Lepus europaeus 

Scope: Global
Language: English

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Taxonomy [top]

Kingdom Phylum Class Order Family
Animalia Chordata Mammalia Lagomorpha Leporidae

Scientific Name: Lepus europaeus Pallas, 1778
Regional Assessments:
Common Name(s):
English European Hare, Brown Hare, European Brown Hare
French Lièvre D'Europe
Spanish Liebre Europea
Taxonomic Notes: There has been recent evidence that suggests that Petter's (1959, 1961) hypothesis of conspecificity of Lepus europaeus and L. capensis may be correct. A study of the nuclear gene pool of L. capensis, L. europaeus and the North African Hare, indicated that the North African Hare as well as L. europaeus belong to L. capensis (Ben Slimen et al. 2005). However, a study of the mtDNA of these three groups indicated a significant degree of divergence supporting species specific designation (Ben Slimen et al. 2006). Ben Slimen et al. (2008a) suggest that in a case such as the genus Lepus, where evolution is "rapid and to some extent reticulate" species designation based solely on mtDNA is misleading without examination of the nuclear gene pool. Ben Slimen et al. (2008a) has shown that genetic differentiation between L. capensis and L. europaeus could be attributed to geographic distance rather than divergence. They speculate that gene flow may be occurring in the Near East where distributions meet resulting in the potential for intergraded populations. Ben Slimen et al. (2008b) propose that "a combined phylogenetic, phylogeographic, and population genetic approach,…, based on various nuclear and mitochondrial markers and including other biological characters, such as phenotypic and morphometric data," are needed for conclusive evidence of a single species complex. Until data are available supporting a change in the taxonomic status of L. europaeus, it remains a true species.

There are 15 subspecies: Lepus europaeus caspicus, L. e. connori, L. e. creticus, L. e. cyprius, L. e. cyrensis, L. e. europaeus, L. e. hybridus, L. e. judeae, L. e. karpathorum, L. e. medius, L. e. occidentalis, L. e. parnassius, L. e. ponticus, L. e. rhodius, L. e. syriacus, and L. e. transsylvanicus (Hoffmann and Smith 2005).

Assessment Information [top]

Red List Category & Criteria: Least Concern ver 3.1
Year Published: 2008
Date Assessed: 2008-06-30
Assessor(s): Smith, A.T. & Johnston, C.H.
Reviewer(s): Smith, R.K. & Boyer, A.F. (Lagomorph Red List Authority)
Lepus europaeus is widespread and abundant across its geographic range (Flux and Angermann 1990). There is evidence of population declines beginning in the 1960s in association with the intensification of agricultural practices (Smith et al. 2005). It is listed under Appendix III of the Bern Convention in Europe (Vaughan et al. 2003). Several countries have placed L. europaeus on their Red List as "near threatened" or "threatened" (Reichlin 2006). There is growing concern regarding the status of regional forms of this species (Flux and Angermann 1990). Efforts should be made to ascertain total population decline for Europe and Asia (historic range) to determine if it qualifies for listing as Near Threatened.
Previously published Red List assessments:

Geographic Range [top]

Range Description:The current Eurasian distribution of Lepus europaeus extends from the northern provinces of Spain, to introduced populations in the United Kingdom and southern regions of Scandinavia, south to northern portions of the Middle East, and has naturally expanded east to sections of Siberia (Flux and Angermann 1990). This species has been introduced as a game species extensively to countries across the globe. These countries are: Argentina, Australia, Barbados, Brazil, Canada, Chile, Falkland Islands, New Zealand (North and South Island), Rèunion, the United Kingdom and the United States (Flux and Angermann 1990). There is recent evidence of an introduced population in Ireland (Reid pers. comm.). This species can be found at elevations ranging from sea level up to 2,300 m (Spitzenberger 2002)
Countries occurrence:
Albania; Austria; Belarus; Belgium; Bosnia and Herzegovina; Bulgaria; Croatia; Czech Republic; Denmark; Estonia; Finland; France (Corsica); Germany; Greece; Hungary; Iran, Islamic Republic of; Iraq; Israel; Italy; Latvia; Liechtenstein; Lithuania; Luxembourg; Macedonia, the former Yugoslav Republic of; Moldova; Montenegro; Netherlands; Poland; Romania; Russian Federation; Serbia; Slovakia; Slovenia; Spain; Switzerland; Syrian Arab Republic; Turkey; Ukraine
Argentina; Australia (Tasmania); Barbados; Brazil; Canada; Chile; Falkland Islands (Malvinas); Ireland; New Zealand; Réunion; Sweden; United Kingdom; United States; Uruguay
Additional data:
Upper elevation limit (metres):2300
Range Map:Click here to open the map viewer and explore range.

