Bill Kendall, PhD
Assistant Unit Leader - Colorado Cooperative Fish and Wildlife Research Unit
Bill's research is both methodological and applied, focused largely on developing models of population dynamics or species distribution that can be used to inform conservation decisions. He has worked extensively in developing and improving capture-recapture and occupancy study designs and models, and in developing structured decision-making approaches to wildlife management. Much of his work is in population ecology, but also includes migration ecology and the spread of invasive species or disease. His research is taxonomically varied, with extensive work on migratory birds such as sandhill cranes, waterfowl, and raptors, as well as large mammals, bats, riverine fish, and marine species such as albatross, sea turtles, and manatees. Bill regularly teaches courses and short courses in Sampling and Analysis of Vertebrate Populations, and Adaptive Fish and Wildlife Management.
Bill received graduate degrees from North Carolina State University, followed by five years in population assessment with USFWS Migratory Bird Management, and then 13 years as a researcher with Patuxent Wildlife Research Center, before joining the Colorado Unit in 2010.
Professional Experience
Assistant Unit Leader, Colorado Cooperative Fish and Wildlife Research Unit, 2010-
Education and Certifications
Ph D North Carolina State University 1992
MS North Carolina State University 1990
MS North Carolina State University 1985
BBA University of Cincinnati 1982
Science and Products
Filter Total Items: 121
Estimating survival and movement Estimating survival and movement
No abstract available.
Authors
J.D. Nichols, W. L. Kendall, M.C. Runge
On the use of capture-recapture models in mist-net studies On the use of capture-recapture models in mist-net studies
Capture-recapture models provide a statistical framework for estimating population parameters from mist-net data. Although Cormack-Jolly-Seber and related models have recently been used to estimate survival rates of birds sampled with mist nets, we believe that the full potential for use of capture-recapture models has not been realized by many researchers involved in mist-net studies...
Authors
W. L. Kendall, J.R. Sauer, J.D. Nichols, R. Pradel, J.E. Hines
Modeling survival and movement of resident giant Canada goose populations in the Atlantic flyway Modeling survival and movement of resident giant Canada goose populations in the Atlantic flyway
Distribution of resident giant Canada geese (Branta canadensis maxima) has changed markedly in the Atlantic Flyway in recent decades. This change may be related to habitat variation or to changes in hunting regulations. We attempt to assess impacts of hunting regulations on survival, movement, and harvest rate of Canada goose populations from Maine to South Carolina. During 15 June-31...
Authors
M.W. Miller, W. L. Kendall, J.B. Hestbeck
Costs of detection bias in index-based population monitoring Costs of detection bias in index-based population monitoring
Managers of wildlife populations commonly rely on indirect, count-based measures of the population in making decisions regarding conservation, harvest, or control. The main appeal in the use of such counts is their low material expense compared to methods that directly measure the population. However, their correct use rests on the rarely-tested but often-assumed premise that they...
Authors
C. T. Moore, W. L. Kendall
Detecting warning signs of trouble within population fluctuations: using capture-recapture modeling to uncover changes in population dynamics leading to declines Detecting warning signs of trouble within population fluctuations: using capture-recapture modeling to uncover changes in population dynamics leading to declines
An intensive mark-recapture/resighting program has been carried out on the Roseate Terns nesting at Falkner Island, Connecticut, since the late 1980s as part of a regional study of the metapopulation dynamics and ecology of the endangered Northwest Atlantic breeding population of this species. Substantial losses of tern eggs and chicks to predation at this colony site began in 1996 when...
Authors
J. A. Spendelow, J.D. Nichols, W. L. Kendall, J.E. Hines, Jeff S. Hatfield, I.C.T. Nisbet
A stage-based model of manatee population dynamics A stage-based model of manatee population dynamics
A stage-structured population model for the Florida manatee (Trichechus manatus latirostris) was developed that explicitly incorporates uncertainty in parameter estimates. The growth rates calculated with this model reflect the status of the regional populations over the most recent 10-yr period. The Northwest and Upper St. Johns River regions have growth rates (8) of 1.037 (95% interval...
