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Journal articles on the topic 'Micromys'

Author: Grafiati
Published: 4 June 2025
Last updated: 15 July 2025

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1

Minwer-Barakat, Raef, Antonio García-Alix, Elvira Martín-Suárez, and Matthijs Freudenthal. "Micromys caesaris, a new murid (Rodentia, Mammalia) from the Late Pliocene of the Guadix Basin, southeastern Spain." Journal of Paleontology 82, no. 2 (2008): 436–41. http://dx.doi.org/10.1666/06-030.1.

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The Genus Micromys includes a single extant species, Micromys minutus (Pallas, 1771), which lives in Europe and North Asia. This genus is known in the fossil record since the late Miocene; eight fossil species have been described in Europe and Asia, most of them of late Miocene and early Pliocene age. The evolution of this genus during the late Pliocene is barely known. Although it is present in numerous localities of this age, remains of Micromys are usually scarce and generally assigned to the species M. minutus or M. praeminutus Kretzoi, 1959.
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2

Nores, Carlos. "Ratón espiguero Micromys minutus (Pallas, 1771)." Galemys, Spanish Journal of Mammalogy 15, no. 2 (2003): 3–10. https://doi.org/10.7325/galemys.2003.2.a1.

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3

Klimková, Zdeňka, and Zuzana Čadková. "New records of Micromys minutus in the Karlovy Vary Region, western Bohemia (Rodentia: Muridae)." Lynx new series 52, no. 1 (2022): 143–46. http://dx.doi.org/10.37520/lynx.2021.011.

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New records of the harvest mouse (Micromys minutus) were obtained for the first time from the mapping square 5741 in the Karlovy Vary Region. The individuals were collected during a faunistic survey of small mammals in 2016–2020. In total, 13 specimens of Micromys minutus were found at three sites (Jindřichovice v Krušných horách, Háj u Jindřichovic, Lomnice u Sokolova).
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4

ABRAMOV, ALEXEI V., ILYA G. MESCHERSKY, and VIATCHESLAV V. ROZHNOV. "On the taxonomic status of the harvest mouse Micromys minutus (Rodentia: Muridae) from Vietnam." Zootaxa 2199, no. 1 (2009): 58–68. http://dx.doi.org/10.11646/zootaxa.2199.1.2.

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The taxonomic status of the harvest mouse Micromys minutus from Vietnam is re-evaluated. The mtDNA analysis shows that the harvest mice from Lao Cai Province of northern Vietnam belongs to a distinct phylogenetic lineage, previously known only from a haplotype from Chengdu, Sichuan Province, southern China (Yasuda et al. 2005). The mtDNA analysis shows a strong genetic divergence among this lineage and all the other known haplotypes of Micromys minutus (11.68% for cytochrome b gene sequences). Canonical discriminant analysis of cranial and dental data, as well as of some external characters, also separate the Vietnam – South China group (also including an Indian specimen) from other Palaearctic populations. The skull of southern populations is relatively large, with a longer and broader palatine. The dorsal pelage of the Vietnamese specimens is grey, tinged with brown in comparison with the red-brown dorsal colouration sharply contrasting with the white underside in the majority of Euro-Siberian adults. The harvest mice of the Vietnam – South China group are distinguished from the typical European ones by their rather long tail that is about 120% of the body length (82 to 95% in the Palaearctic populations). Both genetic and morphological data suggest the existence of a second Micromys species, occurring at least in North Vietnam and South China. The available name for this species is Micromys erythrotis (Blyth, 1856).
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5

Grodziński, Władysław, Heinz Böckler, and Gerhard Heldmaier. "Basal and cold-induced metabolic rates in the harvest mouse Micromys minutus." Acta Theriologica 33 (October 15, 1988): 283–91. http://dx.doi.org/10.4098/at.arch.88-22.

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6

Gilliéron, Jacques. "Distribution et statut du Rat des moissons (Micromys minutus) dans le bassin genevois." Revue suisse de Zoologie 124, no. 1 (2017): 157–66. https://doi.org/10.5281/zenodo.322673.

