Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/covariates-affecting-spatial-variability-in-bison-travel-behavior-in-Y5Ug0Oq1J0
References (50)
-
B. Dickson, J. Jenness, P. Beier (2005)
INFLUENCE OF VEGETATION, TOPOGRAPHY, AND ROADS ON COUGAR MOVEMENT IN SOUTHERN CALIFORNIA, 69
-
L. Taylor, R. Taylor (1977)
Aggregation, migration and population mechanicsNature, 265
-
D. Bailey, L. Rittenhouse, R. Hart, R. Richards (1989)
Characteristics of spatial memory in cattleApplied Animal Behaviour Science, 23
-
Daniel Bjornlie, R. Garrott (2001)
Effects of winter road grooming on bison in Yellowstone National Park.Journal of Wildlife Management, 65
-
J. Whittington, C. Clair, G. Mercer (2005)
SPATIAL RESPONSES OF WOLVES TO ROADS AND TRAILS IN MOUNTAIN VALLEYSEcological Applications, 15
-
S. Ferguson, P. Elkie (2004)
Habitat requirements of boreal forest caribou during the travel seasonsBasic and Applied Ecology, 5
-
R. Knight, K. Gutzwiller (1997)
Wildlife and recreationists: coexistence through management and researchJournal of Wildlife Management, 61
-
J. Whittington, C. Clair, G. Mercer (2004)
Path tortuosity and the permeability of roads and trails to wolf movementEcology and Society, 9
-
J. Borkowski, P. White, R. Garrott, Troy Davis, A. Hardy, Daniel Reinhart (2006)
Behavioral responses of bison and elk in Yellowstone to snowmobiles and snow coaches.Ecological applications : a publication of the Ecological Society of America, 16 5
-
A. Fielding, J. Bell (1997)
A review of methods for the assessment of prediction errors in conservation presence/absence modelsEnvironmental Conservation, 24
-
D. Freddy, W. Bronaugh, M. Fowler (1986)
RESPONSES OF MULE DEER TO DISTURBANCE BY PERSONS AFOOT AND SNOWMOBILES -
James Hardin, J. Hilbe (2002)
Generalized Estimating Equations -
W. Pan (2001)
Akaike's Information Criterion in Generalized Estimating EquationsBiometrics, 57
-
Audrey Taylor, R. Knight (2003)
WILDLIFE RESPONSES TO RECREATION AND ASSOCIATED VISITOR PERCEPTIONSEcological Applications, 13
-
Jason Bruggeman, R. Garrott, Daniel Bjornlie, P. White, F. Watson, J. Borkowski (2006)
Temporal variability in winter travel patterns of Yellowstone bison: the effects of road grooming.Ecological applications : a publication of the Ecological Society of America, 16 4
-
B. Manly, L. McDonald, Dana Thomas (1994)
Resource selection by animals: statistical design and analysis for field studies. -
Chris Johnson, K. Parker, D. Heard, M. Gillingham (2002)
A MULTISCALE BEHAVIORAL APPROACH TO UNDERSTANDING THE MOVEMENTS OF WOODLAND CARIBOUEcological Applications, 12
-
C. Bergman, J. Schaefer, S. Luttich (2000)
Caribou movement as a correlated random walkOecologia, 123
-
Joseph Doerr, Eugene Degayner, G. ith (2005)
WINTER HABITAT SELECTION BY SITKA BLACK-TAILED DEER, 69
-
J. Schaefer, F. Messier (1995)
Winter foraging by muskoxen: a hierarchical approach to patch residence time and cratering behaviourOecologia, 104
-
S. Hess (2002)
Aerial survey methodology for bison population estimation in Yellowstone National Park -
V. Geist (1972)
Mountain sheep;: A study in behavior and evolution -
Simon Dyer, J. O'neill, S. Wasel, S. Boutin (2002)
Quantifying barrier effects of roads and seismic lines on movements of female woodland caribou in northeastern AlbertaCanadian Journal of Zoology, 80
-
Eldon Bruns (1977)
Winter Behavior of Pronghorns in Relation to HabitatJournal of Wildlife Management, 41
-
E. Telfer, J. Kelsall (1984)
ADAPTATION OF SOME LARGE NORTH AMERICAN MAMMALS FOR SURVIVAL IN SNOWEcology, 65
-
P. Turchin (1991)
Translating Foraging Movements in Heterogeneous Environments into the Spatial Distribution of ForagersEcology, 72
-
Stephen Trombulak, C. Frissell (2000)
Review of Ecological Effects of Roads on Terrestrial and Aquatic CommunitiesConservation Biology, 14
-
Arnold Gertonson, Montana. (2000)
Interagency bison management plan for the state of Montana and Yellowstone National Park, 2000
-
D. Fortin, H. Beyer, M. Boyce, Douglas Smith, T. Duchesne, J. Mao (2005)
WOLVES INFLUENCE ELK MOVEMENTS: BEHAVIOR SHAPES A TROPHIC CASCADE IN YELLOWSTONE NATIONAL PARKEcology, 86
-
F. Dobson, W. Jones (1985)
Multiple Causes of DispersalThe American Naturalist, 126
-
Jason Bruggeman (2006)
Spatio-temporal dynamics of the central bison herd in Yellowstone National Park -
LaMont Cole, Richard Hesse, W. Allee, K. Schmidt (1937)
Ecological Animal Geography -
J. Morales, D. Fortin, Jacqueline Frair, E. Merrill (2005)
Adaptive models for large herbivore movements in heterogeneous landscapesLandscape Ecology, 20
-
M. Kutner (1975)
Applied Linear Statistical Models -
L. Hewitson, B. Dumont, I. Gordon (2005)
