Your search keyword '"Arctic fox"' showing total 187 results

1. FOX TOILETS.

Author

MURRAY, JOHN

Subjects

FOXES, TOILETS, ARCTIC fox, ODORS, RED fox, LATEX gloves, WHITE-tailed deer

Abstract

The article explores the intricate behaviors and sensory capabilities of red foxes. Topics include the red fox's advanced scent detection abilities, territorial behaviors and marking practices, and the various common locations where foxes deposit scat.

Published

2024

2. Phase‐dependent red fox expansion into the tundra: implications for management.

Author

Wilkinson, Caitlin, Vigués, Jan, Stoessel, Marianne, Vinka, Mikael, Angerbjörn, Anders, and Norén, Karin

Subjects

*RED fox, *TUNDRAS, *ARCTIC fox, *ECOSYSTEM dynamics, *PREY availability, *RODENT control

Abstract

Expansion of boreal species into tundra ecosystems is a consequence of climate change and human exploitation that threatens local species through increased predation, competition, and pathogen transmission. Under these circumstances, efficient control of expanding boreal species may be necessary, but the efficiency of such action depends on understanding the ecological influences of expansion. The red fox (Vulpes vulpes) is expanding into the tundra across the Arctic. In Scandinavia, red foxes threaten local tundra species and communities including the endangered Arctic fox (V. lagopus). The ecological dynamics in the tundra are influenced by small rodent cycles (classified into different phases based on seasonal abundance fluctuations), which can affect red fox expansion, distribution, and abundance. We used a 17‐year (2004–2020) dataset from the tundra in Sweden, consisting of raw snow track data, to test how cyclic prey influenced red fox distribution and abundance, and subsequently red fox control. The winter abundance of red fox was influenced by small rodent phase, with higher abundance during high prey availability (i.e., increased number of prey numbers) with no support for a time lag between red fox and small rodent abundance. This suggests that high prey availability attracts red foxes to the tundra and that higher immigration from the boreal zone can be expected in response to increased prey abundances. There was no relationship between red fox control and small rodent availability, but control was influenced by red fox abundance during the previous year, which highlights an opportunistic control strategy. We recommend an adaptive management strategy where authorities include small rodent dynamics in the planning and execution of red fox control. [ABSTRACT FROM AUTHOR]

Published

2024

3. Effects of resource availability and interspecific interactions on Arctic and red foxes' winter use of ungulate carrion in the Fennoscandian low‐Arctic tundra.

Author

Lacombe, Simon, Ims, Rolf, Yoccoz, Nigel, Kleiven, Eivind Flittie, Nicolau, Pedro G., and Ehrich, Dorothee

Subjects

*ARCTIC fox, *ANIMAL carcasses, *RED fox, *UNGULATES, *COMPETITION (Biology), *TUNDRAS, *FOXES, *WINTER

Abstract

In the Arctic tundra, predators face recurrent periods of food scarcity and often turn to ungulate carcasses as an alternative food source. As important and localized resource patches, carrion promotes co‐occurrence of different individuals, and its use by predators is likely to be affected by interspecific competition. We studied how interspecific competition and resource availability impact winter use of carrion by Arctic and red foxes in low Arctic Fennoscandia. We predicted that the presence of red foxes limits Arctic foxes' use of carrion, and that competition depends on the availability of other resources. We monitored Arctic and red fox presence at supp lied carrion using camera traps. From 2006 to 2021, between 16 and 20 cameras were active for 2 months in late winter (288 camera‐winters). Using a multi‐species dynamic occupancy model at a week‐to‐week scale, we evaluated the use of carrion by foxes while accounting for the presence of competitors, rodent availability, and supplemental feeding provided to Arctic foxes. Competition affected carrion use by increasing both species' probability to leave occupied carcasses between consecutive weeks. This increase was similar for the two species, suggesting symmetrical avoidance. Increased rodent abundance was associated with a higher probability of colonizing carrion sites for both species. For Arctic foxes, however, this increase was only observed at carcasses unoccupied by red foxes, showing greater avoidance when alternative preys are available. Supplementary feeding increased Arctic foxes' carrion use, regardless of red fox presence. Contrary to expectations, we did not find strong signs of asymmetric competition for carrion in winter, which suggests that interactions for resources at a short time scale are not necessarily aligned with interactions at the scale of the population. In addition, we found that competition for carcasses depends on the availability of other resources, suggesting that interactions between predators depend on the ecological context. [ABSTRACT FROM AUTHOR]

Published

2024

4. The complete mitogenome of the Cape fox, Vulpes chama (Canidae: Mammalia).

Author

Gray, Autumn, Zhuk, Anna S., Kamler, Jan F., Edwards, Cody W., Figueiro, Henrique V., and Koepfli, Klaus-Peter

Subjects

RED fox, CANIDAE, FOXES, MAMMALS, ARCTIC fox, BIOLOGICAL classification

Abstract

The article provides information on the Cape fox, a small canid species found in sub-Saharan Africa. It discusses a study that analyzed the complete mitochondrial genome of the Cape fox using a method called genome skimming. The study found that the Cape fox is an early diverging lineage within the Vulpes clade and supports the division of Canidae into two major tribes. The findings contribute to our understanding of the genetics and evolutionary history of the Cape fox and other Vulpes species. [Extracted from the article]

Published

2024

5. Coexistence of two sympatric predators in a transitional ecosystem under constraining environmental conditions: a perspective from space and habitat use.

Author

Warret Rodrigues, Chloé and Roth, James D.

Subjects

COMPETITION (Biology), COEXISTENCE of species, ARCTIC fox, RED fox, SATELLITE telemetry, MARINE habitats, PREDATORY animals, PUBLIC spaces

Abstract

Background: Range expansion of species, a major consequence of climate changes, may alter communities substantially due to competition between expanding and native species. Methods: We first quantified size differences between an expanding habitat generalist, the red fox (Vulpes vulpes), and a circumpolar habitat specialist, the Arctic foxes (Vulpes lagopus), at the edge of the Arctic, where climate-related changes occur rapidly, to predict the likelihood of the larger competitor escalating interference to intraguild killing. We then used satellite telemetry to evaluate competition in a heterogeneous landscape by examining space use early during the foxes' reproductive period, when resource scarcity, increased-food requirements and spatial constraints likely exacerbate the potential for interference. We used time-LoCoH to quantify space and habitat use, and Minta's index to quantify spatio-temporal interactions between neighbors. Results: Our morphometric comparison involving 236 foxes found that the potential for escalated interference between these species was high due to intermediate size difference. However, our results from 17 collared foxes suggested that expanding and native competitors may coexist when expanding species occur at low densities. Low home-range overlap between neighbors suggested territoriality and substantial exploitation competition for space. No obvious differential use of areas shared by heterospecific neighbors suggested low interference. If anything, intraspecific competition between red foxes may be stronger than interspecific competition. Red and Arctic foxes used habitat differentially, with near-exclusive use of forest patches by red foxes and marine habitats by Arctic foxes. Conclusion: Heterogeneous landscapes may relax interspecific competition between expanding and native species, allowing exclusive use of some resources. Furthermore, the scarcity of habitats favored by expanding species may emphasize intraspecific competition between newcomers over interspecific competition, thus creating the potential for self-limitation of expanding populations. Dominant expanding competitors may benefit from interference, but usually lack adaptations to abiotic conditions at their expansion front, favoring rear-edge subordinate species in exploitation competition. However, due to ongoing climate change, systems are usually not at equilibrium. A spread of habitats and resources favorable to expanding species may promote higher densities of antagonistically dominant newcomers, which may lead to extirpation of native species. [ABSTRACT FROM AUTHOR]

Published

2023

6. Predators of Cackling Goose (Branta hutchinsii) eggs on the Alaska Coastal Plain are variable and inconsistent across years.

Author

Ulman, Sadie E.G. and Latty, Christopher

Subjects

*PREDATION, *BIRD nests, *COASTAL plains, *ARCTIC fox, *GOLDEN eagle, *PREDATORY animals, *RED fox, *WATER birds

Abstract

Egg predation is the primary cause of nest failure for tundra nesting birds. Taverner's Cackling Geese (Branta hutchinsii taverneri) breeding on the North Slope of Alaska have increased approximately 5-fold over the last 25 years and are now one of the most encountered waterbird species breeding at our study site on the coastal plain of Arctic National Wildlife Refuge. This rapid population growth may offer a new food resource for egg predators, impacting predator populations, which in turn could have cascading effects for other tundra nesting bird species, many of which are declining. To determine how the population growth of geese may affect the nest-predator community, and to establish a baseline of predators as the area is impacted by climate change and development, we used digital time-lapse cameras to record predation events at Cackling Goose nests. We determined fate for 52 nests in 2017, 2019, and 2021, of which 20 were depredated. The most frequent predator differed each year. Red foxes (Vulpes vulpes) were responsible for 89% of depredations in 2017 and wolverines (Gulo gulo) for 67% in 2019, and those species only depredated nests in those single years. In contrast, Arctic foxes (Vulpes lagopus) were responsible for nest failure in all years, but did not exceed 40% of total depredations in any year. Golden Eagles (Aquila chrysaetos) were an unexpected egg predator, depredating 2 nests. Our results were notably different than work on other Arctic goose species, where Arctic foxes were the primary predator. The inter-annual variability of egg predators at this Arctic Refuge study site provides insights into complex predator–prey interactions on the Arctic Coastal Plain. La depredación de huevos es la causa primaria del fracaso de nido para aves que anidan en la tundra. El ganso Branta hutchinsii taverneri, que se reproduce en la pendiente Norte de Alaska ha quintuplicado su presencia en los últimos 25 años y ahora es una de las especies acuáticas en reproducción más observadas en nuestro sitio de estudio en la planicie costera del Arctic National Wildlife Refuge. Este crecimiento poblacional acelerado puede ofrecer una nueva fuente de alimentación para depredadores de huevos, impactando las poblaciones de depredadores, que podría tener efectos en cascada en otras especies de aves que anidan en la tundra, muchas en declive. Para determinar cómo el crecimiento poblacional de gansos puede afectar la comunidad de depredadores de nidos y establecer una línea base de depredadores en un área que es impactada por el cambio climático y el desarrollo, usamos cámaras digitales con temporizador automático para registrar eventos de depredación en nidos de ganso Branta hutchinsii. Determinamos el destino de 52 nidos en 2017, 2019 y 2021, de los cuales 20 fueron depredados. El depredador más frecuente varió cada año. Los zorros rojos (Vulpes vulpes) fueron responsables del 89% de las depredaciones en el 2017, mientras que los glotones (Gulo gulo) lo fueron del 67% en el 2019, y esas especies solo depredaron nidos en esos años. En contraste, el zorro artico (Vulpes lagopus) fue responsable de fracaso de anidación durante todos los años, pero su cuota de depredación no excedió el 40% en ninguno de los años. El águila real (Aquila chrysaetos) fue un depredador inesperado, depredando 2 nidos. Nuestros resultados fueron notablemente diferentes que otros estudios con otras especies de gansos silvestres del Artico, donde los zorros articos fueron los depredadores primarios. La variación interanual de depredadores de huevos en este sitio de estudio en el Refugio Artico proporciona información en interacciones complejas depredador-presa en la Planicie Costera Artica. Palabras clave: cámaras para vida silvestre, depredador de huevos, ganso Branta hutchinsii taverneri, gansos de anidación artica, Planicie Costera Artica. [ABSTRACT FROM AUTHOR]

