Global Warming and effects on the Arctic Fox

Eva Fuglei; Rolf Anker Ims

doi:10.3184/003685008X327468

. 2008 Jul 1;91(2):175–191. doi: 10.3184/003685008X327468

Global Warming and effects on the Arctic Fox

Eva Fuglei ¹, Rolf Anker Ims ²

PMCID: PMC10361153 PMID: 18717368

Abstract

We predict the effect of global warming on the arctic fox, the only endemic terrestrial predatory mammals in the arctic region. We emphasize the difference between coastal and inland arctic fox populations. Inland foxes rely on peak abundance of lemming prey to sustain viable populations. In the short-term, warmer winters result in missed lemming peak years and reduced opportunities for successful arctic fox breeding. In the long-term, however, warmer climate will increase plant productivity and more herbivore prey for competitive dominant predators moving in from the south. The red fox has already intruded the arctic region and caused a retreat of the southern limit of arctic fox distribution range.

Coastal arctic foxes, which rely on the richer and temporally stable marine subsidies, will be less prone to climate-induced resource limitations. Indeed, arctic islands, becoming protected from southern species invasions as the extent of sea ice is decreasing, may become the last refuges for coastal populations of arctic foxes.

Keywords: arctic fox, Alopex lagopus, Vulpes lagopus, global warming, climate change, Arctic, tundra ecosystems, missed lemming cycles, predators, sea ice

