Carleton & Goodman, 1996
Carleton & Goodman, 1996
|Known collection localities of Monticolomys koopmani|
Monticolomys is a genus of rodents within the subfamily Nesomyinae of the family Nesomyidae, and is closely related to Macrotarsomys. The only species, Monticolomys koopmani, also known as the Malagasy mountain mouse or Koopman's montane voalavo, is found in the highlands of eastern Madagascar. A small mouse-like rodent, M. koopmani is dark brown on the upperparts and dark gray below. It has small, rounded, densely haired ears and broad feet with well-developed pads. The long tail lacks a tuft at the tip. The skull is delicate and lacks crests and ridges on its roof.
First collected in 1929, Monticolomys koopmani was not formally described until 1996, but it is now known to have a broad distribution. Active during the night, it occurs in both montane forest and human-disturbed grasslands and feeds on fruits and seeds. A scansorial animal, it climbs trees but also lives on the ground. Although habitat destruction may pose a threat, it is classified as "Least Concern" on the IUCN Red List.
A specimen of Monticolomys koopmani was captured in 1929 during the Mission Zoologique Franco-Anglo-Américaine to Madagascar, but the rodents obtained by the expedition were never studied in detail. It was not until the 1970s that Karl Koopman and Guy Musser recognized that the animal—whose skin had landed at the American Museum of Natural History in New York, while the skull was at the Muséum national d'histoire naturelle in Paris—represented an otherwise unknown species. However, they never published their results. In 1993, Steven Goodman rediscovered the species on Madagascar and in 1996 he and Michael Carleton finally published a formal description.2 They named the animal Monticolomys koopmani, as the sole member of a new genus.3 The generic name Monticolomys means "mountain-dwelling mouse" and refers to the animal's montane habitat, and the specific name koopmani honors Karl Koopman for his many contributions to mammalian systematics.4 Common names in use for the animal include "Koopman's Montane Voalavo"5 and "Malagasy Mountain Mouse".1
The indigenous rodents of Madagascar, the Nesomyinae, prior to the discovery of Monticolomys comprised seven very distinctive genera—so distinct from each other that some have found it difficult to accept that they are closely related.6 Monticolomys, however, does not follow this pattern, in that it is similar and closely related to the gerbil-like genus Macrotarsomys of western Madagascar. This relationship was originally proposed by Goodman and Carleton based on morphology,7 and was strongly supported by a DNA sequence analysis (based on the cytochrome b gene) published in 1999.8 While this study provided some weak support for a relationship between the Macrotarsomys–Monticolomys clade and the giant jumping rat, Hypogeomys,9 a later study based on the IRBP gene instead placed Macrotarsomys–Monticolomys sister to a clade containing four other nesomyine genera—Eliurus, Voalavo, Gymnuromys, and Brachytarsomys.10
Monticolomys koopmani is a small, mouse-like rodent, and quite different in appearance from most other nesomyines.11 It has a thick, soft fur, which appears dark brown on the upperparts. The cover hairs (which comprise most of the fur) are tricolored: for the basal two thirds of their length, they are plumbeous gray; the middle is ochraceous; and the tip is dark brown to black. The longer guard hairs, which are most common towards the middle of the back, are completely black. The fur of the underparts appears dark gray, and is not sharply demarcated from the upperparts. There, the hairs are also plumbeous at the bases, but the tips range from white to yellowish-brown. The mystacial vibrissae—whiskers above the mouth—are medium-sized. The short, rounded ears are densely covered with grayish hairs.12 Monticolomys has broad hindfeet bearing prominent pads and long outer digits.13 There are white hairs on the upper sides of the metapodials and digits, and long ungual tufts—tufts of hair surrounding the bases of the claws—are present. The thumb of the forefeet bears a nail, but claws are present on the other digits.14 The long tail12 is covered with small scales and light brown hairs.14 The tail lacks a distinct tuft at the tip, as is present in Eliurus and Macrotarsomys.11 Females have six mammae.14 Head and body length is 84 to 101 mm (3.3 to 4 in), tail length is 116 to 143 mm (4.6 to 5.6 in), hindfoot length is 23 to 25 mm (0.9 to 1 in), ear length is 15 to 20 mm (0.6 to 0.8 in), and body mass is 18.5 to 27.5 g (0.7 to 1 oz).15