Published

2023

7. First identification of canine adenovirus 1 in mink and bioinformatics analysis of its 100 K protein.

Author

Jinyu Hou, Jinfeng Xu, Ben Wang, Hongling Zhang, Baishuang Yin, Goujiang Li, Fashou Lei, Xiaoming Cai, Yanzhu Zhu, and Longtao Wang

Subjects

ARCTIC fox, RED fox, ADENOVIRUSES, AMERICAN mink, VIRUS diseases, ENDOPLASMIC reticulum, CANIDAE

Abstract

Introduction: Animal trade favors the spreading of emerging canine adenovirus 1 (CAdV-1) in mink. Because the 100K protein is not exposed to the viral surface at any stage, it can be used to differentiate the vaccine from wild virus infection. However, no related research has been conducted. This study aimed to find evidence of CAdV-1 in mink and predict the character of the 100K protein in the current circulating CAdV-1 strain of mink. Method: In this experiment, the identification of CAdV-1, the phylogenetic tree, homology, and bioinformatics analysis of 100K were conducted. Results: The results showed that the CAdV-1 was identified in the mink and that its Fiber was located in a separate branch. It was closely related to strains isolated from Norwegian Arctic fox and Red fox. 100K was located in a separate branch, which had the closest genetic relationship with skunks, porcupines, raccoons, and hedgehogs and a far genetic relationship with the strains in dogs. 100K protein is an unstable and hydrophobic protein. It had evidence of selective pressure and recombination, 1 glycosylation site, 48 phosphorylation sites, 60 dominant B cell epitopes, and 9 peptides of MHC-I and MHC-II. Its subcellular localization was mainly in the endoplasmic reticulum and mitochondria. The binding sites of 100K proteins were DBP proteins and 33K proteins. Discussion: The stains in the mink were different from fox. The exploration of its genomic characteristics will provide us with a deeper understanding of the prevention of canine adenovirus. [ABSTRACT FROM AUTHOR]

Published

2023

8. Arctic and red fox population responses to climate and cryosphere changes at the Arctic's edge.

Author

Verstege, Jacqueline S., Johnson-Bice, Sean M., and Roth, James D.

Subjects

*RED fox, *ARCTIC fox, *CLIMATE change, *SNOW accumulation, *COMPETITION (Biology), *SEA ice, *WINTER

Abstract

Responses of one species to climate change may influence the population dynamics of others, particularly in the Arctic where food webs are strongly linked. Specifically, changes to the cryosphere may limit prey availability for predators. We examined Arctic (Vulpes lagopus) and red fox (V. vulpes) population dynamics near the southern edge of the Arctic fox distribution using fur harvest records from Churchill, Manitoba, Canada between 1955 and 2012. Arctic foxes showed a declining population trend over time (inferred from harvest records corrected for trapping effort), whereas the red fox population trend was relatively stable. The positive relationship between the annual Arctic and red fox harvests suggested interspecific competition did not promote the Arctic fox decline. To investigate alternative mechanisms, we evaluated the relative influence of sea-ice phenology, snow depth, snow duration, winter thaws, and summer temperature on the harvest dynamics of both species in the most recent 32 years (1980–2012; n = 29) of our data. Arctic fox harvests were negatively related to the length of time Hudson Bay was free of sea ice. Shorter sea ice duration may reduce access to seal carrion as an alternative winter food source when lemming densities decline. Contrary to our prediction, red fox harvest was not related to summer temperature but was positively related to snow depth, suggesting winter prey availability may limit red fox population growth. Predators have an important ecological role, so understanding the influence of changes in the cryosphere on predator–prey interactions may better illuminate the broader influence of climate change on food-web dynamics. [ABSTRACT FROM AUTHOR]

Published

2023

9. Low levels of genetic differentiation and structure in red fox populations in Eastern Canada and implications for Arctic fox rabies propagation potential.

Author

Talbot, Benoit, Alanazi, Thaneah J., Albert, Vicky, Bordeleau, Émilie, Bouchard, Émilie, Leighton, Patrick A., Marshall, H. Dawn, Rondeau-Geoffrion, Daphné, Simon, Audrey, and Massé, Ariane

Subjects

*ARCTIC fox, *CANADIAN history, *RABIES, *FOXES, *MICROSATELLITE repeats, *RABIES virus, *RED fox

Abstract

Rabies is a lethal zoonosis present in most parts of the world which can be transmitted to humans through the bite from an infected mammalian reservoir host. The Arctic rabies virus variant (ARVV) persists mainly in populations of Arctic foxes (Vulpes lagopus), and to a lesser extent in red fox populations (Vulpes vulpes). Red foxes are thought to be responsible for sporadic southward movement waves of the ARVV outside the enzootic area of northern Canada. In this study, we wanted to investigate whether red foxes displayed notable levels of genetic structure across the Quebec-Labrador Peninsula, which includes portions of the provinces of Quebec and Newfoundland-Labrador in Canada, and is a region with a history of southward ARVV movement waves. We combined two datasets that were collected and genotyped using different protocols, totalling 675 red fox individuals across the whole region and genotyped across 13 microsatellite markers. We found two genetic clusters across the region, reflecting a latitudinal gradient, and characterized by low genetic differentiation. We also observed weak but significant isolation by distance, which seems to be marginally more important for females than for males. These findings suggest a general lack of resistance to movement in red fox populations across the Quebec-Labrador Peninsula, regardless of sex. Implications of these findings include additional support for the hypothesis of long-distance southward ARVV propagation through its red fox reservoir host. [ABSTRACT FROM AUTHOR]

Published

2023

10. Feast to famine: Sympatric predators respond differently to seasonal prey scarcity on the low Arctic tundra.

Author

Warret Rodrigues, Chloé and Roth, James D.

Subjects

*ARCTIC fox, *RED fox, *TUNDRAS, *PREDATORY animals, *CLIMATE change, *WINTER, *HOME range (Animal geography), *PREDATION

Abstract

Resource fluctuation is a major driver of animal movement, influencing strategic choices such as residency vs nomadism, or social dynamics. The Arctic tundra is characterized by strong seasonality: Resources are abundant during the short summers but scarce in winters. Therefore, expansion of boreal‐forest species onto the tundra raises questions on how they cope with winter‐resource scarcity. We examined a recent incursion by red foxes (Vulpes vulpes) onto the coastal tundra of northern Manitoba, an area historically occupied by Arctic foxes (Vulpes lagopus) that lacks access to anthropogenic foods, and compared seasonal shifts in space use of the two species. We used 4 years of telemetry data following 8 red foxes and 11 Arctic foxes to test the hypothesis that the movement tactics of both species are primarily driven by temporal variability of resources. We also predicted that the harsh tundra conditions in winter would drive red foxes to disperse more often and maintain larger home ranges year‐round than Arctic foxes, which are adapted to this environment. Dispersal was the most frequent winter movement tactic in both fox species, despite its association with high mortality (winter mortality was 9.4 times higher in dispersers than residents). Red foxes consistently dispersed toward the boreal forest, whereas Arctic foxes primarily used sea ice to disperse. Home range size of red and Arctic foxes did not differ in summer, but resident red foxes substantially increased their home range size in winter, whereas home range size of resident Arctic foxes did not change seasonally. As climate changes, abiotic constraints on some species may relax, but associated declines in prey communities may lead to local extirpation of many predators, notably by favoring dispersal during resource scarcity. [ABSTRACT FROM AUTHOR]

Published

2023

11. Predator co‐occurrence in alpine and Arctic tundra in relation to fluctuating prey.

Author

Rød‐Eriksen, Lars, Killengreen, Siw T., Ehrich, Dorothee, Ims, Rolf A., Herfindal, Ivar, Landa, Arild M., and Eide, Nina E.

Subjects

*RED fox, *PREDATION, *ARCTIC fox, *PREDATORY animals, *TUNDRAS, *GOLDEN eagle, *CARNIVOROUS animals, *EAGLES

Abstract

Large carnivores influence ecosystem dynamics in multiple ways, for example, by suppressing meso‐carnivores and providing carrions for smaller scavengers. Loss of large carnivores is suggested to cause meso‐carnivore increase and expansion. Moreover, competition between meso‐carnivores may be modified by the presence of larger carnivores. In tundra ecosystems, the smallest meso‐carnivore, the Arctic fox, has experienced regional declines, whereas its larger and competitively superior congener, the red fox, has increased, potentially due to changes in the abundance of apex predators.We explored if variation in the occurrence of wolverine and golden eagle impacted the occurrence and co‐occurrence of the Arctic fox and red fox in relation to varying abundances of small rodents within the Scandinavian tundra.We applied multi‐species occupancy models to an extensive wildlife camera dataset from 2011–2020 covering 98 sites. Daily detection/non‐detection of each species per camera trap site and study period (late winter; March–May) was stacked across years, and species occupancy was related to small rodent abundance while accounting for time of the year and status of simulated carcass.The Arctic fox was more likely to co‐occur with the red fox when the wolverine was present and less likely to co‐occur with the red fox when golden eagles were present and the wolverine was absent. Red foxes increased in occupancy when co‐occurring with the larger predators. The Arctic fox responded more strongly to small rodent abundance than the red fox and co‐occurred more often with the other species at carcasses when rodent abundance was low.Our findings suggest that the interspecific interactions within this tundra predator guild appear to be surprisingly intricate, driven by facets of fear of predation, interspecific mediation and facilitation, and food resource dynamics. These dynamics of intraguild interactions may dictate where and when conservation actions targeted towards the Arctic fox should be implemented. [ABSTRACT FROM AUTHOR]

Published

2023

12. Different selection criteria may relax competition for denning sites between expanding red foxes (Vulpes vulpes) and endemic Arctic foxes (Vulpes lagopus) on the low-Arctic tundra.

