Influence of land development on home range use dynamics of female elk
S. L. Webb A B , M. R. Dzialak A , S. M. Harju A , L. D. Hayden-Wing A and J. B. Winstead AA Hayden-Wing Associates, LLC, 2308 South 8th St, Laramie, WY 82070, USA.
B Corresponding author. Email: stephen@haydenwing.com
Wildlife Research 38(2) 163-167 https://doi.org/10.1071/WR10101
Submitted: 19 January 2010 Accepted: 25 February 2011 Published: 20 April 2011
Journal Compilation © CSIRO Publishing 2011 Open Access CC BY-NC-ND
Abstract
Context: Many ungulate species exhibit strong site fidelity to previously established areas, particularly females. However, development of the landscape may cause animals to shift their distribution to more secure areas.
Aims: To determine range use dynamics (i.e. size and overlap of core areas and home ranges) of female elk (Cervus elaphus) relative to land development features (e.g. roads, well pads, buildings, developments, towns, etc.) after controlling for environmental features (i.e. forest cover).
Methods: During the four-year study, we fitted elk (n = 165) with GPS collars annually and programmed collars to attempt one location fix every 3 h (eight locations per day) for one year. Females (n = 18) were subsequently recaptured and refitted with GPS collars to provide range use dynamics of individual elk over two to three years. We calculated sizes of core areas and home ranges using adaptive kernel estimators, overlap between annual ranges, and establishment of ranges relative to land development.
Key results: Overlap of annual core areas (48.6%) and home ranges (67.9%) was high despite annual increases in land development. Sizes of core areas and home ranges and annual overlap (i.e. site fidelity) were negatively influenced by land development after controlling for forest cover.
Conclusions: These data reveal that female elk show high levels of site fidelity even in the presence of increasing annual land development. Females did not appear to abandon previously established areas, but used ranges in a manner that minimised interaction with development within these areas based on reductions in range use size and fidelity as land development increased.
Implications: To help mitigate impacts on elk, land development should be minimised and large areas of forest protected so elk can avoid areas associated with human activity.
Additional keywords: Cervus elaphus, Colorado, core area, fidelity, forest cover, home range, land development, roads.
References
Andersen, R. (1991). Habitat changes in moose ranges: effects on migratory behavior, site fidelity and size of summer home-range. Alces (Thunder Bay, Ont.) 27, 85–92.Andersen, R., Linnell, J. D. C., and Langvatn, R. (1996). Short term behavioural and physiological response of moose Alces alces to military disturbance in Norway. Biological Conservation 77, 169–176.
| Short term behavioural and physiological response of moose Alces alces to military disturbance in Norway.Crossref | GoogleScholarGoogle Scholar |
Anderson, D. P., Forester, J. D., Turner, M. G., Frair, J. L., Merrill, E. H., Fortin, D., Mao, J. S., and Boyce, M. S. (2005). Factors influencing female home range sizes in elk (Cervus elaphus) in North American landscapes. Landscape Ecology 20, 257–271.
| Factors influencing female home range sizes in elk (Cervus elaphus) in North American landscapes.Crossref | GoogleScholarGoogle Scholar |
Bureau of Land Management (2005). ‘Oil and Gas Activity on Public Lands.’ (U.S. Department of the Interior, Bureau of Land Management: Cheyenne, WY.)
Dzialak, M. R., Harju, S. M., Osborn, R. G., Wondzell, J. J., Hayden-Wing, L. D., Winstead, J. B., and Webb, S. L. (2011). Prioritizing conservation of ungulate calving resources in multiple-use landscapes. PLoS ONE 6, e14597.
| Prioritizing conservation of ungulate calving resources in multiple-use landscapes.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3MXhvFahu7s%3D&md5=ea07d2bad56b13766c82a8068d2d781aCAS | 21297866PubMed |
Edge, W. D., and Marcum, C. L. (1991). Topography ameliorates the effects of roads and human disturbance on elk. In ‘Proceedings of a Symposium on Elk Vulnerability’. (Eds A. G. Christensen, L. J. Lyon and T. N. Lonner.) pp. 132–137. (Montana State University: Bozeman, MT.)