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References

1.ACIA (2004) Arctic Climate Impact Assessment. Cambridge University Press. [Google Scholar]
2.Hersteinsson P. (1989) Population genetics and ecology of different colour morphs of arctic foxes Alopex lagopus in Iceland. Finnish Game Res., 46, 64–78. [Google Scholar]
3.Underwood L. S., and Reynolds P. (1980) Photoperiod and fur lengths in the arctic fox (Alopex lagopus). Int. J. Biometeor., 24, 39–48. [Google Scholar]
4.Prestrud P. (1991) Adaptation by the arctic fox (Alopex lagopus) to the polar winter. Arctic, 44, 132–138. [Google Scholar]
5.Fuglei E., and Øritsland N. A. (1999) Seasonal trends in body mass, food intake and resting metabolic rate, and induction of metabolic depression in arctic foxes (Alopex lagopus) at Svalbard. J. Comp. Physiol. B, 169, 361–369. [DOI] [PubMed] [Google Scholar]
6.Audet A. M., Robbins C. B., and Larivière S. (2002) Alopex lagopus. Mamm. Species, 713, 1–10. [Google Scholar]
7.Goltsman M., Kruchenkova E. P., Sergeev S., Volodin I., and Macdonald D. W. (2005) ‘Island syndrome’ in a population of Arctic foxes (Alopex lagopus) from mednyi Island. J. Zool., Lond., 267, 405–418. [Google Scholar]
8.Geffen E., Waidyratne S., Dalen L., Angerbjörn A., Vila C., Hersteinsson P., Fuglei E., White P. A., Goltsman M., Kapell C. M. O., and Wayne R. K. (2007) Sea ice occurrence predicts genetic isolation in the arctic fox. Mol. Ecol., 16, 4241–4255. [DOI] [PubMed] [Google Scholar]
9.Dalèn L., Fuglei E., Hersteinsson P., Kapel C., Roth J., Samelius G., Tannerfeldt M., and Angerbjörn A. (2005) Population history and genetic structure of a circumpolar species: the arctic fox. Biol. J. Linnean Soc., 84, 79–89. [Google Scholar]
10.Carmichael L. E., Berteaux D., Dumond M., Fuglei E., Johnson D., Krizan J., Nagy J. A., Veitch A., and Strobeck C. (2007) Historical and ecological determinants of genetic structure in arctic canids. Mol. Ecol., 16, 3466–3483. [DOI] [PubMed] [Google Scholar]
11.Summers R. W., and Underhill L. G. (1987) Factors related to breeding production of Brent Geese Branta b. bernicla and waders (Calidrii) on the Taimyr Peninsula. Bird Study, 34, 161–171. [Google Scholar]
12.Sommer R., and Benecke N. (2005) Late-Pleistocene and early Holocene history of the canid fauna of Europe (Canidae). Mammal. Biol., 70, 227–241. [Google Scholar]
13.Kahlke R. D. (1999) The history of the origin, evolution and dispersal of the late Pleistocene Mammuthus Coelodonta faunal complex in Eurasia. Fenske Companies Rapid City SD.
14.Dalèn L., Nyström V., Valdiosera C., Germonpré M., Sablin M., Turner E., Angerbjörn A., Arsuaga J. L., and Götherström A. (2007) Ancient DNA reveals lack of postglacial habitat tracking in the arctic fox. PNAS, 104, 6726–6729. [DOI] [PMC free article] [PubMed] [Google Scholar]
15.Braestrup F. W. (1941) A study of the arctic fox in Greenland. Immigrations, fluctuations in numbers based mainly on trading statistics. Medd. Grønl. Biosci., 131, 1–101. [Google Scholar]
16.Ims R. A., and Fuglei E. (2005) Trophic interaction cycles in tundra ecosystems and the impact of climate change. BioSci., 55, 311–322. [Google Scholar]
17.Stenseth N. C., and Ims R. A. (1993) Biology of lemmings. Academic Press, London. [Google Scholar]
18.Angerbjörn A., Hersteinsson P., and Tannerfeldt M. (2004) Arctic foxes. Consequenses of resource predictability in the arctic fox-two life history strategies. In: Macdonald D. W., and Sillero-Zubiri C. (eds.). Biology and conservation of wild canids, Part II, Chap. 8, pp. 163–172. Oxford University Press, Oxford. [Google Scholar]
19.Herseinsson P., and Macdonald D. W. (1996) Diet of arctic foxes (Alopex lagopus) in Iceland. J. Zool., 240, 457–474. [Google Scholar]
20.Prestrud P. (1992) Food habits and observations of the hunting behaviour of arctic foxes, Alopex lagopus, in Svalbard. Can. Field-Nat., 106, 225–236. [Google Scholar]
21.Lydersen C., and Gjertz I. (1986) Studies of the ringed seal (Phoca hispida Schreber 1775) in its breeding habitat in Kongsfjorden, Svalbard. Polar Res., 4, 57–63. [Google Scholar]
22.Hiruki L. M., and Stirling I. (1989) Population dynamics of the arctic fox (Alopex lagopus), on Banks Island, Northwest territories. Can. Field-Nat., 103, 380–387. [Google Scholar]