Response of foraging sheep to variability in the spatial distribution of resourcesAnimal Behaviour, 69
-
J. Hilty, A. Merenlender (2004)
Use of Riparian Corridors and Vineyards by Mammalian Predators in Northern CaliforniaConservation Biology, 18
-
R. Flamm, Bradley Weigle, I. Wright, M. Ross, S. Aglietti (2005)
ESTIMATION OF MANATEE (TRICHECHUS MANATUS LATIROSTRIS) PLACES AND MOVEMENT CORRIDORS USING TELEMETRY DATAEcological Applications, 15
-
N. Haddad (1999)
CORRIDOR AND DISTANCE EFFECTS ON INTERPATCH MOVEMENTS: A LANDSCAPE EXPERIMENT WITH BUTTERFLIESEcological Applications, 9
-
A. Moen (1976)
Energy Conservation by White‐Tailed Deer in the WinterEcology, 57
-
D. Hosmer, S. Lemeshow (1991)
Applied Logistic Regression -
P. Allison (1999)
Logistic Regression Using the SAS System : Theory and Application -
C. Meyer, K. Holland (2005)
Movement patterns, home range size and habitat utilization of the bluespine unicornfish, Naso unicornis (Acanthuridae) in a Hawaiian marine reserveEnvironmental Biology of Fishes, 73
-
Alan Johnson, John Wiens, B. Milne, T. Crist (1992)
Animal movements and population dynamics in heterogeneous landscapesLandscape Ecology, 7
-
K. Liang, S. Zeger (1986)
Longitudinal data analysis using generalized linear modelsBiometrika, 73
-
D. Fortin, J. Fryxell, Lloyd O'Brodovich, D. Frandsen (2002)
Foraging ecology of bison at the landscape and plant community levels: the applicability of energy maximization principlesOecologia, 134
-
J. Cronin (2003)
MOVEMENT AND SPATIAL POPULATION STRUCTURE OF A PRAIRIE PLANTHOPPEREcology, 84
-
J. Fuller, R. Garrott, P. White (2007)
Emigration and Density Dependence in Yellowstone Bison, 71
-
T. Williams, Janet Williams, P. Williams, P. Stokstad (2001)
BIRD MIGRATION THROUGH A MOUNTAIN PASS STUDIED WITH HIGH RESOLUTION RADAR, CEILOMETERS, AND CENSUS, 118
-
D. Fraser, J. Gilliam, Trevor Yip-hoi (1995)
Predation as an Agent of Population Fragmentation in a Tropical WatershedEcology, 76
-
I. Douglas-Hamilton, T. Krink, Fritz Vollrath (2005)
Movements and corridors of African elephants in relation to protected areasNaturwissenschaften, 92
- Publisher
- Wiley
- Copyright
- © Society for Community Research and Action
- ISSN
- 1051-0761
- eISSN
- 1939-5582
- DOI
- 10.1890/06-0196.1
- Publisher site
- See Article on Publisher Site
Abstract
Understanding mechanisms influencing the movement paths of animals is essential for comprehending behavior and accurately predicting use of travel corridors. In Yellowstone National Park (USA), the effects of roads and winter road grooming on bison (Bison bison) travel routes and spatial dynamics have been debated for more than a decade. However, no rigorous studies have been conducted on bison spatial movement patterns. We collected 121 380 locations from 14 female bison with GPS collars in central Yellowstone to examine how topography, habitat type, roads, and elevation affected the probability of bison travel year‐round. We also conducted daily winter bison road use surveys (2003–2005) to quantify how topography and habitat type influenced spatial variability in the amount of bison road travel. Using model comparison techniques, we found the probability of bison travel and spatial distribution of travel locations were affected by multiple topographic and habitat type attributes including slope, landscape roughness, habitat type, elevation, and distances to streams, foraging areas, forested habitats, and roads. Streams were the most influential natural landscape feature affecting bison travel, and results suggest the bison travel network throughout central Yellowstone is spatially defined largely by the presence of streams that connect foraging areas. Also, the probability of bison travel was higher in regions of variable topography that constrain movements, such as in canyons. Pronounced travel corridors existed both in close association with roads and distant from any roads, and results indicate that roads may facilitate bison travel in certain areas. However, our findings suggest that many road segments used as travel corridors are overlaid upon natural travel pathways because road segments receiving high amounts of bison travel had similar landscape features as natural travel corridors. We suggest that most spatial patterns in bison road travel are a manifestation of general spatial travel trends. Our research offers novel insights into bison spatial dynamics and provides conceptual and analytical frameworks for examining movement patterns of other species.
Journal
Ecological Applications – Wiley
Published: Jul 1, 2007
Keywords: ; ; ; ; ; ; ; ; ;