James Nichols, Ph.D.
Dr. Jim Nichols conducts research on animal population dynamics and management
Recent Accomplishments
Education
- B.S. Wake Forest University, Biology, 1971
- M.S. Louisiana State University, Wildlife Management, 1973
- Ph.D. Michigan State University, Wildlife Ecology, 1976
Professional Studies/Experience
- Adaptive management and assessment of habitat changes on migratory birds
- Development of models of mallard population dynamics for adaptive harvest management
- Development of methods to estimate parameters associated with animal population dynamics
- Statistical methods for species richness estimation
- Technical Assistance -Tiger Monitoring and Population Research
- Development of methods for estimating patch occupancy and patch-dynamic parameters from detection-nondetection survey data
- Development of methods to estimate species richness and community-dynamic parameters from species list data
Mentorship/Outreach
Professional societies/affiliations/committees/editorial boardsScientific/Oral Presentations, Abstracts
Honors, awards, recognition, elected offices
- 2005 - U.S. Presidential Rank Award (Meritorious Senior Professional)
- 2004 - U.S. Geological Survey Meritorious Service Award
- 2004 - IFAS Scholar Award, University of Florida
- 1998 - Promoted to Senior Scientist, U.S. Geological Survey
- 1991 - The George W. Snedecor Award of the American Statistical Association
- 1991 - The Wildlife Society's Wildlife Publication Award for Monograph
- 1984 - Southeastern Section of the Wildlife Society, Outstanding Publication Award
Scientific/Oral Presentations, Abstracts
Science and Products
Filter Total Items: 417
Demography of birds in a neotropical forest: Effects of allometry, taxonomy, and ecology Demography of birds in a neotropical forest: Effects of allometry, taxonomy, and ecology
Comparative demographic studies of terrestrial vertebrates have included few samples of species from tropical forests. We analyzed 9 yr of mark—recapture data and estimated demographic parameters for 25 species of birds inhabiting lowland forests in central Panama. These species were all songbirds (Order Passeriformes) ranging in mass from 7 to 57 g. Using Jolly—Seber stochastic models...
Authors
J. D. Brawn, James R. Karr, James D. Nichols
Estimating annual survival and movement rates of adults within a metapopulation of roseate terns Estimating annual survival and movement rates of adults within a metapopulation of roseate terns
Several multistratum capture—recapture models were used to test various hypotheses about possible geographic and temporal variation in survival, movement, and recapture/resighting probabilities of 2399 adult Roseate Terns (Sterna dougallii) color—banded from 1988 to 1992 at the sites of the four largest breeding colonies of this species in the northeastern USA. Linear—logistic...
Authors
Jeffrey A. Spendelow, James D. Nichols, Ian C. T. Nisbet, Helen Hays, Grace Cormons, Joanna Burger, C. Safina, James E. Hines, Michael Gochfeld
A capture-recapture survival analysis model for radio-tagged animals A capture-recapture survival analysis model for radio-tagged animals
In recent years, survival analysis of radio-tagged animals has developed using methods based on the Kaplan-Meier method used in medical and engineering applications (Pollock et al., 1989a,b). An important assumption of this approach is that all tagged animals with a functioning radio can be relocated at each sampling time with probability 1. This assumption may not always be reasonable...
Authors
K. H. Pollock, C.M. Bunck, Scott R. Winterstein, Chiu-Lan Chen
On the use of secondary capture-recapture samples to estimate temporary emigration and breeding proportions On the use of secondary capture-recapture samples to estimate temporary emigration and breeding proportions
The use of the Cormack- Jolly-Seber model under a standard sampling scheme of one sample per time period, when the Jolly-Seber assumption that all emigration is permanent does not hold, leads to the confounding of temporary emigration probabilities with capture probabilities. This biases the estimates of capture probability when temporary emigration is a completely random process, and...
Authors
W. L. Kendall, J.D. Nichols
The use of multi-state capture-recapture models to address questions in evolutionary ecology The use of multi-state capture-recapture models to address questions in evolutionary ecology
No abstract available.
Authors
J.D. Nichols, W. L. Kendall
Delineating bird populations using ring recoveries Delineating bird populations using ring recoveries
We delineate bird populations using cluster analysis to group ringing sites based on pairwise comparisons of recoveries. Clustering provides a quantitative (but non-unique) grouping that can be used to examine the relationships of bird distributions at both local and regional geographic scales. Clustering is based on similarity matrices composed of pairwise comparisons of recovery...
Authors
G.W. Pendleton, J.R. Sauer
Science and Products
Filter Total Items: 417
Demography of birds in a neotropical forest: Effects of allometry, taxonomy, and ecology Demography of birds in a neotropical forest: Effects of allometry, taxonomy, and ecology
Comparative demographic studies of terrestrial vertebrates have included few samples of species from tropical forests. We analyzed 9 yr of mark—recapture data and estimated demographic parameters for 25 species of birds inhabiting lowland forests in central Panama. These species were all songbirds (Order Passeriformes) ranging in mass from 7 to 57 g. Using Jolly—Seber stochastic models...
Authors
J. D. Brawn, James R. Karr, James D. Nichols
Estimating annual survival and movement rates of adults within a metapopulation of roseate terns Estimating annual survival and movement rates of adults within a metapopulation of roseate terns
Several multistratum capture—recapture models were used to test various hypotheses about possible geographic and temporal variation in survival, movement, and recapture/resighting probabilities of 2399 adult Roseate Terns (Sterna dougallii) color—banded from 1988 to 1992 at the sites of the four largest breeding colonies of this species in the northeastern USA. Linear—logistic...
Authors
Jeffrey A. Spendelow, James D. Nichols, Ian C. T. Nisbet, Helen Hays, Grace Cormons, Joanna Burger, C. Safina, James E. Hines, Michael Gochfeld
A capture-recapture survival analysis model for radio-tagged animals A capture-recapture survival analysis model for radio-tagged animals
In recent years, survival analysis of radio-tagged animals has developed using methods based on the Kaplan-Meier method used in medical and engineering applications (Pollock et al., 1989a,b). An important assumption of this approach is that all tagged animals with a functioning radio can be relocated at each sampling time with probability 1. This assumption may not always be reasonable...
Authors
K. H. Pollock, C.M. Bunck, Scott R. Winterstein, Chiu-Lan Chen
On the use of secondary capture-recapture samples to estimate temporary emigration and breeding proportions On the use of secondary capture-recapture samples to estimate temporary emigration and breeding proportions
The use of the Cormack- Jolly-Seber model under a standard sampling scheme of one sample per time period, when the Jolly-Seber assumption that all emigration is permanent does not hold, leads to the confounding of temporary emigration probabilities with capture probabilities. This biases the estimates of capture probability when temporary emigration is a completely random process, and...
Authors
W. L. Kendall, J.D. Nichols
The use of multi-state capture-recapture models to address questions in evolutionary ecology The use of multi-state capture-recapture models to address questions in evolutionary ecology
No abstract available.
Authors
J.D. Nichols, W. L. Kendall
Delineating bird populations using ring recoveries Delineating bird populations using ring recoveries
We delineate bird populations using cluster analysis to group ringing sites based on pairwise comparisons of recoveries. Clustering provides a quantitative (but non-unique) grouping that can be used to examine the relationships of bird distributions at both local and regional geographic scales. Clustering is based on similarity matrices composed of pairwise comparisons of recovery...
Authors
G.W. Pendleton, J.R. Sauer