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Talpa europaea

Talpa europaea (*)

Life-forms

Superregnum: Eukaryota
Regnum: Animalia
Subregnum: Eumetazoa
Cladus: Bilateria
Cladus: Nephrozoa
Superphylum: Deuterostomia
Phylum: Chordata
Cladus: Craniata
Subphylum: Vertebrata
Infraphylum: Gnathostomata
Superclassis: Tetrapoda
Cladus: Reptiliomorpha
Cladus: Amniota
Cladus: Synapsida
Cladus: Eupelycosauria
Cladus: Sphenacodontia
Cladus: Sphenacodontoidea
Ordo: Therapsida
Cladus: Theriodontia
Subordo: Cynodontia
Cladus: Mammaliaformes
Classis: Mammalia
Subclassis: Trechnotheria
Infraclassis: Zatheria
Supercohort: Theria
Cohort: Eutheria
Cohort: Placentalia
Ordo: Soricomorpha

Familia: Talpidae
Subfamilia: Talpinae
Tribe: Talpini
Genus: Talpa
Species: Talpa europaea
Subspecies: T. e. cinerea – T. e. europaea – T. e. velessiensis
Name

Talpa europaea (Linnaeus, 1758)
Type locality: Engelholm, Sweden

References

Linnaeus, C. 1758. Systema Naturae per regna tria naturæ, secundum classes, ordines, genera, species, cum characteribus, differentiis, synonymis, locis, Tomus I. Editio decima, reformata. Holmiæ: impensis direct. Laurentii Salvii. i–ii, 1–824 pp DOI: 10.5962/bhl.title.542: 52. Reference page.
Talpa europaea in Mammal Species of the World.
Wilson, Don E. & Reeder, DeeAnn M. (Editors) 2005. Mammal Species of the World – A Taxonomic and Geographic Reference. Third edition. ISBN 0-8018-8221-4.

Vernacular names
Boarisch: Wiahlscher
беларуская: Крот еўрапейскі
български: Европейска къртица
brezhoneg: Goz Europa
català: Talp
kaszëbsczi: Kret
čeština: Krtek obecný
dansk: (Europæisk) muldvarp
Deutsch: Europäischer Maulwurf
English: European Mole
Esperanto: Eŭropa talpo
español: Topo común
eesti: Mutt
euskara: Sator arrunt
suomi: kontiainen, maamyyrä
arpetan: Darbon
français: Taupe d'Europe
galego: Toupa europea
magyar: Közönséges vakond, vakondok
italiano: Talpa
日本語: ヨーロッパモグラ
lietuvių: Kurmis
Nedersaksies: Weule
Plattdüütsch: Güär, Gür (Vest Recklinghausen); Frote, Göör, Wannerup (Münsterland); Frööt, Fröte, Mull, Windworp, Windwurm, Winneworp (Ostfriesland)
Nederlands: Gewone Mol
polski: Kret europejski
русский: Европейский крот
Scots: Mowdiwarp
slovenščina: Navadni krt
српски / srpski: Европска кртица
Seeltersk: Wroute
svenska: Mullvad, Vanlig mullvad
Türkçe: Avrupa köstebeği
українська: Кріт європейський
vèneto: Topinara, Ciupinara
West-Vlams: Mol

The European mole (Talpa europaea) is a mammal of the order Eulipotyphla. It is also known as the common mole and the northern mole.[3]

This mole lives in a tunnel system, which it constantly extends. It uses these tunnels to hunt its prey. Under normal conditions the displaced earth is pushed to the surface, resulting in the characteristic molehills. It feeds mainly on earthworms, but also on insects, centipedes and even mice and shrews. Its saliva contains toxins which paralyze earthworms in particular.[4]

Taxonomy

The Aquitanian mole (T. aquitania) was formerly considered conspecific, but was described as a distinct species in 2017.
Distribution

The European mole has a wide range throughout Europe and westernmost Asia, being found as far north as the United Kingdom and southern Scandinavia, as far south as northern Greece, and as far east as western Siberia. It is the only mole species in most of this range. The Loire River in France was thought to form the western barrier to the species' range, separating it from the Aquitanian mole, but studies indicate that while this is largely true, it is not a strict barrier, as member of either species have been found on opposite sides of the river, likely making them sympatric in at least some places.[5]
Description
Skull of a European mole

The European mole has a cylindrical body and is 11 to 16 cm (4.3 to 6.3 in) long, weighing 70 to 130 g (2.5 to 4.6 oz).[6] Females are typically smaller than males. The eyes are small and hidden behind fur, while the ears are just small ridges in the skin. The fur is usually dark grey, but the actual range of colors is larger, as due to the subterranean habits there is no disadvantage in having off-colored fur. European moles with white, light grey, tan, taupe, and black fur have all been reported.
Habitat