Author

Moizan, Audrey, Warret Rodrigues, Chloe, and Roth, James D.

Subjects

ARCTIC fox, TUNDRAS, GLOBAL warming, FOXES, RED fox, INTRODUCED species, COEXISTENCE of species, SPRING

Abstract

Climate warming is favoring the expansion of non-native species onto the Arctic tundra, where they may compete over resources with native species. In the harsh tundra conditions, sympatric red foxes (Vulpes vulpes) and Arctic foxes (Vulpes lagopus) may compete over denning sites, which are important for their reproduction and survival. We studied den selection by red and Arctic foxes in spring and summer and their possible competition over this resource in an ecotone near Churchill, Manitoba, on the west coast of Hudson Bay, by examining patterns of den occupancy related to den characteristics and spacing patterns between neighbors. Based on 11 years of occupancy data for 42 tundra dens, we determined that red and Arctic foxes favored dens based on shelter quality in both spring and summer, rather than proximity of specific habitats (and thus specific prey). Mechanisms of den selection differed between species, which may promote coexistence, and areas of high den density were avoided by red foxes and preferred by Arctic foxes. We did not find evidence of exclusion of Arctic foxes by red foxes: spacing patterns showed that foxes spaced themselves based on their need for space, territoriality and food availability but not interference. In the current abiotic Arctic conditions, taiga species settling on the tundra could coexist with tundra endemics, at given density thresholds of both competitors. As Arctic conditions may become milder, an increase in newcomer abundance could disrupt the current balance that favors species coexistence. [ABSTRACT FROM AUTHOR]

Published

2023

13. Reply to Martínez-Ortíz et al.: High moment of inertia of foxes inhibits their rotation.

Author

Jisoo Yuk and Sunghwan Jung

Subjects

*ARCTIC fox, *RED fox, *BIOENGINEERING, *ANGULAR acceleration, *LATERAL loads

Abstract

This document is a reply to a previous study by Martínez-Ortíz et al. that examined the rotation of fox skulls when dropped onto a surface. The authors of this reply argue that their own experiment, which involved dropping a Pale fox skull onto snow, is sufficient to explain the initial impact force on the skull. They observed minimal angular change during the fall and burial in the snow, suggesting that rotation is negligible. However, they acknowledge that further investigation is needed to consider factors such as the front paws, soft tissues, and open jaw. [Extracted from the article]

Published

2024

14. Widespread Exposure to Mosquitoborne California Serogroup Viruses in Caribou, Arctic Fox, Red Fox, and Polar Bears, Canada.

Author

Buhler, Kayla J., Dibernardo, Antonia, Pilfold, Nicholas W., Harms, N. Jane, Fenton, Heather, Carriere, Suzanne, Kelly, Allicia, Schwantje, Helen, Aguilar, Xavier Fernandez, Leclerc, Lisa-Marie, Gouin, Geraldine G., Lunn, Nicholas J., Richardson, Evan S., McGeachy, David, Bouchard, Émilie, Ortiz, Adrián Hernández, Samelius, Gustaf, Lindsay, L. Robbin, Drebot, Michael A., and Gaffney, Patricia

Subjects

*ARCTIC fox, *RED fox, *POLAR bear, *CARIBOU, *VIRAL antibodies

Abstract

Northern Canada is warming at 3 times the global rate. Changing diversity and distribution of vectors and pathogens is an increasing health concern. California serogroup (CSG) viruses are mosquitoborne arboviruses; wildlife reservoirs in northern ecosystems have not been identified. We detected CSG virus antibodies in 63% (95% CI 58%-67%) of caribou (n = 517), 4% (95% CI 2%-7%) of Arctic foxes (n = 297), 12% (95% CI 6%-21%) of red foxes (n = 77), and 28% (95% CI 24%-33%) of polar bears (n = 377). Sex, age, and summer temperatures were positively associated with polar bear exposure; location, year, and ecotype were associated with caribou exposure. Exposure was highest in boreal caribou and increased from baseline in polar bears after warmer summers. CSG virus exposure of wildlife is linked to climate change in northern Canada and sustained surveillance might be used to measure human health risks. [ABSTRACT FROM AUTHOR]

Published

2023

15. Fishing behavior in the red fox: Opportunistic‐caching behavior or surplus killing?

Author

Tobajas, Jorge and Díaz‐Ruiz, Francisco

Subjects

*RED fox, *ARCTIC fox, *FOXES, *FISHING, *WOLVES, *SINGLE-lens reflex cameras

Abstract

Behavioral ecology, Cyprinus carpio, diet, feeding behavior, fish, predation, Vulpes vulpes, canids, mammalian predators Keywords: behavioral ecology; canids; Cyprinus carpio; diet; feeding behavior; fish; mammalian predators; predation; Vulpes vulpes EN behavioral ecology canids Cyprinus carpio diet feeding behavior fish mammalian predators predation Vulpes vulpes 1 4 4 12/05/22 20221201 NES 221201 The red fox ( I Vulpes vulpes i ) is a mesocarnivore species that exploits opportunistically a wide range of prey items that are consumed as a function of their abundance and availability (Díaz-Ruiz et al., [3]). " Biogeographical Patterns in the Diet of an Opportunistic Predator: The Red Fox Vulpes vulpes in the Iberian Peninsula.". [Extracted from the article]

Published

2022

16. Foxes engineer hotspots of wildlife activity on the nutrient-limited Arctic tundra

Author

Shu-Ting Zhao, Sean M. Johnson-Bice, and James D. Roth

Subjects

Arctic fox, Carrion, Ecosystem functioning, Nutrient cycling, Red fox, Scavenging, Ecology, QH540-549.5

Abstract

Predators largely affect ecosystems through trophic interactions, but they also can have indirect effects by altering nutrient dynamics and acting as ecosystem engineers. Arctic foxes (Vulpes lagopus) are ecosystem engineers that concentrate nutrients on their dens, creating biogeochemical hotspots with lush vegetation on the nutrient-limited tundra. Red foxes (V. vulpes) similarly engineer subarctic environments through their denning behavior, and have recently expanded onto the tundra where they now often occupy historical Arctic fox dens. We evaluated the impact of fox denning activity on the spatial behavior of other tundra wildlife by comparing predator and herbivore visits to 12 natal dens and adjacent control sites over two years using camera traps in northeastern Manitoba, where both fox species are sympatric. Both the capture rates and species richness of wildlife were significantly greater at fox dens relative to control sites. Predators were detected almost exclusively on dens occupied by foxes, where they were observed investigating and scavenging prey remains (carrion, feathers), suggesting carcass presence or fox presence attracts predators to den sites. Caribou (Rangifer tarandus) also visited dens more often than control sites, likely attracted by the enhanced vegetation typically found on dens. Our results suggest fox ecosystem engineering affects the spatial distribution of herbivores by enriching vegetation at dens, and other predators by providing carrion. Understanding how predators affect other organisms via non-trophic interactions provides an enriched view of their functional roles within ecosystems.

Published

2022

17. Changes in dental wear and breakage in arctic foxes (Vulpes lagopus) across space and time: evidence for anthropogenic food subsidies?

Author

Ungar, P.S., Van Valkenburgh, B., Sokolova, N., Fufachev, I., Filippova, V., Shklyar, K., and Sokolov, A.

Subjects

*ARCTIC fox, *TOOTH abrasion, *RED fox, *REINDEER, *HUMAN settlements, *FOXES

Abstract

Increased human presence in the Arctic may affect its vulnerable ecosystems. Effects on arctic and red foxes provide notable examples. Both have been documented to take anthropogenic subsidies when available, which can change diet and ranging patterns in complex ways that can either benefit or harm populations, depending on the situation. Understanding this complexity requires new tools to study impacts of increasing human presence on endemic mammals at high latitudes. We propose that dental ecology, specifically tooth wear and breakage, can offer important clues. Based on samples of arctic foxes (Vulpes lagopus (Linnaeus, 1758)) trapped prior to (n = 78) and following (n = 57) rapidly growing human presence on the Yamal Peninsula, Russia, we found that foxes trapped recently in proximity to human settlement had significantly less tooth wear and breakage. This is likely explained by a dietary shift from consumption of reindeer (Rangifer tarandus (Linnaeus, 1758)) carcasses including bone to softer human-derived foods, especially when preferred smaller prey (e.g., West Siberian lemmings, Lemmus sibiricus (Kerr, 1792), and arctic lemmings, Dicrostonyx torquatus (Pallas, 1778)) are unavailable. These results suggest that tooth wear and breakage can be a useful indicator of the consumption of anthropogenic foods by arctic foxes. [ABSTRACT FROM AUTHOR]

Published

2022

18. SLY AS A FOX.

Subjects

FOX behavior, ARCTIC fox, RED fox, HABITATS, ANIMAL feeding behavior

Abstract

The article summarizes various types of foxes and their characteristics. It mentions Arctic Fox lives in the Arctic tundra, has short ears, and changes coat color, and hunts various prey along river shores. It also mentions the Red Fox is the most widespread species, living in various habitats, using dens for raising young, and having a diverse diet.