23.Prestrud P. (1992) Arctic foxes in Svalbard: Population ecology and rabies. PhD thesis, Norwegian Polar Institute, Oslo, Norway. [Google Scholar]
24.Samelius G., Alisauskas R. T., Hobson K. A., and Larivière S. (2007) Prolonging the arctic pulse: long-term exploitation of cached eggs by arctic foxes when lemmings are scarce. J. Anim. Ecol., 76, 837–880. [DOI] [PubMed] [Google Scholar]
25.Roth J. D. (2003) Variability in marine resources affects arctic fox population dynamics. J. Anim. Ecol., 72, 668–676. [DOI] [PubMed] [Google Scholar]
26.Eberhardt L. E., Hanson W. C., Bengtson J. L., Garrot R. A., and Hanson E. E. (1982) Arctic fox home range characteristics in an oil development area. J. Wildl. Mamag, 46, 132–138. [Google Scholar]
27.Frafjord K., and Prestrud P. (1992) Home range and movements of arctic foxes Alopex lagopus in Svalbard. Polar Biol., 12, 519–526. [Google Scholar]
28.Angerbjörn A., Ströman J., and Becker D. (1997) Home range patterns in arctic foxes in Sweden. J. Wildl. Res., 2, 9–14. [Google Scholar]
29.Eide N. E., Jepsen J. U., and Prestrud P. (2004) Spatial organization of reproductive arctic foxes Alopex lagopus: responses to changes in spatial and temporal availability of prey. J. Anim. Ecol., 73, 1056–1068. [Google Scholar]
30.Elton C. S. (1924) Periodic fluctuations in the numbers of animals: their causes and effects. Br. J. Exp. Biol., 2, 119–163. [Google Scholar]
31.Fuglei E., Øritsland N. A., and Prestrud P. (2003) Local variation in arctic fox abundance on Svalbard, Norway. Polar Biol., 26, 93–98. [Google Scholar]
32.Pulliainen E. (1965) On the distribution and migration of the arctic fox (Alopex lagopus L.) in Finland. Aquili, Ser Zool., 2, 25–40. [Google Scholar]
33.Nasimovich A., and Isakov Y. (1985) Arctic fox, red fox and racoon dog: distribution of resources, ecology, use and conservation (in Russian). Janka, Moscow. [Google Scholar]
34.SEFALO http://www.zoologi.su.se/research/alopex/default.html
35.Croll D. A., Maron J. L., Estes J. A., Danner E. M., and Byrd G. V. (2005) Introduced predators transform subarctic islands from grassland to tundra. Science, 307, 1959–1961. [DOI] [PubMed] [Google Scholar]
36.Hanski I., Henttonen H., Korpimäki E., Oksanen L., and Turchin P. (2001) Small-rodent dynamics and predation. Ecology, 82, 1505–1520. [Google Scholar]
37.Bêty J., Gauthier G., Giroux J.-F., and Korpimäki E. (2001) Are goose nesting success and lemming cycles linked? Interplay between nest density and predators. Oikos, 93, 388–400. [Google Scholar]
38.Gauthier G., Bêty J., Giroux J. F., and Rochefort L. (2003) Trophic interactions in a high arctic snow goose colony. Integ. Comp. Biol., 44, 119–129. [DOI] [PubMed] [Google Scholar]
39.Blomqvist S., Holmgren N., Åkesson S., Hedenström A., and Pettersson J. (2002) Indirect effects of lemming cycles on sandpiper 50 years of counts from southern Sweden. Oecologia, 133, 146–158. [DOI] [PubMed] [Google Scholar]
40.Heptner V. G., and Neumov N. P. (1998) Mammals of the Soviet Union. Volume II, part la: Sirenia and Carnivora (Sea Cows, Wolves and Bears). Science Publishers, USA. [Google Scholar]
41.Johnson N., Dicker A., Mork T., Marston D. A., Fooks A. R., Tryland M., Fuglei E., and Müller T. (2007) Phylogenetic comparison of rabies viruses from disease outbreaks on the Svalbard Islands. Vector-Borne and Zoonotic Diseases, 7, 457–460. [DOI] [PubMed] [Google Scholar]
42.Henttonen H., Fuglei E., Gower C., Haukisalmi V., Ims R. A., Niemimaa J., and Yoccoz N. G. (2001) Echinococcus multilocularis on Svalbard: introduction of an intermediate host has enabled the local life cycle. Parasitology, 123, 547–552. [DOI] [PubMed] [Google Scholar]
43.Callaghan T. V., Björn L. O., Chernov Y., Chapin T., Christensen T. R., Huntley B., Ims R. A., Johansson M., Joly D., Johansson S., Matveyeva N., Panikov N., Oechel W., Shaver G., Schaphoff S., and Sitch S. (2004) Effects of changes in climate on landscape and regional processes, and feedbacks to the climate system. Ambio, 33, 459–468. [DOI] [PubMed] [Google Scholar]
44.Tannerfeldt M., Elmhagen B., and Angerbjörn A. (2002) Exclusion by interference competition? The relationship between red and arctic foxes. Oecologia, 132, 213–220. [DOI] [PubMed] [Google Scholar]