Authors
M.C. Runge, C.A. Langtimm, W. L. Kendall
Capture-recapture analysis for estimating manatee reproductive rates Capture-recapture analysis for estimating manatee reproductive rates
Modeling the life history of the endangered Florida manatee (Trichechus manatus latirostris) is an important step toward understanding its population dynamics and predicting its response to management actions. We developed a multi-state mark-resighting model for data collected under Pollock's robust design. This model estimates breeding probability conditional on a female's breeding...
Authors
W. L. Kendall, C.A. Langtimm, C.A. Beck, M.C. Runge
Estimating survival and breeding probability for pond-breeding amphibians: a modified robust design Estimating survival and breeding probability for pond-breeding amphibians: a modified robust design
Many studies of pond-breeding amphibians involve sampling individuals during migration to and from breeding habitats. Interpreting population processes and dynamics from these studies is difficult because (1) only a proportion of the population is observable each season, while an unknown proportion remains unobservable (e.g., non-breeding adults) and (2) not all observable animals are...
Authors
L.L. Bailey, W. L. Kendall, D.R. Church, H.M. Wilbur
On the estimation of dispersal and movement of birds On the estimation of dispersal and movement of birds
The estimation of dispersal and movement is important to evolutionary and population ecologists, as well as to wildlife managers. We review statistical methodology available to estimate movement probabilities. We begin with cases where individual birds can be marked and their movements estimated with the use of multisite capture-recapture methods. Movements can be monitored either...
Authors
W. L. Kendall, J.D. Nichols
Evaluating mallard adaptive management models with time series Evaluating mallard adaptive management models with time series
Wildlife practitioners concerned with midcontinent mallard (Anas platyrhynchos) management in the United States have instituted a system of adaptive harvest management (AHM) as an objective format for setting harvest regulations. Under the AHM paradigm, predictions from a set of models that reflect key uncertainties about processes underlying population dynamics are used in coordination...
Authors
P.B. Conn, W. L. Kendall
Coping with unobservable and mis-classified states in capture-recapture studies Coping with unobservable and mis-classified states in capture-recapture studies
Multistate mark-recapture methods provide an excellent conceptual framework for considering estimation in studies of marked animals. Traditional methods include the assumptions that (1) each state an animal occupies is observable, and (2) state is assigned correctly at each point in time. Failure of either of these assumptions can lead to biased estimates of demographic parameters. I...
Authors
W. L. Kendall
On the use of the robust design with transient capture-recapture models On the use of the robust design with transient capture-recapture models
Capture-mark-recapture studies provide a useful mechanism for estimating the components of the population dynamics of birds, especially survival. In such studies, it is important that the population being captured matches the population of interest. In many studies, transients are captured along with the population of interest (e.g. resident breeders). Ignoring that phenomenon produces
Authors
J.E. Hines, W. L. Kendall, J.D. Nichols
Non-USGS Publications**
Ruiz-Gutierrez, V., W. L. Kendall, J. F. Saracco, and G. C. White. Modeling dynamics for resident and transient individuals: a case study using uncertain state models for migratory birds. Journal of Applied Ecology, DOI: 10.1111/1365-2664.12655
Garcia-Cruz, M. A., M. Lampo, C. L. Penaloza, W. L. Kendall, G. Sole, and K. M. Rodriguez-Clark. 2015.Population trends and survival of nesting green sea turtles (Chelonia mydas) on Aves Island, Venezuela. Endangered Species Research 29:101-116.
Lyons, J. E., W. L. Kendall, J. A. Royle, S. J. Converse, B. A. Andres, and J. B. Buchanan. 2015. Population size and stopover duration estimation using mark-resight data and Bayesian analysis of a superpopulation model. Biometrics DOI: 10.1111/biom.12393.