The skull is small and delicate. The front part, the rostrum, is narrow and relatively long. The nasal bones are rounded at the front, but blunt at the back. The zygomatic plate—a bony plate at the side of the skull—is narrow and extends back to the front margin of the first upper molar (M1).14 The jugal bones constitute much of the thin zygomatic arches (cheekbones). The interorbital region, between the eyes, is narrow and hourglass-shaped. There are no crests or ridges on the interorbital region or on the braincase.16 The incisive foramina, openings in the front part of the palate, extend back to a point between the front roots of the M1s. The bony palate itself is broad and lacks many indentations and protuberances present in other species. Its posterior margin is at the level of the upper third molars (M3s). There is no alisphenoid strut, so that the masticatory-buccinator foramen and the foramen ovale accessorium, two openings on the underside of the skull, are fused.16 There are 13 thoracic (chest), 7 lumbar (abdomen), 4 sacral (hip), and 38 caudal (tail) vertebrae.17
The upper incisors have orange enamel and are opisthodont, with the cutting edge of the tooth inclined backwards. The root of the lower incisors extends though the mandible (lower jaw) to a low capsular process at the back of the jawbone. The molars are brachyodont (low-crowned) and bear distinct cusps. The second molars, although decidedly smaller than the first, are similar in their crown morphology, but the much smaller third molars are reduced and more distinct from the first molars in morphology.17 The molars lack accessory crests and other features. Each of the upper molars is three-rooted, whereas the lowers have two roots.18 The molars are quite similar to those of Macrotarsomys, and differ only in minor details.19
The range of Monticolomys is now known to extend across the mountain ranges of eastern Madagascar from the Tsaratanana Massif20 south to Andohahela, at 800 to 2200 m (2600 to 7200 ft) above sea level. It occurs in montane forest, but also in degraded grassland,1 where it is among the first species to return after fires.21 At Ankaratra, where the species was recorded in 1929, it occurred in such grassland, where the nesomyine Brachyuromys betsileoensis was also found.18 The animal was again recorded at Ankaratra in 1996, this time in a heavily disturbed forest, where it occurred with Eliurus minor and the introduced black rat (Rattus rattus).22 At Andringitra, the animal was recorded in high montane forest together with six other nesomyines—Brachyuromys ramirohitra, Eliurus minor, Eliurus tanala, Eliurus webbi, Gymnuromys roberti, and Nesomys rufus—as well as the black rat.23 At Andohahela, Monticolomys was found at an altitude of 1875 m (6151.6 ft) in sclerophyllous forest.24 Its distribution corresponds to the High Mountain Domain, a region defined on the basis of plant distributions. This region is now discontinuous, but the High Mountain Domain habitat was continuous from mountain to mountain as recently as the early Holocene.25 Subfossil remains of Monticolomys have been found in Mahajanga Province (northwestern Madagascar).26 Monticolomys koopmani is morphologically uniform across its wide distribution.27
Monticolomys is nocturnal and solitary and produces litters of up to three offspring.28 It is scansorial, spending time on the ground but also climbing in vegetation.1 In Andringitra, two specimens were captured on a liana 2 m (7 ft) over the ground, and a third was caught on the ground together with two shrew tenrecs (Microgale taiva).23 All five specimens from Andohahela were trapped on the ground, as was the specimen caught in Ankaratra in 1996.24 Its diet includes fruits and seeds;28 in captivity, it eats Agauria fruits.29
As Monticolomys koopmani is now known to be a widespread, common species occurring in at least one protected area (Andringitra National Park; it may also occur in Ankarana Special Reserve), it is listed on the IUCN Red List as "Least Concern". However, fires pose a threat in montane forest and, at lower elevations, its habitat is being converted into agricultural land.1
- Goodman et al., 2008
- Carleton and Goodman, 1996, p. 232
- Carleton and Goodman, 1996, p. 233
- Carleton and Goodman, 1996, p. 242
- Musser and Carleton, 2005, p. 952
- Carleton and Goodman, 1996, p. 249
- Carleton and Goodman, 1996, p. 250
- Jansa et al., 1999, pp. 262–263
- Jansa et al., 1999, p. 263
- Jansa and Weksler, 2004, fig. 1
- Carleton and Goodman, 1996, p. 243
- Carleton and Goodman, 1996, p. 235
- Carleton and Goodman, 1996, pp. 243–244
- Carleton and Goodman, 1996, p. 236
- Carleton and Goodman, 1996, table 21-2; Goodman et al., 1999, table 14-2
- Carleton and Goodman, 1996, p. 237
- Carleton and Goodman, 1996, p. 238
- Carleton and Goodman, 1996, p. 239
- Carleton and Goodman, 1996, p. 245
- Maminirina et al., 2008, p. 716
- Rasolonondrasana and Goodman, 2006, p. 81
- Goodman et al., 1996, pp. 111, 113, 118
- Carleton and Goodman, 1996, p. 240
- Goodman et al., 1999, p. 231
- Goodman et al., 1999, p. 232
- Mein et al., 2010, p. 105
- Goodman et al., 1999, p. 232; Maminirina et al., 2008, p. 716
- Goodman et al., 2003, table 13.4
- Rasolonondrasana and Goodman, 2006, p. 80
- Carleton, M.D. and Goodman, S.M. 1996. Systematic studies of Madagascar's endemic rodents (Muroidea: Nesomyinae): A new genus and species from the Central Highlands. Fieldiana Zoology 85:231–250.
