Book contents
- Frontmatter
- Contents
- List of contributors
- Preface
- 1 Adaptations to the semi-aquatic habit and habitat
- 2 Physiological challenges in semi-aquatic mammals: swimming against the energetic tide
- 3 Diving capacity and foraging behaviour of the water shrew (Neomys fodiens)
- 4 Habitat use by water shrews, the smallest of amphibious mammals
- 5 The importance of the riparian environment as a habitat for British bats
- 6 A preliminary study of the behaviour of the European mink Mustela lutreola in Spain, by means of radiotracking
- 7 The demography of European otters Lutra lutra
- 8 Habitat use and conservation of otters (Lutra lutra) in Britain: a review
- 9 The relationship between riverbank habitat and prey availability and the distribution of otter (Lutra lutra) signs: an analysis using a geographical information system
- 10 Influence of altitude on the distribution, abundance and ecology of the otter (Lutra lutra)
- 11 Diets of semi-aquatic carnivores in northern Belarus, with implications for population changes
- 12 Otter (Lutra lutra) prey selection in relation to fish abundance and community structure in two different freshwater habitats
- 13 Diet, foraging behaviour and coexistence of African otters and the water mongoose
- 14 Feeding ecology of the smooth-coated otter Lutra perspicillata in the National Chambal Sanctuary, India
- 15 Population trends of hippopotami in the rivers of the Kruger National Park, South Africa
- 16 Reproductive strategies of female capybaras: dry-season gestation
- 17 The continuing decline of the European mink Mustela lutreola: evidence for the intraguild aggression hypothesis
- 18 Otters and pollution in Spain
- 19 The rapid impact of resident American mink on water voles: case studies in lowland England
- 20 Status, habitat use and conservation of giant otter in Peru
- Index
17 - The continuing decline of the European mink Mustela lutreola: evidence for the intraguild aggression hypothesis
Published online by Cambridge University Press: 03 May 2010
- Frontmatter
- Contents
- List of contributors
- Preface
- 1 Adaptations to the semi-aquatic habit and habitat
- 2 Physiological challenges in semi-aquatic mammals: swimming against the energetic tide
- 3 Diving capacity and foraging behaviour of the water shrew (Neomys fodiens)
- 4 Habitat use by water shrews, the smallest of amphibious mammals
- 5 The importance of the riparian environment as a habitat for British bats
- 6 A preliminary study of the behaviour of the European mink Mustela lutreola in Spain, by means of radiotracking
- 7 The demography of European otters Lutra lutra
- 8 Habitat use and conservation of otters (Lutra lutra) in Britain: a review
- 9 The relationship between riverbank habitat and prey availability and the distribution of otter (Lutra lutra) signs: an analysis using a geographical information system
- 10 Influence of altitude on the distribution, abundance and ecology of the otter (Lutra lutra)
- 11 Diets of semi-aquatic carnivores in northern Belarus, with implications for population changes
- 12 Otter (Lutra lutra) prey selection in relation to fish abundance and community structure in two different freshwater habitats
- 13 Diet, foraging behaviour and coexistence of African otters and the water mongoose
- 14 Feeding ecology of the smooth-coated otter Lutra perspicillata in the National Chambal Sanctuary, India
- 15 Population trends of hippopotami in the rivers of the Kruger National Park, South Africa
- 16 Reproductive strategies of female capybaras: dry-season gestation
- 17 The continuing decline of the European mink Mustela lutreola: evidence for the intraguild aggression hypothesis
- 18 Otters and pollution in Spain
- 19 The rapid impact of resident American mink on water voles: case studies in lowland England
- 20 Status, habitat use and conservation of giant otter in Peru
- Index
Summary
Introduction
European mink, Mustela lutreola (Linnaeus 1761) look so similar to American mink, Mustela vison (Schreber, 1777) that the two were formerly distinguished only as subspecies (Ognev, 1931; Heptner et al., 1967; for a review, see Novikov, 1939). This similarity offers not only a striking instance of convergence, but also a plausible explanation of the European mink's precipitous decline to the verge of extinction. In fact, phylogenetically the European mink is probably closest to the Siberian polecat, Mustela sibirica (Pallas, 1773), whilst the American mink is the most aberrant in the genus Mustela (Lushnikova et al., 1989; Graphodatsky et al., 1976; Youngman, 1982).
The European mink was formerly widespread in eastern Europe, but has declined over a long period and by 1990 was clearly endangered (Maran, 1994 b). Here, after reviewing briefly the species’ biology, we will present the results of an up–dated survey of the European mink's status. Against that background we will present a critical review of hypotheses that might explain its decline, dwelling in particular on two that we will subject to a preliminary test by presenting new data. These two implicate the American mink, first through the transmission of disease and second as a direct aggressor.
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- Information
- Behaviour and Ecology of Riparian Mammals , pp. 297 - 324Publisher: Cambridge University PressPrint publication year: 1998
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