45.Ims R. A., Henden J.-A., and Killengreen S. T. (2008) Collapsing population cycles. Trends Ecol. Evol., 23, 79–86. [DOI] [PubMed] [Google Scholar]
46.Yoccoz N. G., and Ims R. A. (1999) Demography of small mammals in cold regions: The importance of environmental variability. Ecol. Bull., 47, 137–144. [Google Scholar]
47.Aars J., and Ims R. A. (2002) Climatic and intrinsic determinants of population demography: the winter dynamics of tundra vole populations. Ecology, 83, 3449–3456. [Google Scholar]
48.Aanes R., Saether B.-E., and Oritsland N. A. (2000) Fluctuations of an introduced population of Svalbard reindeer: the effect of density dependence and climatic variation. Ecography, 23, 437–443. [Google Scholar]
49.Forchhammer M., and Boertmann D. (1993) The muskoxen Ovibos moschatus in north and northeast Greenland: Population trends and influence of abiotic parameters on population dynamics. Ecography, 16, 299–308. [Google Scholar]
50.Sturm M., Schimel J., Michaelson G., Welker J. M., Oberbauer S. F., Liston G. E., Fahnestock J., and Romanovsky V. E. (2005). Winter biological processes could help convert arctic tundra to shrubland. Bioscience, 55, 17–26. [Google Scholar]
51.Chapin F. S., Sturm M., Serreze M. C., McFadden J. P., Key J. R., Lloyd A. H., McGuire A. D., Rupp T. S., Lynch A. H., Schimel J. P., Beringer J., Chapman W. L., Epstein H. E., Euskirchen E. S., Hinzman L. D., Jia G., Ping C. L., Tape K. D., Thompson C. D. C., Walker D. A., and Welker J. M. (2005) Role of land-surface changes in Arctic summer warming. Science, 310, 657–660. [DOI] [PubMed] [Google Scholar]
52.Hersteinsson P., and Macdonald D. W. (1992) Interspecific competition and the geographical distribution of red and arctic foxes Vulpes vulpes and Alopex lagopus. Oikos, 64, 505–515. [Google Scholar]
53.Pamperin N. J., Follmann E. H., and Petersen B. (2006) Interspecific killing of an arctic fox by a red fox at Prudhoe Bay, Alaska. Arctic, 59(4), 361–364. [Google Scholar]
54.Skrobov V. D. (1960) Interrelationships of the polar fox and fox in the tundras of the Nenetsk National Okrug. Zool. Zh., 39, 469–471. [Google Scholar]
55.Elmhagen B., Tannerfeldt M., and Angerbjörn A. (2002) Food-niche overlap between arctic and red foxes. Can. J. Zool., 80, 1274–1285. [Google Scholar]
56.Selås V., and Vik J. O. (2007) The arctic fox Alopex lagopus in Fennoscandia: a victim of human-introduced changes in interspecific competition and predation? Biodivers. Conserv., 16, 3575–3583. [Google Scholar]
57.Killengreen S. T., Ims R. A., Yoccoz N. G., Bråthen K. A., Henden J.-A., and Schott T. (2007) Structural characteristics of a low Arctic tundra ecosystem and the retreat of the arctic fox. Biol. Conserv., 135, 475–488. [Google Scholar]
58.Serreze M., Holland M. M., and Stroeve J. (2007) Perspectives on the Arctic's Shrinking Sea-Ice Cover. Science, 315, 1533–1536. [DOI] [PubMed] [Google Scholar]
59.Stroeve J., Holland M. M., Meier W., Scambos T., and Serreze M. (2007) Arctic sea ice decline: Faster than forecast. Geophys. Res. Lett., 34, L09501. [Google Scholar]
60.Gillespie J. H. (1998) Population genetics: A concise guide. The John Hopkins University Press, Baltimore and London. [Google Scholar]
61.MacArthur R. H., and Wilson E. O. (1967) The theory of island biogeography. Princeton University Press, Princeton, New York. [Google Scholar]
62.Hacquebord L. (1998) The first wintering on Jan Mayen. Circumpol. J., 13, 70–81. [Google Scholar]
63.Barr S. (1991) In: (ed.), Chr. Schibsteds, Jan Mayen. Forlang A/S, Oslo, Norway: (in Norwegian). [Google Scholar]
64.Kovacs K. M., and Lydersen C. (this volume) Climate change impacts on seals and whales in the North Atlantic Arctic and adjacent shelf seas. Sci. Prog., 91, 117–150. [DOI] [PMC free article] [PubMed] [Google Scholar]
65.Wiig Ø, Aars J., and Born E. W. (this volume) Effects of climate change on polar bears. Sci. Prog., 91, 151–173. [DOI] [PMC free article] [PubMed] [Google Scholar]
66. Ecosystem Finnmark. http://www.ecosystem-finnmark.com/
67.Stenseth N. C. (1999). Population cycles in voles and lemmings: Density dependence and phase dependence in a stochastic world. Oikos, 87, 427–461. [Google Scholar]

