Abstract
Pygmy tarsiers (Tarsius pumilus) of central Sulawesi, Indonesia are the only species of tarsier known to live exclusively at high altitudes. This paper examines how the ranging patterns and altitudinal distribution of high-altitude pygmy tarsiers compare to those of lowland Sulawesian tarsier species, within an elevational gradient in Lore Lindu National Park. This study a) assesses the altitudinal range of pygmy tarsiers and determines the degree of overlap with lowland tarsiers; b) describes the ranging patterns of pygmy tarsiers; and c) compares the home range sizes of pygmy tarsiers to lowland tarsiers. Given that species ranges should increase as elevation increases, I hypothesized that pygmy tarsiers would have a larger altitudinal range than lowland tarsiers. Further, given that tarsier food resources decline at higher altitudes, I hypothesized that pygmy tarsiers would have relatively large home ranges. Results indicate that pygmy tarsiers within the study area are allopatrically separated from lowland tarsier species. Pygmy tarsiers were found at 2000-2300 m and do not occupy a wider elevational range than lowland tarsiers, contrary to Rapoport’s rule. Pygmy tarsier home ranges are comparable to or relatively larger than those of lowland tarsiers, although interpretation of these results is limited by a small sample size. The average home range size for the observed pygmy tarsiers was 2.0 ha, and the average nightly path length was 365.36 m. While pygmy tarsier home ranges may be larger than lowland species, nightly path length is shorter, indicating that the tarsiers do not utilize a large proportion of their home range on a nightly basis. The relatively small nightly path length of pygmy tarsiers is unexpected, given that nightly travel distances are known to increase in habitats with lower productivity. One explanation for this short nightly travel distances of pygmy tarsiers may be their biased distribution near forest edges where insects are more abundant, lessening the need to increase foraging area. A possible confounding variable for these results is seasonal change in resources, although there is no clear seasonal change in rainfall at the study site.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Altmann, J. (1974). Observational study of behavior: Sampling methods. Behaviour, 49, 227–267.
Beard, K. (1998). A new genus of Tarsiidae (Mammalia: Primates) from the middle Eocene of Shanxi Province, China, with notes on the historical biogeography0020of tarsiers. In K. C. Beard and M. R. Dawson (Eds.), Dawn of the age of mammals in Asia (Vol. 34, pp. 260–277). Pittsburgh: Bulletin of Carnegie Museum of Natural History.
Bearder, S. K., and Martin, R. D. (1979). The social organization of a nocturnal primate revealed by radio-tracking. In C.J. Amlaner and D.W. Macdonald (Eds.), A Handbook on Biotelemetry and Radio Tracking (pp. 633-648). Oxford: Pergamon Press.
Brandon-Jones, D., Eudey, A. A., Geissmann, T., Groves, C. P., Melnick, D. J., Morales, J. C., et al. (2004). Asian primate classification. International Journal of Primatology, 25(1), 97–164.
Burton, J., Hedges, S., & Mustari, A. (2005). The taxonomic status, distribution and conservation of the lowland anoa Bubalus depressicornis and mountain anoa Bubalus quarlesi. Mammal Review, 35(1), 25–50.
Crompton, R. H., & Andau, P. M. (1987). Ranging, activity rhythms, and sociality in free-rangingTarsius bancanus: A preliminary report. International Journal of Primatology, 8(1), 43–71.
Culmsee, H. (2011). Tree diversity and phytogeographical patterns of tropical high mountain rain forests in Central Sulawesi, Indonesia. Biodiversity and Conservation, 20(5), 1103–1123.
Culmsee, H., Leuschner, C., Moser, G., & Pitopang, R. (2010). Forest aboveground biomass along an elevational transect in Sulawesi, Indonesia, and the role of Fagaceae in tropical montane rain forests. Journal of Biogeography, 37(5), 960–974.
Darwin, C. (1845). Journal of researches into the natural history and geology of the countries visited during the voyage of H.M.S. Beagle round the world, under the command of Capt. Fitz Roy, R.N. (2nd ed). London: John Murray.