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7

Vecsernyés, Fanny. "Autumn habitat selection of the harvest mouse (Micromys minutus Pallas, 1771) in a rural and fragmented landscape." Revue suisse de Zoologie 126, no. 1 (2019): 111–25. https://doi.org/10.5281/zenodo.2619526.

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Vecsernyés, Fanny (2019): Autumn habitat selection of the harvest mouse (Micromys minutus Pallas, 1771) in a rural and fragmented landscape. Revue suisse de Zoologie 126 (1): 111-125, DOI: 10.5281/zenodo.2619526
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8

Sugihaba, Hajime, Kankatsu Yun, Nobuhisa Yonemitsu, et al. "ADRENAL CORTEX OF MICROMYS MINUTUS JAPONICUS (JAPANESE HARVEST MOUSE)." Pathology International 35, no. 2 (1985): 323–28. http://dx.doi.org/10.1111/j.1440-1827.1985.tb00577.x.

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9

Schmid, M., R. Johannisson, T. Haaf, and H. Neitzel. "The chromosomes of Micromys minutus (Rodentia, Murinae)." Cytogenetic and Genome Research 45, no. 3-4 (1987): 121–31. http://dx.doi.org/10.1159/000132443.

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10

Markovska, Oksana. "Finds of rare and non-abundant species of small mammals in the territory of Kharkiv Oblast, Ukraine." Novitates Theriologicae, no. 11 (August 28, 2020): 12–18. http://dx.doi.org/10.53452/nt1104.

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Eight of the eleven expected rare and non-abundant species of small mammals were recorded in the studied territory: Crocidura suaveolens, Sorex minutus, Neomys fodiens, Dryomys nitedula, Cricetulus migratorius, Terricola subterraneus, Micromys minutus, and Mus spicilegus. Crocidura suaveolens was found in both dry meadows and floodplain biotopes, and it was also recorded nearby to field-protective plantations and human settlements. Sorex minutus was also more common in dry meadows and in floodplain biotopes. Neomys fodiens is a typical floodplain endemic. Dryomys nitedula was more common in oak forests and it is prone to synanthropy. Cricetulus migratorius was found in steppe areas and near fields of agricultural crops. Terricola subterraneus was recorded only in a dry maple-linden oak forest. Micromys minutus prefers floodplain biotopes. Mus spicilegus was found on agricultural crops and in steppe areas.
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11

Dickman, C. R. "Habitat utilization and diet of the harvest mouse Micromys minutus, in an urban environment." Acta Theriologica 31 (October 12, 1986): 249–56. http://dx.doi.org/10.4098/at.arch.86-24.

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12

Cheriomkin, I. M., N. N. Kolobaev, and V. M. Javorsky. "THE FIRST RECORD MICROMYS MINUTUS (PALLAS, 1771) IN THE NORSKY STATE NATURAL RESERVE." Amurian Zoological Journal 10, no. 3-4 (2018): 190–92. http://dx.doi.org/10.33910/1999-4079-2018-10-3-4-190-192.

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13

Darinot, Fabrice. "Improving detectability of the harvest mouse (Micromys minutus Pallas, 1771) by above ground live-trapping." Mammalia 84, no. 3 (2019): 239–45. https://doi.org/10.1515/mammalia-2018-0183.

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Darinot, Fabrice (2020): Improving detectability of the harvest mouse (Micromys minutus Pallas, 1771) by above ground live-trapping. Mammalia (Warsaw, Poland) 84 (3): 239-245, DOI: 10.1515/mammalia-2018-0183, URL: http://dx.doi.org/10.1515/mammalia-2018-0183
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14

Abramov, Alexei V., Ilya G. Meschersky, and Viatcheslav V. Rozhnov. "On the taxonomic status of the harvest mouse Micromys minutus (Rodentia: Muridae) from Vietnam." Zootaxa 2199, no. 1 (2009): 58–68. https://doi.org/10.11646/zootaxa.2199.1.2.

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Abramov, Alexei V., Meschersky, Ilya G., Rozhnov, Viatcheslav V. (2009): On the taxonomic status of the harvest mouse Micromys minutus (Rodentia: Muridae) from Vietnam. Zootaxa 2199 (1): 58-68, DOI: 10.11646/zootaxa.2199.1.2, URL: https://biotaxa.org/Zootaxa/article/view/zootaxa.2199.1.2
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15

O'Brien, Michelle F., and Rosa Lopez Colom. "The genome sequence of the European harvest mouse, Micromys minutus (Pallas, 1771)." Wellcome Open Research 9 (July 22, 2024): 394. http://dx.doi.org/10.12688/wellcomeopenres.22747.1.