[bibr1-003685008X327468] 1.ACIA (2004) Arctic Climate Impact Assessment. Cambridge University Press. [Google Scholar]

[bibr2-003685008X327468] 2.Hersteinsson P. (1989) Population genetics and ecology of different colour morphs of arctic foxes Alopex lagopus in Iceland. Finnish Game Res., 46, 64–78. [Google Scholar]

[bibr3-003685008X327468] 3.Underwood L. S., and Reynolds P. (1980) Photoperiod and fur lengths in the arctic fox (Alopex lagopus). Int. J. Biometeor., 24, 39–48. [Google Scholar]

[bibr4-003685008X327468] 4.Prestrud P. (1991) Adaptation by the arctic fox (Alopex lagopus) to the polar winter. Arctic, 44, 132–138. [Google Scholar]

[bibr5-003685008X327468] 5.Fuglei E., and Øritsland N. A. (1999) Seasonal trends in body mass, food intake and resting metabolic rate, and induction of metabolic depression in arctic foxes (Alopex lagopus) at Svalbard. J. Comp. Physiol. B, 169, 361–369. [DOI] [PubMed] [Google Scholar]

[bibr6-003685008X327468] 6.Audet A. M., Robbins C. B., and Larivière S. (2002) Alopex lagopus. Mamm. Species, 713, 1–10. [Google Scholar]

[bibr7-003685008X327468] 7.Goltsman M., Kruchenkova E. P., Sergeev S., Volodin I., and Macdonald D. W. (2005) ‘Island syndrome’ in a population of Arctic foxes (Alopex lagopus) from mednyi Island. J. Zool., Lond., 267, 405–418. [Google Scholar]

[bibr8-003685008X327468] 8.Geffen E., Waidyratne S., Dalen L., Angerbjörn A., Vila C., Hersteinsson P., Fuglei E., White P. A., Goltsman M., Kapell C. M. O., and Wayne R. K. (2007) Sea ice occurrence predicts genetic isolation in the arctic fox. Mol. Ecol., 16, 4241–4255. [DOI] [PubMed] [Google Scholar]

[bibr9-003685008X327468] 9.Dalèn L., Fuglei E., Hersteinsson P., Kapel C., Roth J., Samelius G., Tannerfeldt M., and Angerbjörn A. (2005) Population history and genetic structure of a circumpolar species: the arctic fox. Biol. J. Linnean Soc., 84, 79–89. [Google Scholar]

[bibr10-003685008X327468] 10.Carmichael L. E., Berteaux D., Dumond M., Fuglei E., Johnson D., Krizan J., Nagy J. A., Veitch A., and Strobeck C. (2007) Historical and ecological determinants of genetic structure in arctic canids. Mol. Ecol., 16, 3466–3483. [DOI] [PubMed] [Google Scholar]

[bibr11-003685008X327468] 11.Summers R. W., and Underhill L. G. (1987) Factors related to breeding production of Brent Geese Branta b. bernicla and waders (Calidrii) on the Taimyr Peninsula. Bird Study, 34, 161–171. [Google Scholar]

[bibr12-003685008X327468] 12.Sommer R., and Benecke N. (2005) Late-Pleistocene and early Holocene history of the canid fauna of Europe (Canidae). Mammal. Biol., 70, 227–241. [Google Scholar]

[bibr13-003685008X327468] 13.Kahlke R. D. (1999) The history of the origin, evolution and dispersal of the late Pleistocene Mammuthus Coelodonta faunal complex in Eurasia. Fenske Companies Rapid City SD.

[bibr14-003685008X327468] 14.Dalèn L., Nyström V., Valdiosera C., Germonpré M., Sablin M., Turner E., Angerbjörn A., Arsuaga J. L., and Götherström A. (2007) Ancient DNA reveals lack of postglacial habitat tracking in the arctic fox. PNAS, 104, 6726–6729. [DOI] [PMC free article] [PubMed] [Google Scholar]

[bibr15-003685008X327468] 15.Braestrup F. W. (1941) A study of the arctic fox in Greenland. Immigrations, fluctuations in numbers based mainly on trading statistics. Medd. Grønl. Biosci., 131, 1–101. [Google Scholar]

[bibr16-003685008X327468] 16.Ims R. A., and Fuglei E. (2005) Trophic interaction cycles in tundra ecosystems and the impact of climate change. BioSci., 55, 311–322. [Google Scholar]

[bibr17-003685008X327468] 17.Stenseth N. C., and Ims R. A. (1993) Biology of lemmings. Academic Press, London. [Google Scholar]

[bibr18-003685008X327468] 18.Angerbjörn A., Hersteinsson P., and Tannerfeldt M. (2004) Arctic foxes. Consequenses of resource predictability in the arctic fox-two life history strategies. In: Macdonald D. W., and Sillero-Zubiri C. (eds.). Biology and conservation of wild canids, Part II, Chap. 8, pp. 163–172. Oxford University Press, Oxford. [Google Scholar]

