World Species : Apodemus sylvaticus (Old World wood and field mouse)

Animalia > Chordata > Mammalia > Rodentia > Muridae > Apodemus > Apodemus sylvaticus

Apodemus sylvaticus (Old World wood and field mouse)

Contents

Synonyms:

Wikipedia Abstract

The wood mouse (Apodemus sylvaticus) is a common murid rodent from Europe and northwestern Africa. It is closely related to the yellow-necked mouse (Apodemus flavicollis) but differs in that it has no band of yellow fur around the neck, has slightly smaller ears, and is usually slightly smaller overall: around 90 mm (3.54") in length. It is found across most of Europe and is a very common and widespread species, is commensal with people and is sometimes considered a pest. Other common names are long-tailed field mouse, field mouse, common field mouse, and European wood mouse.

View Wikipedia Record: Apodemus sylvaticus

EDGE Analysis

Uniqueness Scale: Similiar (0)

Unique (100)

Uniqueness & Vulnerability Scale: Similiar & Secure (0)

Unique & Vulnerable (100)

ED Score: 3.6

EDGE Score: 1.53

Learn more at EDGE of Existence programme

Attributes

Adult Weight ^[1]	23 grams
Birth Weight ^[1]	2 grams

Diet ^[2]	Carnivore (Invertebrates), Frugivore, Granivore, Herbivore
Diet - Fruit ^[2]	20 %
Diet - Invertibrates ^[2]	20 %
Diet - Plants ^[2]	40 %
Diet - Seeds ^[2]	20 %
Forages - Ground ^[2]	100 %

Female Maturity ^[1]	71 days
Male Maturity ^[1]	65 days

Gestation ^[1]	23 days
Litter Size ^[1]	5
Litters / Year ^[1]	4
Maximum Longevity ^[1]	6 years
Snout to Vent Length ^[3]	4.724 inches (12 cm)
Weaning ^[1]	21 days

Biodiversity Hotspots

Name	Location	Endemic	Species	Website
Mediterranean Basin	Algeria, Egypt, France, Greece, Israel, Jordan, Lebanon, Libya, Portugal, Spain, Syria, Tunisia, Turkey	No

Prey / Diet

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Prey / Diet Overlap

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Full list (287)

Predators

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Consumers

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Range Map

External References

Citations

Attributes / relations provided by
♦ ¹de Magalhaes, J. P., and Costa, J. (2009) A database of vertebrate longevity records and their relation to other life-history traits. Journal of Evolutionary Biology 22(8):1770-1774
♦ ²Hamish Wilman, Jonathan Belmaker, Jennifer Simpson, Carolina de la Rosa, Marcelo M. Rivadeneira, and Walter Jetz. 2014. EltonTraits 1.0: Species-level foraging attributes of the world's birds and mammals. Ecology 95:2027
♦ ³Nathan P. Myhrvold, Elita Baldridge, Benjamin Chan, Dhileep Sivam, Daniel L. Freeman, and S. K. Morgan Ernest. 2015. An amniote life-history database to perform comparative analyses with birds, mammals, and reptiles. Ecology 96:3109
♦ ⁴Ecology of Commanster
♦ ⁵Prunus mahaleb and Birds: The High-Efficiency Seed Dispersal System of a Temperate Fruiting Tree, Carlos M. Herrera and Pedro Jordano, Ecological Monographs Vol. 51, No. 2 (Jun., 1981), pp. 203-218
♦ ⁶Birds and guelder rose Viburnum opulus: selective consumption and dispersal via regurgitation of small-sized fruits and seeds, Ángel Hernández, Plant Ecol (2009) 203:111122
♦ ⁷DIET COMPOSITION OF THE LONG-EARED OWL IN SLOVENIA: SEASONAL VARIATION IN PREY USE, DAVORIN TOME, J Raptor Res. 28(4):253-258
♦ ⁸Reproductive output, costs of reproduction, and ecology of the smooth snake, Coronella austriaca, in the eastern Italian Alps, L. Luiselli, M. Capula, R. Shine, Oecologia (1996) 106:100-110
♦ ⁹Assessing the diet of nestling Bearded Vultures: a comparison between direct observation methods, Antoni Margalida, Joan Bertran, and Jennifer Boudet, J. Field Ornithol. 76(1):4045, 2005
♦ ¹⁰Body size, diet and reproductive ecology of Coluber hippocrepis in the Rif (Northern Morocco), Juan M. Pleguezuelos, Soumia Fahd, Amphibia-Reptilia 25: 287-302 (2004)
♦ ¹¹The prey spectrum of Natrix natrix (LINNAEUS, 1758) and Natrix tessellata (LAURENTI, 1768) in sympatric populations (Squamata: Serpentes: Colubridae), ERNESTO FILIPPI & MASSIMO CAPULA & LUCA LUISELLI & UMBERTO AGRIMI, HERPETOZOA 8 (3/4): 155 -164 Wien, 30. Jänner 1996
♦ ¹²Prey availability drives geographic dietary differences of a Mediterranean predator, the Latastes viper (Vipera latastei), Xavier Santos, Juan M. Pleguezuelos, José C. Brito, Gustavo A. Llorente, Xavier Parellada & Soumia Fahd, HERPETOLOGICAL JOURNAL 18: 1622, 2008
♦ ¹³Correlates between morphology, diet and foraging mode in the Ladder Snake Rhinechis scalaris (Schinz, 1822), Juan M. Pleguezuelos , Juan R. Fernández-Cardenete , Santiago Honrubia , Mónica Feriche , Carmen Villafranca, Contributions to Zoology, 76 (3) 2007
♦ ¹⁴Gibson, D. I., Bray, R. A., & Harris, E. A. (Compilers) (2005). Host-Parasite Database of the Natural History Museum, London
♦ ¹⁵Jorrit H. Poelen, James D. Simons and Chris J. Mungall. (2014). Global Biotic Interactions: An open infrastructure to share and analyze species-interaction datasets. Ecological Informatics.
♦ ¹⁶International Flea Database

Ecoregions provided by World Wide Fund For Nature (WWF). WildFinder: Online database of species distributions, ver. 01.06 Wildfinder Database

Biodiversity Hotspots provided by Critical Ecosystem Partnership Fund

Abstract provided by DBpedia licensed under a Creative Commons License

Species taxanomy provided by GBIF Secretariat (2022). GBIF Backbone Taxonomy. Checklist dataset https://doi.org/10.15468/39omei accessed via GBIF.org on 2023-06-13; License: CC BY 4.0