Pearson, K. N., W. L. Kendall, D. L. Winkelman, and W. R. Persons. 2015. Evidence for skipped spawning in the endangered humpback chub (Gila cypha) with implications for demographic parameter estimates. Canadian Journal of Fisheries and Aquatic Sciences 170:50-59
Chambert, T., Kendall, W. L., Hines, J. E., Nichols, J. D., Pedrini, P., Waddle, J. H., Tavecchia, G., Walls, S. C. and Tenan, S. (2015), Testing hypotheses on distribution shifts and changes in phenology of imperfectly detectable species. Methods Ecol Evol, 6: 638–647. doi:10.1111/2041-210X.12362
**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: 121
Estimating survival and movement Estimating survival and movement
No abstract available.
Authors
J.D. Nichols, W. L. Kendall, M.C. Runge
On the use of capture-recapture models in mist-net studies On the use of capture-recapture models in mist-net studies
Capture-recapture models provide a statistical framework for estimating population parameters from mist-net data. Although Cormack-Jolly-Seber and related models have recently been used to estimate survival rates of birds sampled with mist nets, we believe that the full potential for use of capture-recapture models has not been realized by many researchers involved in mist-net studies...
Authors
W. L. Kendall, J.R. Sauer, J.D. Nichols, R. Pradel, J.E. Hines
Modeling survival and movement of resident giant Canada goose populations in the Atlantic flyway Modeling survival and movement of resident giant Canada goose populations in the Atlantic flyway
Distribution of resident giant Canada geese (Branta canadensis maxima) has changed markedly in the Atlantic Flyway in recent decades. This change may be related to habitat variation or to changes in hunting regulations. We attempt to assess impacts of hunting regulations on survival, movement, and harvest rate of Canada goose populations from Maine to South Carolina. During 15 June-31...
Authors
M.W. Miller, W. L. Kendall, J.B. Hestbeck
Costs of detection bias in index-based population monitoring Costs of detection bias in index-based population monitoring
Managers of wildlife populations commonly rely on indirect, count-based measures of the population in making decisions regarding conservation, harvest, or control. The main appeal in the use of such counts is their low material expense compared to methods that directly measure the population. However, their correct use rests on the rarely-tested but often-assumed premise that they...
Authors
C. T. Moore, W. L. Kendall
Detecting warning signs of trouble within population fluctuations: using capture-recapture modeling to uncover changes in population dynamics leading to declines Detecting warning signs of trouble within population fluctuations: using capture-recapture modeling to uncover changes in population dynamics leading to declines
An intensive mark-recapture/resighting program has been carried out on the Roseate Terns nesting at Falkner Island, Connecticut, since the late 1980s as part of a regional study of the metapopulation dynamics and ecology of the endangered Northwest Atlantic breeding population of this species. Substantial losses of tern eggs and chicks to predation at this colony site began in 1996 when...
Authors
J. A. Spendelow, J.D. Nichols, W. L. Kendall, J.E. Hines, Jeff S. Hatfield, I.C.T. Nisbet
A stage-based model of manatee population dynamics A stage-based model of manatee population dynamics
A stage-structured population model for the Florida manatee (Trichechus manatus latirostris) was developed that explicitly incorporates uncertainty in parameter estimates. The growth rates calculated with this model reflect the status of the regional populations over the most recent 10-yr period. The Northwest and Upper St. Johns River regions have growth rates (8) of 1.037 (95% interval...
Authors
M.C. Runge, C.A. Langtimm, W. L. Kendall
Capture-recapture analysis for estimating manatee reproductive rates Capture-recapture analysis for estimating manatee reproductive rates
Modeling the life history of the endangered Florida manatee (Trichechus manatus latirostris) is an important step toward understanding its population dynamics and predicting its response to management actions. We developed a multi-state mark-resighting model for data collected under Pollock's robust design. This model estimates breeding probability conditional on a female's breeding...