[bibr19-003685008X327468] 19.Herseinsson P., and Macdonald D. W. (1996) Diet of arctic foxes (Alopex lagopus) in Iceland. J. Zool., 240, 457–474. [Google Scholar]

[bibr20-003685008X327468] 20.Prestrud P. (1992) Food habits and observations of the hunting behaviour of arctic foxes, Alopex lagopus, in Svalbard. Can. Field-Nat., 106, 225–236. [Google Scholar]

[bibr21-003685008X327468] 21.Lydersen C., and Gjertz I. (1986) Studies of the ringed seal (Phoca hispida Schreber 1775) in its breeding habitat in Kongsfjorden, Svalbard. Polar Res., 4, 57–63. [Google Scholar]

[bibr22-003685008X327468] 22.Hiruki L. M., and Stirling I. (1989) Population dynamics of the arctic fox (Alopex lagopus), on Banks Island, Northwest territories. Can. Field-Nat., 103, 380–387. [Google Scholar]

[bibr23-003685008X327468] 23.Prestrud P. (1992) Arctic foxes in Svalbard: Population ecology and rabies. PhD thesis, Norwegian Polar Institute, Oslo, Norway. [Google Scholar]

[bibr24-003685008X327468] 24.Samelius G., Alisauskas R. T., Hobson K. A., and Larivière S. (2007) Prolonging the arctic pulse: long-term exploitation of cached eggs by arctic foxes when lemmings are scarce. J. Anim. Ecol., 76, 837–880. [DOI] [PubMed] [Google Scholar]

[bibr25-003685008X327468] 25.Roth J. D. (2003) Variability in marine resources affects arctic fox population dynamics. J. Anim. Ecol., 72, 668–676. [DOI] [PubMed] [Google Scholar]

[bibr26-003685008X327468] 26.Eberhardt L. E., Hanson W. C., Bengtson J. L., Garrot R. A., and Hanson E. E. (1982) Arctic fox home range characteristics in an oil development area. J. Wildl. Mamag, 46, 132–138. [Google Scholar]

[bibr27-003685008X327468] 27.Frafjord K., and Prestrud P. (1992) Home range and movements of arctic foxes Alopex lagopus in Svalbard. Polar Biol., 12, 519–526. [Google Scholar]

[bibr28-003685008X327468] 28.Angerbjörn A., Ströman J., and Becker D. (1997) Home range patterns in arctic foxes in Sweden. J. Wildl. Res., 2, 9–14. [Google Scholar]

[bibr29-003685008X327468] 29.Eide N. E., Jepsen J. U., and Prestrud P. (2004) Spatial organization of reproductive arctic foxes Alopex lagopus: responses to changes in spatial and temporal availability of prey. J. Anim. Ecol., 73, 1056–1068. [Google Scholar]

[bibr30-003685008X327468] 30.Elton C. S. (1924) Periodic fluctuations in the numbers of animals: their causes and effects. Br. J. Exp. Biol., 2, 119–163. [Google Scholar]

[bibr31-003685008X327468] 31.Fuglei E., Øritsland N. A., and Prestrud P. (2003) Local variation in arctic fox abundance on Svalbard, Norway. Polar Biol., 26, 93–98. [Google Scholar]

[bibr32-003685008X327468] 32.Pulliainen E. (1965) On the distribution and migration of the arctic fox (Alopex lagopus L.) in Finland. Aquili, Ser Zool., 2, 25–40. [Google Scholar]

[bibr33-003685008X327468] 33.Nasimovich A., and Isakov Y. (1985) Arctic fox, red fox and racoon dog: distribution of resources, ecology, use and conservation (in Russian). Janka, Moscow. [Google Scholar]

[bibr34-003685008X327468] 34.SEFALO http://www.zoologi.su.se/research/alopex/default.html

[bibr35-003685008X327468] 35.Croll D. A., Maron J. L., Estes J. A., Danner E. M., and Byrd G. V. (2005) Introduced predators transform subarctic islands from grassland to tundra. Science, 307, 1959–1961. [DOI] [PubMed] [Google Scholar]

[bibr36-003685008X327468] 36.Hanski I., Henttonen H., Korpimäki E., Oksanen L., and Turchin P. (2001) Small-rodent dynamics and predation. Ecology, 82, 1505–1520. [Google Scholar]

