Western North American Naturalist Volume 61 Number 2 Article 12 4-23-2001 Subnivean root caching by a montane vole (Microtus montanus nanus), Colorado Front Range, USA James B. Benedict Center for Mountain Archeology, Ward, Colorado Audrey D. Benedict Cloud Ridge Naturalists, Ward, Colorado Follow this and additional works at: https://scholarsarchive.byu.edu/wnan Recommended Citation Benedict, James B. and Benedict, Audrey D. (2001) "Subnivean root caching by a montane vole (Microtus montanus nanus), Colorado Front Range, USA," Western North American Naturalist: Vol. 61 : No. 2 , Article 12. Available at: https://scholarsarchive.byu.edu/wnan/vol61/iss2/12 This Note is brought to you for free and open access by the Western North American Naturalist Publications at BYU ScholarsArchive. It has been accepted for inclusion in Western North American Naturalist by an authorized editor of BYU ScholarsArchive. For more information, please contact [email protected], [email protected]. Western North American Naturalist 61(1), © 2001, pp. 241–244 SUBNIVEAN ROOT CACHING BY A MONTANE VOLE (MICROTUS MONTANUS NANUS), COLORADO FRONT RANGE, USA James B. Benedict1 and Audrey D. Benedict2 Key words: montane vole, Microtus montanus, pygmy bitterroot, Oreobroma pygmaea, caching behavior, snow, Colo- rado Rocky Mountains. Food hoarding is a common winter-survival The meadow is at an altitude of 3410 m in strategy of cold-climate animals (Smith and the forest-tundra ecotone of Fourth of July val- Reichman 1984), including many microtines. ley. Beginning at the base of a low cliff, it Voles store grasses, leafy vegetation, and twigs slopes gently southeastward to the North Fork primarily in piles on the ground surface. They of Middle Boulder Creek. Snow blankets the store epiphytic lichens in tree cavities and bird meadow from October until early or mid-July nests above the level of the snow. And they of most years, supplying moisture that encour- store roots, rhizomes, and tubers belowground ages lush plant growth. Caching activities or in subnivean chambers, where the food reported in this paper occurred in a plant remains fresh for months (Vander Wall 1990). community dominated by sibbaldia (Sibbaldia Subnivean caches are among the least-studied procumbens) and fern-leaved lovage (Ligus- storage facilities due to the difficulty of observ- ticum tenuifolium). Other species include ing activities that occur entirely beneath the Deschampsia cespitosa, Bistorta bistortoides, snow. Caches are established after snow blan- Erigeron peregrinus, Viola labradorica, Castille- kets the ground. Their contents are ordinarily ja rhexifolia, Vaccinium myrtillus, Vaccinium consumed before meltout, and the chambers scoparium, Gaultheria humifusa, Phleum com- themselves are transient features. To our knowl- mutatum, Carex nigricans, and Juncus drum- edge the only published observations of sub- mondii. Of special interest is the locally high nivean caching by microtines are those of For- density of pygmy bitterroot (Oreobroma pyg- mozov (1966) in northern Kazakhstan and Gates maea [Gray] Howell, formerly Lewisia pyg- and Gates (1980) in western Maryland. maea), a species that elsewhere in the Front Snow arrived early in the mountains of Range reaches greatest percentage cover where western Boulder County, Colorado, during the maximum winter snow depths average 2 to 3 autumn of 1996. Heavy upslope snowstorms m (Walker et al. 1993). and downslope redistribution events between Two grass ball nests were present in the 17 and 27 September created a snowpack that meadow (Fig. 1), only one of which had been gave every indication it would remain for the recently occupied. The other was faded and duration of winter. Conditions then turned partially flattened, as though it had been built warm and dry. By 9 October an elaborate sys- during the preceding winter. We identified the tem of root caches, runways, foraging trenches, builder of the younger nest as a montane vole and surface ball nests had begun to emerge (Microtus montanus nanus), based on the char- from beneath the snow in a meadow above acteristics of dorsal guard hairs shed in its timberline in Indian Peaks Wilderness Area. nesting chamber. The hairs have brown to By 12 October the entire meadow had become black tips, yellowish ivory bands confined to exposed, providing a snapshot of what a vole the central portions of shields, and black lower can accomplish in unfrozen soil beneath a shields that terminate in subshield strictures. continuous snowpack in about 3 weeks’ time. Restriction of the color band to the central 1Center for Mountain Archeology, 8297 Overland Road, Ward, CO 80481. 2Cloud Ridge Naturalists, 8297 Overland Road, Ward, CO 80481. 