Authors
W. L. Kendall, C.A. Langtimm, C.A. Beck, M.C. Runge
Estimating survival and breeding probability for pond-breeding amphibians: a modified robust design Estimating survival and breeding probability for pond-breeding amphibians: a modified robust design
Many studies of pond-breeding amphibians involve sampling individuals during migration to and from breeding habitats. Interpreting population processes and dynamics from these studies is difficult because (1) only a proportion of the population is observable each season, while an unknown proportion remains unobservable (e.g., non-breeding adults) and (2) not all observable animals are...
Authors
L.L. Bailey, W. L. Kendall, D.R. Church, H.M. Wilbur
On the estimation of dispersal and movement of birds On the estimation of dispersal and movement of birds
The estimation of dispersal and movement is important to evolutionary and population ecologists, as well as to wildlife managers. We review statistical methodology available to estimate movement probabilities. We begin with cases where individual birds can be marked and their movements estimated with the use of multisite capture-recapture methods. Movements can be monitored either...
Authors
W. L. Kendall, J.D. Nichols
Evaluating mallard adaptive management models with time series Evaluating mallard adaptive management models with time series
Wildlife practitioners concerned with midcontinent mallard (Anas platyrhynchos) management in the United States have instituted a system of adaptive harvest management (AHM) as an objective format for setting harvest regulations. Under the AHM paradigm, predictions from a set of models that reflect key uncertainties about processes underlying population dynamics are used in coordination...
Authors
P.B. Conn, W. L. Kendall
Coping with unobservable and mis-classified states in capture-recapture studies Coping with unobservable and mis-classified states in capture-recapture studies
Multistate mark-recapture methods provide an excellent conceptual framework for considering estimation in studies of marked animals. Traditional methods include the assumptions that (1) each state an animal occupies is observable, and (2) state is assigned correctly at each point in time. Failure of either of these assumptions can lead to biased estimates of demographic parameters. I...
Authors
W. L. Kendall
On the use of the robust design with transient capture-recapture models On the use of the robust design with transient capture-recapture models
Capture-mark-recapture studies provide a useful mechanism for estimating the components of the population dynamics of birds, especially survival. In such studies, it is important that the population being captured matches the population of interest. In many studies, transients are captured along with the population of interest (e.g. resident breeders). Ignoring that phenomenon produces
Authors
J.E. Hines, W. L. Kendall, J.D. Nichols
Non-USGS Publications**
Ruiz-Gutierrez, V., W. L. Kendall, J. F. Saracco, and G. C. White. Modeling dynamics for resident and transient individuals: a case study using uncertain state models for migratory birds. Journal of Applied Ecology, DOI: 10.1111/1365-2664.12655
Garcia-Cruz, M. A., M. Lampo, C. L. Penaloza, W. L. Kendall, G. Sole, and K. M. Rodriguez-Clark. 2015.Population trends and survival of nesting green sea turtles (Chelonia mydas) on Aves Island, Venezuela. Endangered Species Research 29:101-116.
Lyons, J. E., W. L. Kendall, J. A. Royle, S. J. Converse, B. A. Andres, and J. B. Buchanan. 2015. Population size and stopover duration estimation using mark-resight data and Bayesian analysis of a superpopulation model. Biometrics DOI: 10.1111/biom.12393.
Pearson, K. N., W. L. Kendall, D. L. Winkelman, and W. R. Persons. 2015. Evidence for skipped spawning in the endangered humpback chub (Gila cypha) with implications for demographic parameter estimates. Canadian Journal of Fisheries and Aquatic Sciences 170:50-59
Chambert, T., Kendall, W. L., Hines, J. E., Nichols, J. D., Pedrini, P., Waddle, J. H., Tavecchia, G., Walls, S. C. and Tenan, S. (2015), Testing hypotheses on distribution shifts and changes in phenology of imperfectly detectable species. Methods Ecol Evol, 6: 638–647. doi:10.1111/2041-210X.12362
**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.