Published

2023

19. Are foxes (Vulpes spp.) good sentinel species for Toxoplasma gondii in northern Canada?

Author

Bouchard, Émilie, Sharma, Rajnish, Hernández-Ortiz, Adrián, Buhler, Kayla, Al-Adhami, Batol, Su, Chunlei, Fenton, Heather, G.-Gouin, Géraldine, Roth, James D., Rodrigues, Chloé Warret, Pamak, Carla, Simon, Audrey, Bachand, Nicholas, Leighton, Patrick, and Jenkins, Emily

Subjects

*TOXOPLASMA gondii, *RED fox, *FOXES, *ARCTIC fox, *CANADIAN Inuit, *ENZYME-linked immunosorbent assay

Abstract

Background: In changing northern ecosystems, understanding the mechanisms of transmission of zoonotic pathogens, including the coccidian parasite Toxoplasma gondii, is essential to protect the health of vulnerable animals and humans. As high-level predators and scavengers, foxes represent a potentially sensitive indicator of the circulation of T. gondii in environments where humans co-exist. The objectives of our research were to compare serological and molecular assays to detect T. gondii, generate baseline data on T. gondii antibody and tissue prevalence in foxes in northern Canada, and compare regional seroprevalence in foxes with that in people from recently published surveys across northern Canada. Methods: Fox carcasses (Vulpes vulpes/Vulpes lagopus, n = 749) were collected by local trappers from the eastern (Labrador and Québec) and western Canadian Arctic (northern Manitoba, Nunavut, and the Northwest Territories) during the winters of 2015–2019. Antibodies in heart fluid were detected using a commercial enzyme-linked immunosorbent assay. Toxoplasma gondii DNA was detected in hearts and brains using a magnetic capture DNA extraction and real-time PCR assay. Results: Antibodies against T. gondii and DNA were detected in 36% and 27% of foxes, respectively. Detection of antibodies was higher in older (64%) compared to younger foxes (22%). More males (36%) than females (31%) were positive for antibodies to T. gondii. Tissue prevalence in foxes from western Nunavik (51%) was higher than in eastern Nunavik (19%). At the Canadian scale, T. gondii exposure was lower in western Inuit regions (13%) compared to eastern Inuit regions (39%), possibly because of regional differences in fox diet and/or environment. Exposure to T. gondii decreased at higher latitude and in foxes having moderate to little fat. Higher mean infection intensity was observed in Arctic foxes compared to red foxes. Fox and human seroprevalence showed similar trends across Inuit regions of Canada, but were less correlated in the eastern sub-Arctic, which may reflect regional differences in human dietary preferences. Conclusions: Our study sheds new light on the current status of T. gondii in foxes in northern Canada and shows that foxes serve as a good sentinel species for environmental circulation and, in some regions, human exposure to this parasite in the Arctic. [ABSTRACT FROM AUTHOR]

Published

2022

20. Transcriptome analysis provides new insights into cold adaptation of corsac fox (Vulpes Corsac).

Author

Yang, Xiufeng, Sun, Guolei, Xia, Tian, Cha, Muha, Zhang, Lei, Pang, Bo, Tang, Qingming, Dou, Huashan, and Zhang, Honghai

Subjects

*RED fox, *ARCTIC fox, *COLD adaptation, *FOXES, *TRANSCRIPTOMES, *GENE flow, *CONVERGENT evolution

Abstract

Vulpesare widely distributed throughout the world and have undergone drastic physiological and phenotypic changes in response to their environment. However, little is known about the underlying genetic causes of these traits, especially Vulpes corsac. In this study, RNA‐Seq was used to obtain a comprehensive dataset for multiple pooled tissues of corsac fox, and selection analysis of orthologous genes was performed to identify the genes that may be influenced by the low‐temperature environment. More than 6.32 Gb clean reads were obtained and assembled into a total of 173,353 unigenes with an average length of 557 bp for corsac fox. Selective pressure analysis showed that 16 positively selected genes (PSGs) were identified in corsac fox, red fox, and arctic fox. Enrichment analysis of PSGs showed that the LRP11 gene was enriched in several pathways related to the low‐temperature response and might play a key role in response to environmental stimuli of foxes. In addition, several positively selected genes were related to DNA damage repair (ELP2 and CHAF1A), innate immunity (ARRDC4 and S100A12), and the respiratory chain (NDUFA5), and these positively selected genes might play a role in adaptation to harsh wild fox environments. The results of common orthologous gene analysis showed that gene flow or convergent evolution might be an important factor in promoting regional differentiation of foxes. Our study provides a valuable transcriptomic resource for the evolutionary history of the corsac fox and the adaptations to the extreme environments. [ABSTRACT FROM AUTHOR]

Published

2022

21. Cranium Variations between Arctic Foxes (Vulpes lagopus semenovi, Vulpes lagopus beringensis) on the Commander Islands and the Mainland Arctic Fox (Vulpes lagopus lagopus) in Comparison with Interspecies Variations in the Genera Urocyon and Vulpes (Canidae)

Author

Nanova, O. G.

Subjects

*ARCTIC fox, *RED fox, *CANIDAE, *SKULL, *ISLANDS

Abstract

The Arctic foxes, Vulpes lagopus, from the Commander Islands are known to be well differentiated in skull morphology from the mainland population. Our study is the first to compare this differentiation with interspecies variations in the family Canidae. The level of skull variations between the Arctic foxes of the Commander Islands and the mainland Arctic fox was compared with skull variations between (1) the gray fox, Urocyon cinereoargenteus, and the island fox, U. littoralis; and (2) three closely related species of the Arctic fox: the swift fox, V. velox, and the kit fox, V. macrotis. The skull variations between the Arctic foxes of the Commander Islands and the mainland Arctic fox were shown to correspond to the interspecies level of skull variation in sister species of the genera Vulpes and Urocyon. No general trend in skull variation has been found between the species studied and isolated populations. The craniological data presented support the separation of foxes from the Commander Islands as a distinct species, V. beringensis Merriam 1902, with two subspecies: V. b. semenovi Ognev 1931 (Medny Island) and V. b. beringensis Merriam 1902 (Bering Island). The Arctic foxes of the Commander Islands are a unique part of the biological diversity and must be strictly protected. [ABSTRACT FROM AUTHOR]

Published

2021

22. HINTERLAND WHO’S WHO.

Author

Langlois, Annie

Subjects

*HINTERLAND, *ARCTIC fox, *SOCIAL media mobile apps, *RED fox

Abstract

Annie Langlois, the coordinator of the Hinterland Who's Who program, recently visited Churchill, Manitoba, to film new videos for the program. The latest videos will feature the Arctic fox and the beluga, showcasing the wildlife of northern Canada. Langlois explains that climate change has had a negative impact on the Arctic fox population, with red foxes pushing them further north. Despite this, Langlois and her team were able to observe polar bears in good health in the Churchill area. The Hinterland Who's Who program has more exciting projects in the works, including additional videos and educational materials. [Extracted from the article]

Published

2024

23. INSPIRATIONAL FANT ASY.

Subjects

POLYMER clay, ARCTIC fox, SELF-doubt, COMPUTER-generated imagery, RED fox

Abstract

The article offers step-by-step instructions for making sculptures including the calling card, bottled mushrooms and Treasure guard Dragon from polymer clay.

Published

2022

24. Wildlife, wild and free.

Subjects

URBAN animals, ARCTIC fox, RED fox, AFRICAN elephant, REPTILES, ELEPHANTS, FOXES

Published

2022

25. Comparative transcriptome provides insights into the selection adaptation between wild and farmed foxes.

Author

Yang, Xiufeng, Liu, Guangshuai, Wang, Qi, Gao, Xiaodong, Xia, Tian, Zhao, Chao, Dou, Huashan, and Zhang, Honghai

Subjects

*TRANSCRIPTOMES, *ARCTIC fox, *RED fox, *ANIMAL breeding, *NATURAL immunity, *DNA repair, *FOXES

Abstract

The silver fox and blue fox are economically important fur species and were domesticated by humans from their wild counterparts, the arctic fox and red fox, respectively. Farmed foxes show obvious differences from their wild counterparts, including differences in physiology, body size, energy metabolism, and immunity. However, the molecular mechanisms underlying these differences are presently unclear. In this study, we built transcriptome libraries from multiple pooled tissues for each species of farmed fox, used RNA‐seq to obtain a comprehensive dataset, and performed selection analysis and sequence‐level analyses of orthologous genes to identify the genes that may be influenced by human domestication. More than 153.3, 248.0, 81.6, and 65.8 million clean reads were obtained and assembled into a total of 118,577, 401,520, 79,900, and 186,988 unigenes with an average length range from 521 to 667 bp for AF, BF, RF, and SF, respectively. Selective pressure analysis showed that 11 and 14 positively selected genes were identified, respectively, in the two groups (AF vs. BF and RF vs. SF). Several of these genes were associated with natural immunity (CFI and LRRFIP1), protein synthesis (GOLGA4, CEP19 and SLC35A2), and DNA damage repair (MDC1). Further functional enrichment analyses demonstrated that two positively selected genes (ACO1 and ACAD10) were involved in metabolic process (GO:0008152, p‐value =.032), representing a significant enrichment. Sequence analysis of 117 orthologous genes shared by the two groups showed that the LEMD2, RRBP1, and IGBP1 genes might be affected by artificial selection in farmed foxes, with mutation sites located within sequences that are otherwise highly conserved across most mammals. Our results provide a valuable transcriptomic resource for future genetic studies and improvement in the assisted breeding of foxes and other farmed animals. [ABSTRACT FROM AUTHOR]

Published

2021

26. Genetic changes and evolutionary analysis of canine circovirus.

Author

Wang, Lin, li, Yifan, Guo, Zhiyuan, Yi, Ying, Zhang, Han, Shangguan, Haikun, Huang, Chengshi, and Ge, Junwei

Subjects

*BATS, *RED fox, *PRINCIPAL components analysis, *ARCTIC fox, *NATURAL selection, *CANIS

Abstract

Canine circovirus (canineCV) has been found to be associated with vasculitis, hemorrhage, hemorrhagic enteritis, and diarrhea of canines. CanineCV, like other circoviruses, may also be associated with lymphoid depletion and immunosuppression. This circovirus has been detected worldwide in different countries and species. Recombination and mutation events in the canineCV genome have been described, indicating that the virus is continuing to evolve. However, the origin, codon usage patterns, and host adaptation of canineCV remain to be studied. Here, the coding sequences of 93 canineCV sequences available in the GenBank database were used for analysis. The results showed that canineCV sequences could be classified into five genotypes, as confirmed by phylogenetic and principal component analysis (PCA). Maximum clade credibility (MCC) and maximum-likelihood (ML) trees suggested that canineCV originated from bat circovirus. G/T and A/C nucleotide biases were observed in ORF1 and ORF2, respectively, and a low codon usage bias (CUB) was found in canineCV using an effective number of codon (ENC) analysis. Correlation analysis, ENC plot analysis and neutrality plot analysis indicated that the codon usage pattern was mainly shaped by natural selection. Codon adaptation index (CAI) analysis, relative codon deoptimization index (RCDI) analysis, and similarity index (SiD) analysis revealed a better adaption to Vulpes vulpes than to Canis familiaris. Furthermore, a cross-species transmission hypothesis that canineCV may have evolved from bats (origin analysis) and subsequently adapted to wolves, arctic foxes, dogs, and red foxes, was proposed. This study contributes to our understanding of the factors related to canineCV evolution and host adaption. [ABSTRACT FROM AUTHOR]

Published

2021

27. Subsistence activities in the gravettian occupations of the Pushkari group: Pushkari I and Pushkari VIII (Pogon) (Ukraine).