Fleagle, J., & Gilbert, C. (2006). The biogeography of primate evolution: The role of plate tectonics, climate and chance. In S. M. Lehman & J. G. Fleagle (Eds.), Primate biogeography (pp. 375–418). New York: Springer.
Fogden, M. P. L. (1974). A preliminary field study of the western tarsier, Tarsius bancanus Horsefield. In R. D. Martin, G. A. Doyle, & A. C. Walker (Eds.), Prosimian biology (pp. 151–165). Pittsburgh: University of Pittsburgh Press.
Goodman, S. M., & Ganzhorn, J. U. (2004). Elevational ranges of lemurs in the humid forests of Madagascar. International Journal of Primatology, 25(2), 331–350.
Gorog, A., & Sinaga, M. (2008). A tarsier capture in upper montane forest on Borneo. In M. Shekelle, I. Maryanto, C. P. Groves, H. Schulze, & H. Fitch-Snyder (Eds.), Primates of the oriental night (pp. 29–33). Cibinong, Indonesia: Indonesian Institute of Sciences.
Groves, C., & Shekelle, M. (2010). The genera and species of Tarsiidae. International Journal of Primatology, 1–12.
Grow, N. B. (2012). Constraints on sexually selected traits in a high-altitude tarsier species, Tarsius pumilus. American Journal of Physical Anthropology, 147(S54), 156.
Grow, N., & Gursky-Doyen, S. (2010). Preliminary data on the behavior, ecology, and morphology of pygmy tarsiers (Tarsius pumilus). International Journal of Primatology, 31(6), 1174–1191.
Grow, N. B., Gursky, S., & Duma, Y. (2013). Altitude and forest edges influence the density and distribution of pygmy tarsiers (Tarsius pumilus). American Journal of Primatology,. doi:10.1002/ajp.22123.
Grueter, C. C., Li, D., Ren, B., Xiang, Z., & Li, M. (2012). Food abundance is the main determinant of high-altitude range use in snub-nosed monkeys. International Journal of Zoology, e739419, 1–4.
Gursky, S. (1995). Group size and composition in the spectral tarsier, Tarsius spectrum: Implications for social organization. Tropical Biodiversity, 3(1), 57–62.
Gursky, S. (1998). Conservation status of the spectral tarsier Tarsius spectrum: Population density and home range size. Folia Primatologica, 69, 191–203.
Gursky, S. (2000). Effect of seasonality on the behavior of an insectivorous primate, Tarsius spectrum. International Journal of Primatology, 21(3), 477–495.
Haines, A., Hernández, F., Henke, S., & Bingham, R. (2006). A method for determining asymptotes of home-range area curves. Gamebird, 489–498. May 31–June 4 2006.
Körner, C. (2007). The use of “altitude” in ecological research. Trends in Ecology and Evolution, 22(11), 569–574.
Latifah, S. (2005). Inventory and quality assessment of tropical rainforests in the Lore Lindu national park (Sulawesi, Indonesia). Göttingen: Cuvillier Verlag.
Lehman, S., & Fleagle, J. (2006). Biogeography and primates: A review. In S. Lehman & J. Fleagle (Eds.), Primate biogeography: Progress and prospects (pp. 1–58). Chicago: Springer.
Losos, J. B., & Ricklefs, R. E. (2009). Adaptation and diversification on islands. Nature, 457(7231), 830–836.
MacKinnon, J., & MacKinnon, K. (1980). The behavior of wild spectral tarsiers. International Journal of Primatology, 1(4), 361–379.
Maryanto, I., & Yani, M. (2004). The third record of pygmy tarsier (Tarsius pumilus) from Lore Lindu national park, central Sulawesi, Indonesia. Tropical Biodiversity, 8(2), 79–85.
McCain, C. M. (2007). Area and mammalian elevational diversity. Ecology, 88(1), 76–86.