While moles are typically found in tunnel systems, the European mole is not exclusively an underground dweller. In the spring and early summer when the young moles leave their mothers' burrows they must find new territories. This forces them to leave their burrows and they can either make new tunnel systems or enter existing systems. In the summer time, however, they are likely to burrow much more superficially. The superficial burrowing could be due in part to the soil that is much harder, which makes burrowing a greater challenge.[7]

T. europaea have also been found to spend a lot of time at the sides of drainage lines and streams but do not inhabit flooded or dry soils. However, dry areas do become important when their normal habitats become flooded. Factors such as the type of soil, vegetation present, and altitude have no effect on the areas that moles choose to inhabit. The one factor that does greatly influence the mole population in a specific area is the abundance of earthworms.[8] In suitable urban greenspace, an area of 10 hectares is required for population persistence, and the number of mole territories increases with available habitat.[9]
Reproduction

The European mole has a relatively short breeding season, in the spring. Mating occurs over a span of a few weeks in March and April, followed by a gestation period of four to five weeks. Most births occur at the end of April or at the beginning of May. The litter size ranges from two to seven. The lactation period lasts for four to five weeks but at the end of June, the young are usually required to leave the tunnels. The lifespan is from three to five years.[10]
Feeding habits

One common belief about European moles is that they typically consume their own weight in food every 24 hours, but this is an exaggeration. Studies have been performed that show European moles actually eat about half of their body weight in food each day. When in captivity, European moles will eat a wide variety of food items, including liver, mice, mealworms, shrews and maggots. However, they tend to prefer earthworms over all other options.[7]
Vision

Due to the subterranean nature of this mole, there is an anatomical regression of its eyes at several organizational levels. Its eye has a diameter of only 1 mm (0.039 in), it is buried beneath fur and has a cellular lens. The organization of the retina is quite similar to that of a typical mammal. It has been determined that there are about 2000 ganglion cells and the optic nerve is roughly 50 μm with 3000 axons. Roughly 15% of these axons are myelinated. The photoreceptors are not the normal rod-like or cone-like shape that one would expect to see. Instead they all have one uniform shape with three distinct features:

The receptors are short along the radial axis
The inner and outer segments are similar in length
The outer segments appear to be significantly degenerated

Studies have shown that T. europaea does have photopic vision, contrary to popular belief that all moles are blind. Two cone opsins have been found in the eyes of T. europaea but their function is still under investigation. In a study of the mole eyes it was found that Talpa withdraws when exposed to a flashlight and it can also perform light/dark discrimination tasks. The cone cells in the eye are unlikely to provide high-resolution vision but they could allow a detection of movement and some hue discrimination. It is suggested that in subterranean mammals vision is used to detect predators that have broken into the tunnels.[11]
Hearing

In mammals, the cues for hearing are usually based on inter-aural intensity differences, which occur as a result of the diffraction of a progressive sound wave by the head and pinna. They could also be based on inter-aural time differences that are present because of the distance between their two ears. European moles have no pinnae, so they are thought to hear at low frequencies. In addition to this, their inner ear is unusual for that of a mammal, due to the large trabeculation of the posterior ventral skull between the ears. The tympana of the ear lies almost horizontally and the manubrial tips are separated by a distance of 8 mm (0.31 in). The results of several studies confirm that there is good transmission through the European mole's head for a range of low frequencies. Because of this it is expected that there will be acoustic interaction at each tympanic membrane. There are also suggestions that the ears of this mole act as balanced pressure-difference receivers. This system has never been suggested for a mammal in the past, but reptiles, amphibia, birds, and crickets have been shown to have a direct air pathway between the tympana.[12]
Skeletal development

In Talpa europaea, there are several unique changes in ossification sequence in the postcranial elements. Many of the shifts are seen in the vertebral column, specifically the cervical and thoracic regions. The shifts allow the moles to have a more stabilized body axis and cervical region after they are born.

After a European mole is born and begins to develop, it will begin to crawl around and dig. As a result of the constant digging action, elements of the forelimb that are associated with those movements will begin to ossify. Some elements in the hands of Talpa europaea, formally described as distal phalanges, are actually the first to ossify. These elements build up a groove for the distal phalanges, but ultimately do not fuse with them. These bony elements develop directly, meaning they do not have any cartilaginous precursors. The extra-calcified elements are created from small, calcified particles that are found in the fibrous part of the flexor digitorum profundus. The particles then fuse later in life to form the solid element of the hand. Additionally, the sesamoid bone in the European mole sensu stricto is a bone that develops within a tendon. It does have a chondrified precursor and it assists the tendon in transmitting force.[13]
Dentition

The variance of morphology between species is very important to paleontologists, as it can help define a fossil species. Unlike other characteristics that do not fossilize, like color and karyotype, dentition can be studied, as it fossilizes well and varies from species to species. Studying dentition can be very beneficial in recognizing the differences between fossils and subsequently being able to classify them.

