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
Occupancy in community-level studies Occupancy in community-level studies
Another type of multi-species studies, are those focused on community-level metrics such as species richness. In this chapter we detail how some of the single-species occupancy models described in earlier chapters have been applied, or extended, for use in such studies, while accounting for imperfect detection. We highlight how Bayesian methods using MCMC are particularly useful in such...
Authors
Darryl I. MacKenzie, James D. Nichols, Andy Royle, Kenneth H. Pollock, Larissa L. Bailey, James E. Hines
Strengthening links between waterfowl research and management Strengthening links between waterfowl research and management
Waterfowl monitoring, research, regulation, and adaptive planning are leading the way in supporting science-informed wildlife management. However, increasing societal demands on natural resources have created a greater need for adaptable and successful linkages between waterfowl science and management. We presented a special session at the 2016 North American Duck Symposium, Annapolis...
Authors
Anthony J. Roberts, John M. Eadie, David Howerter, Fred A. Johnson, James D. Nichols, Michael C. Runge, Mark Vrtiska, Byron K. Williams
Are ranger patrols effective in reducing poaching-related threats within protected areas? Are ranger patrols effective in reducing poaching-related threats within protected areas?
Poaching is one of the greatest threats to wildlife conservation world-wide. However, the spatial and temporal patterns of poaching activities within protected areas, and the effectiveness of ranger patrols and ranger posts in mitigating these threats, are relatively unknown.We used 10 years (2006–2015) of ranger-based monitoring data and dynamic multi-season occupancy models to quantify...
Authors
Jennnifer F. Moore, Felix Mulindahabi, Michel K. Masozera, James D. Nichols, James E. Hines, Ezechiel Turikunkiko, Madan K. Oli
Field practices: Assessing tiger population dynamics using photographic captures Field practices: Assessing tiger population dynamics using photographic captures
From these histories, capture frequency statistics and estimates of capture probabilities can be derived.
Authors
K. Ullas Karanth, James D. Nichols, Abishek Harihar, Dale Miquelle, N. Samba Kumar, Robert Dorazio
Concepts: Integrating population survey data from different spatial scales, sampling methods, and species Concepts: Integrating population survey data from different spatial scales, sampling methods, and species
Conservationists and managers are continually under pressure from the public, the media, and political policy makers to provide “tiger numbers,” not just for protected reserves, but also for large spatial scales, including landscapes, regions, states, nations, and even globally. Estimating the abundance of tigers within relatively small areas (e.g., protected reserves) is becoming...
Authors
Robert Dorazio, Mohan Delampady, Soumen Dey, Arjun M. Gopalaswamy
Concepts: Assessing tiger population dynamics using capture–recapture sampling Concepts: Assessing tiger population dynamics using capture–recapture sampling
Capture-recapture can be viewed as an animal survey method in which the count statistic is the total number of animals caught, and the associated detection probability is the probability of capture.
Authors
J. Andrew Royle, Arjun M. Gopalaswamy, Robert Dorazio, James D. Nichols, Devcharan Jathanna, Ravishankar Parameshwaran
Science and Products
Filter Total Items: 417
Occupancy in community-level studies Occupancy in community-level studies
Another type of multi-species studies, are those focused on community-level metrics such as species richness. In this chapter we detail how some of the single-species occupancy models described in earlier chapters have been applied, or extended, for use in such studies, while accounting for imperfect detection. We highlight how Bayesian methods using MCMC are particularly useful in such...
Authors
Darryl I. MacKenzie, James D. Nichols, Andy Royle, Kenneth H. Pollock, Larissa L. Bailey, James E. Hines
Strengthening links between waterfowl research and management Strengthening links between waterfowl research and management
Waterfowl monitoring, research, regulation, and adaptive planning are leading the way in supporting science-informed wildlife management. However, increasing societal demands on natural resources have created a greater need for adaptable and successful linkages between waterfowl science and management. We presented a special session at the 2016 North American Duck Symposium, Annapolis...
Authors
Anthony J. Roberts, John M. Eadie, David Howerter, Fred A. Johnson, James D. Nichols, Michael C. Runge, Mark Vrtiska, Byron K. Williams
Are ranger patrols effective in reducing poaching-related threats within protected areas? Are ranger patrols effective in reducing poaching-related threats within protected areas?
Poaching is one of the greatest threats to wildlife conservation world-wide. However, the spatial and temporal patterns of poaching activities within protected areas, and the effectiveness of ranger patrols and ranger posts in mitigating these threats, are relatively unknown.We used 10 years (2006–2015) of ranger-based monitoring data and dynamic multi-season occupancy models to quantify...
Authors
Jennnifer F. Moore, Felix Mulindahabi, Michel K. Masozera, James D. Nichols, James E. Hines, Ezechiel Turikunkiko, Madan K. Oli
Field practices: Assessing tiger population dynamics using photographic captures Field practices: Assessing tiger population dynamics using photographic captures
From these histories, capture frequency statistics and estimates of capture probabilities can be derived.
Authors
K. Ullas Karanth, James D. Nichols, Abishek Harihar, Dale Miquelle, N. Samba Kumar, Robert Dorazio
Concepts: Integrating population survey data from different spatial scales, sampling methods, and species Concepts: Integrating population survey data from different spatial scales, sampling methods, and species
Conservationists and managers are continually under pressure from the public, the media, and political policy makers to provide “tiger numbers,” not just for protected reserves, but also for large spatial scales, including landscapes, regions, states, nations, and even globally. Estimating the abundance of tigers within relatively small areas (e.g., protected reserves) is becoming...
Authors
Robert Dorazio, Mohan Delampady, Soumen Dey, Arjun M. Gopalaswamy
Concepts: Assessing tiger population dynamics using capture–recapture sampling Concepts: Assessing tiger population dynamics using capture–recapture sampling
Capture-recapture can be viewed as an animal survey method in which the count statistic is the total number of animals caught, and the associated detection probability is the probability of capture.
Authors
J. Andrew Royle, Arjun M. Gopalaswamy, Robert Dorazio, James D. Nichols, Devcharan Jathanna, Ravishankar Parameshwaran