References
Abrahms, B., Jordan, N.B., Golabek, K.A., McNutt, J.W., Wilson, A.M., &
Brashares, J.S. (2015). Lessons from integrating behaviour and resource
selection: activity-specific responses of African wild dogs to roads.Animal
Conservation ,19 ,247-255.https://doi.org/10.1111/acv.12235
Athreya, V., Odden, M., Linnell, J.D.C., Krishnaswamy, J., & Karanth,
U. (2013). Big cats in our backyards: persistence of large carnivores in
a human dominated landscape in India. PLoS
One ,8 ,e57872.https://doi.org/10.1371/journal.pone.0057872
Baker, A.D., & Leberg, P.L. (2018). Impacts of human recreation on
carnivores in protected areas. PloS ONE ,13 ,e0195436.
Bateman, P.W., & Fleming, P.A. (2012). Big city life: carnivores in
urban environments. J Zool ,287 , 1-23.
https://doi.org/10.1111/j.1469-7998.2011.00887.x
Behr, D.M., Ozgul, A., & Cozzi, G. (2017). Combining human acceptance
and habitat suitability in a unified socio-ecological suitability model:
A case study of the wolf in Switzerland. J Appl.
Ecol. ,54 ,1919-1929.https://doi.org/10.1111/1365-2664.12880
Belton, L.E., Cameron, E.Z., & Dalerum, F. (2018). Spotted hyaena
visitation at anthropogenic sites in the Kruger National Park, South
Africa. African
Zoology, 53 ,113–118.https://doi.org/10.1080/15627020.2018.1518728
Belton, L.E., Cameron, E.Z., Dalerum, F. (2016). Spotted hyaena space
use in relation to human infrastructure inside a protected area.PeerJ ,4 ,e2596.
Benson, J.F., Dougherty, K.D., Beier, P., Boyce, W.M., Cristescu, B.,
Gammons, D.J., … Dellinger, J.A. (2023). The ecology of
human-caused mortality for a protected large carnivore.PNAS ,120 ,e2220030120.
https://doi.org/10.1073/pnas.2220030120
Boydston, E.E., Kapheim, K.M., Szykman, M., Holekamp, K.E. (2003).
Individual variation in space use by female spotted hyenas. J
Mammal., 84 ,1006-1018.
Boydston, E.E., Morelli, T.L., Holekamp, K.E. (2001). Sex differences in
territorial behavior exhibited by the spotted hyena (Hyaenidae, Crocuta
crocuta). Ethology ,107 ,369-385.
https://doi.org/10.1046/j.1439-0310.2001.00672.x
Breck, S.W., Poessel, S.A., Mahoney, P., & Young, J.K. (2019). The
intrepid urban coyote: a comparison of bold and exploratory behavior in
coyotes from urban and rural environments. Nature Scientific
Reports ,9 ,2104.https://doi.org/10.1038/s41598-019-38543-5
Burnham, K.P., & Anderson, D.R. (2002). Model selection and
inference: A practical information-theoretic approach , 2nd Ed.
Springer.
Carter, N.H., & Linnell, J.D.C. (2016). Co-adaptation is key to
coexisting with large carnivores.TREE ,31 ,575-578.https://doi.org/10.1016/j.tree.2016.05.006
Chapron, G., Kaczensky, P., Linnell, J.D.C., Von Arx, M., Huber, D.,
Andren, H., … Boitani, L. (2014). Recovery of large carnivores in
Europe’s modern human-dominated landscapes.Science ,346 ,6216.https://doi.org/10.1126/science.1257553
Crooks, K.R. (2002). Relative sensitivities of mammalian carnivores to
habitat fragmentation. Conservation
Biology ,16 ,488-502.https://doi.org/10.1046/j.1523-1739.2002.00386.x
Crooks, K.R., Burdett, C.L., Theobald, D.M., Rondinini, C., Boitani, L.
(2011). Global patterns of fragmentation and connectivity of mammalian
carnivore habitat. Phil. Trans.
