Sara J Oyler-McCance, PhD
Dr. Sara Oyler-McCance is a Supervisory Research Geneticist and Branch Chief for the Ecosystem and Organismal Ecology Branch at the Fort Collins Science Center. She is a conservation geneticist studying a wide variety of taxa.
The Molecular Ecology Lab
The Molecular Ecology Lab
The FORT Molecular Ecology Laboratory applies genetic and genomic technologies to address a variety of complex questions and conservation issues facing the management of fish and wildlife resources. Together with partners, they design and implement studies to document genetic diversity and the distribution of genetic variation among individuals, populations, and species.
Highlighted Research
Highlighted Research
- Genome-wide adaptive divergence and conservation translocation
- Genetic connectivity in the Arizona toad (Anaxyrus microscaphus)
- Using fecal DNA to estimate feral horse population size
- A genetic warning system for a wildlife monitoring framework
- Genetic insights into mating strategies of the American black swift
- The transformative impact of genomics on sage-grouse conservation and management
- Environmental DNA (eDNA) sampling improves estimates of invasive Burmese pythons
As a research geneticist and director of the Fort Collins Science Center’s Molecular Ecology Lab, Dr. Oyler-McCance’s research is dedicated to the application and advancement of genetic theory and techniques to address a variety of complex questions and conservation issues facing the management of the Nation's fish and wildlife resources and their habitats. Some of her research involves questions concerning species of conservation concern, yet some involves detection of invasive species. She uses genetic and genomic methods to investigate connectivity and to identify adaptive genetic diversity, both of which are important for ensuring persistence of species in changing landscapes. She uses state-of-the-art technology (for example, novel environmental DNA applications) to detect important invasive species. Her work also explores how to optimally manage the genetic diversity within a species (for example, through translocations) and how to best inventory what species are present and the state of species well-being, persistence, or risk (that is, population size, levels of genetic diversity).
Professional Experience
March 2023 - Present: Branch Chief, Ecosystem and Organismal Ecology Branch, US Geological Survey, Fort Collins Science Center, Fort Collins, Colorado
February 1999 - Present: Research Geneticist, US Geological Survey, Fort Collins Science Center, Fort Collins, Colorado
Education and Certifications
Ph.D. in Fish, Wildlife, and Conservation Biology, Colorado State University, 1999
M.S. in Wildlife Biology, University of Maine, 1993
B.S. in Biology, University of Michigan, 1991
Affiliations and Memberships*
Affiliate Faculty, Ecosystem Science and Sustainability, Colorado State University
Affiliate Faculty, Fish Wildlife and Conservation Biology, Colorado State University
Affiliate Faculty, Graduate Degree Program in Ecology, Colorado State University
Affiliate Faculty, Department of Integrative Biology, University of Colorado, Denver
Science and Products
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Differential influences of local subpopulations on regional diversity and differentiation for greater sage-grouse (Centrocercus urophasianus) Differential influences of local subpopulations on regional diversity and differentiation for greater sage-grouse (Centrocercus urophasianus)
The distribution of spatial genetic variation across a region can shape evolutionary dynamics and impact population persistence. Local population dynamics and among-population dispersal rates are strong drivers of this spatial genetic variation, yet for many species we lack a clear understanding of how these population processes interact in space to shape within-species genetic variation...
Authors
Jeffery R. Row, Sara J. Oyler-McCance, Brad C. Fedy
A field ornithologist’s guide to genomics: Practical considerations for ecology and conservation A field ornithologist’s guide to genomics: Practical considerations for ecology and conservation
Vast improvements in sequencing technology have made it practical to simultaneously sequence millions of nucleotides distributed across the genome, opening the door for genomic studies in virtually any species. Ornithological research stands to benefit in three substantial ways. First, genomic methods enhance our ability to parse and simultaneously analyze both neutral and non-neutral...
Authors
Sara J. Oyler-McCance, Kevin Oh, Kathryn Langin, Cameron L. Aldridge
Rangewide genetic analysis of Lesser Prairie-Chicken reveals population structure, range expansion, and possible introgression Rangewide genetic analysis of Lesser Prairie-Chicken reveals population structure, range expansion, and possible introgression
The distribution of the Lesser Prairie-Chicken (Tympanuchus pallidicinctus) has been markedly reduced due to loss and fragmentation of habitat. Portions of the historical range, however, have been recolonized and even expanded due to planting of conservation reserve program (CRP) fields that provide favorable vegetation structure for Lesser Prairie-Chickens. The source population(s)...