Merker, S. (2003). Vom aussterben bedroht oder anpassungsfähig?-der koboldmaki Tarsius dianae in den regenwäldern Sulawesis. Unpublished Doctoral Dissertation, University of Göttingen, Germany.
Merker, S. (2006). Habitat-specific ranging patterns of Dian’s tarsiers (Tarsius dianae) as revealed by radiotracking. American Journal of Primatology, 68(2), 111–125.
Merker, S. (2010). The population ecology of Dian’s Tarsier. In S. Gursky & J. Supriatna (Eds.), Indonesian primates (pp. 371–382). New York: Springer.
Merker, S., & Groves, C. (2006). Tarsius lariang: A new primate species from western central Sulawesi. International Journal of Primatology, 27(2), 465–485.
Merker, S., Yustian, I., & Mühlenberg, M. (2004). Losing ground but still doing well—Tarsius dianae in human-altered rainforests of central Sulawesi, Indonesia. In G. Gerold, M. Fremerey, & E. Guhardja (Eds.), Land use, nature conservation and the stability of rainforest margins in Southeast Asia (pp. 299–311). Heidelberg: Springer.
Merker, S., Yustian, I., & Mühlenberg, M. (2005). Responding to forest degradation: altered habitat use by Dian’s tarsier Tarsius dianae in Sulawesi, Indonesia. Oryx, 39(02), 189–195.
Merker, S., Driller, C., Perwitasari-Farajallah, D., Pamungkas, J., & Zischler, H. (2009). Elucidating geological and biological processes underlying the diversification of Sulawesi tarsiers. Proceedings of the National Academy of Sciences, 106(21), 8459.
Merker, S., Driller, C., Dahruddin, H., Sinaga, W., Perwitasari-Farajallah, D., & Shekelle, M. (2010). Tarsius wallacei: A new tarsier species from Central Sulawesi occupies a discontinuous range. International Journal of Primatology, 36(6), 1107–1122.
Miller, G. S., & Hollister, N. (1921). Twenty new mammals collected by H.C. Raven in Celebes. Proceedings of the Biological Society of Washington, 34, 93–104.
Musser, G. G., & Dagosto, M. (1987). The identity of Tarsius pumilus, a pygmy species endemic to the montane mossy forests of Central Sulawesi. American Museum Novitates, 2867, 1–53.
Neri-Arboleda, I., Stott, P., & Arboleda, N. P. (2002). Home ranges, spatial movements and habitat associations of the Philippine tarsier (Tarsius syrichta) in Corella, Bohol. Journal of Zoology, 257, 387–402.
Niemitz, C. (1984). Taxonomy and distribution of the genus Tarsius Storr, 1780. In C. Niemitz (Ed.), Biology of tarsiers (pp. 1–16). Stuttgart: Gustav Fischer Verlag.
Niemitz, C., Nietsch, A., Warter, S., & Rumpler, Y. (1991). Tarsius dianae: A new primate species from Central Sulawesi (Indonesia). Folia Primatologica, 56(2), 105–116.
Nietsch, A. (1999). Duet vocalizations among different populations of Sulawesi tarsiers. International Journal of Primatology, 20(4), 567–583.
Pallas, P. S. (1778). Novae species Quadrupedum e Glirium ordine, cum illustrationibus variis complurium ex hoc ordine Animalium. Walther: Erlangen.
Pangau-Adam, M. Z. (2003). Avian nest predation in forest margin areas in Lore Lindu National Park, Central Sulawesi, Indonesia. Unpublished Doctoral Dissertation, Georg-August University of Göttingen, Germany.
Quan, R. -C., Ren, G., Behm, J. E., Wang, L., Huang, Y., Long, Y., et al. (2011). Why does Rhinopithecus bieti prefer the highest elevation range in winter? A test of the sunshine hypothesis. PloS One, 6(9), e24449, 1–9.
Rapoport, E. H., & Bariloche, F. (1982). Areography: Geographical strategies of species. New York: Pergamon Press.