B., 366 ,2642-2651.https://doi.org/10.1098%2Frstb.2011.0120
Cushman, S.A., McRae, B., Adriaensen, F., Beier, P., Shirley, M., &
Zeller, K. (2013). Biological corridors and connectivity. In Macdonald
DW, Willis, K.J. (eds) Key topics in conservation biology 2 .
Wiley-Blackwell, Hoboken, pp.
384-404.https://doi.org/10.1002/9781118520178.ch21
Devens, C.H., Hayward, M.W., Tshabalala, T., Dickman, A., McManus, J.S.,
Smuts, B., & Somers, M.J. (2019). Estimating leopard density across the
highly modified human-dominated landscape of the Western Cape, South
Africa.Oryx ,55 ,34-45.https://doi.org/10.1017/S0030605318001473
Ditmer, M.A., Wittemyer, G., Breck, S.W., & Crooks, K.R. (2022).
Defining ecological and socially suitable habitat for the reintroduction
of an apex predator. Global Ecology and
Conservation ,38 ,e02192.https://doi.org/10.1016/j.gecco.2022.e02192
Fortin, D., Beyer, H.L., Boyce, M.S., Smith, D.W., Duchesne, T., & Mao,
J.S. (2005). Wolves influence elk movements: Behavior shapes a trophic
cascade in Yellowstone National Park.Ecology ,86 ,1320-1330.https://doi.org/10.1890/04-0953
Gebresenbet, F., Baraki, B., Yirga, G., Sillero-Zubiri, C., & Bauer, H.
(2018). A culture of tolerance: coexisting with large carnivores in the
Kafa Highlands, Ethiopia.Oryx ,52 ,751-760.https://doi.org/10.1017/S0030605316001356
Ghoddousi, A., Buchholtz, E.K., Dietsch, A.M., Williamson, M.A., Sharma,
S., Balkenhol, N., … Dutta, T. (2021). Anthropogenic resistance:
accounting for human behavior in wildlife connectivity planning.One
Earth ,4 ,39-48.https://doi.org/10.1016/j.oneear.2020.12.003
Glickman, S. (1995). The spotted hyena from Aristotle to the Lion King:
Reputation is everything. Social
Research ,62 ,501-537.https://www.jstor.org/stable/40971108
Green, D.S., Johnson-Ulrich, L., Couraud, H.E., & Holekamp, K.E.
(2018). Anthropogenic disturbance induces opposing population trends in
spotted hyenas and African lions. Biodivers.
Cons ,27 ,871-889.https://doi.org/10.1007/s10531-017-1469-7
Green, B., Anderson, J., & Whateley, T. (1984). Water and sodium
turnover and estimated food consumption in free-living lions (Panthera
leo) and spotted hyenas (Crocuta crocuta). J.
Mammal. ,65 ,593-599.https://doi.org/10.2307/1380842
Hill, J.E., Devault, T.L., & Belant, J.L. (2020). A review of
ecological factors promoting road use by mammals. Mammal
Review ,51 ,214-227.https://doi.org/10.1111/mam.12222
Holekamp, K.E., & Dloniak, S.M. (2010). Chapter 6- Intraspecific
variation in the behavioral ecology of a tropical carnivore, the spotted
hyena. Adv. Study
Behav. ,42 ,189-229.https://doi.org/10.1016/S0065-3454(10)42006-9
Holekamp, K.E., & Smale, L. (1995). Rapid change in offspring sex
ratios after clan fission in the spotted hyena. Amer.
Nat. ,145 ,261-278.https://doi.org/10.1086/285739
Honer, O.P., Wachter, B., East, M.L., & Hofer, H. (2002). The response
of spotted hyenas to long-term changes in prey populations: functional
response and interspecific kleptoparasitism. J. Animal
Ecol. ,71 ,236-246.https://doi.org/10.1046/j.1365-2656.2002.00596.x
James, M.M. (2022). Establishing the relationship between LULC changes,
temperature, precipitation, and water level rise: Case study of Lake
Nakuru Basin, Kenya. Thesis, University of Nairobi.