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We present a genome assembly from an individual female Micromys minutus (the European harvest mouse; Chordata; Mammalia; Rodentia; Muridae). The genome sequence spans 2,651.80 megabases. Most of the assembly is scaffolded into 34 chromosomal pseudomolecules, including the X sex chromosome. The mitochondrial genome has also been assembled and is 16.24 kilobases in length.
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16

Zaleśny, G., J. Hildebrand, A. Perec-Matysiak, and A. Okulewicz. "First report of Syphacia vanderbrueli Bernard, 1961 (Oxyuridae) from Micromys minutus in Poland." Helminthologia 43, no. 4 (2006): 237–38. http://dx.doi.org/10.2478/s11687-006-0044-7.

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AbstractDuring the parasitological examination of wild rodents from Wroclaw vicinity 11 female nematodes were isolated from the harvest mouse (Micromys minutus). The helminths were determined as Syphacia vanderbrueli. This is the first report of this parasite in Poland. Complete descriptions of the female individuals are given.
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17

Abelentsev, Vasyl. "Small mammals of the Serebrianka forestry (Luhansk region, Ukraine)." Novitates Theriologicae 2025, no. 17 (2025): 7–10. https://doi.org/10.53452/nt1704.

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Data on the species composition, relative abundance and habitat distribution of small mammals based on the results of summer surveys conducted in 1961 near Lake Chernikove are presented. The lake is located in the floodplain of the Siverskyi Donets River, in the territory of the Serebrianka Forestry. The total amount of surveys was 900 trap-nights, and 258 specimens of 11 species of small mammals were collected. Among the animals captured are 4 species of insectivores and 7 species of rodents. The dominant species were Apodemus agrarius (34.5%), Sorex araneus (22.1%), Myodes glareolus (16.3%), and Sylvaemus sylvaticus (16.3%). The remaining 7 species have a much smaller share (0.8–3.5%). Among the latter are Neomys fodiens, N. milleri, Sorex minutus, Micromys minutus, Mus musculus, Microtus levis, and M. subterraneus. The most important finds in this second group in terms of faunistics are those of Neomys milleri, Micromys minutus, and Microtus subterraneus, which are among the most eastern records of these species.
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18

Blant, Michel, Paul Marchesi, Magali Descombes, and Simon Capt. "Nouvelles données sur la répartition de la souris des moissons (Micromys minutus Pallas, 1771) en Suisse occidentale et implications pour la gestion de son habitat." Revue suisse de Zoologie 119, no. 4 (2012): 485–500. https://doi.org/10.5281/zenodo.10114988.

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Blant, Michel, Marchesi, Paul, Descombes, Magali, Capt, Simon (2012): Nouvelles données sur la répartition de la souris des moissons (Micromys minutus Pallas, 1771) en Suisse occidentale et implications pour la gestion de son habitat. Revue suisse de Zoologie 119 (4): 485-500, DOI: 10.5281/zenodo.10114988
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19

Gharadjedaghi, Bahram. "Kleinsäugernachweise aus Waldkauzgewöllen aus dem Neandertal." Decheniana : Verhandlungen des Naturhistorischen Vereins der Rheinlande und Westfalens 148 (January 1, 1995): 121–23. http://dx.doi.org/10.21248/decheniana.v148.4189.

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In Aufsammlungen von Waldkauzgewöllen in den Jahren 1983-1986 in einem Fichtenforst im Neandertal (Kreis Mettmann) wurden 14 Säugerarten festgestellt. Bemerkenswert sind besonders die Nachweise von Wasserspitzmaus (Neomys foediens), Zwergmaus (Micromys minutus), Siebenschläfer (Glis glis) und Kleinwühlmaus (Pitymys subterraneus). Auf Funde von Kalkgranulatkörnern aus der Walddüngung in Gewöllen mit Singvogelresten wird hingewiesen.
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20

Darinot, Fabrice. "The harvest mouse (Micromys minutusPallas, 1771) as prey: a literature review." Folia Zoologica 65, no. 2 (2016): 117–37. http://dx.doi.org/10.25225/fozo.v65.i2.a7.2016.