Řeháková-Petrů, M., Policht, R., & Peške, L. (2012). Acoustic Repertoire of the Philippine Tarsier (Tarsius syrichta fraterculus) and individual variation of long-distance calls. International Journal of Zoology, e602401, 1–10.
Richard, A. F. (1985). Sympatry, competition, and the niche. In A. F. Richard (Ed.), Primates in nature. Chicago: W.H. Freeman and Co.
Ruggiero, A., & Lawton, J. H. (2008). Are there latitudinal and altidudinal Rapoport effects in the geographic ranges of Andean passerine birds? Biological Journal of the Linnean Society, 63(2), 283–304.
Schluter, D. (1984). A variance test for detecting species associations, with some example applications. Ecology, 65, 998–1005.
Schweithelm, J., Wirawan, N., Elliott, J., & Khan, J. (1992). Sulawesi parks program land use and socio-economic survey: Lore Lindu national park and Morowali nature reserve. Jakarta: The Nature Conservancy.
Shekelle, M. (2003). Taxonomy and biogeography of Eastern Tarsiers. Unpublished Doctoral Dissertation, Washington University, St. Louis.
Shekelle, M. (2008). Distribution and biogeography of tarsiers. In M. Shekelle, I. Maryanto, C. P. Groves, H. Schulze, & H. Fitch-Snyder (Eds.), Primates of the oriental night (pp. 13–28). Cibinong: Indonesian Institute of Sciences.
Shekelle, M., & Salim, A. (2009). An acute conservation threat to two tarsier species in the Sangihe Island chain, North Sulawesi, Indonesia. Oryx, 43(3), 419–426.
Shekelle, M., Leksono, S. M., Ichwan, L. L. S., & Masala, Y. (1997). The natural history of tarsiers of North and Central Sulawesi. Sulawesi Primate Newsletter, 4, 4–11.
Southwick, C., Yongzu, Z., Haisheng, J., Zhenhe, L., & Wenyuan, Q. (1996). Population ecology of rhesus macaques in tropical and temperate habitats in China. In J. E. Fa & D. G. Lindburg (Eds.), Evolution and ecology of macaque societies (pp. 95–105). Cambridge: Cambridge University Press.
Stevens, G. C. (1992). The elevational gradient in altitudinal range: An extension of Rapoport’s latitudinal rule to altitude. American Naturalist, 140(6), 893–911.
Wenyuan, Q., Yongzu, Z., Manry, D., & Southwick, C. (1993). Rhesus monkeys (Macaca mulatta) in the Taihang mountains, Jiyuan county, Henan, China. International Journal of Primatology, 14(4), 607–621.
White, G. C., and Garrott, R. A. (1987). Analysis of wildlife radio-tracking data (pp. 383). San Diego: Academic Press.
Whiten, A., Byrne, R., & Henzi, S. (1987). The behavioral ecology of mountain baboons. International Journal of Primatology, 8(4), 367–388.
Whitten, T., Mustafa, M., & Henderson, G. (2002). The Ecology of Sulawesi (2nd ed., p. 777). Jakarta: Periplus Press.
Zapata, F., Gaston, K., & Chown, S. (2003). Mid domain models of species richness gradients: Assumptions, methods and evidence. Journal of Animal Ecology, 72(4), 677–690.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2014 Springer Science+Business Media New York
About this chapter
Cite this chapter
Grow, N.B. (2014). Altitudinal Distribution and Ranging Patterns of Pygmy Tarsiers (Tarsius pumilus). In: Grow, N., Gursky-Doyen, S., Krzton, A. (eds) High Altitude Primates. Developments in Primatology: Progress and Prospects. Springer, New York, NY. https://doi.org/10.1007/978-1-4614-8175-1_3
Download citation
DOI: https://doi.org/10.1007/978-1-4614-8175-1_3
Published:
Publisher Name: Springer, New York, NY
Print ISBN: 978-1-4614-8174-4
Online ISBN: 978-1-4614-8175-1
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)