Edge, W. D., Marcum, C. L., and Olson, S. L. (1985). Effects of logging activities on home-range fidelity of elk. The Journal of Wildlife Management 49, 741–744.
| Effects of logging activities on home-range fidelity of elk.Crossref | GoogleScholarGoogle Scholar |
Edge, W. D., Marcum, C. L., Olson, S. L., and Lehmkuhl, J. F. (1986). Nonmigratory cow elk herd ranges as management units. The Journal of Wildlife Management 50, 660–663.
| Nonmigratory cow elk herd ranges as management units.Crossref | GoogleScholarGoogle Scholar |
Felix, A. B., Walsh, D. P., Hughey, B. D., Campa, H., and Winterstein, S. R. (2007). Applying landscape-scale habitat-potential models to understand deer spatial structure and movement patterns. The Journal of Wildlife Management 71, 804–810.
| Applying landscape-scale habitat-potential models to understand deer spatial structure and movement patterns.Crossref | GoogleScholarGoogle Scholar |
Harju, S. M., Dzialak, M. R., Osborn, R. G., Hayden-Wing, L. D., and Winstead, J. B. (2011). Conservation planning using resource selection models: altered selection in the presence of human activity changes spatial prediction of resource use. Animal Conservation 14, .
Hershey, T. J., and Leege, T. A. (1982). ‘Elk Movements and Habitat Use on a Managed Forest in North-central Idaho.’ Wildlife Bulletin 10. (Idaho Department of Fish and Game: Boise, ID.)
Hood, R. E., and Inglis, J. M. (1974). Behavioral responses of white-tailed deer to intensive ranching operations. The Journal of Wildlife Management 38, 488–498.
| Behavioral responses of white-tailed deer to intensive ranching operations.Crossref | GoogleScholarGoogle Scholar |
Irwin, L. L. (2002). Migration. In ‘North American Elk: Ecology and Management’. (Eds D. E. Toweill and J. W. Thomas.) pp. 493–513. (Smithsonian Institution Press: Washington DC, WA.)
Kuck, L., Hompland, G. L., and Merrill, E. H. (1985). Elk calf response to simulated mine disturbance in southeast Idaho. The Journal of Wildlife Management 49, 751–757.
| Elk calf response to simulated mine disturbance in southeast Idaho.Crossref | GoogleScholarGoogle Scholar |
Linnell, J. D. C., and Andersen, R. (1995). Site tenacity in roe deer: short-term effects of logging. Wildlife Society Bulletin 23, 31–35.
McCoy, J. E., Hewitt, D. G., and Bryant, F. C. (2005). Dispersal by yearling male white-tailed deer and implications for management. The Journal of Wildlife Management 69, 366–376.
| Dispersal by yearling male white-tailed deer and implications for management.Crossref | GoogleScholarGoogle Scholar |
Pedersen, R. J., Adams, A. W., and Skovlin, J. M. (1980). ‘Elk Habitat Use in an Unlogged and Logged Forest Environment.’ Wildlife Research Report 9. (Oregon Department of Fish and Wildlife: Portland, OR.)
Peek, J. M., Scott, M. D., Nelson, L. J., Pierce, D. J., and Irwin, L. L. (1982). Role of cover in habitat management for big game in northwestern United States. Transactions of the North American Wildlife and Natural Resources Conference 47, 363–373.
Quimby, D. C., and Gaab, J. E. (1957). Mandibular dentition as an age indicator in Rocky Mountain elk. The Journal of Wildlife Management 21, 435–451.
| Mandibular dentition as an age indicator in Rocky Mountain elk.Crossref | GoogleScholarGoogle Scholar |
Raedeke, K. J., Millspaugh, J. J., and Clark, P. E. (2002). Population characteristics. In ‘North American Elk: Ecology and Management’. (Eds D. E. Toweill and J. W. Thomas.) pp. 449–491. (Smithsonian Institution Press: Washington DC, WA.)