[bibr37-003685008X327468] 37.Bêty J., Gauthier G., Giroux J.-F., and Korpimäki E. (2001) Are goose nesting success and lemming cycles linked? Interplay between nest density and predators. Oikos, 93, 388–400. [Google Scholar]

[bibr38-003685008X327468] 38.Gauthier G., Bêty J., Giroux J. F., and Rochefort L. (2003) Trophic interactions in a high arctic snow goose colony. Integ. Comp. Biol., 44, 119–129. [DOI] [PubMed] [Google Scholar]

[bibr39-003685008X327468] 39.Blomqvist S., Holmgren N., Åkesson S., Hedenström A., and Pettersson J. (2002) Indirect effects of lemming cycles on sandpiper 50 years of counts from southern Sweden. Oecologia, 133, 146–158. [DOI] [PubMed] [Google Scholar]

[bibr40-003685008X327468] 40.Heptner V. G., and Neumov N. P. (1998) Mammals of the Soviet Union. Volume II, part la: Sirenia and Carnivora (Sea Cows, Wolves and Bears). Science Publishers, USA. [Google Scholar]

[bibr41-003685008X327468] 41.Johnson N., Dicker A., Mork T., Marston D. A., Fooks A. R., Tryland M., Fuglei E., and Müller T. (2007) Phylogenetic comparison of rabies viruses from disease outbreaks on the Svalbard Islands. Vector-Borne and Zoonotic Diseases, 7, 457–460. [DOI] [PubMed] [Google Scholar]

[bibr42-003685008X327468] 42.Henttonen H., Fuglei E., Gower C., Haukisalmi V., Ims R. A., Niemimaa J., and Yoccoz N. G. (2001) Echinococcus multilocularis on Svalbard: introduction of an intermediate host has enabled the local life cycle. Parasitology, 123, 547–552. [DOI] [PubMed] [Google Scholar]

[bibr43-003685008X327468] 43.Callaghan T. V., Björn L. O., Chernov Y., Chapin T., Christensen T. R., Huntley B., Ims R. A., Johansson M., Joly D., Johansson S., Matveyeva N., Panikov N., Oechel W., Shaver G., Schaphoff S., and Sitch S. (2004) Effects of changes in climate on landscape and regional processes, and feedbacks to the climate system. Ambio, 33, 459–468. [DOI] [PubMed] [Google Scholar]

[bibr44-003685008X327468] 44.Tannerfeldt M., Elmhagen B., and Angerbjörn A. (2002) Exclusion by interference competition? The relationship between red and arctic foxes. Oecologia, 132, 213–220. [DOI] [PubMed] [Google Scholar]

[bibr45-003685008X327468] 45.Ims R. A., Henden J.-A., and Killengreen S. T. (2008) Collapsing population cycles. Trends Ecol. Evol., 23, 79–86. [DOI] [PubMed] [Google Scholar]

[bibr46-003685008X327468] 46.Yoccoz N. G., and Ims R. A. (1999) Demography of small mammals in cold regions: The importance of environmental variability. Ecol. Bull., 47, 137–144. [Google Scholar]

[bibr47-003685008X327468] 47.Aars J., and Ims R. A. (2002) Climatic and intrinsic determinants of population demography: the winter dynamics of tundra vole populations. Ecology, 83, 3449–3456. [Google Scholar]

[bibr48-003685008X327468] 48.Aanes R., Saether B.-E., and Oritsland N. A. (2000) Fluctuations of an introduced population of Svalbard reindeer: the effect of density dependence and climatic variation. Ecography, 23, 437–443. [Google Scholar]

[bibr49-003685008X327468] 49.Forchhammer M., and Boertmann D. (1993) The muskoxen Ovibos moschatus in north and northeast Greenland: Population trends and influence of abiotic parameters on population dynamics. Ecography, 16, 299–308. [Google Scholar]

[bibr50-003685008X327468] 50.Sturm M., Schimel J., Michaelson G., Welker J. M., Oberbauer S. F., Liston G. E., Fahnestock J., and Romanovsky V. E. (2005). Winter biological processes could help convert arctic tundra to shrubland. Bioscience, 55, 17–26. [Google Scholar]