Authors
Sara J. Oyler-McCance, Randall W DeYoung, Jennifer A. Fike, Christian A. Hagen, Jeff A. Johnson, Lena C. Larsson, Michael Patten
Contrasting evolutionary histories of MHC class I and class II loci in grouse—Effects of selection and gene conversion Contrasting evolutionary histories of MHC class I and class II loci in grouse—Effects of selection and gene conversion
Genes of the major histocompatibility complex (MHC) encode receptor molecules that are responsible for recognition of intracellular and extracellular pathogens (class I and class II genes, respectively) in vertebrates. Given the different roles of class I and II MHC genes, one might expect the strength of selection to differ between these two classes. Different selective pressures may...
Authors
Piotr Minias, Zachary W. Bateson, Linda A. Whittingham, Jeff A. Johnson, Sara J. Oyler-McCance, Peter O. Dunn
Gunnison Sage-Grouse Centrocercus minimus Gunnison Sage-Grouse Centrocercus minimus
No abstract available
Authors
Jessica R. Young, Clait E. Braun, Sara J. Oyler-McCance, Cameron L. Aldridge, Patrick Magee, Michael A. Schroeder
Z chromosome divergence, polymorphism and relative effective population size in a genus of lekking birds Z chromosome divergence, polymorphism and relative effective population size in a genus of lekking birds
Sex chromosomes contribute disproportionately to species boundaries as they diverge faster than autosomes and often have reduced diversity. Their hemizygous nature contributes to faster divergence and reduced diversity, as do some types of selection. In birds, other factors (mating system and bottlenecks) can further decrease the effective population size of Z-linked loci and accelerate...
Authors
Sara J. Oyler-McCance, Robert S. Cornman, Kenneth L. Jones, Jennifer A. Fike
Potential demographic and genetic effects of a sterilant applied to wild horse mares Potential demographic and genetic effects of a sterilant applied to wild horse mares
Wild horse populations on western ranges can increase rapidly, resulting in the need for the Bureau of Land Management (BLM) to remove animals in order to protect the habitat that horses share with numerous other species. As an alternative to removals, BLM has sought to develop a long-term, perhaps even permanent, contraceptive to aid in reducing population growth rates. With long-term...
Authors
James E. Roelle, Sara J. Oyler-McCance
Landscape characteristics influencing the genetic structure of greater sage-grouse within the stronghold of their range: a holistic modeling approach Landscape characteristics influencing the genetic structure of greater sage-grouse within the stronghold of their range: a holistic modeling approach
Given the significance of animal dispersal to population dynamics and geographic variability, understanding how dispersal is impacted by landscape patterns has major ecological and conservation importance. Speaking to the importance of dispersal, the use of linear mixed models to compare genetic differentiation with pairwise resistance derived from landscape resistance surfaces has...
Authors
Jeff R Row, Sara J. Oyler-McCance, Jennifer A. Fike, Michael S. O’Donnell, Kevin E. Doherty, Cameron L. Aldridge, Zachary H. Bowen, Brad C. Fedy
Environmental DNA (eDNA) sampling improves occurrence and detection estimates of invasive Burmese pythons Environmental DNA (eDNA) sampling improves occurrence and detection estimates of invasive Burmese pythons
Environmental DNA (eDNA) methods are used to detect DNA that is shed into the aquatic environment by cryptic or low density species. Applied in eDNA studies, occupancy models can be used to estimate occurrence and detection probabilities and thereby account for imperfect detection. However, occupancy terminology has been applied inconsistently in eDNA studies, and many have calculated...
Authors
Margaret E. Hunter, Sara J. Oyler-McCance, Robert M. Dorazio, Jennifer A. Fike, Brian J. Smith, Charles T. Hunter, Robert N. Reed, Kristen M. Hart
Development of 13 microsatellites for Gunnison Sage-grouse (Centrocercus minimus) using next-generation shotgun sequencing and their utility in Greater Sage-grouse (Centrocercus urophasianus) Development of 13 microsatellites for Gunnison Sage-grouse (Centrocercus minimus) using next-generation shotgun sequencing and their utility in Greater Sage-grouse (Centrocercus urophasianus)
Gunnison Sage-grouse are an obligate sagebrush species that has experienced significant population declines and has been proposed for listing under the U.S. Endangered Species Act. In order to examine levels of connectivity among Gunnison Sage-grouse leks, we identified 13 novel microsatellite loci though next-generation shotgun sequencing, and tested them on the closely related Greater...
Authors
Jennifer A. Fike, Sara J. Oyler-McCance, Shawna J Zimmerman, Todd A. Castoe
Genomic single-nucleotide polymorphisms confirm that Gunnison and Greater sage-grouse are genetically well differentiated and that the Bi-State population is distinct Genomic single-nucleotide polymorphisms confirm that Gunnison and Greater sage-grouse are genetically well differentiated and that the Bi-State population is distinct
Sage-grouse are iconic, declining inhabitants of sagebrush habitats in western North America, and their management depends on an understanding of genetic variation across the landscape. Two distinct species of sage-grouse have been recognized, Greater (Centrocercus urophasianus) and Gunnison sage-grouse (C. minimus), based on morphology, behavior, and variation at neutral genetic markers...