Population [top]

Population:Populations of Lepus europaeus have been experiencing declines in many areas across its geographic range in Europe (Flux and Angermann 1990). Population densities range from 0.1/ha to 3.4/ha (Flux and Angermann 1990).

A study conducted in the Czech Republic found mean hare densities were highest in habitat with the following characteristics (Pikula et al. 2004): elevation: sea level to 200 m (231.47/10 sq. km); annual snow cover duration: 40-60 days (183.95/10 sq. km); mean annual precipitation: 450-700 mm (174.71/10 sq. km); annual sunshine duration: 1801-2000 (169.72/10 sq. km); mean annual air temperature: >10.0˚C (245.00/10 sq. km); and Pikula et al. (2004) states the highest mean densities with respect to climatic areas was in: "A warm and dry district with mild winter and longer duration of sunshine; a warm and dry district with mild winter and shorter duration of sunshine; a warm and moderately dry district with mild winter" (227.91/10 sq. km) (Pikula et al. 2004).
Current Population Trend:Decreasing
Additional data:
Population severely fragmented:No

Habitat and Ecology [top]

Habitat and Ecology:Lepus europaeus is a highly adaptable species that can persist in any number of habitat types (Flux and Angermann 1990). There is a positive association with hare abundance and habitat density and diversity (Smith et al. 2005). When available, weeds and wild grasses are selected by L. europaeus; however, intensified agro-practices have reduced this food source resulting in the selection of crop species (Reichlin et al. 2006).

L. europaeus averages three litters/yr, but can vary from one to four litters/yr (Macdonald and Barrett 1993). Litter size can vary with respect to the season, smaller litters produced earlier in the season and larger litters later (Macdonald and Barrett 1993). The birth weight of L. europaeus is approximately 100 g (Macdonald and Barrett 1993). Gestation is 41-42 days and reproduction occurs year round (Macdonald and Barrett 1993). Average life expectancy for this hare is 1.04 years, with a maximum age span in the wild of 12.5 years recorded in Poland (Macdonald and Barrett 1993). Females reach maturity around seven to eight months and male at six months (Macdonald and Barrett 1993). The total length of L. europaeus is 48.0-70.0 cm (Macdonald and Barrett 1993).
Generation Length (years):2

Use and Trade [top]

Use and Trade: Lepus europaeus is recognized as an important game species throughout its historical distribution, including those areas where it has been introduced (Flux and Angermann 1990).

Threats [top]

Major Threat(s): A study, reviewing available literature regarding population densities in connection with habitat that was identified as primarily farmland from 12 European countries, concluded that the primary cause of Lepus europaeus decline was intensification of agriculture (Smith et al. 2005). It is inferred that this threat is pertinent to the species across its geographic range where farming is practiced. Smith et al. (2005) also identified negative associations with predation and precipitation in respect to abundance. However, "Field size, temperature, precipitation, and hunting had no effect on density throughout Europe" (Smith et al. 2005). L. europaeus is susceptible to localized extinction when hare densities become too low (Soule 1987). In Greece, the restocking of hares has been identified as a threat to regional gene pools (Mamuris et al. 2001). This issue has also been identified as a concern for the Cantabric population in Spain (Palacios et al. 2004). Disease is an additional threat to L. europaeus and several have been identified as the principle sources of mortality (Lamarque et al. 1996). These diseases are European Brown Hare Syndrome (EBHS), Pasteurellosis, Yersiniosis (Pseudo-tuberculosis), Coccidiosis and tularaemia (Lamarque et al. 1996).

Genetic diversity of L. europaeus in the North Rhine-Westphalia region of Germany indicates that hare populations still retain sufficient diversity (Fickel et al. 2005). However, it is cautioned that restricted gene flow could eventually lead to allelic fixation and inbreeding depression within populations that become isolated (Fickel et al. 2005).