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21

Dieterlen, Fritz. "Bemerkungen zu Zucht und Verhalten der Zwergmaus (Micromys minutus soricmus Hermann)." Zeitschrift für Tierpsychologie 17, no. 5 (2010): 552–54. http://dx.doi.org/10.1111/j.1439-0310.1960.tb00406.x.

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22

Ishiwaka, R., and T. Mori. "Regurgitation Feeding of Young in Harvest Mice, Micromys minutus (Rodentia: Muridae)." Journal of Mammalogy 79, no. 4 (1998): 1191–97. http://dx.doi.org/10.2307/1383010.

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23

Doughty, Richard W., Jackie Bowman, and Clare Lightbody. "Splenic marginal zone lymphoma in a European harvest mouse (Micromys minutus)." Comparative Clinical Pathology 15, no. 4 (2006): 263–66. http://dx.doi.org/10.1007/s00580-006-0639-x.

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24

Miura, Yoshiro, Harumi Hisaki, and Sen-ichi Oda. "Fatty acid hydroxylase system in the Japanese harvest mouse,Micromys minutus." Lipids 25, no. 2 (1990): 78–81. http://dx.doi.org/10.1007/bf02562208.

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25

Horáček, Ivan, Markéta Knitlová, Jan Wagner, László Kordos, and Adam Nadachowski. "Late Cenozoic History of the Genus Micromys (Mammalia, Rodentia) in Central Europe." PLoS ONE 8, no. 5 (2013): e62498. http://dx.doi.org/10.1371/journal.pone.0062498.

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26

Sawabe, Kumiko, and Yosihiro Natuhara. "Extensive distribution models of the harvest mouse ( Micromys minutus ) in different landscapes." Global Ecology and Conservation 8 (October 2016): 108–15. http://dx.doi.org/10.1016/j.gecco.2016.08.011.

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27

Goethe, Friedrich. "Zwergmaus, Micromys minutus (Pallas, 1778), baute in Hänflingnest, Acanthis cannabina (L., 1758)." Zeitschrift für Säugetierkunde : im Auftrage der Deutschen Gesellschaft für Säugetierkunde e.V 51 (June 7, 1985): 380–81. https://doi.org/10.5281/zenodo.13669668.

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28

Shevchyk, Liubov, Inna Grod, Halyna Holiney, and Natalia Kravets. "Rodents of the family Muridae of Ternopil Region (Ukraine): species composition, distribution, and ecology." Theriologia Ukrainica 2023, no. 26 (2023): 43–53. http://dx.doi.org/10.53452/tu2605.

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The article is devoted to the ecological and faunal analysis of the family Muridae of Ternopil Region, namely, the study of species composition, relative abundance, landscape distribution, and habitat preferences of the representatives of this group. The species composition of the mammal fauna of all six landscape areas was analysed and the habitat preferences of rodents were determined. The materials were collected during 2017–2020, and 7350 trap-days were processed and 206 specimens of rodents were trapped, representing 7 species. The richest, in terms of genus and species composition, is the tribe Apodemurini, represented by the genera Apodemus (1 species), Micromys (1), and Sylvaemus (3). The tribe Murini is less rich and is represented by two species of two genera, Mus (1) and Rattus (1). The most abundant and widespread species of the first tribe is the yellow-necked wood mouse (Sylvaemus tauricus), the others are common species (Apodemus agrarius, S. uralensis, S. sylvaticus, and Micromys minutus). The second group includes two alien species that have the status of abundant, particularly in synanthropic habitats: the house mouse (Mus musculus) and the brown rat (Rattus norvegicus). The geographical ranges of the identified species are characterised. The described species are common in their natural zones and habitat types. The differentiation of representatives of the genus Sylvaemus (S. tauricus, S. uralensis, and S. sylvaticus) according to their habitat preferences in different types of forest biocenoses was confirmed. The alien species Mus musculus and Rattus norvegicus, preferring urban areas, form exantropic colonies in summer. Ruderal habitats are attractive for Apodemus agrarius and Micromys minutus. The natural habitats of mouse-like rodents in the region are quite heterogeneous, although they are represented by one ecological group, which the authors designate as ‘terrestrial-burrowing’ animals. Distribution maps of each species of the family Muridae in western Podillia are presented. The distribution cadastres were compiled on the basis of spring and summer surveys of typical habitats of mouse-like rodents in six landscape areas of Western Podillia. Only the locations of exantropic settlements in the region were included in the Mus musculus and Rattus norvegicus cadastres.
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Roháček, Jindřich, Jozef Oboňa, and Alexander Csanády. "New records of Diptera from nests of Micromys minutus and Muscardinus avellanarius in Slovakia." Acta Musei Silesiae, Scientiae Naturales 71, no. 3 (2022): 285–90. http://dx.doi.org/10.2478/cszma-2022-0016.