Authors
Sara J. Oyler-McCance, Robert S. Cornman, Kenneth L. Jones, Jennifer A. Fike
Blood from a turnip: tissue origin of low-coverage shotgun sequencing libraries affects recovery of mitogenome sequences Blood from a turnip: tissue origin of low-coverage shotgun sequencing libraries affects recovery of mitogenome sequences
Next generation sequencing methods allow rapid, economical accumulation of data that have many applications, even at relatively low levels of genome coverage. However, the utility of shotgun sequencing data sets for specific goals may vary depending on the biological nature of the samples sequenced. We show that the ability to assemble mitogenomes from three avian samples of two...
Authors
F. Keith Barker, Sara Oyler-McCance, Diana F. Tomback
Non-USGS Publications**
Oyler-McCance, S.J. 1999. Genetic and habitat factors underlying conservation strategies for Gunnison sage grouse [Dissert]. Fort Collins, CO: Colorado State University. 162 p.
**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.
Science and Products
Filter Total Items: 22
Filter Total Items: 20
No Result Found
Filter Total Items: 100
Differential influences of local subpopulations on regional diversity and differentiation for greater sage-grouse (Centrocercus urophasianus) Differential influences of local subpopulations on regional diversity and differentiation for greater sage-grouse (Centrocercus urophasianus)
The distribution of spatial genetic variation across a region can shape evolutionary dynamics and impact population persistence. Local population dynamics and among-population dispersal rates are strong drivers of this spatial genetic variation, yet for many species we lack a clear understanding of how these population processes interact in space to shape within-species genetic variation...
Authors
Jeffery R. Row, Sara J. Oyler-McCance, Brad C. Fedy
A field ornithologist’s guide to genomics: Practical considerations for ecology and conservation A field ornithologist’s guide to genomics: Practical considerations for ecology and conservation
Vast improvements in sequencing technology have made it practical to simultaneously sequence millions of nucleotides distributed across the genome, opening the door for genomic studies in virtually any species. Ornithological research stands to benefit in three substantial ways. First, genomic methods enhance our ability to parse and simultaneously analyze both neutral and non-neutral...
Authors
Sara J. Oyler-McCance, Kevin Oh, Kathryn Langin, Cameron L. Aldridge
Rangewide genetic analysis of Lesser Prairie-Chicken reveals population structure, range expansion, and possible introgression Rangewide genetic analysis of Lesser Prairie-Chicken reveals population structure, range expansion, and possible introgression
The distribution of the Lesser Prairie-Chicken (Tympanuchus pallidicinctus) has been markedly reduced due to loss and fragmentation of habitat. Portions of the historical range, however, have been recolonized and even expanded due to planting of conservation reserve program (CRP) fields that provide favorable vegetation structure for Lesser Prairie-Chickens. The source population(s)...
Authors
Sara J. Oyler-McCance, Randall W DeYoung, Jennifer A. Fike, Christian A. Hagen, Jeff A. Johnson, Lena C. Larsson, Michael Patten
Contrasting evolutionary histories of MHC class I and class II loci in grouse—Effects of selection and gene conversion Contrasting evolutionary histories of MHC class I and class II loci in grouse—Effects of selection and gene conversion
Genes of the major histocompatibility complex (MHC) encode receptor molecules that are responsible for recognition of intracellular and extracellular pathogens (class I and class II genes, respectively) in vertebrates. Given the different roles of class I and II MHC genes, one might expect the strength of selection to differ between these two classes. Different selective pressures may...
Authors
Piotr Minias, Zachary W. Bateson, Linda A. Whittingham, Jeff A. Johnson, Sara J. Oyler-McCance, Peter O. Dunn
Gunnison Sage-Grouse Centrocercus minimus Gunnison Sage-Grouse Centrocercus minimus
No abstract available
Authors
Jessica R. Young, Clait E. Braun, Sara J. Oyler-McCance, Cameron L. Aldridge, Patrick Magee, Michael A. Schroeder
Z chromosome divergence, polymorphism and relative effective population size in a genus of lekking birds Z chromosome divergence, polymorphism and relative effective population size in a genus of lekking birds
Sex chromosomes contribute disproportionately to species boundaries as they diverge faster than autosomes and often have reduced diversity. Their hemizygous nature contributes to faster divergence and reduced diversity, as do some types of selection. In birds, other factors (mating system and bottlenecks) can further decrease the effective population size of Z-linked loci and accelerate...