- Goodman, S.M., Rakotondravony, D., Schatz, G. and Wilmé, L. 1996. Species richness of forest-dwelling birds, rodents and insectivores in a planted forest of native trees: a test case from the Ankaratra, Madagascar. Ecotropica 2:109–120.
- Goodman, S.M., Carleton, M.D. and Pidgeon, M. 1999. Rodents of the Réserve Naturelle Intégrale d'Andohahela, Madagascar. Fieldiana Zoology 94:217–249.
- Goodman, S.M., Ganzhorn, J.U. and Rakotondravony, D. 2003. Introduction to the mammals. Pp. 1159–1186 in Goodman, S.M. and Benstead, J.P. (eds.). The Natural History of Madagascar. University of Chicago Press, 1728 pp. ISBN 0-226-30306-3
- Goodman, S., Raherisehena, M. and Ramiarinjanahary, H. 2008. Monticolomys koopmani. In IUCN. IUCN Red List of Threatened Species. Version 2010.2. <www.iucnredlist.org>. Downloaded on January 1, 2011.
- Jansa, S.A., Goodman, S.M. and Tucker, P.K. 1999. Molecular phylogeny and biogeography of the native rodents of Madagascar (Muridae: Nesomyinae): A test of the single-origin hypothesis. Cladistics 15:253–270 doi:10.1111/j.1096-0031.1999.tb00267.x
- Jansa, S.A. and Weksler, M. 2004. Phylogeny of muroid rodents: relationships within and among major lineages as determined by IRBP gene sequences Molecular Phylogenetics and Evolution 31:256–276 doi:10.1016/j.ympev.2003.07.002 PMID 15019624
- Maminirina C.P., Goodman S.M. and Raxworthy C. J. 2008. Les micro-mammifères (Mammalia, Rodentia, Afrosoricida et Soricomorpha) du massif du Tsaratanana et biogéographie des forêts de montagne de Madagascar. Zoosystema 30(3):695–721 (in French).
- Mein, P., Sénégas, F., Gommery, D., Ramanivosoa, B., Randrianantenaina, H. and Kerloc'h, P. 2010. Nouvelles espèces subfossiles de rongeurs du Nord-Ouest de Madagascar (subscription required). Comptes Rendus Palevol 9(3):101–112 (in French, with abridged English version).
- Musser, G.G. and Carleton, M.D. 2005. Superfamily Muroidea. Pp. 894–1531 in Wilson, D.E. and Reeder, D.M. (eds.). Mammal Species of the World: A Taxonomic and Geographic Reference. 3rd ed. Baltimore: The Johns Hopkins University Press, 2 vols., 2142 pp. ISBN 978-0-8018-8221-0
- Rasolonondrasana, B.P.N. and Goodman, S.M. 2006. The influence of fire on mountain sclerophyllous forests and their small-mammal communities in Madagascar. Pp. 77–87 in Spehn, E.M., Liberman, M. and Körner, C. (eds.). Land Use Change and Mountain Biodiversity. Boca Raton, Florida: CRC Press, 361 pp. ISBN 978-0-8493-3523-5