Author

Demay, L., Vasyliev, P.M., and Belyaeva, V.I.

Subjects

*SUBSISTENCE farming, *LAST Glacial Maximum, *MAMMOTHS, *ARCTIC fox, *RED fox, *WOLVES, *REINDEER

Abstract

In the Eastern European Plain, the Desna valley has delivered few gravettian settlements. The group of Pushkari is characterized by final gravettian occupations relied to the Last Glacial Maximum, before the maximum peak. These are the sites of Pushkari I and Pushkari VIII (Pogon). New excavations were conducted for the last decades. In order to highlight the subsistence strategies adopted by humans we proceeded to the zooarchaeological and lithic analyses of these assemblages. In both sites, the faunal spectrum is restricted, mainly composed of Mammuthus primigenius , then Equus sp., R. tarandus , Canis lupus and Vulpes vulpes / Vulpes lagopus. The skeletal preservation and mortality profile of mammoth shows that they were slaughtered and butchered by human groups. Furthermore some bones were gathered, particularly tusks, which are associated to a new dwelling structure, fireplaces and small pits. These are two of the few final Gravettian sites showing a quite developed organization of the camps. Reindeer, horse and canids could also be hunted more punctually for the exploitation of fur, fat, meat and marrow. Moreover we have an important use of bones as fuel, whose mammoth bones. According to the lithic study, this is local flint exploited to produce blades and bladelets, tool-kit contains backed points and rectangles, points of large form and burins, relied to hunting and butchering activities. The Pushkari group shows among the last occupations of the Desna valley by late Gravettian peoples of a specific ethnic group, before that the end of the Last Glacial Maximum peak marks the disappearance of late Gravettian peoples and of human populations between 19 and 16,000 BP. [ABSTRACT FROM AUTHOR]

Published

2021

28. Ancient origin and genetic segregation of canine circovirus infecting arctic foxes (Vulpes lagopus) in Svalbard and red foxes (Vulpes vulpes) in Northern Norway.

Author

Urbani, Lorenza, Tryland, Morten, Ehrich, Dorothee, Fuglei, Eva, Battilani, Mara, and Balboni, Andrea

Subjects

*ARCTIC fox, *RED fox, *NUCLEOTIDE sequence, *DOGS, *VIRAL transmission

Abstract

Canine circovirus (CanineCV) is a relatively new viral species, belonging to the family Circoviridae, whose pathogenic role is still uncertain. Since its first description in one domestic dog in 2011 from the USA, several reports have been documenting its distribution worldwide. Recently, CanineCV was also detected in wild animals such as wolves, foxes and badgers. In order to investigate the presence and the genetic characteristics of CanineCV in foxes of Arctic and Sub‐Arctic regions, the presence of CanineCV DNA in internal organs (liver and spleen) of 51 arctic foxes (Vulpes lagopus) from Svalbard archipelago and 59 red foxes (Vulpes vulpes) from Northern Norway, sampled from 1996 to 2001 and from 2014 to 2018, respectively, was screened by real‐time PCR. CanineCV was detected in 11/51 arctic foxes and in 10/59 red foxes, backdating the circulation of the virus at least to 1996 in the arctic fox population. The complete genome of 14 identified CanineCV was sequenced and analysed showing an identity higher than 80.8% with the reference strains available to date. According to the species demarcation threshold of 80% genome‐wide nucleotide sequence identity for members of the family Circoviridae provided by International Committee on Taxonomy of Viruses (ICTV), all the CanineCV belong to a single species. Phylogenetic analysis revealed that all the CanineCV were subdivided into five main clusters with one including only CanineCV identified in foxes. Furthermore, CanineCV identified in arctic foxes and red foxes formed two distinct lineages. From these data, we hypothesize that the viral transmission did not occur between the two species of foxes as a consequence of the lack of contact between the two hosts or that the virus acquired mutations in the time elapsed between the samplings. [ABSTRACT FROM AUTHOR]

Published

2021

29. The role of a mechanistic host in maintaining arctic rabies variant distributions: Assessment of functional genetic diversity in Alaskan red fox (Vulpes vulpes).

Author

Baecklund, Tristan M., Morrison, Jaycee, Donaldson, Michael E., Hueffer, Karsten, and Kyle, Christopher J.

Subjects

*RED fox, *ARCTIC fox, *FUNCTIONAL assessment, *RABIES, *MISSENSE mutation, *TOLL-like receptors

Abstract

Populations are exposed to different types and strains of pathogens across heterogeneous landscapes, where local interactions between host and pathogen may present reciprocal selective forces leading to correlated patterns of spatial genetic structure. Understanding these coevolutionary patterns provides insight into mechanisms of disease spread and maintenance. Arctic rabies (AR) is a lethal disease with viral variants that occupy distinct geographic distributions across North America and Europe. Red fox (Vulpes vulpes) are a highly susceptible AR host, whose range overlaps both geographically distinct AR strains and regions where AR is absent. It is unclear if genetic structure exists among red fox populations relative to the presence/absence of AR or the spatial distribution of AR variants. Acquiring these data may enhance our understanding of the role of red fox in AR maintenance/spread and inform disease control strategies. Using a genotyping-by-sequencing assay targeting 116 genomic regions of immunogenetic relevance, we screened for sequence variation among red fox populations from Alaska and an outgroup from Ontario, including areas with different AR variants, and regions where the disease was absent. Presumed neutral SNP data from the assay found negligible levels of neutral genetic structure among Alaskan populations. The immunogenetically-associated data identified 30 outlier SNPs supporting weak to moderate genetic structure between regions with and without AR in Alaska. The outliers included SNPs with the potential to cause missense mutations within several toll-like receptor genes that have been associated with AR outcome. In contrast, there was a lack of genetic structure between regions with different AR variants. Combined, we interpret these data to suggest red fox populations respond differently to the presence of AR, but not AR variants. This research increases our understanding of AR dynamics in the Arctic, where host/disease patterns are undergoing flux in a rapidly changing Arctic landscape, including the continued northward expansion of red fox into regions previously predominated by the arctic fox (Vulpes lagopus). [ABSTRACT FROM AUTHOR]

Published

2021

30. Severe asynapsis in spermatocytes of interspecific hybrids of the silver fox (Vulpes vulpes) and the blue fox (Alopex lagopus) leads to pachytene I arrest as a result of sustained H2AXγ phosphorylation.

Author

Bugno-Poniewierska, M., Witarski, W., Kuchta-Gładysz, M., Jakubczak, A., and Jeżewska-Witkowska, G.

Subjects

*ARCTIC fox, *RED fox, *PHOSPHORYLATION, *SILVER, *MEIOSIS, *PLANT hybridization, *MALE sterility in plants

Abstract

Infertility is frequently associated with meiotic anomalies which can result in the production of chromosomally abnormal gametes or be concomitant with meiotic arrest. We investigated whether spermatocytes of male interspecific hybrids of the red fox (Vulpes vulpes) and the arctic fox (Alopex lagopus) presented alterations in chromosomal synapses and meiotic checkpoint signalling. Using the immunofluorescence technique with SP1 and SP3 proteins, bivalent structures and their deviations (multivalents, univalents and not fully conjugated bivalents) were analyzed on meiotic preparations. This technique allowed the localization of frequent foci of phosphorylated histones H2AHγ (Ser 139) to the meiotic block in late pachytene. These results indicate a disruption of meiotic division in male fox hybrids, which leads to a high percentage of apoptotic cells in the gonads of these animals and, consequently, sterility. • Synaptonemal complex in spermatocytes of cross-species. • Analysis of asynapsis in spermatocytes of hybrids. • Crosspecies silver fox and blue fox. • arrest of pachyten I by sustained H2AXγ phosphorylation. [ABSTRACT FROM AUTHOR]

Published

2021

31. Red foxes increase reproductive output of white spruce in a non-mast year.

Author

Kucheravy, Caila E., Roth, James D., and Markham, John H.

Subjects

WHITE spruce, RED fox, ARCTIC fox, GRANIVORES, TREE growth, CONIFERS

Abstract

• Over many decades, red foxes increase nutrient concentrations and affect vegetation diversity on their dens in the boreal woodlands, a nutrient-poor environment. • Denning activity also affects the growth and reproduction of white spruce, a mast-seeding conifer. • White spruce on fox dens are taller and produce more cones in non-mast years than trees off dens. • The effects of denning are subject to the mast-seeding cycle, as cone production in mast years was not elevated on dens. Predators may act as ecosystem engineers by modifying their physical environment through non-trophic interactions. Red foxes (Vulpes vulpes) are ecosystem engineers in the boreal woodlands, a nutrient-poor environment, where their denning activity increases soil nutrient concentrations, affecting the diversity of vegetation around dens. Since dens can persist for many decades and tree growth is enhanced on dens, dens can be used to study the long term impacts of nutrient additions on community and ecosystem processes. We examined the reproductive output of a mast-seeding conifer, white spruce (Picea glauca), on 10 red fox dens and paired control sites at the boreal treeline near Churchill, Manitoba, in July 2019. We estimated cone production in both the current non-mast year (2019) and the previous mast year. The number of cones produced per tree and per hectare was significantly higher on dens than control sites in the non-mast year, but did not differ in the mast year. Higher cone production on dens was partly driven by trees being larger on dens. These results suggest that red fox ecosystem engineering activity affects white spruce reproduction, since increased soil nutrients on dens allow for higher cone production, but the effect of red fox denning is limited by interactions with mast-seeding mechanisms. For example, weather cues may override the effects of denning in mast years, while trees on dens may be able to allocate more resources to reproduction in non-mast years, but store the same amount of resources as trees off dens to produce similarly large cone crops in mast years. Altered resource availability in this nutrient-limited landscape could have additional ecological implications, by affecting the foraging patterns of seed predators and spruce range expansion. [ABSTRACT FROM AUTHOR]