Authors
Sara J. Oyler-McCance, Robert S. Cornman, Kenneth L. Jones, Jennifer A. Fike
Potential demographic and genetic effects of a sterilant applied to wild horse mares Potential demographic and genetic effects of a sterilant applied to wild horse mares
Wild horse populations on western ranges can increase rapidly, resulting in the need for the Bureau of Land Management (BLM) to remove animals in order to protect the habitat that horses share with numerous other species. As an alternative to removals, BLM has sought to develop a long-term, perhaps even permanent, contraceptive to aid in reducing population growth rates. With long-term...
Authors
James E. Roelle, Sara J. Oyler-McCance
Landscape characteristics influencing the genetic structure of greater sage-grouse within the stronghold of their range: a holistic modeling approach Landscape characteristics influencing the genetic structure of greater sage-grouse within the stronghold of their range: a holistic modeling approach
Given the significance of animal dispersal to population dynamics and geographic variability, understanding how dispersal is impacted by landscape patterns has major ecological and conservation importance. Speaking to the importance of dispersal, the use of linear mixed models to compare genetic differentiation with pairwise resistance derived from landscape resistance surfaces has...
Authors
Jeff R Row, Sara J. Oyler-McCance, Jennifer A. Fike, Michael S. O’Donnell, Kevin E. Doherty, Cameron L. Aldridge, Zachary H. Bowen, Brad C. Fedy
Environmental DNA (eDNA) sampling improves occurrence and detection estimates of invasive Burmese pythons Environmental DNA (eDNA) sampling improves occurrence and detection estimates of invasive Burmese pythons
Environmental DNA (eDNA) methods are used to detect DNA that is shed into the aquatic environment by cryptic or low density species. Applied in eDNA studies, occupancy models can be used to estimate occurrence and detection probabilities and thereby account for imperfect detection. However, occupancy terminology has been applied inconsistently in eDNA studies, and many have calculated...
Authors
Margaret E. Hunter, Sara J. Oyler-McCance, Robert M. Dorazio, Jennifer A. Fike, Brian J. Smith, Charles T. Hunter, Robert N. Reed, Kristen M. Hart
Development of 13 microsatellites for Gunnison Sage-grouse (Centrocercus minimus) using next-generation shotgun sequencing and their utility in Greater Sage-grouse (Centrocercus urophasianus) Development of 13 microsatellites for Gunnison Sage-grouse (Centrocercus minimus) using next-generation shotgun sequencing and their utility in Greater Sage-grouse (Centrocercus urophasianus)
Gunnison Sage-grouse are an obligate sagebrush species that has experienced significant population declines and has been proposed for listing under the U.S. Endangered Species Act. In order to examine levels of connectivity among Gunnison Sage-grouse leks, we identified 13 novel microsatellite loci though next-generation shotgun sequencing, and tested them on the closely related Greater...
Authors
Jennifer A. Fike, Sara J. Oyler-McCance, Shawna J Zimmerman, Todd A. Castoe
Genomic single-nucleotide polymorphisms confirm that Gunnison and Greater sage-grouse are genetically well differentiated and that the Bi-State population is distinct Genomic single-nucleotide polymorphisms confirm that Gunnison and Greater sage-grouse are genetically well differentiated and that the Bi-State population is distinct
Sage-grouse are iconic, declining inhabitants of sagebrush habitats in western North America, and their management depends on an understanding of genetic variation across the landscape. Two distinct species of sage-grouse have been recognized, Greater (Centrocercus urophasianus) and Gunnison sage-grouse (C. minimus), based on morphology, behavior, and variation at neutral genetic markers...
Authors
Sara J. Oyler-McCance, Robert S. Cornman, Kenneth L. Jones, Jennifer A. Fike
Blood from a turnip: tissue origin of low-coverage shotgun sequencing libraries affects recovery of mitogenome sequences Blood from a turnip: tissue origin of low-coverage shotgun sequencing libraries affects recovery of mitogenome sequences
Next generation sequencing methods allow rapid, economical accumulation of data that have many applications, even at relatively low levels of genome coverage. However, the utility of shotgun sequencing data sets for specific goals may vary depending on the biological nature of the samples sequenced. We show that the ability to assemble mitogenomes from three avian samples of two...
Authors
F. Keith Barker, Sara Oyler-McCance, Diana F. Tomback
Non-USGS Publications**
Oyler-McCance, S.J. 1999. Genetic and habitat factors underlying conservation strategies for Gunnison sage grouse [Dissert]. Fort Collins, CO: Colorado State University. 162 p.
**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.
*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