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Abstract Associations of insects that live in nests and burrows of small mammals are relatively poorly explored. This work therefore tries to expand the knowledge about Diptera communities (Psychodidae and Sphaeroceridae) of two small mammals, namely Micromys minutus (Pallas, 1771) and Muscardinus avellanarius (Linnaeus, 1758). In nests of Eurasian harvest mouse two psychodid species and one sphaerocerid species, while in hazel dormouse nest one psychodid species and three sphaerocerid species have been found, all representing new nest records.
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30

Sundberg, J. P., M. K. O'Banion, A. Shima, C. Knupp, and M. E. Reichmann. "Papillomas and Carcinomas Associated with a Papillomavirus in European Harvest Mice (Micromys minutus)." Veterinary Pathology 25, no. 5 (1988): 356–61. http://dx.doi.org/10.1177/030098588802500504.

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Papillomaviruses, group-specific papillomavirus antigens, or extrachromosomal papillomavirus DNA were detected in cutaneous, mucocutaneous, and pulmonary tumors affecting a colony of European harvest mice (Micromys minutus). Skin lesions were classified as acanthomatous hyperplasia, epidermal inclusion cysts. squamous papillomas, inverted papillomas, trichoepitheliomas, and sebaceous carcinomas. Cutaneous horns (hyperkeratotic papillomas) were on mucocutaneous junctions of one animal. One mouse, with a cutaneous sebaceous carcinoma, had multiple pulmonary keratinaceous cysts. Papillomavirus antigens, detected by the avidin-biotin technique, were in 20 of 31 lesions tested. In contrast, by Southern blot hybridization all 28 lesions tested contained papillomavirus DNA. Papillomavirus DNA was demonstrated in two often benign cutaneous lesions by in situ hybridization.
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31

Dokuchaev, N. E. "First registration of the harvest mouse (Micromys minutus Pallas) in Magadan Province, Russia." Russian Journal of Theriology 3, no. 2 (2005): 59–61. http://dx.doi.org/10.15298/rusjtheriol.03.2.02.

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32

Vogel, P., and A. Gander. "Live trapping design for the harvest mouse (Micromys minutus) in its summer habitat." Revue Suisse de Zoologie 122, no. 1 (2015): 143–48. https://doi.org/10.5281/zenodo.14574.

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33

Gilliéron, Jacques. "Distribution et statut du Rat des moissons (Micromys minutus) dans le bassin genevois." Revue suisse de zoologie 124 (January 1, 2020): 157–66. https://doi.org/10.5281/zenodo.13446343.

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34

Vogel, Peter, and Antoine Gander. "Live trapping design for the harvest mouse (Micromys minutus) in its summer habitat." Revue suisse de zoologie 122 (January 1, 2020): 143–48. https://doi.org/10.5281/zenodo.13491425.

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35

Gilliéron, Jacques. "Distribution et statut du Rat des moissons (Micromys minutus) dans le bassin genevois." Revue suisse de zoologie 124 (January 1, 2020): 157–66. https://doi.org/10.5281/zenodo.13446343.

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36

Vogel, Peter, and Antoine Gander. "Live trapping design for the harvest mouse (Micromys minutus) in its summer habitat." Revue suisse de zoologie 122 (January 1, 2020): 143–48. https://doi.org/10.5281/zenodo.13491425.

