birds, geese, and waders. A general de- cline in seabird populations has driven the recent decline in Arctic foxes (2008- 2012), especially in coastal habitats. In inland areas, an increase in ptarmigans and other terrestrial resources, such as geese and waders, was observed in the diet during the most recent period (2008-2015), where fluctuations in the Arctic population and shift in diet was observed. The diet of the Icelandic Arctic fox population has therefore mainly been determined by functional responses to intra- and interannual var- iation in food resources, by feeding on whatever prey is found in most abun- dance and accessible at a given time and space. Despite the importance of the ptarmigan, which is known to show regular cycles, the foxes in Iceland do not seem to fluctuate regularly. In con- trast to what is known for the species in other countries, the fertility of Icelan- dic Arctic fox vixens has been stable, at least during the past 60 years, according to litter size from harvest data (1958- 2021: 4,4 +/- 1,65 cubs) and placental scar counting (1986-2021: 5,4 +/- 1,63 scars). The stability in the fertility of Icelandic Arctic foxes calls for other ex- planations for the population dynamics than in lemming areas. Indeed, it has turned out that the Icelandic Arctic fox has responded to variation in carrying capacity, through changes in prey popu- lations, with plasticity in number of lit- ters but not litter size. This is reflected in proportion of mature individuals in the population that take part in breed- ing each year. The most important con- tribution is by one year old foxes which were the largest proportion of breeding individuals during the steepest increase phase of the population. Therefore, fluctuations seen in the population in the period 2007-2018 can be explained by the variety in the contribution of each age group (especially the young ones) in the breeding part of the pop- ulation each year, which, in each year/ period is determined by the carrying capacity in each region (i.e. number and quality of breeding territories). On a larger spatial and temporal scale ca- pacity is determined by food availability through population dynamics and state of various potential prey species. Höfundur þakkar veiðimönnum um allt land sem sent hafa refahræ til athugunar, og Umhverfis- stofnun fyrir upplýsingar úr veiðigögnum. Fjöl- skylda Páls Hersteinssonar veitti aðgang að dýr- mætum gögnum og er þakkað, einnig ljósmyndurum sem gáfu leyfi til að nota myndir sínar í greinina. Að lokum ber að þakka ritstjórn, yfirlesurum (sérstak- lega Sigurði S. Snorrasyni) og ritstjóra fyrir þeirra framlag og góðar ábendingar við greinaskrifin. ÞAKKIR Ester Rut Unnsteinsdóttir (f. 1968) lauk BSc-prófi í líffræði við Háskóla Íslands 1999 og kennsluréttindum í náttúrufræðum frá Kennaraháskóla Íslands árið 2005. Árið 2014 lauk hún doktorsnámi í líffræði við Háskóla Íslands undir leiðsögn Páls Hersteinssonar prófessors og var viðfangsefnið stofnvistfræði hagamúsa. Ester sinnti kennslu í náttúrufræðum á grunnskólastigi árin 1999–2002 og var stundakennari við Líf- og umhverfisvísindasvið HÍ á tímabilinu 2002–2013. Árið 2007 stofn- aði hún Melrakkasetur Íslands í Súðavík, sem opnað var almenn- ingi árið 2010, og starfaði hún þar til ársins 2013 þegar hún hóf störf á Náttúrufræðistofnun Íslands. Ester hefur fylgst með refum á Hornströndum frá árinu 1998 og borið ábyrgð á vöktun íslenska refastofnsins frá árinu 2012. UM HÖFUNDINN Ester Rut Unnsteinsdóttir Náttúrufræðistofnun Íslands Urriðaholtsstræti 6–8 210 Garðabæ Ester.R.Unnsteinsdottir@ni.is 1. Angerbjörn, A., Tannerfeldt, M. & Erlinge, S. 1999. Predator-prey relationships: Arctic foxes and lemmings. Journal of Animal Ecology 68(1). 34−49. 2. Gilg, O., Sittler, B., Sabard, B., Hurstel, A., Sané, R., Delattre, P. & Hanski, I. 2006. Functional and numerical responses of four lemming predators in high arctic Greenland. Oikos 113(2). 193–216. 3. Elmhagen, B., Tannerfeldt, M., Verucci P. & Angerbjörn, A. 2000. The Arctic fox (Alopex lagopus): An opportunistic specialist. Journal of Zoology 251(2). 139–149. 4. Angerbjörn A., Páll Hersteinsson & Tannerfeldt, M. 2004. Arctic foxes: Consequences of resource predictability in the Arctic fox – two life history strategies. Bls. 163−172 í: Biology and conservation of wild canids (ritstj. D.W. Macdonald & C. Sillero- Zubiri). Oxford University Press, Oxford. 5. Berteaux, D., Thierry, A.-M., Alisauskas, R., An- gerbjörn, A., Buchel, E., Doronina, L. … Ester Rut Unnsteinsdóttir & White, P.A. 2017 Harmonizing circumpolar monitoring of Arctic fox: Benefits, opportunities, challenges and recommendations. Polar Research 36. 1−13. 6. Tannerfeldt, M. & Angerbjörn A. 1996. Life history strategies in a fluctuating environment: Establishment and reproductive success in the Arctic fox. Ecography 19(3). 209–220. 7. Barraquand, F. & Ólafur K. Nielsen. 2018. Predator-prey feedback in a gyrfalcon-ptarmigan system? Ecology and Evolution 8(24). 12425– 12434. https://doi.org/10.1002/ece3.4563 8. Ester R. Unnsteinsdóttir, Páll Hersteinsson, Snæ- björn Pálsson & Angerbjörn, A. 2016. The fall and rise of the Icelandic Arctic fox (Vulpes lagopus): A 50-year demographic study on a noncyclic Arctic fox population. Oecologia 181. 1129–1138. HEIMILDIR 57 Ritrýnd grein / Peer reviewed

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