241 242 WESTERN NORTH AMERICAN NATURALIST [Volume 61 Fig. 1. Tape-and-compass map of runways, tunnel entrances, ball nests, and root caches. portion of the shield (as opposed to extending Ball nests at the study site were connected downward to the subshield stricture) distin- to root caches and subsurface tunnels by a guishes the dorsal guard hairs of M. montanus network of branching runways and foraging from those of M. longicaudus, Phenacomys trenches with an aggregate length of about 60 intermedius, and Clethrionomys gapperi (Moore m (Fig. 1). Runways and trenches were 2.5 to et al. 1974)—other vole species that occur 4.0 cm wide and up to 3.0 cm deep. Foraging above timberline in western Boulder County. trenches were flanked with levees of earth and Supporting this identification is the vole’s of cut rootlets, stems, and leaves piled to the choice of habitats. During 10 years of trapping side during the harvesting process. Five small- in a tundra saddle 8 km northeast of the valley, diameter (2.5 to 3.5 cm) holes near a boulder M. montanus was the only vole species cap- at the southwest end of the runway network tured in snowbed communities dominated by (Fig. 1) appeared to be tunnel entrances, such Sibbaldia procumbens, and the most numerous as might lead to a summer nesting chamber. A vole species in moist-meadow communities 6th entrance occurred nearby, at the edge of a dominated by Deschampsia cespitosa (Arm- smaller boulder. The older of the 2 ball nests, strong et al. in press). the tunnels, and several runways are thought The ball nest was made from stems and to predate the 1996 caching event. leaves of D. cespitosa, clipped to lengths of 7 Four root caches were present in the cm or less. Leaves of Carex nigricans and meadow, each linked to the trench network by leaves and twigs of Gaultheria humifusa, still a short runway (Fig. 1). Caches consisted of fresh and green, were present in trace quanti- roots that had been heaped on the ground sur- ties. The nest was globular in shape, with a face in chambers beneath the snow, forming height of about 8 cm. Its exterior diameter (19 circular mounds or irregularly elongated ridges. cm) was larger than has been generally reported Table 1 summarizes cache dimensions and for M. montanus, but extra-thick insulative contents. Tuberous roots of pygmy bitterroot walls may be required in such a low-tempera- (Oreobroma pygmaea) were the only food ture environment. Two entrances led to a snug, items represented. Roots of this species grow central chamber barely large enough for a sin- in the meadow at depths of 0.6 to 3.4 cm, the gle individual. Field and laboratory studies approximate depth range explored by the for- (Jannett 1982, McGuire and Novak 1986) in- aging vole. Fleshy rhizomes of Bistorta bistor- dicate that adult montane voles nest individu- toides, another potential food source, begin ally rather than in pairs or colonies. below the bases of the trenches, at depths of 2001] NOTES 243 TABLE 1. Dimensions and contents of root caches. Number of Aggregate Cache Length (cm) Width (cm) roots weight (g)a A 9 8 139 17.0 B 24 18 432 70.4 C 37 18 290 45.9 D 5 4 26 7.4 TOTALS 887 140.7 aField-moisture content, 12 October 1996 4.7 to 8.7 cm. They were not represented in oven-dry weight of 0.31 kg. Rhizomes of the caches, although their upturned tips some- Potentilla canadensis were especially numer- times penetrate the foraging zone from below. ous, but underground parts of 3 other plant Rather than selecting for robust plants with species were also represented. The authors large roots, the vole appears to have stored all calculated that the cache could support a sin- O. pygmaea roots it encountered, regardless of gle average-sized vole for 86.8 days. On a per- size. Rootlets, stems, and foliage were trimmed animal basis, weights reported by these authors and discarded before caching. Altogether, are at least 3 times the oven-dry weight of caches contained 887 roots ranging from 5 to roots in Fourth of July valley caches. The ani- 27 mm in maximum dimension, with an aggre- mal may have intended to continue harvesting gate fresh weight of 140.7 g. Assuming that until the ground froze or a winter’s food sup- roots from the caches were similar in caloric ply had been stashed away, or the caches may value and macronutrient content to a sample have been meant merely to supplement other of fresh roots dug at the site in late August diet items available beneath the snow. Small 1998 and analyzed by Warren Analytical Labs hoards, reserved for times of great need, can (Greeley, Colorado), the caches represented make critical contributions to winter survival, 395 kcal of stored energy. They contained 40.4 even though they fall far short of meeting total g of moisture, 95.1 g of carbohydrate, 3.5 g of nutritional requirements (Hitchcock and Hou- protein, 0.1 g of fat, and 1.6 g of ash.