Search Results
Showing 1-20 of about 35 results.
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Perceived Predation Risk Affects Mammal Behavior at Amazonian Mineral LicksDOI: info:10.1111/btp.70009v. 57No. 2
Griffiths, Brian M., Stabach, Jared, and Kolowski, Joseph. 2025. "Perceived Predation Risk Affects Mammal Behavior at Amazonian Mineral Licks." Biotropica, 57, (2). https://doi.org/10.1111/btp.70009.
Juvenile and Adult Survival Estimates of American Kestrels Throughout the Full Annual Cycle in Eastern North AmericaDOI: info:10.3356/jrr2414v. 59No. 2
Melo, Mercy, Kolowski, Joseph M., McCabe, Rebecca A., Smallwood, John A., Cornell, Allison, King, David, and Therrien, Jean-François. 2025. "Juvenile and Adult Survival Estimates of American Kestrels Throughout the Full Annual Cycle in Eastern North America." Journal of Raptor Research, 59, (2). https://doi.org/10.3356/jrr2414.
High-resolution GPS Tracking of American Kestrels Reveals Breeding and Post-Breeding Ranging Behavior in Northern Virginia, USADOI: info:10.3356/JRR-22-106v. 57No. 4544–562
Kolowski, Joseph M., Wolfer, Caylen, McDaniels, Megan, Williams, Alan, and Harris, J. B. 2023. "High-resolution GPS Tracking of American Kestrels Reveals Breeding and Post-Breeding Ranging Behavior in Northern Virginia, USA." Journal of Raptor Research, 57, (4) 544–562. https://doi.org/10.3356/JRR-22-106.
Assessing the accuracy of distance‐ and interview‐based measures of hunting pressureDOI: info:10.1111/csp2.592v. 4No. 5
Griffiths, Brian M., Kolowski, Joseph, Bowler, Mark, Gilmore, Michael P., Benson, Elizabeth, Lewis, Forrest, and Stabach, Jared. 2022. "Assessing the accuracy of distance‐ and interview‐based measures of hunting pressure." Conservation Science and Practice, 4, (5). https://doi.org/10.1111/csp2.592.
Rush hour: arboreal mammal activity patterns in natural canopy bridges in the Peruvian AmazonDOI: info:10.1163/14219980-20211209v. 93No. 3-6465–477
Gregory, Tremaine, Carrasco-Rueda, Farah, Balbuena, Diego, and Kolowski, Joseph. 2022. "Rush hour: arboreal mammal activity patterns in natural canopy bridges in the Peruvian Amazon." Folia Primatologica, 93, (3-6) 465–477. https://doi.org/10.1163/14219980-20211209.
The role of environmental, structural and anthropogenic variables on underpass use by African savanna elephants (Loxodonta africana) in the Tsavo Conservation AreaDOI: info:10.1016/j.gecco.2022.e02199v. 38
Koskei, Michael, Kolowski, Joseph, Wittemyer, George, Lala, Fredrick, Douglas-Hamilton, Iain, and Okita-Ouma, Benson. 2022. "The role of environmental, structural and anthropogenic variables on underpass use by African savanna elephants (Loxodonta africana) in the Tsavo Conservation Area." Global Ecology and Conservation, 38. https://doi.org/10.1016/j.gecco.2022.e02199.
Factors Associated with American Kestrel (Falco sparverius) Nest Box Occupancy and Reproductive Success in an Agricultural LandscapeDOI: info:10.3356/JRR-21-64v. 57No. 2
Kolowski, Joseph, Morrow, Lance, and Morrow, Jill. 2022. "Factors Associated with American Kestrel (Falco sparverius) Nest Box Occupancy and Reproductive Success in an Agricultural Landscape." Journal of Raptor Research, 57, (2). https://doi.org/10.3356/JRR-21-64.
Activity patterns of tayra (Eira barbara) across their distributionDOI: info:10.1093/jmammal/gyaa159v. 102No. 3Oxford University Press Incorporated772–788
Jose Villafane-Trujillo, Alvaro, Kolowski, Joseph M., Cove, Michael, V., Medici, Emilia Patricia, Harmsen, Bart J., Foster, Rebbeca J., Hidalgo-Mihart, Mircea G., Espinosa, Santiago, Rios-Alvear, Gorky, Reyes-Puig, Carolina, Pablo Reyes-Puig, Juan, Da Silva, Xavier Marina, Paviolo, Agustin, Cruz, Paula, and Alberto Lopez-Gonzalez, Carlos. 2021. "Activity patterns of tayra (Eira barbara) across their distribution." Journal of mammalogy, 102, (3) 772–788. https://doi.org/10.1093/jmammal/gyaa159.
High‐density camera trap grid reveals lack of consistency in detection and capture rates across space and timeDOI: info:10.1002/ecs2.3350v. 12No. 2
Kolowski, Joseph M., Oley, Josephine, and McShea, William J. 2021. "High‐density camera trap grid reveals lack of consistency in detection and capture rates across space and time." Ecosphere, 12, (2). https://doi.org/10.1002/ecs2.3350.