Johnson, H.E., Breck, S.W., Baruch-Mordo, S., Lewis, D.L., Lackey, C.W.,
Wilson, K.R., … Beckmann, J.P. (2015). Shifting perceptions of
risk and reward: Dynamic selection for human development by black bears
in the western United States. Biological
Conservation ,187 ,164-172.https://doi.org/10.1016/j.biocon.2015.04.014
Kolowski, J.M., Katan, D., Theis, K.R., & Holekamp, K.E. (2007). Daily
patterns of activity in the spotted hyena. J.
Mammal., 88 ,1017-1028.https://doi.org/10.1644/06-MAMM-A-143R.1
Koziarski, A., Kissui, B., & Kiffner, C. (2016). Patterns and
correlates of perceived conflict between humans and large carnivores in
Northern Tanzania. Biological
Conservation ,199 ,41-50.https://doi.org/10.1016/j.biocon.2016.04.029
Lamb, C.T., Ford, A.T., McLellan, B.N., Proctor, M.F., Mowat, G.,
Ciarniello, L., …Boutin, S. (2020). The ecology of
human-carnivore coexistence.PNAS ,117 ,17876-17883.https://doi.org/10.1073/pnas.1922097117
Lute, M.L., & Carter, N.H. (2020). Are we coexisting with carnivores in
the American West? Front. Ecol.
Evol. ,8 ,48.https://doi.org/10.3389/fevo.2020.00048
Lute, M.L., Serenari, C., Drake, M.D., Peterson, M.N., Jensen, J.,
Belyea, C., …White, M. (2020). Modeling urban socio-ecological
drivers of human-carnivore coexistence. J. Urban
Ecol. ,6 ,juaa022.https://doi.org/10.1093/jue/juaa022
Macdonald, D.W., Johnson, P.J., Burnham, D., Dickman, A., Hinks, A.,
Sillero-Zubiri, C., & Macdonald, E.A. (2022). Understanding nuanced
preferences for carnivore conservation: To know them is not always to
love them. Global Ecol.
Cons. ,37 ,e02150.https://doi.org/10.1016/j.gecco.2022.e02150
Manfredo, M.J., Berl, R.E. W., Teel, T.L., & Bruskotter, J.T. (2021).
Bringing social values to wildlife conservation decisions. Front.
Ecol. Environ. ,19 ,355-362.https://doi.org/10.1002/fee.2356
Matsumoto-Oda, A. (2021). Bathing behaviour in spotted hyenas (Crocuta
crocuta) in Laikipia, Kenya: Two observational cases. J. East Afr
Nat. Hist. ,110 ,87-92.https://doi.org/10.2982/028.110.0202
McClure, M., Dickson, B.G., & Nicholson, K.L. (2017). Modeling
connectivity to identify current and future anthropogenic barriers to
movement of large carnivores: A case study in the American southwest.Ecol.
Evol. ,7 ,3762-3772.https://doi.org/10.1002/ece3.2939
McInturff, A., Xu, W., Wilkinson, C.E., Dejid, N., & Brashares, J.S.
(2020). Fence ecology: Frameworks for understanding the ecological
effects of fences.BioScience ,70 ,971-985.https://doi.org/10.1093/biosci/biaa103
Morales-Gonzalez, A., Ruiz-Villar, H., Ordiz, A., Penteriani, V. (2020).
Large carnivores living alongside humans: Brown bears in human-modified
landscapes. Global Ecology and Conservation ,22 ,e00937.
Moss, W.E., Alldredge, M.W., & Pauli, J.N. (2016). Quantifying risk and
resource use for a large carnivore in an expanding urban-wildland
interface. J. Appl.
Ecol., 53 ,371-378.https://doi.org/10.1111/1365-2664.12563
Murray, M.H., Sanchez, C.A., Becker, D.J., Byers, K.A., Worsley-Tonks,
K.E.L., & Craft, M.E. (2019). City sicker? A meta-analysis of wildlife
health and urbanization. Front. Ecol.
Environ. ,17 ,575-583.https://doi.org/10.1002/fee.2126
Murray, M.H., Hill, J., Whyte, P., & Cassady St. Clair, C. (2016).