Conservation Actions [top]

Conservation Actions: Lepus europaeus is recognized as an important game species throughout its distribution and as such conservation measures are required to halt declining populations (Flux and Angermann 1990). The recent decline of this species has garnered it protection under the Bern Convention as an Appendix III listing (Vaughan et al. 2003). In Norway, Germany, Austria and Switzerland, population declines have resulted in country-specific Red Listing as "near threatened" or "threatened" (Reichlin et al. 2006).

Research is needed to determine population dynamics specific to habitat type and the effects habitat change has on life history parameters with regard to declines (Smith et al. 2005). There is a lack of understanding as to why hare numbers are low in pastoral landscapes and therefore, research should be conducted within this habitat type with particular emphasis paid to demography and behavioral ecology (Smith et al. 2005). When population declines are the direct result of agricultural intensification, which results in increased application of fertilizer, landscape homogeneity and mechanization, population declines of L. europaeus can be countered by augmenting habitat to boost heterogeneity (Smith et al. 2005).

In Spain, molecular phylogenetic studies have shown that the Cantabric population has unique mtDNA in relation to other European populations (Palacios et al. 2004). As an important hunting species, declining numbers have prompted the importation of non-Iberian hares (from France and elsewhere) to supplement hare densities (Palacios et al. 2004). In an effort to conserve this population's gene pool, a captive breeding program has been implemented (Palacios et al. 2004). As of 2003 this program has successfully bred leverets and in 2004 turned its focus to increasing genetic variability by introducing individuals from new localities (Palacios et al. 2004).

Classifications [top]

3. Shrubland -> 3.3. Shrubland - Boreal
3. Shrubland -> 3.4. Shrubland - Temperate
3. Shrubland -> 3.8. Shrubland - Mediterranean-type Shrubby Vegetation
4. Grassland -> 4.4. Grassland - Temperate
14. Artificial/Terrestrial -> 14.1. Artificial/Terrestrial - Arable Land
14. Artificial/Terrestrial -> 14.2. Artificial/Terrestrial - Pastureland
2. Land/water management -> 2.1. Site/area management
2. Land/water management -> 2.3. Habitat & natural process restoration

In-Place Research, Monitoring and Planning
In-Place Land/Water Protection and Management
In-Place Species Management
  Successfully reintroduced or introduced beningly:Yes
  Subject to ex-situ conservation:Yes
In-Place Education
1. Residential & commercial development -> 1.1. Housing & urban areas
♦ timing:Ongoing    
→ Stresses
  • 1. Ecosystem stresses -> 1.1. Ecosystem conversion
  • 1. Ecosystem stresses -> 1.2. Ecosystem degradation

2. Agriculture & aquaculture -> 2.1. Annual & perennial non-timber crops -> 2.1.3. Agro-industry farming
♦ timing:Ongoing    
→ Stresses
  • 1. Ecosystem stresses -> 1.1. Ecosystem conversion
  • 1. Ecosystem stresses -> 1.2. Ecosystem degradation

9. Pollution -> 9.3. Agricultural & forestry effluents -> 9.3.4. Type Unknown/Unrecorded
♦ timing:Ongoing    
→ Stresses
  • 1. Ecosystem stresses -> 1.2. Ecosystem degradation

1. Research -> 1.2. Population size, distribution & trends
1. Research -> 1.3. Life history & ecology
3. Monitoring -> 3.1. Population trends

♦  Sport hunting/specimen collecting
 Local : ✓ 

Bibliography [top]

Ben Slimen, H., Suchentrunk, F. and Ben Ammar Elgaaied, A. 2008. On shortcomings of using mtDNA sequence divergence for the systematics of hares (genus Lepus): An example from cape hares. Mammalian Biology 72: 25-32.

Ben Slimen, H., Suchentrunk, F., Memmi, A. and Ben Ammar Elgaaied, A. 2005. Biochemical genetic relationships among Tunisian hares (Lepus sp.), South African Cape hares (L. capensis), and European brown hares (L. europaeus). Biochemical Genetics 43(11-12): 577-596.

Ben Slimen, H., Suchentrunk, F., Memmi, A., Sert, H., Kryger, U., Alves, P. C. and Elgaaied, A. B. A. 2006. Evolutionary relationships among hares from North Africa (Lepus sp. or Lepus spp.), Cape hares (L. capensis) from South Africa, and brown hares (L. europaeus), as inferred from mtDNA PCR-RFLP and allozyme data. Journal of Zoological Systematics and Evolutionary Research 44(1): 88-99.

