Hostname: page-component-586b7cd67f-dlnhk Total loading time: 0 Render date: 2024-11-27T19:54:20.980Z Has data issue: false hasContentIssue false

The role of the olive baboon (Papio anubis, Cercopithecidae) as seed disperser in a savanna-forest mosaic of West Africa

Published online by Cambridge University Press:  01 May 2008

Britta Kerstin Kunz*
Affiliation:
Dept. of Animal Ecology and Tropical Biology, Theodor-Boveri Institute of Biosciences, University of Wuerzburg, Am Hubland, D-97074 Wuerzburg, Germany
Karl Eduard Linsenmair
Affiliation:
Dept. of Animal Ecology and Tropical Biology, Theodor-Boveri Institute of Biosciences, University of Wuerzburg, Am Hubland, D-97074 Wuerzburg, Germany
*
1Corresponding author. Email: [email protected]

Abstract:

Primates are among the major groups of frugivores in the tropics, but little is known about their role in natural regeneration of African savanna ecosystems. In the savanna-forest mosaic of north-eastern Ivory Coast the olive baboon (Papio anubis Lesson) harvests fruit from at least 79 plant species. Over a 24-mo study period, 396 faecal samples from 10 groups of baboons were analysed in terms of quantitative and qualitative aspects of seed handling and dispersal (excluding grasses and sedges). Seventy-three per cent of seeds in faecal samples were undamaged. Intact seeds were from 65 species. On average, defecations contained intact seeds from 2.0 species (range = 0–10). Seed size varied between 1 and 27 mm, and 77% of the species had medium-sized to large seeds. No linear correlation between mean seed size and seed damage was found. Eighteen out of 19 species tested were viable after ingestion, but effects of gut passage upon germination varied widely. The baboon population in the study area (145 km2) dispersed an estimated 1483 intact seeds d−1 km−2 (129 seeds > 2 mm in size). The results suggest that the olive baboon is an important seed disperser in the savanna-forest ecosystem of West Africa.