Urban compost attracts coyotes, contains toxins, and may promote disease
in urban-adapted wildlife.EcoHealth ,13 ,285-292.doi:10.1007/s10393-016-1105-0
Naha, D., Dash, K.S., Kupferman, C., Beasley, J.C., & Sathyakumar, S.
(2021). Movement behavior of a solitary large carnivore within a hotspot
of human-wildlife conflicts in India. Nature Scientific
Reports ,11 ,3862.https://doi.org/10.1038/s41598-021-83262-5
Nisi, A.C., Suraci, J.P., Ranc, N., Frank, L.G., Oriol-Cotterill, A.,
Ekwanga, S, et al . (2021). Temporal scale of habitat selection
for large carnivores: Balancing energetics, risk and finding prey.J. Animal Ecol. ,91 ,182-195.
Ogada, D.L. (2014). The power of poison: pesticide poisoning of Africa’s
wildlife. Ann NY Acad
Sci, 1322 ,1–20.https://doi.org/10.1111/nyas.12405
O’Neal Campbell, M. (2014). Urban planning for cougar presence in North
America: Practices, challenges, and benefits. In Urban Planning:
Practices, Challenges, and Benefits . Amado, M.P. (Ed). Nova Science
Publishers
Parsons, A.W., Rota, C.T., Forrester, C.T., Baker-Whatton, M.C., McShea,
W.J., Schuttler, S., …Kays, R. (2018). Urbanization focuses
carnivore activity in remaining natural habitats, increasing species
interactions. J. Appl.
Ecol. ,56 ,1894-1904.https://doi.org/10.1111/1365-2664.13385
Poessel, S.A., Burdett, C.L., Boydston, E.E., Lyren, L.M., Alonso, R.S.,
Fisher, R.N., & Crooks, K.R. (2014). Roads influence movement and home
ranges of a fragmentation-sensitive carnivore, the bobcat, in an urban
landscape. Biological
Conservation, 180 ,224-232.https://doi.org/10.1016/j.biocon.2014.10.010
Reinking, A.K., Smith, K.T., Mong, T.W., Read, M.J., & Beck, J.L.
(2019). Across scales, pronghorn select sagebrush, avoid fences, and
show negative responses to anthropogenic features in winter.Ecosphere ,10 ,e02722.https://doi.org/10.1002/ecs2.2722
Ripple W.J., Estes J.A., Beschta, R.L., Wilmers, C.C., Ritchie, E.G.,
Hebblewhite, M., … Wirsing, A.J. (2014). Status and ecological
effects of the world’s largest carnivores.Science ,343 ,1241484.https://doi.org/10.1126/science.1241484
Sanjayan, M.A., & Crooks, K.R. (2005). 11. Maintaining connectivity in
urbanizing landscapes. In Nature in Fragments: The Legacy of
Sprawl . Eds Elizabeth A. Johnson and Michael W. Klemens, New York
Chichester, West Sussex: Columbia University Press.
pp.239-262.https://doi.org/10.7312/john12778-014
Smith, J.A., Suraci, J.P., Clinchy, M., Crawford, A., Roberts, D.,
Zanette, L.Y., Wilmers, C.C. (2017). Fear of the human ‘super predator’
reduces feeding time in large carnivores. Proc Roy. Soc.
B. ,284 , 20170433.https://doi.org/10.1098/rspb.2017.0433
Sonawane, C., Yirga, G., Carter, N.H. (2021). Public health and economic
benefits of spotted hyenas Crocuta crocuta in a peri-urban system.J. Appl. Ecol. ,58 ,2892-2902.
Suraci, J.P., Nickel, B.A., Wilmers, C.C. (2020). Fine-scale movement
decisions by a large carnivore inform conservation planning in
human-dominated landscapes. Landscape
Ecology ,35 ,1635-1649.