Rodgers, A. R., Carr, A. P., Smith, L., and Kie, J. G. (2005). ‘HRT: Home Range Tools for ArcGIS.’ (Ontario Ministry of Natural Resources, Centre for Northern Forest Ecosystem Research: Thunder Bay, Ontario.)
Rudd, W. J., Ward, A. L., and Irwin, L. L. (1983). Do split hunting seasons influence elk migrations from Yellowstone National Park? Wildlife Society Bulletin 11, 328–331.
Rumble, M. A., Benkobi, L., and Gamo, R. S. (2005). Elk responses to humans in a densely roaded area. Intermountain Journal of Sciences 11, 10–24.
Stephenson, T. R., Vaughan, M. R., and Andersen, D. E. (1996). Mule deer movements in response to military activity in southeast Colorado. The Journal of Wildlife Management 60, 777–787.
| Mule deer movements in response to military activity in southeast Colorado.Crossref | GoogleScholarGoogle Scholar |
Tracz, B. V., LaMontagne, J. M., Bayne, E. M., and Boutin, S. (2010). Annual and monthly range fidelity of female boreal woodland caribou in response to petroleum development. Rangifer 30, 31–44.
Unsworth, J. W., Kuck, L., Garton, E. O., and Butterfield, B. R. (1998). Elk habitat selection on the Clearwater National Forest, Idaho. The Journal of Wildlife Management 62, 1255–1263.
| Elk habitat selection on the Clearwater National Forest, Idaho.Crossref | GoogleScholarGoogle Scholar |
Van Dyke, F., and Klein, W. C. (1996). Response of elk to installation of oil wells. Journal of Mammalogy 77, 1028–1041.
| Response of elk to installation of oil wells.Crossref | GoogleScholarGoogle Scholar |
Visual Learning Systems, Inc. (2008). ‘Feature Analyst® 4.2 for ArcGIS® Reference Manual.’ (Visual Learning Systems, Inc.: Missoula, MT.)
Vitt, A. (2007). ‘Trinchera Data Analysis Unit E-33. Game Management Units 83, 85, 140, 851. Elk Management Plan.’ (Colorado Division of Wildlife: Pueblo, CO.)
Walter, W. D., VerCauteren, K. C., Campa, H., Clark, W. R., Fischer, J. W., Hygnstrom, S. E., Mathews, N. E., Nielson, C. K., Schauber, E. M., Van Deelen, T. R., and Winterstein, S. R. (2009). Regional assessment on influence of landscape configuration and connectivity on range size of white-tailed deer. Landscape Ecology 24, 1405–1420.
| Regional assessment on influence of landscape configuration and connectivity on range size of white-tailed deer.Crossref | GoogleScholarGoogle Scholar |
Webb, S. L., Hewitt, D. G., and Hellickson, M. W. (2007). Scale of management for mature male white-tailed deer as influenced by home range and movements. The Journal of Wildlife Management 71, 1507–1512.
| Scale of management for mature male white-tailed deer as influenced by home range and movements.Crossref | GoogleScholarGoogle Scholar |
Webb, S. L., Dzialak, M. R., Wondzell, J. J., Harju, S. M., Hayden-Wing, L. D., and Winstead, J. B. (2011). Survival and cause-specific mortality of female Rocky Mountain elk exposed to human activity. Population Ecology 53, .
| Survival and cause-specific mortality of female Rocky Mountain elk exposed to human activity.Crossref | GoogleScholarGoogle Scholar |
Worton, B. J. (1989). Kernel methods for estimating the utilization distribution in home-range studies. Ecology 70, 164–168.
| Kernel methods for estimating the utilization distribution in home-range studies.Crossref | GoogleScholarGoogle Scholar |
