A beacon of dung: using lemming (Lemmus lemmus) winter nests and DNA analysis of faeces to further understand predator–prey dynamics in Northern Sweden

The hypothesis that predation is the cause of the regular small rodent population oscillations observed in boreal and Arctic regions has long been debated. Within this hypothesis, it is proposed that the most likely predators to cause these destabilizing effects are sedentary specialists, with small...

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Bibliographic Details
Published in:Polar biology 2021-12, Vol.44 (12), p.2269-2276
Main Authors: Vigués, Jan, Menci, Silvia, Wilkinson, Caitlin, Le Vaillant, Maryline, Angerbjörn, Anders, Norén, Karin
Format: Article
Language:English
Subjects:
Analysis
Arctic zone
Biomedical and Life Sciences
Dung
Ecology
Faecal DNA
Faeces
Feces
Genetic research
Hypotheses
Ice environments
Interspecific relationships
Lemmus lemmus
Life Sciences
Microbiology
Mitochondrial DNA
Mustela
Mustelid
Nests
Non-invasive genetic sampling
Norwegian lemming
Oceanography
Original Paper
Oscillations
Plant Sciences
Predation
Predator-prey interactions
Predators
Prey
Rodent cycles
Specificity
Sympatric populations
Tundra
Winter
Zoology
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Summary:The hypothesis that predation is the cause of the regular small rodent population oscillations observed in boreal and Arctic regions has long been debated. Within this hypothesis, it is proposed that the most likely predators to cause these destabilizing effects are sedentary specialists, with small mustelids being possible candidates. One such case would be the highly specialized least weasel ( Mustela nivalis ) driving the Norwegian lemming ( Lemmus lemmus ) cycle in Fennoscandia. These predators are often elusive and therefore distribution data can only be based on field signs, which is problematic when various mustelid species are sympatric, such as weasels and stoats ( Mustela erminea ). Here we present the results of using mustelid faeces in predated winter lemming nests to correctly identify the predator and thus discern which species exerts the strongest predation pressure on lemming winter populations. Samples were obtained during different phases in the lemming cycle, spanning 6 years, to account for different prey densities. Faecal mitochondrial DNA extraction and amplification of a 400-bp fragment was successful in 92/114 samples (81%); the sequencing of these samples proved that most predation occurrences (83%) could be attributed to the least weasel. These findings support the hypothesis that weasels in particular show high specificity in predation and could therefore be candidates to driving the lemming cycle in this area. We conclude that DNA analysis of faecal remains around predated nests can be a useful tool for further investigations concerning predator–prey interactions in the tundra.
ISSN:0722-4060
1432-2056
1432-2056
DOI:10.1007/s00300-021-02958-6