[bibr51-003685008X327468] 51.Chapin F. S., Sturm M., Serreze M. C., McFadden J. P., Key J. R., Lloyd A. H., McGuire A. D., Rupp T. S., Lynch A. H., Schimel J. P., Beringer J., Chapman W. L., Epstein H. E., Euskirchen E. S., Hinzman L. D., Jia G., Ping C. L., Tape K. D., Thompson C. D. C., Walker D. A., and Welker J. M. (2005) Role of land-surface changes in Arctic summer warming. Science, 310, 657–660. [DOI] [PubMed] [Google Scholar]

[bibr52-003685008X327468] 52.Hersteinsson P., and Macdonald D. W. (1992) Interspecific competition and the geographical distribution of red and arctic foxes Vulpes vulpes and Alopex lagopus. Oikos, 64, 505–515. [Google Scholar]

[bibr53-003685008X327468] 53.Pamperin N. J., Follmann E. H., and Petersen B. (2006) Interspecific killing of an arctic fox by a red fox at Prudhoe Bay, Alaska. Arctic, 59(4), 361–364. [Google Scholar]

[bibr54-003685008X327468] 54.Skrobov V. D. (1960) Interrelationships of the polar fox and fox in the tundras of the Nenetsk National Okrug. Zool. Zh., 39, 469–471. [Google Scholar]

[bibr55-003685008X327468] 55.Elmhagen B., Tannerfeldt M., and Angerbjörn A. (2002) Food-niche overlap between arctic and red foxes. Can. J. Zool., 80, 1274–1285. [Google Scholar]

[bibr56-003685008X327468] 56.Selås V., and Vik J. O. (2007) The arctic fox Alopex lagopus in Fennoscandia: a victim of human-introduced changes in interspecific competition and predation? Biodivers. Conserv., 16, 3575–3583. [Google Scholar]

[bibr57-003685008X327468] 57.Killengreen S. T., Ims R. A., Yoccoz N. G., Bråthen K. A., Henden J.-A., and Schott T. (2007) Structural characteristics of a low Arctic tundra ecosystem and the retreat of the arctic fox. Biol. Conserv., 135, 475–488. [Google Scholar]

[bibr58-003685008X327468] 58.Serreze M., Holland M. M., and Stroeve J. (2007) Perspectives on the Arctic's Shrinking Sea-Ice Cover. Science, 315, 1533–1536. [DOI] [PubMed] [Google Scholar]

[bibr59-003685008X327468] 59.Stroeve J., Holland M. M., Meier W., Scambos T., and Serreze M. (2007) Arctic sea ice decline: Faster than forecast. Geophys. Res. Lett., 34, L09501. [Google Scholar]

[bibr60-003685008X327468] 60.Gillespie J. H. (1998) Population genetics: A concise guide. The John Hopkins University Press, Baltimore and London. [Google Scholar]

[bibr61-003685008X327468] 61.MacArthur R. H., and Wilson E. O. (1967) The theory of island biogeography. Princeton University Press, Princeton, New York. [Google Scholar]

[bibr62-003685008X327468] 62.Hacquebord L. (1998) The first wintering on Jan Mayen. Circumpol. J., 13, 70–81. [Google Scholar]

[bibr63-003685008X327468] 63.Barr S. (1991) In: (ed.), Chr. Schibsteds, Jan Mayen. Forlang A/S, Oslo, Norway: (in Norwegian). [Google Scholar]

[bibr64-003685008X327468] 64.Kovacs K. M., and Lydersen C. (this volume) Climate change impacts on seals and whales in the North Atlantic Arctic and adjacent shelf seas. Sci. Prog., 91, 117–150. [DOI] [PMC free article] [PubMed] [Google Scholar]

[bibr65-003685008X327468] 65.Wiig Ø, Aars J., and Born E. W. (this volume) Effects of climate change on polar bears. Sci. Prog., 91, 151–173. [DOI] [PMC free article] [PubMed] [Google Scholar]

[bibr66-003685008X327468] 66. Ecosystem Finnmark. http://www.ecosystem-finnmark.com/

[bibr67-003685008X327468] 67.Stenseth N. C. (1999). Population cycles in voles and lemmings: Density dependence and phase dependence in a stochastic world. Oikos, 87, 427–461. [Google Scholar]

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Global Warming and effects on the Arctic Fox

Eva Fuglei

Rolf Anker Ims

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Global Warming and effects on the Arctic Fox

Eva Fuglei

Rolf Anker Ims

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