northern spotted owls in Washington and Oregon—2015 progress report
Evidence indicates that competition with newly established barred owls (Strix varia) is causing rapid declines in populations of northern spotted owls (Strix occidentalis caurina), and that the longterm persistence of spotted owls may be in question without additional management intervention. A pilot study in California showed that lethal removal of barred owls in combination with habitat conservaAuthorsJ. David Wiens, Katie M. Dugger, Krista E. Lewicki, David C. SimonThe effects of habitat, climate, and Barred Owls on long-term demography of Northern Spotted Owls
Estimates of species' vital rates and an understanding of the factors affecting those parameters over time and space can provide crucial information for management and conservation. We used mark–recapture, reproductive output, and territory occupancy data collected during 1985–2013 to evaluate population processes of Northern Spotted Owls (Strix occidentalis caurina) in 11 study areas in WashingtoAuthorsKatie Dugger, Eric D. Forsman, Alan B. Franklin, Raymond J. Davis, Gary C. White, Carl J. Schwarz, Kenneth P. Burnham, James D. Nichols, James E. Hines, Charles B. Yackulic, Paul F. Doherty, Larissa Bailey, Darren A. Clark, Steven H. Ackers, Lawrence S. Andrews, Benjamin Augustine, Brian L. Biswell, Jennifer Blakesley, Peter C. Carlson, Matthew J. Clement, Lowell V. Diller, Elizabeth M. Glenn, Adam Green, Scott A. Gremel, Dale R. Herter, J. Mark Higley, Jeremy Hobson, Rob B. Horn, Kathryn P. Huyvaert, Christopher McCafferty, Trent McDonald, Kevin McDonnell, Gail S. Olson, Janice A. Reid, Jeremy Rockweit, Viviana Ruiz, Jessica Saenz, Stan G. SovernCompetitive interactions and resource partitioning between northern spotted owls and barred owls in western Oregon
The federally threatened northern spotted owl (Strix occidentalis caurina) is the focus of intensive conservation efforts that have led to much forested land being reserved as habitat for the owl and associated wildlife species throughout the Pacific Northwest of the United States. Recently, however, a relatively new threat to spotted owls has emerged in the form of an invasive competitor: the conAuthorsJ. David Wiens, Robert G. Anthony, Eric D. ForsmanThe roles of competition and habitat in the dynamics of populations and species distributions
The role of competition in structuring biotic communities at fine spatial scales is well known from detailed process-based studies. Our understanding of competition's importance at broader scales is less resolved and mainly based on static species distribution maps. Here, we bridge this gap by examining the joint occupancy dynamics of an invading (barred owl: Strix varia) and a resident species (NAuthorsCharles Brandon Yackulic, Janice Reid, James D. Nichols, James E. Hines, Raymond Davis, Eric ForsmanImproving strategies to assess competitive effects of barred owls on northern spotted owls in the Pacific Northwest
A scientific study has determined that survey methods designed for spotted owls do not always detect barred owls that are actually present in spotted owl habitat. The researchers suggest that strategies to address potential interactions between spotted owls and barred owls will require carefully designed surveys that account for response behaviors and imperfect detection of both species. Species-sAuthorsJ. David Wiens, Anne WeekesPopulation trends in northern spotted owls: Associations with climate in the Pacific Northwest
We used reverse time capture-mark-recapture models to describe associations between rate of population change (??) and climate for northern spotted owls (Strix occidentalis caurina) at six long-term study areas in Washington and Oregon, USA. Populations in three of six areas showed strong evidence of declining populations, while populations in two additional areas were likely declining as well. AtAuthorsE.M. Glenn, R.G. Anthony, E.D. ForsmanGenetics Show Current Decline and Pleistocene Expansion in Northern Spotted Owls
The northern spotted owl (Strix occidentalis caurina) is one of the most controversial threatened subspecies ever listed under the U.S. Endangered Species Act. Because of concern for persistence of the subspecies, logging on Federal lands in the U.S. Pacific Northwest was dramatically reduced under the Northwest Forest Plan in 1994. Despite protection of its remaining forest habitat, recent fieldAuthorsW. Chris Funk, Eric D. Forsman, Thomas D. Mullins, Susan M. HaigLandscape Features Shape Genetic Structure in Threatened Northern Spotted Owls
Several recent studies have shown that landscape features can strongly affect spatial patterns of gene flow and genetic variation. Understanding landscape effects on genetic variation is important in conservation for defining management units and understanding movement patterns. The landscape may have little effect on gene flow, however, in highly mobile species such as birds. We tested for genetiAuthorsW. Chris Funk, Eric D. Forsman, Thomas D. Mullins, Susan M. HaigBlood parasites in Owls with conservation implications for the Spotted Owl (Strix occidentalis)
The three subspecies of Spotted Owl (Northern, Strix occidentalis courina; California, S. o. occidentalis; and Mexican, S. o. lucida) are all threatened by habitat loss and range expansion of the Barred Owl (S. varia). An unaddressed threat is whether Barred Owls could be a source of novel strains of disease such as avian malaria (Plasmodium spp.) or other blood parasites potentially harmful for SAuthorsH.D. Ishak, J.P. Dumbacher, N.L. Anderson, J.J. Keane, G. Valkiunas, S. M. Haig, L.A. Tell, R.N.M. SehgalMicrosatellite loci for distinguishing spotted owls (Strix occidentalis), barred owls (Strix varia), and their hybrids
We identified four diagnostic microsatellite loci that distinguish spotted owls (Strix occidentalis), barred owls (Strix varia), F1 hybrids and backcrosses. Thirty-four out of 52 loci tested (65.4%) successfully amplified, and four of these loci (11.8%) had allele sizes that did not overlap between spotted and barred owls. The probability of correctly identifying a backcross with these four loci iAuthorsW. Chris Funk, Thomas D. Mullins, Eric D. Forsman, Susan M. HaigStatus and trends in demography of northern spotted owls, 1985-2003
We analyzed demographic data from northern spotted owls (Strix occidentalis caurina) from 14 study areas in Washington, Oregon, and California for 1985-2003. The purpose of our analyses was to provide an assessment of the status and trends of northern spotted owl populations throughout most of their geographic range. The 14 study areas made up approximately 12% of the range of the subspecies and iAuthorsR.G. Anthony, E.D. Forsman, A.B. Franklin, D.R. Anderson, K.P. Burnham, Gary C. White, C.J. Schwarz, J. D. Nichols, J. E. Hines, G.S. Olson, S.H. Ackers, L.S. Andrews, B.L. Biswell, P.C. Carlson, L.V. Diller, K.M. Dugger, K.E. Fehring, T.L. Fleming, R.P. Gerhardt, S.A. Gremel, R. J. Gutierrez, P.J. Happe, D.R. Herter, J.M. Higley, R.B. Horn, L.L. Irwin, P.J. Loschl, J.A. Reid, S.G. Sovern - News
News Releases and plain language summaries of some of our products.
- Partners
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