Suraci, J.P., Clinchy, M., Zanette, L.Y., Wilmers, C.C. (2019). Fear of
humans as apex predators has landscape-scale impacts from mountain lions
to mice. Ecology
Letters ,22 ,1578-1586.https://doi.org/10.1111/ele.13344
Thorsen, N.H., Hansen, J.E., Stoen, O.-G., Kindberg, J., Zedrosser, A.,
Frank, S.C. (2022). Movement and habitat selection of a large carnivore
in response to human infrastructure differs by life stage.Movement Ecology, 52.
Toverud, F.S.K. (2019). Linking high frequency GPS data with multiscale
habitat selection; A study of an adaptable carnivore in a fragmented
landscape. Masters thesis, Norwegian University of Life Sciences.
Trinkel, M., Fleischmann, P.H., Steindorfer, A.F., & Kastberger, G.
(2004). Spotted hyenas (Crocuta crocuta) follow migratory prey. Seasonal
expansion of a clan territory in Etosha, Namibia. J.
Zool. ,264 ,125-133.Doi:10.1017/S0952836904005588
Vasudev, D., Fletcher Jr., R.J., Srinivas, N., Goswami, V.R. (2023).
Mapping the connectivity-conflict interface to inform conservation.PNAS ,120 ,e2211482119.
Wang, Y., Allen, M.L., Wilmers, C.C. (2015). Mesopredator spatial and
temporal responses to large predators and human development in the Santa
Cruz Mountains of California. Biological
Conservation ,190 ,23-33.
Watts, H.E., & Holekamp, K.E. (2008). Interspecific competition
influences reproduction in spotted hyenas. J.
Zool. ,276 ,402-410.https://doi.org/10.1111/j.1469-7998.2008.00506.x
Watts, H.E., & Holekamp, K.E. (2007). Hyena societies. Current
Biology , 17 .
Wilkinson, C.E., Brashares, J.S., Bett, A.C., & Kelly, M. (2021a).
Examining drivers of divergence in recorded and perceived
human-carnivore conflict hotspots by integrating participatory and
ecological data. Front. Cons. Sci., 2 ,681769.
https://doi.org/10.3389/fcosc.2021.681769
Wilkinson, C.E., McInturff, A., Kelly, M., & Brashares, J.S. (2021b).
Quantifying wildlife responses to conservation fencing in East Africa.Biological
Conservation, 256 ,109071.https://doi.org/10.1016/j.biocon.2021.109071
Williamson, M.A., Parrot, L. Carter, N.H., Ford, A.T. (2023).
Implementation resistance and the human dimensions of connectivity
planning. People and Nature .https://doi.org/10.1002/pan3.10525
Williamson, M.A., & Sage, A. (2020). Integrated spatial analysis for
human-wildlife coexistence in the American West. Environmental
Research Letters ,15 ,021001-1- 021001-7.
Xu, W., Gigliotti, L.C., Royaute, R., Sawyer, H., Middleton, A.D. 2023.
Fencing amplifies individual differences in movement with implications
on survival for two migratory ungulates. J. Animal
Ecol. ,92 ,677-689.
Xu, W., Dejid, N., Herrmann, V., Sawyer, H., Middleton, A.D. (2020).
Barrier Behaviour Analysis (BaBA) reveals extensive effects of fencing
on wide-ranging ungulates. J. Appl.
Ecol., 58 ,690-698.https://doi.org/10.1111/1365-2664.13806
Yirga, G., Gebresenbet, F., Deckers, J., & Bauer, H. (2014). Status of
lion (Panthera leo) and spotted hyena (Crocuta crocuta) in Nechisar
National Park, Ethiopia. Momona Ethiopian J.
Science ,6 ,127-137.https://doi.org/10.4314/mejs.v6i2.109714
Young, J.K., Golla, J., Draper, J.P., Broman, D., Blankenship, T.,
Heilbrun, R. (2019). Space use and movement of urban bobcats.Animals ,9 ,275.https://doi.org/10.3390/ani9050275
Zeller, K.A., McGarigal, K., Cushman, S.A., Beier, P., Vickers, W., &
Boyce, W.M. (2016). Using step and path selection functions for
estimating resistance to movement: pumas as a case study.Landscape
Ecology ,31 ,1319-1335.doi:10.1007/s10980-015-0301-6