Published

2021

32. Relationships between fox populations and rabies virus spread in northern Canada.

Author

Nadin-Davis, Susan A., Falardeau, Emilie, Flynn, Alex, Whitney, Hugh, and Marshall, H. Dawn

Subjects

*RABIES virus, *VIRAL transmission, *RED fox, *ARCTIC fox, *HAPLOTYPES, *MITOCHONDRIAL DNA

Abstract

Rabies spreads in both Arctic (Vulpes lagopus) and red foxes (Vulpes vulpes) throughout the Canadian Arctic but limited wildlife disease surveillance, due to the extensive landmass of the Canadian north and its small widely scattered human population, undermines our knowledge of disease transmission patterns. This study has explored genetic population structure in both the rabies virus and its fox hosts to better understand factors that impact rabies spread. Phylogenetic analysis of 278 samples of the Arctic lineage of rabies virus recovered over 40 years identified four sub-lineages, A1 to A4. The A1 lineage has been restricted to southern regions of the Canadian province of Ontario. The A2 lineage, which predominates in Siberia, has also spread to northern Alaska while the A4 lineage was recovered from southern Alaska only. The A3 sub-lineage, which was also found in northern Alaska, has been responsible for virtually all cases across northern Canada and Greenland, where it further differentiated into 18 groups which have systematically evolved from a common predecessor since 1975. In areas of Arctic and red fox sympatry, viral groups appear to circulate in both hosts, but both mitochondrial DNA control region sequences and 9-locus microsatellite genotypes revealed contrasting phylogeographic patterns for the two fox species. Among 157 Arctic foxes, 33 mitochondrial control region haplotypes were identified but little genetic structure differentiating localities was detected. Among 162 red foxes, 18 control region haplotypes delineated three groups which discriminated among the Churchill region of Manitoba, northern Quebec and Labrador populations, and the coastal Labrador locality of Cartwright. Microsatellite analyses demonstrated some genetic heterogeneity among sampling localities of Arctic foxes but no obvious pattern, while two or three clusters of red foxes suggested some admixture between the Churchill and Quebec-Labrador regions but uniqueness of the Cartwright group. The limited population structure of Arctic foxes is consistent with the rapid spread of rabies virus subtypes throughout the north, while red fox population substructure suggests that disease spread in this host moves most readily down certain independent corridors such as the northeastern coast of Canada and the central interior. Interestingly the evidence suggests that these red fox populations have limited capacity to maintain the virus over the long term, but they may contribute to viral persistence in areas of red and Arctic fox sympatry. [ABSTRACT FROM AUTHOR]

Published

2021

33. Highways associated with expansion of boreal scavengers into the alpine tundra of Fennoscandia.

Author

Rød‐Eriksen, Lars, Skrutvold, Johanna, Herfindal, Ivar, Jensen, Henrik, Eide, Nina E., and Bennett, Joseph

Subjects

*ARCTIC fox, *WASTE management, *MOUNTAIN ecology, *FRAGMENTED landscapes, *TUNDRAS, *BEVERAGE containers

Abstract

Habitat fragmentation may affect species distributions through, for example, altered resource availability and shifts in species interactions. Fragmentation by roads has had negative impacts on Fennoscandian alpine ecosystems, with reduction of habitats and connectivity for alpine species. Concurrently, infrastructure development causes influx of subsidies through roadkills and litter, which may facilitate expansion of boreal scavenging species, such as the red fox Vulpes vulpes, which may intensify negative interactions with alpine species. Hence, understanding the impact of subsidies within marginal alpine areas is imperative for successful conservation and management of particularly vulnerable alpine species.We used snow tracking and camera traps in three alpine tundra areas in Norway to investigate whether the presence of boreal scavengers was positively associated with highways during winter, and if this contrasted the pattern of a critically endangered alpine species, the Arctic fox Vulpes lagopus. In summer, artificial nests were used to assess whether predation risk was related to proximity to highways.During winter, the occurrence of red foxes was higher close to highways and decreased with increasing distance to highways, while the arctic fox showed no discernible pattern. Red fox occurrence increased with the number of edible items of anthropogenic origin located along highways, whereas arctic fox occurrence decreased.The overall predation risk of artificial nests during summer was high (>31.2%) and increased with proximity to the highway in the area with highest traffic volume.Synthesis and applications. Highways crossing alpine areas may attract boreal scavengers, possibly connected to increased access to subsidies of anthropogenic origin. Litter and food waste dominated available subsidies along highways in our study, and prevailing mitigating measures directed at reducing roadkill and movement restrictions may not be applicable to reduce negative effects of littering. We recommend actions focusing on informational campaigns, improved garbage disposal facilities and routines, and imposing fines for littering, to reduce negative impacts on vulnerable species. This is likely needed to achieve goals of 'no impact' from the physical loss of habitats due to road development. [ABSTRACT FROM AUTHOR]

Published

2020

34. Disentangling the relative influences of global drivers of change in biodiversity: A study of the twentieth‐century red fox expansion into the Canadian Arctic.

Author

Gallant, Daniel, Lecomte, Nicolas, Berteaux, Dominique, and Rueda, Marta

Subjects

*RED fox, *ARCTIC fox, *EFFECT of human beings on climate change, *CLIMATE change, *THERMAL stresses

Abstract

The poleward range shift of the red fox (Vulpes vulpes) > 1,700 km into the Arctic is one of the most remarkable distribution changes of the early twentieth century. While this expansion threatens a smaller arctic ecological equivalent, the arctic fox (Vulpes lagopus), the case became a textbook example of climate‐driven range shifts.We tested this classical climate change hypothesis linked to an important range shift which has attracted little research thus far.We analysed Canadian fur harvest data from the Hudson's Bay Company Archives (14 trading posts; 1926–1950), testing hypotheses based on changes in summer and winter climates. Summer warming might have triggered a bottom‐up increase in ecosystem productivity, while winter warming might have lowered thermal stress, both favouring red fox expansion. Additionally, we evaluated the hypothesis that red fox expansion was driven by the appearance of human sedentary sites (n = 110) likely bringing food subsidies into the unproductive tundra.Analysis of red fox expansion chronologies showed that expansion speed was higher during warmer winters. However, the expansions occurred under both cooling and warming trends, being faster during cooler summers in the Baffin Island region. The increasing proportion of red fox in fox fur harvests was best explained by human activity, while generalized linear mixed models also revealed a marginal effect of warmer winters. Generalized additive models confirmed human presence as the most important factor explaining rates of change in the proportion of red fox in fox fur harvests.Using historical ecology, we disentangled the relative influences of climate change and anthropogenic habitat change, two global drivers that transformed arctic biodiversity during the last century and will likely continue to do so during this century. Anthropogenic food subsidies, which constitute stable food sources, facilitated the invasion of the tundra biome by a new mammalian predator and competitor, with long‐term consequences that still remain to be understood. [ABSTRACT FROM AUTHOR]

Published

2020

35. Were ancient foxes far more carnivorous than recent ones?—Carnassial morphological evidence.

Author

Szuma, Elwira and Germonpré, Mietje

Subjects

*ARCTIC fox, *FOXES, *RED fox, *CARNIVOROUS animals, *DENTITION, *MOLARS

Abstract

Crown shape variation of the first lower molar in the arctic (Vulpes lagopus) and red foxes (Vulpes vulpes) was analyzed using five groups of morphotypes. Carnassial morphologies were compared between the species and between spatially and temporally distant populations: one Late Pleistocene (n = 45) and seven modern populations of the arctic fox (n = 259), and one Late Pleistocene (n = 35) and eight modern populations of the red fox (n = 606). The dentition of Holocene red foxes had larger morphotype variability than that of arctic foxes. The lower carnassials of the red fox kept have some primitive characters (additional cusps and stylids, complex shape of transverse cristid), whereas the first lower molars of the arctic fox have undergone crown shape simplification, with the occlusal part of the tooth undergoing a more pronounced adaptation to a more carnivorous diet. From the Late Pleistocene of Belgium to the present days, the arctic fox's crown shape has been simplified and some primitive characters have disappeared. In the red fox chronological changes in the morphology of the lower carnassials were not clearly identified. The phyletic tree based on morphotype carnassial characteristics indicated the distinctiveness of both foxes: in the arctic fox line, the ancient population from Belgium and recent Greenland made separate branches, whereas in the red foxes the ancient population from Belgium was most similar to modern red foxes from Belgium and Italy. [ABSTRACT FROM AUTHOR]

Published

2020

36. Molecular detection and genotype distribution of Enterocytozoon bieneusi in farmed silver foxes (Vulpes vulpes) and arctic foxes (Vulpes lagopus) in Shandong Province, eastern China.

Author

Ma, Yuan-Yuan, Zou, Yang, Ma, Ye-Ting, Nie, Lan-Bi, Xie, Shi-Chen, Cong, Wei, Xu, Qian-Ming, and Zhu, Xing-Quan

Subjects

*RED fox, *ARCTIC fox, *FOXES, *GENOTYPES, *ECHINOCOCCUS granulosus, *ANIMAL species, *PLANT molecular biology

Abstract

Enterocytozoon bieneusi is an opportunistic enteric pathogen which can infect a wide range of animal species and humans. It is the most diagnosed species of Microsporidia in humans and has an impact on public health. Many infected animals including foxes may be a potential source for transmitting E. bieneusi to humans. However, limited information is available on the E. bieneusi prevalence and genotypes in farmed foxes in China. Therefore, in the present study, 344 fresh fecal samples were collected from farmed foxes (Vulpes vulpes and Vulpes lagopus) in Shandong Province, and the prevalence and genotypes of E. bieneusi were examined based on sequence analysis of the ribosomal internal transcribed spacer (ITS) region. The overall E. bieneusi prevalence was 9% (31/344); of them, 6.5% (9/138) in farmed silver foxes (V. vulpes) and 10.7% (22/206) in farmed arctic foxes (V. lagopus). Moreover, four known (Hum-q1, NCF2, HND-1, and Type IV) and two novel E. bieneusi genotypes (SDF1 and SDF2) were identified in farmed foxes in the present study. All of the E. bieneusi genotypes belonged to the zoonotic group based on phylogenetic analysis. In addition, 2, 4, 0, and 11 samples were successfully amplified at MS1, MS3, MS4, and MS7 loci, respectively. The present study reveals E. bieneusi prevalence and genotype distribution in farmed foxes in Shandong Province and enlarged the host and geographic information of E. bieneusi in China. [ABSTRACT FROM AUTHOR]