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37

Gilliéron, Jacques. "Distribution et statut du Rat des moissons (Micromys minutus) dans le bassin genevois." Revue suisse de zoologie 124 (January 1, 2020): 157–66. https://doi.org/10.5281/zenodo.13446343.

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38

Vogel, Peter, and Antoine Gander. "Live trapping design for the harvest mouse (Micromys minutus) in its summer habitat." Revue suisse de zoologie 122 (January 1, 2020): 143–48. https://doi.org/10.5281/zenodo.13491425.

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39

Gilliéron, Jacques. "Distribution et statut du Rat des moissons (Micromys minutus) dans le bassin genevois." Revue suisse de zoologie 124 (January 1, 2020): 157–66. https://doi.org/10.5281/zenodo.13446343.

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40

Vogel, Peter, and Antoine Gander. "Live trapping design for the harvest mouse (Micromys minutus) in its summer habitat." Revue suisse de zoologie 122 (January 1, 2020): 143–48. https://doi.org/10.5281/zenodo.13491425.

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41

Tsvelykh, Oleksandr. "Research into the mammal fauna of the Sviatoshynsko-Bilychansky forest within the Holosiivsky National Nature Park." Novitates Theriologicae, no. 11 (August 28, 2020): 77–82. http://dx.doi.org/10.53452/nt1113.

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In 2017–2019, a survey of the mammal faune of the Sviatoshynsko-Bilychansky forest, which is located nearby to the northwestern outskirts of Kyiv, was carried out. The following species of mammals were recorded: Neomys fodiens, Neomys anomalus, Sorex araneus, Sorex minutus, Talpa europaea, Erinaceus concolor, Alces alces, Capreolus capreolus, Sus scrofa, Lepus europaeus, Sciurus vulgaris, Castor fiber, Ondatra zibeticus, Muscardinus avellanarius, Apodemus agrarius, Sylvaemus flavicollis, Sylvaemus sylvaticus, Micromys minutus, Clethrionomys glareolus, Vulpes vulpes, Lutra lutra, Meles meles, Mustela vison, Martes martes, and Martes foina.
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42

SAWABE, Kumiko, and Yoshihiro NATUHARA. "Effects of landscape structure on the distribution of harvest mice, Micromys minutus." Ecology and Civil Engineering 18, no. 2 (2015): 69–78. http://dx.doi.org/10.3825/ece.18.69.

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43

SOUTHWICK, CHARLES H. "THE ABUNDANCE AND DISTRIBUTION OF HARVEST MICE (MICROMYS MINUTUS) IN CORN RICKS NEAR OXFORD*." Proceedings of the Zoological Society of London 126, no. 3 (2009): 449–52. http://dx.doi.org/10.1111/j.1096-3642.1956.tb00448.x.

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44

Råberg, Lars, Jon Loman, Olof Hellgren, Jeroen van der Kooij, Kjell Isaksen, and Roar Solheim. "The origin of Swedish and Norwegian populations of the Eurasian harvest mouse (Micromys minutus)." Acta Theriologica 58, no. 1 (2012): 101–4. http://dx.doi.org/10.1007/s13364-012-0102-0.

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45

Karantanis, Nikolaos-Evangelos, Leszek Rychlik, Anthony Herrel, and Dionisios Youlatos. "Vertical Locomotion in Micromys minutus (Rodentia: Muridae): Insights into the Evolution of Eutherian Climbing." Journal of Mammalian Evolution 25, no. 2 (2016): 277–89. http://dx.doi.org/10.1007/s10914-016-9374-5.

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46

Terletsky, Volodymyr. "Findings of overground nests of rodents in the Ukrainian Beskids (upper course of the Dnister)." Novitates Theriologicae, no. 11 (August 28, 2020): 184–87. http://dx.doi.org/10.53452/nt1129.