An empirical evaluation of camera trap study design: how many, how long, and when?DOI: info:10.1111/2041-210X.133701–40
Kays, Roland, Arbogast, Brian S., Baker‐Whatton, Megan, Beirne, Chris, Boone, Hailey M., Bowler, Mark, Burneo, Santiago F., Cove, Michael V., Ding, Ping, Espinosa, Santiago, Gonçalves, André,Luis Sousa, Hansen, Christopher P., Jansen, Patrick A., Kolowski, Joseph M., Knowles, Travis W., Lima, Marcela Guimarães Moreira, Millspaugh, Joshua, McShea, William J., Pacifici, Krishna, Parsons, Arielle W., Pease, Brent S., Rovero, Francesco, Santos, Fernanda, Schuttler, Stephanie G., Sheil, Douglas et al. 2020. "An empirical evaluation of camera trap study design: how many, how long, and when?" Methods in Ecology and Evolution, 1–40. https://doi.org/10.1111/2041-210X.13370.
Camera Site Data and Covariates - SCBI Camera Grid StudyDOI: info:10.25573/DATA.12869534.V1The Smithsonian Institution
Kolowski, Joseph M. 2020. [Dataset] Camera Site Data and Covariates - SCBI Camera Grid Study. Distributed by The Smithsonian Institution. https://doi.org/10.25573/DATA.12869534.V1.
Raw Camera Trap Record Data - SCBI Camera Grid StudyDOI: info:10.25573/DATA.12867392.V1The Smithsonian Institution
Kolowski, Joseph M. and McShea, William J. 2020. [Dataset] Raw Camera Trap Record Data - SCBI Camera Grid Study. Distributed by The Smithsonian Institution. https://doi.org/10.25573/DATA.12867392.V1.
The spatial distribution of American black bear-human interactions in Virginia, USADOI: info:10.2192/URSUS-D-19-00017.1v. 31International Association of Bear Research and Management-IBA1–15
Malpeli, Katherine C., Kolowski, Joseph M., and Sajecki, Jaime L. 2020. "The spatial distribution of American black bear-human interactions in Virginia, USA." Ursus, 31, (E18) 1–15. https://doi.org/10.2192/URSUS-D-19-00017.1.
Throat Patch Variation in Tayra () and the Potential for Individual Identification in the FieldDOI: info:10.3390/d10010007v. 10No. 1MDPI AG1–23
Villafañe-Trujillo, Álvaro J., López-González, Carlos A., and Kolowski, Joseph M. 2018. "Throat Patch Variation in Tayra (Eira barbara) and the Potential for Individual Identification in the Field." Diversity, 10, (1) 1–23. https://doi.org/10.3390/d10010007.
Natural canopy bridges effectively mitigate tropical forest fragmentation for arboreal mammalsDOI: info:10.1038/s41598-017-04112-xv. 7No. 3892Nature Publishing Group
Gregory, Tremaine, Carrasco-Rueda, Farah, Alonso, Alfonso, Kolowski, Joseph, and Deichmann, Jessica L. 2017. "Natural canopy bridges effectively mitigate tropical forest fragmentation for arboreal mammals." Scientific Reports, 7, (3892). https://doi.org/10.1038/s41598-017-04112-x.
Primate response to natural gas pipeline construction in the Peruvian AmazonDOI: info:10.1111/btp.12406v. 49No. 2Wiley-Blackwell249–255
Gregory, Tremaine, Carrasco-Rueda, Farah, Deichmann, Jessica, Kolowski, Joseph, and Alonso, Alfonso. 2017. "Primate response to natural gas pipeline construction in the Peruvian Amazon." Biotropica, 49, (2) 249–255. https://doi.org/10.1111/btp.12406.
Camera trap placement and the potential for bias due to trails and other featuresDryad Digital Repository
Kolowski, Joseph M. and Forrester, Tavis D. 2017. [Dataset] Camera trap placement and the potential for bias due to trails and other features. Distributed by Dryad Digital Repository.
Camera trap placement and the potential for bias due to trails and other featuresDOI: info:10.1371/journal.pone.0186679v. 12No. 10Public Library of Science1–20
Kolowski, Joseph M. and Forrester, Tavis D. 2017. "Camera trap placement and the potential for bias due to trails and other features." Plos One, 12, (10) 1–20. https://doi.org/10.1371/journal.pone.0186679.
Hypothesis-driven and field-validated method to prioritize fragmentation mitigation efforts in road projectsDOI: info:10.1890/14-1924.1v. 25No. 72035–2046
Vanthomme, Hadrien P. A., Kolowski, Joseph, Nzamba, Brave S., and Alonso, Alfonso. 2015. "Hypothesis-driven and field-validated method to prioritize fragmentation mitigation efforts in road projects." Ecological Applications, 25, (7) 2035–2046. https://doi.org/10.1890/14-1924.1.
Arboreal camera trapping: Taking a proven method to new heightsDOI: info:10.1111/2041-210X.12177v. 5No. 5Wiley-Blackwell443–451
Gregory, Tremaine, Rueda, Farah Carrasco, Deichmann, Jessica L., Kolowski, Joseph, and Alonso, Alfonso. 2014. "Arboreal camera trapping: Taking a proven method to new heights." Methods in Ecology and Evolution, 5, (5) 443–451. https://doi.org/10.1111/2041-210X.12177.
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