Published

2020

37. Canid competition for Arctic fox dens on the tundra.

Author

Johnson‐Bice, Sean M, Rodrigues, Chloé Warret, and Roth, James D

Subjects

ARCTIC fox, RED fox, FROZEN ground, CANIDAE, TUNDRAS, TAIGAS, FOXES

Abstract

This article discusses the competition for Arctic fox dens on the tundra by other canid species, specifically red foxes and gray wolves. The study observed a den that was occupied by both red foxes and Arctic foxes at different times, leading to antagonism between the two species. Additionally, wolves were documented visiting the den during the volatile period of occupation. The decline in Arctic fox abundance in the area is attributed to climate-induced changes in prey availability and abundance. The article raises questions about the long-term fate of Arctic fox-created hotspots as climate change progresses and larger, more dominant competitors potentially take over these dens. [Extracted from the article]

Published

2024

38. Successful eradication of introduced foxes from large Aleutian islands

Author

Ebbert, Steve

Subjects

Aleutian Islands, Aleutian Canada goose, Alaska maritime National Wildlife Refuge, alien species, arctic fox, biodiversity restoration, introduced species, red fox, seabirds, eradication, islands

Abstract

The Aleutians are a volcanic chain of 200 named treeless islands, islets, and rocks that extend west off the Alaska mainland for more than 1,100 miles. Almost all of the Aleutian Islands have had non-native mammals introduced, including foxes, since their discovery by Russia in 1741. Most islands are in the Alaska Maritime National Wildlife Refuge, and since 1949, the U.S. Fish and Wildlife Service has eradicated foxes from 36 islands (951,174 acres) using various methods. Most recently, foxes have been eliminated from some of the largest islands (more than 50,000 acres) in the refuge by simultaneously trapping from three two-person camps using primarily leg hold traps. Recently, M44 devices were used during eradication efforts, although most foxes were taken by traps and shooting. Foxes are being removed to restore the native biological diversity.

Published

2000

39. Comparative Study of the Bush Dog (Speothos venaticus) Karyotype and Analysis of Satellite DNA Sequences and Their Chromosome Distribution in Six Species of Canidae.

Author

Vozdova, Miluse, Kubickova, Svatava, Cernohorska, Halina, Fröhlich, Jan, Vodicka, Roman, and Rubes, Jiri

Subjects

*KARYOTYPES, *SATELLITE DNA, *CANIDAE, *NUCLEOTIDE sequence, *DNA analysis, *RACCOON dog, *DNA

Abstract

The bush dog (Speothos venaticus, 2n = 74) is a near threatened species taxonomically classified among South American canids. We revised the bush dog karyotype and performed a comparative sequence analysis of satellite and satellite-like DNAs in 6 canids: the bush dog, domestic dog (Canis familiaris, 2n = 78), grey wolf (C. lupus, 2n = 78), Chinese raccoon dog (Nyctereutes procyonoides procyonoides, 2n = 54+B), red fox (Vulpes vulpes, 2n = 34+B), and arctic fox (V. lagopus, 2n = 48-50) to specify the species position among Canidae. Using FISH with painting and BAC probes, we found that the distribution of canid evolutionarily conserved chromosome segments in the bush dog karyotype is similar to that of the domestic dog and grey wolf. The bush dog karyotype differs by 2 acrocentric chromosome pairs formed by tandem fusions of the canine (29;34) and (26;35) orthologues. An interstitial signal of the telomeric probe was observed in the (26;35) fusion site in the bush dog indicating a recent evolutionary origin of this rearrangement. Sequences and hybridisation patterns of satellite DNAs were compared, and a phylogenetic tree of the 6 canid species was constructed which confirmed the bush dog position close to the wolf-like canids, and apart from the raccoon dog and foxes. [ABSTRACT FROM AUTHOR]

Published

2019

40. Origins of the arctic fox variant rabies viruses responsible for recent cases of the disease in southern Ontario.

Author

Nadin-Davis, Susan A. and Fehlner-Gardiner, Christine

Subjects

*RABIES virus, *ARCTIC fox, *ANIMAL diseases, *RED fox, *VETERINARY medicine

Abstract

A subpopulation of the arctic fox lineage of rabies virus has circulated extensively in red fox populations of Ontario, Canada, between the 1960s and 1990s. An intensive wildlife rabies control program, in which field operations were initiated in 1989, resulted in elimination of the disease in eastern Ontario. However in southwestern Ontario, as numbers of rabid foxes declined the proportion of skunks confirmed to be infected with this rabies virus variant increased and concerted control efforts targeting this species were employed to eliminate the disease. Since 2012 no cases due to this viral variant were reported in southwestern Ontario until 2015 when a single case of rabies due to the arctic fox variant was reported in a bovine. Several additional cases have been documented subsequently. Since routine antigenic typing cannot discriminate between the variants which previously circulated in Ontario and those from northern Canada it was unknown whether these recent cases were the result of a new introduction of this variant or a continuation of the previous enzootic. To explore the origins of this new outbreak whole genome sequences of a collection of 128 rabies viruses recovered from Ontario between the 1990s to the present were compared with those representative of variants circulating in the Canadian north. Phylogenetic analysis shows that the variant responsible for current cases in southwestern Ontario has evolved from those variants known to circulate in Ontario previously and is not due to a new introduction from northern regions. Thus despite ongoing passive surveillance the persistence of wildlife rabies went undetected in the study area for almost three years. The apparent adaptation of this rabies virus variant to the skunk host provided the opportunity to explore coding changes in the viral genome which might be associated with this host shift. Several such changes were identified including a subset for which the operation of positive selection was supported. The location of a small number of these amino acid substitutions in or close to protein motifs of functional importance suggests that some of them may have played a role in this host shift. [ABSTRACT FROM AUTHOR]

Published

2019

41. The fluctuating world of a tundra predator guild: bottom‐up constraints overrule top‐down species interactions in winter.

Author

Stoessel, Marianne, Elmhagen, Bodil, Vinka, Mikael, Hellström, Peter, and Angerbjörn, Anders

Subjects

*PREDATORY animals, *PREDATION, *GLOBAL warming, *ARCTIC fox, *RED fox, *WOLVERINE

Abstract

Global warming is predicted to change ecosystem functioning and structure in Arctic ecosystems by strengthening top‐down species interactions, i.e. predation pressure on small herbivores and interference between predators. Yet, previous research is biased towards the summer season. Due to greater abiotic constraints, Arctic ecosystem characteristics might be more pronounced in winter. Here we test the hypothesis that top‐down species interactions prevail over bottom‐up effects in Scandinavian mountain tundra (Northern Sweden) where effects of climate warming have been observed and top‐down interactions are expected to strengthen. But we test this 'a priori' hypothesis in winter and throughout the 3–4 yr rodent cycle, which imposes additional pulsed resource constraints. We used snowtracking data recorded in 12 winters (2004–2015) to analyse the spatial patterns of a tundra predator guild (arctic fox Vulpes lagopus, red fox Vulpes vulpes, wolverine Gulo gulo) and small prey (ptarmigan, Lagopus spp). The a priori top‐down hypothesis was then tested through structural equation modelling, for each phase of the rodent cycle. There was weak support for this hypothesis, with top‐down effects only discerned on arctic fox (weakly, by wolverine) and ptarmigan (by arctic fox) at intermediate and high rodent availability respectively. Overall, bottom‐up constraints appeared more influential on the winter community structure. Cold specialist predators (arctic fox and wolverine) showed variable landscape associations, while the boreal predator (red fox) appeared strongly dependent on productive habitats and ptarmigan abundance. Thus, we suggest that the unpredictability of food resources determines the winter ecology of the cold specialist predators, while the boreal predator relies on resource‐rich habitats. The constraints imposed by winters and temporary resource lows should therefore counteract productivity‐driven ecosystem change and have a stabilising effect on community structure. Hence, the interplay between summer and winter conditions should determine the rate of Arctic ecosystem change in the context of global warming. [ABSTRACT FROM AUTHOR]

Published

2019

42. Age-Related Changes in the Tissue Antioxidant System of Canids.

Author

Sergina, S. N., Ilyukha, V. A., Baishnikova, I. V., and Antonova, E. P.

Subjects

*PROXIMAL kidney tubules, *CANIDAE, *ARCTIC fox, *RACCOON dog, *RED fox, *ANIMAL species

Abstract

The study was aimed at determining tissue antioxidant levels in three closely related albeit ecologically different Canidae species: the raccoon dog (Nyctereutes procyonoides), silver fox (Vulpes vulpes) and blue fox (Vulpes lagopus), aged 0.5 (juvenile), 1.5–3.5 (adult) and 4.5–5.5 (aging) years. Some tested parameters were found to be species-specific: as compared to other species, raccoon dogs and blue foxes exhibited higher α-tocopherol levels in the liver and kidney, blue foxes were characterized by a higher activity of the antioxidant enzymes in the kidneys, while silver foxes had higher glutathione (GSH) levels in the liver, kidneys and heart. The antioxidant defense system in all organs of the tested species was distinguished by a relative stability. In raccoon dogs, the retinol level in the heart increased with age, while in silver foxes it is only superoxide dismutase (SOD) activity in the kidneys and the GSH level in the liver and heart that underwent significant changes with age. In blue foxes, aging was accompanied by an increase in liver retinol and kidney α-tocopherol levels as well as a decrease in the kidney GSH level. Besides, sex differences were found in antioxidant levels in blue foxes. Our results are consistent with the data obtained by other authors for other animal species, indicating a mixed pattern of age-related changes in the antioxidant defense system of carnivorous canids. While some antioxidants rise and the other fall, the functionality of the whole system does not appear to be disturbed. Ecological and physiological features of different mammalian species may determine the adaptive potential of animals and affect the tested indicators of the antioxidant defense system during late postnatal ontogenesis. [ABSTRACT FROM AUTHOR]

Published

2019

43. Dynamics and persistence of rabies in the Arctic.

Author

Simon, Audrey, Tardy, Olivia, Hurford, Amy, Lecomte, Nicolas, Bélanger, Denise, and Leighton, Patrick A.