Ben Slimen, H., Suchentrunk, F., Stamatis, C., Mamuris, Z., Sert, H., Alves, P. C., Kryger, U., Shahin, A. B. and Ben Ammar Elgaaied, A. 2008. Population genetics of cape and brown hares (Lepus capensis and L. europaeus): A test of Petter's hypothesis of conspecificity. Biochemical Systematics and Ecology 36: 22-39.

Fickel, J., Schmidt, A., Putze, M., Spittler, H., Ludwig, A., Streich, W. J. and Pitra, C. 2005. Genetic structure of populations of European brown hare: Implications for management. Journal of Wildlife Management 69(2): 760-770.

Flux, J.E.C. and Angermann, R. 1990. Chapter 4: The Hares and Jackrabbits. In: J.A. Chapman & J.E.C. Flux (eds), Rabbits, Hares and Pikas: Status Survey and Conservation Action Plan, pp. 61-94. The World Conservation Union, Gland, Switzerland.

Hoffmann, R.S. and Smith, A.T. 2005. Order Lagomorpha. In: D.E. Wilson and D.M. Reeder (eds), Mammal Species of the World, pp. 185-211. Johns Hopkins University Press, Baltimore, Maryland, USA.

Lamarque, F., Barrat, J. and Moutou, F. 1996. Principal diagnoses for determining causes of mortality in the European brown hare (Lepus europaeus) found dead in France between 1986 and 1994. Gibier Faune Sauvage 13(1): 53-72.

Macdonald, D. and Barrett, P. 1993. Collins Field Guide: Mammals of Britain and Europe. HarperCollins Publishers, London, UK.

Mamuris, Z., Sfougaris, A. I. and Stamatis, C. 2001. Genetic structure of Greek brown hare (Lepus europaeus) populations as revealed by mtDBNA RFLP-PCR analysis: Implications for conserving genetic diversity. Biological Conservation 101(2): 187-196.

Palacios, F., Estonba, A., Perez-Suarez, G., Alonso-Campos, G., Sanz, A. and Galan, L. 2004. Report on the restoration program of the Cantabrian population of brown hare (Lepus europaeus Pallas, 1778) in the Basque Country, Spain. Research Center in Biodiversity and Genetic Resources, Vairao, Portugal.

Petter, F. 1959. Elements d'une revision des lievres africains du sous-genre Lepus. Mammalia 23: 41-67.

Petter, F. 1961. Elements d'une revision des Lievres europeens et asiatiques du sous-genre Lepus. Zeitschrift für Säugetierkunde 26: 30-40.

Pikula, J., Beklova, M., Holesovska, Z. and Treml, F. 2004. Ecology of European brown hare and distribution of natural foci of tularaemia in the Czech Republic. Acta Veterinaria Brno 73(2): 267-273.

Reichlin, T., Klansek, E. and Hackländer, K. 2006. Diet selection by hares (Lepus europaeus) in arable land and its implications for habitat management. European Journal of Wildlife Research 52(2): 109-118.

Smith, R. K., Jennings, N. V. and Harris, S. 2005. A quantitative analysis of the abundance and demography of European hares Lepus europaeus in relation to habitat type, intensity of agriculture and climate. Mammal Review 35(1): 1-24.

Soule, M. E. 1987. Where do we go from here? In: M. E. Soule (ed.), Viable Populations for Conservation, pp. 175-183. Cambridge University Press, Cambridge, UK.

Spitzenberger, F. 2002. Die Saugetierfauna Osterreichs. Bundesministerium fur Land- und Forstwirtschaft, Umwelt und Wasserwirtschaft.

Suchentrunk, F., Alkon, P. U., Willing, R. and Yom-Tov, Y. 2000. Epigenetic dental variability of Israeli hares (Lepus sp.): ecogenetic or phylogenetic causation? Journal of Zoology (London) 252: 503-515.

Vaughan, N., Lucas, E., Harris, S. and White, P. C. L. 2003. Habitat associations of European hares Lepus europaeus in England and Wales: Implications for farmland management. Journal of Applied Ecology 10(1): 163-175.

Citation: Smith, A.T. & Johnston, C.H. 2008. Lepus europaeus. In: . The IUCN Red List of Threatened Species 2008: e.T41280A10430693. . Downloaded on 20 June 2018.
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