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Materials are collected and generalised on the overground nesting activity of 4 rodent species under conditions of the north Carpathian taiga: the red squirrel (Sciurus vulgaris), the edible dormouse (Glis glis), the hazel dormouse (Muscardinus avellanarius), and the harvest mouse (Micromys minutus). The locality is characterised by a combination various habitats. Common and unique variants of nests of these species are described, particularly the arrangement by the hazel dormouse of its own nests in nests of the Eurasian wren and song thrush, an unusual nest of the red squirrel, and the nesting of the edible dormouse in an abandoned dress.
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47

Occhiuto, Francesca, Eman Mohallal, Geoffrey D. Gilfillan, Andrew Lowe, and Tom Reader. "Seasonal patterns in habitat use by the harvest mouse (Micromys minutus) and other small mammals." Mammalia 85, no. 4 (2021): 325–35. http://dx.doi.org/10.1515/mammalia-2020-0095.

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Abstract The ecology of the harvest mouse (Micromys minutus) is poorly understood, partly because it is a difficult species to monitor. It is commonly associated with reedbeds, where evidence suggests that it experiences strong seasonal fluctuations in abundance. However, it is unknown whether these fluctuations are caused by real changes in population size, or by movement between habitats. This study investigated seasonal changes in population size and habitat use by harvest mice, and other small mammal species, by trapping the reedbed and three associated habitat types: woodland, pasture and arable land. A sampling effort of 9887 trap bouts across nine months, resulted in 70 captures of harvest mice, as well as wood mice (N = 1022), bank voles (N = 252), field voles (N = 9), common shrews (N = 86) and pygmy shrews (N = 7). The reedbed was the habitat with the most captures and highest diversity. Harvest mice were caught exclusively in the reedbed at the beginning of autumn. Wood mice and bank voles experienced fluctuations in population numbers and wood mice also showed seasonal variation in habitat use. Our study supports the idea that harvest mice undergo extreme seasonal fluctuations in abundance in reedbeds, but these do not appear to be related to changes in habitat use.
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48

Mori, Emiliano, Andrea Viviano, Stefano Mazzotti, Davide Sogliani, Alessandro Bini, and Mariella Baratti. "Unveiling the Genetic Diversity of Declining Population of the Harvest Mouse Micromys minutus in Italy." Diversity 14, no. 8 (2022): 627. http://dx.doi.org/10.3390/d14080627.

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The Italian peninsula represented one of the main glacial refugia during climatic oscillations of the Pleistocene, currently being a biodiversity hotspot. In this work, we analysed for the first time the genetic diversity of harvest mouse populations in Italy, and we compared them with those of the rest of Eurasia. Mitochondrial cytochrome-b gene was amplified from 12 samples from throughout the Italian range. We recorded a very low genetic diversity, in line with the rest of the harvest mouse range. In the comparative phylogenetic tree, Northern Italy samples clustered together as a sister group of the rest of Europe, whereas those from Central Italy clustered with Central Europe samples. Harvest mice have recently conquered Southern Europe, i.e., possibly at the start of the Holocene. The global genetic homogeneity might be due to accidental human-mediated introductions or to the sharp decline of the habitat of the harvest mouse, which may in turn have caused severe bottlenecks in the populations of this small rodent.
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49

Darinot, Fabrice. "Improving detectability of the harvest mouse (Micromys minutus Pallas, 1771) by above ground live-trapping." Mammalia 84, no. 3 (2020): 239–45. http://dx.doi.org/10.1515/mammalia-2018-0183.

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AbstractHarvest mouse detectability represents a real issue for surveys, as usual ground-trap monitoring is known to fail to detect this species, especially in summer. The present study proposes to test ground versus aerial live-trapping efficiency for harvest mouse in summer, with a trapping design using paired ground and aerial traps over a 2-year survey in a reedbed. Over 10,720 trap-nights, the harvest mouse represented 85% of the 1078 small mammals captured, and it was the only species among five which was more often trapped above ground (n = 702) than on the ground (n = 213). Capture probability was significantly higher in aerial than in ground traps, with a slightly positive effect of leaf litter and, surprisingly, a negative effect of dense vegetation cover. Following these results, recommendations are made for harvest mouse monitoring.
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50

Urbani, Bernardo, and Dionisios Youlatos. "Positional behavior and substrate use of Micromys minutus (Rodentia: Muridae): Insights for understanding primate origins." Journal of Human Evolution 64, no. 2 (2013): 130–36. http://dx.doi.org/10.1016/j.jhevol.2012.10.006.

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