Subjects

RABIES, ARCTIC fox, RED fox, RABIES virus, EPIDEMIOLOGICAL models, INCUBATION period (Communicable diseases)

Abstract

Rabies is a major issue for human and animal health in the Arctic, yet little is known about its epidemiology. In particular, there is an ongoing debate regarding how Arctic rabies persists in its primary reservoir host, the Arctic fox (Vulpes lagopus), which exists in the ecosystem at very low population densities. To shed light on the mechanisms of rabies persistence in the Arctic, we built a susceptible–exposed–infectious–recovered (SEIR) epidemiological model of rabies virus transmission in an Arctic fox population interacting with red foxes (Vulpes vulpes), a rabies host that is increasingly present in the Arctic. The model suggests that rabies cannot be maintained in resource-poor areas of the Arctic, characterized by low Arctic fox density, even in the presence of continuous reintroduction of the virus by infected Arctic foxes from neighbouring regions. However, in populations of relatively high Arctic fox density, rabies persists under conditions of higher transmission rate, prolonged infectious period and for a broad range of incubation periods. Introducing the strong cyclical dynamics of Arctic prey availability makes simulated rabies outbreaks less regular but more intense, with an onset that does not neatly track peaks in Arctic fox density. Finally, interaction between Arctic and red foxes increases the frequency and/or the intensity of rabies outbreaks in the Arctic fox population. Our work suggests that disruption of prey cycles and increasing interactions between Arctic and red foxes due to climate change and northern development may significantly change the epidemiology of rabies across the Arctic. [ABSTRACT FROM AUTHOR]

Published

2019

44. A screening for canine distemper virus, canine adenovirus and carnivore protoparvoviruses in Arctic foxes (Vulpes lagopus) and red foxes (Vulpes vulpes) from Arctic and sub-Arctic regions of Norway

Author

Morten Tryland, Andrea Balboni, Siw Turid Killengreen, Torill Mørk, Ole Nielsen, Nigel Gilles Yoccoz, Rolf Anker Ims, and Eva Fuglei

Subjects

adenovirus, Arctic fox, morbillivirus, parvovirus, red fox, Environmental sciences, GE1-350, Oceanography, GC1-1581

Abstract

Canine distemper virus (CDV), canine adenovirus (CAdV) and canine parvovirus type 2 (CPV-2) cause disease in dogs (Canis familiaris). These, or closely related viruses, may also infect wild carnivores. The aim of this study was to investigate exposure to CDV, CAdV and CPV-2 among fox populations in Norway. Arctic foxes (n = 178) from High-Arctic Svalbard were investigated for antibodies against CDV. Arctic foxes (n = 301) from Svalbard and red foxes from Low-Arctic (n = 326) and sub-Arctic (n = 74) regions in Finnmark County, Norway, were investigated for antibodies against CAdV and for the presence of carnivore protoparvovirus DNA in spleen and mesenteric lymph nodes using polymerase chain reaction. Seroprevalence against CDV in Arctic foxes decreased from 25% (1995/96) to 6% (2001/02), whereas the seroprevalence against CAdV increased from 25–40% during the seasons 1995/96 to 2001/02 to 68% for the last study year (2002/03). In red foxes, the seroprevalence against CAdV varied between 31% and 67% for the seasons 2004/05 to 2007/08, increasing to 80% for the last study year. Carnivore protoparvovirus DNA was not detected in any of the 301 Arctic foxes and the 265 red foxes investigated. These results show that CDV and CAdV are enzootic in the Arctic fox population (Svalbard), and that CAdV is enzootic in both the Low-Arctic and sub-Arctic red fox populations (Finnmark). Further studies are needed to better understand the infection biology and the impact of CDV and CAdV in these fox populations, and if viruses may be shared between foxes and other carnivores, including dogs.

Published

2018

45. Belyaev's and PEI's Foxes: A Far Cry.

Author

Trut, Lyudmila N., Kharlamova, Anastasiya V., and Herbeck, Yury E.

Subjects

*DOMESTICATION of animals, *FOXES, *ARCTIC fox, *RED fox, *DOMESTIC animals, *HORSES

Published

2020

46. Investigating the ancestry of putative hybrids: are Arctic fox and red fox hybridizing?

Author

Yannic, Glenn, Statham, Mark, Denoyelle, Laure, Szor, Guillaume, Qulaut, George, Sacks, Benjamin, and Lecomte, Nicolas

Subjects

MAMMAL hybridization, RED fox, ARCTIC fox, EFFECT of climate on animal populations, MITOCHONDRIAL DNA, SEX chromosomes, MAMMALS

Abstract

Global climate change induces species range shifts and population expansion to higher latitudes in response to rising temperatures. One consequence of climate-induced range shifts is an increased sympatry between related but previously isolated species, potentially resulting in interspecific interactions and hybridization. The Arctic is more rapidly affected by climate warming than any region on Earth and resident species may be prone to interspecific hybridization due to the immigration of new colonizing species. The red fox Vulpes vulpes expanded its range into the Arctic during the twentieth century and is now in sympatry with the native Arctic fox Vulpes lagopus in many places. In this context, an Arctic-like fox displaying an unusual reddish winter coat was observed in 2013 in Nunavut, Canada, a phenotype unknown by Inuit people to date. In this study, we assessed the biological origin of this specimen with a multigenic approach using markers located on mitochondrial DNA, sex (X and Y) chromosomes, and autosomes (microsatellites and the melanocortin 1 receptor (MC1R) gene; a gene involved in the color polymorphism in canids). Our comparative analyses with genetic material from Arctic and red foxes displaying 'classic' phenotypes ( N = 14 and 16, respectively) suggested a pure Arctic fox origin of the specimen. Specifically, this fox yielded mtDNA, X-linked, Y-linked, and MC1R alleles specific to Arctic fox. Bayesian genetic assignment based on 16 microsatellite loci assigned it to Arctic fox with high confidence ( q = 99.7%). Thus, a recent hybrid origin for this specimen is excluded. This alternative winter coat color polymorphism in Arctic fox requires further analyses to determine its underlying genetic mechanism. [ABSTRACT FROM AUTHOR]

Published

2017

47. The Arctic Fox.

Author

Betteley, Pat

Subjects

ARCTIC fox, FELIDAE, RED fox, EXTREME weather, DEAD animals

Abstract

Cuteness aside, the arctic fox is a hardy survivor, able to withstand frigid Arctic temperatures as low as -58 degrees F. Known to have the best insulation of any animal, its thick fur keeps its body a toasty 104°F. The arctic fox belongs to its own group - Vulpes lagopus, which means "hairy-footed fox." The larger red fox is outcompeting the arctic fox in Scandinavia. [Extracted from the article]

Published

2022

48. Interference in the tundra predator guild studied using local ecological knowledge.

Author

Ehrich, Dorothee, Strømeng, Marita, and Killengreen, Siw

Subjects

*PREDATORY animals, *WOLVES, *LYNX, *RED fox, *PREDATION, *ARCTIC fox

Abstract

The decline or recolonization of apex predators such as wolves and lynx, often driven by management decisions, and the expansion of smaller generalist predators such as red foxes, can have important ecosystem impacts. The mesopredator release hypothesis proposes that apex predators control medium-sized predator populations through competition and/or intraguild predation. The decline of apex predators thus leads to an increase in mesopredators, possibly with a negative impact on prey populations. Information about the abundance of mammalian tundra predators, wolf ( Canis lupus), wolverine ( Gulo gulo), lynx ( Lynx lynx), red fox ( Vulpes vulpes) and arctic fox ( Vulpes lagopus) was collected from local active outdoors people during semi-structured interviews in 14 low arctic or sub-arctic settlements in western Eurasia. The perceived abundance of red fox decreased with higher wolf abundance and in more arctic areas, but the negative effect of wolves decreased in more arctic and therefore less productive ecosystems. The perceived abundance of arctic fox increased towards the arctic and in areas with colder winters. Although there was a negative correlation between the two fox species, red fox was not included in the model for perceived arctic fox abundance, which received most support. Our results support the mesopredator release hypothesis regarding the expansion of red foxes in subarctic areas and indicate that top-down control by apex predators is weaker in less productive and more arctic ecosystems. We showed that local ecological knowledge is a valuable source of information about large-scale processes, which are difficult to study through direct biological investigations. [ABSTRACT FROM AUTHOR]

Published

2016

49. Correction.

Subjects

*RED fox, *ARCTIC fox

Published

2023

50. Conservation of the endangered Arctic fox in Norway - are successful reintroductions enough?

Author

Landa, Arild, Rød-Eriksen, Lars, Ulvund, Kristine R., Jackson, Craig, Thierry, Anne-Mathilde, Flagstad, Øystein, and Eide, Nina E.

Subjects

*ARCTIC fox, *MOUNTAIN animals, *RED fox, *WILDLIFE reintroduction, *FOXES, *BIOLOGICAL extinction, *CONSERVATION projects (Natural resources)

Abstract

Translocation of captive-bred animals has become a widespread conservation practice to counteract species extinctions. We analyse and discuss the apparent success and shortcomings of Arctic fox (Vulpes lagopus) reintroductions in alpine tundra areas of Norway. We followed the fate of 915 foxes between 2007 and 2020 and estimated the apparent survival and reproductive success of captive-bred and released Arctic foxes, compared to wild-born descendants. Relationship to abundance of small rodents, population size, and age were explored. Overall, apparent survival and probability of breeding were similar between captive-bred and wild-born foxes, positively linked to rodent abundance. For wild-born foxes, both breeding propensity and litter size declined with increasing fox population size. This could be a first sign of the limited capacity of single tundra patches to house self-subsistent populations. Thus, facilitating and maintaining connectivity among remnant and re-established Arctic fox populations, creating functional metapopulations, is essential for further improvement and long-term survival. Relying on the combined measures of supplementary feeding and red-fox (Vulpes vulpes) control, the Arctic fox captive-breeding and reintroduction programme has so far been highly successful. However, anthropogenic drivers facilitating red fox invasion into the Arctic fox habitat, along with climate driven irregularities and dampened small rodent cycles, could inhibit the establishment of a self-sustained population. A more holistic ecosystem approach and conservation measures to restore alpine fauna should be considered. • Captive-bred Arctic foxes perform equally well as wild-born foxes in the wild. • Obtaining metapopulation functionality appears pivotal for Arctic fox conservation. • Rodent abundance is important in spite of supportive feeding. • Climate driven irregularities and dampened rodent cycles challenge conservation goals. • Red fox invasion into the Arctic fox habitat could be limited by ecosystem-based management. [ABSTRACT FROM AUTHOR]

Published

2022