The Roman mole (Talpa romana) was once considered a subspecies of the European mole, as they are of similar size. The only obvious difference between the two is that T. romana has skin-covered eyes and it also has a caecoid pelvis, whereas T. europaea has a europoid pelvis. Although similar in body, the dentition of T. romana is obviously larger in size than that T. europaea. Both the length of the tooth row and the individual elements are larger. Moreover, the mesotyle of the upper molars is generally divided. The dentition of T. europaea is small and the length of M1-M3 is less than 19% of the length of the condyle base. This mole also has relatively small molars for its size.[14]

Molehills

Portrait Muséum de Toulouse

Skeleton in the Muséum de Toulouse

An albino

See also

Nova virus which was first isolated in European moles
Mole (animal) for more general information on moles

References

Hutterer, R. (2005). Wilson, D.E.; Reeder, D.M. (eds.). Mammal Species of the World: A Taxonomic and Geographic Reference (3rd ed.). Johns Hopkins University Press. p. 308. ISBN 978-0-8018-8221-0. OCLC 62265494.
Amori, G.; Hutterer, R.; Mitsainas, G.; Yigit, N.; Kryštufek, B.; Palomo, L. (2017). "Talpa europaea". IUCN Red List of Threatened Species. 2017: e.T41481A22320754. doi:10.2305/IUCN.UK.2017-2.RLTS.T41481A22320754.en. Retrieved 12 November 2021.
Talpa europaea, nomen.at
Mukherjee, Sarah (25 January 2008). "Searching for nature's tunnellers". BBC News. Retrieved 4 May 2010.
Nicolas, Violaine; Hugot, Jean-Pierre; Cornette, Raphaël (2021-09-21). "New data on the distribution of the two mole species Talpa aquitania Nicolas, Matinez-Vargas & Hugot, 2017 and T. europaea Linnaeus, 1758 in France based on museum and newly collected specimens". Zoosystema. 43 (24): 585–617. doi:10.5252/zoosystema2021v43a24. ISSN 1280-9551. S2CID 238260731.
Species fact sheet: Mole (Talpa eureopaea), The Mammal Society
Mellanby, K. (1967). "Food and activity in the mole Talpa Europaea". Nature. 215 (5106): 1128–30. Bibcode:1967Natur.215.1128M. doi:10.1038/2151128a0. PMID 6061800. S2CID 45094066.
Funmilayo, O. (1977). "Distribution and abundance of moles (Talpa europaea L.) in relation to physical habitat and food supply". Oecologia. 30 (3): 277–283. Bibcode:1977Oecol..30..277F. doi:10.1007/BF01833635. PMID 28309349. S2CID 21284497.
Fellowes, Mark D. E.; Acquaah-Harrison, Kojo; Angeoletto, Fabio; W. M.C. Santos, Jeater; da Silva Leandro, Deleon; Rocha, Elise A.; Pirie, Tara J.; Thomas, Rebecca L. (2020). "Map-A-Mole: Greenspace Area Influences the Presence and Abundance of the European Mole Talpa europaea in Urban Habitats". Animals. 10 (6): 1097. doi:10.3390/ani10061097. PMC 7341262. PMID 32630423.
Haeck, J. (1969). "Colonization of the mole (Talpa Europaea L.) in the Ijsselmeer polders". Netherlands Journal of Zoology. 19 (2): 145–248. doi:10.1163/002829669X00107.
Glosmann, M.; Steiner, M.; Peichl, M.; Ahnelt, P.K. (2008). "Cone photoreceptors and potential UV vision in a subterranean insectivore, the European mole". Journal of Vision. 8 (4): 23.1–12. doi:10.1167/8.4.23. PMID 18484862.
Coles, R.B.; Gower, D.M.; Boyd, P.J. & Lewis, D.B. (1982). "Acoustic transmission through the head of the common mole, Talpa europaea". The Journal of Experimental Biology. 101: 337–41. doi:10.1242/jeb.101.1.337. PMID 7166696.
Prochel, J. (2006). "Early skeletal development in Talpa europaea, the common European mole". Zoological Science. 23 (5): 427–34. doi:10.2108/zsj.23.427. PMID 16766861. S2CID 28816066.
Cleef-Roders, J.T.; van den Hoek Ostende, L.W. (2001). "Dental morphology of Talpa europaea and Talpa occidentalis (Mammalia: Insectivora) with a discussion of fossil Talpa in the Pleistocene of Europe". Zoologische Mededelingen. 75: 51–68.

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