Type
Research Article
Copyright
Copyright © Cambridge University Press 2008

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

LITERATURE CITED

BARNEA, A., YOM-TOV, Y. & FRIEDMAN, J. 1991. Does ingestion by birds affect seed germination. Functional Ecology 5:394402.Google Scholar
CHAPMAN, C. A. & CHAPMAN, L. J. 1996. Frugivory and the fate of dispersed and non-dispersed seeds of six African tree species. Journal of Tropical Ecology 12:491504.Google Scholar
CHAPMAN, C. A. & ONDERDONK, D. A. 1998. Forests without primates: primate/plant codependency. American Journal of Primatology 45:127141.Google Scholar
DEPEW, L. A. 1983. Ecology and behaviour of baboons (Papio anubis) in the Shai Hills Game Production Reserve, Ghana. M.Sc. thesis. Cape Coast University, Cape Coast.Google Scholar
DOMINY, N. J. & DUNCAN, B. W. 2005. Seed-spitting primates and the conservation and dispersion of large-seeded trees. International Journal of Primatology 26:631649.Google Scholar
ENGEL, T. R. 2000. Seed dispersal and forest regeneration in a tropical lowland biocoenosis (Shimba Hills, Kenya). Logos, Berlin. 344 pp.Google Scholar
FGU-KRONBERG. 1979. Gegenwärtiger Status der Comoé- und Tai-Nationalparks sowie des Azagny-Reservats und Vorschläge zu deren Erhaltung und Entwicklung zur Förderung des Tourismus. Technical Report. Deutsche Gesellschaft für Technische Zusammenarbeit GmbH, Eschborn. 240 pp.Google Scholar
FISCHER, F., GROSS, M. & KUNZ, B. K. 2000. Primates of the Comoé National Park, Ivory Coast. African Primates 4:1015.Google Scholar
FISCHER, F., GROSS, M. & LINSENMAIR, K. E. 2002. Updated list of the larger mammals of the Comoé National Park, Ivory Coast. Mammalia 66:8392.Google Scholar
FOX, G. A. 1993. Failure-time analysis: emergence, flowering, survivorship, and other waiting times. Pp. 253290 in Scheiner, S. M. & Gurevitch, J. (eds.). Design and analysis of ecological experiments. Chapman & Hall, New York.Google Scholar
GARBER, P. A. 1986. The ecology of seed dispersal in two species of callitrichid primates (Saguinus mystax and Saguinus fuscicollis). American Journal of Primatology 10:155170.Google Scholar
GAUTIER-HION, A. 1984. La dissemination des graines par les Cercopithecides forestiers africains. Terre et Vie 39:159165.Google Scholar
GROVES, C. P. 2001. Primate taxonomy. Smithsonian Institution Press, Washington. 350 pp.Google Scholar
HLADIK, M. C. 1981. Diet and the evolution of feeding strategies among forest primates. Pp. 215254 in Harding, R. S. O. & Teleki, G. (eds.). Omnivorous primates. Gathering and hunting in human evolution. Columbia Press, New York.CrossRefGoogle Scholar
HOVESTADT, T. 1997. Fruchtmerkmale, endozoochore Samenausbreitung und ihre Bedeutung für die Zusammensetzung der Pflanzengemeinschaft. Untersuchungen im Wald-Savannenmosaik des Comoé Nationalparks, Elfenbeinküste. PhD thesis. University of Würzburg, Würzburg.Google Scholar
HOVESTADT, T., YAO, P. & LINSENMAIR, K. E. 1999. Seed dispersal mechanisms and the vegetation of forest islands in a West African forest-savanna mosaic (Comoé National Park, Ivory Coast). Plant Ecology 144:125.CrossRefGoogle Scholar
HOWE, H. F. & MIRITI, M. N. 2000. No question: seed dispersal matters. Trends in Ecology and Evolution 15:434436.Google Scholar
IDANI, G. 1986. Seed dispersal by pygmy chimpanzees Pan paniscus. A preliminary report. Primates 27:441448.Google Scholar
JORDANO, P. 2000. Fruits and frugivory. Pp. 125165 in Fenner, M. (ed.). Seeds. The ecology of regeneration in plant communities. CABI, Wallingford.Google Scholar
JULLIOT, C. 1996. Seed dispersal by red howler monkeys (Alouatta seniculus) in the tropical rain forest of French Guiana. International Journal of Primatology 17:239258.Google Scholar
KAPLIN, B. A. & MOERMOND, T. C. 1998. Variation in seed handling by two species of forest monkeys in Rwanda. American Journal of Primatology 45:83101.Google Scholar
KAPLIN, B. A., MUNYALIGOGA, V. & MOERMOND, T. C. 1998. The influence of temporal changes in fruit availability on diet composition and seed handling in blue monkeys (Cercopithecus mitis doggetti). Biotropica 30:5671.Google Scholar
KNOGGE, C. & HEYMANN, E. W. 2003. Seed dispersal by sympatric tamarins, Saguinus mystax and Saguinus fuscicollis: diversity and characteristics of plant species. Folia Primatologica 74:3347.CrossRefGoogle ScholarPubMed
KUNZ, B. K. & LINSENMAIR, K. E. 2007. Changes in baboon feeding behavior: maturity dependent fruit and seed size selection within a food plant species. International Journal of Primatology 28:819835.Google Scholar
KUNZ, B. K. & LINSENMAIR, K. E. 2008. The disregarded West: diet and behavioural ecology of olive baboons in the Ivory Coast. Folia Primatologica 79:3151.Google Scholar
LAMBERT, J. E. 2002. Exploring the link between animal frugivory and plant strategies: the case of primate fruit processing and post-dispersal seed fate. Pp. 365380 in Levey, D. J., Silva, W. R. & Galetti, M. (eds.). Seed dispersal and frugivory: ecology, evolution and conservation. CABI, Wallingford.Google Scholar
LAMBERT, J. E. & GARBER, P. A. 1998. Evolutionary and ecological implications of primate seed dispersal. American Journal of Primatology 45:928.Google Scholar
LAUGINIE, F. 1995. Problèmes liés a la conservation de la grande faune en Afrique. L'exemple des grans mammifères du Parc National de la Comoé. Ph.D. thesis. University of Orleans, Orleans.Google Scholar
LIEBERMAN, D., HALL, J. B., SWAINE, M. D. & LIEBERMAN, M. 1979. Seed dispersal by baboons in the Shai Hills, Ghana. Ecology 60:6575.Google Scholar
LIEBERMAN, D., LIEBERMAN, M. & MARTIN, C. 1987. Notes on seeds in elephant dung from Bia National Park Ghana. Journal of Tropical Ecology 19:365369.Google Scholar
LINK, A. & DI-FIORE, A. 2006. Seed dispersal by spider monkeys and its importance in the maintenance of neotropical rain-forest diversity. Journal of Tropical Ecology 22:235246.CrossRefGoogle Scholar
MCCONKEY, K. R. 2000. Primary seed shadow generated by gibbons in the rain forests of Barito Ulu, Central Borneo. American Journal of Primatology 52:1329.Google Scholar
MCCONKEY, K. R. 2007. Influence of gibbon ranging patterns on seed dispersal distance and deposition site in a Bornean forest. Journal of Tropical Ecology 23:269275.CrossRefGoogle Scholar
MESS, A. & KRELL, F. T. 1999. Preliminary list of rodents and shrews living in the Comoé National Park, Ivory Coast (Mammalia: Rodentia, Insectivora: Soricidae). Stuttgarter Beiträge zur Naturkunde Serie A 586:111.Google Scholar
NUÑEZ-ITURRI, G. & HOWE, H. F. 2007. Bushmeat and the fate of trees with seeds dispersed by large primates in a lowland rain forest in western Amazonia. Biotropica 39:348354.Google Scholar
OLIVEIRA, A. C. M. & FERRARI, S. F. 2000. Seed dispersal by black-handed tamarins, Saguinus midas niger (Callithrichinae, Primates): implications for the regeneration of degraded forest habitats in eastern Amazonia. Ecology 16:709716.Google Scholar
OTANI, T. 2003. Seed dispersal and predation of fleshy-fruited plants by Japanese macaques in the cool temperate zone of northern Japan. Mammal Study 28:153156.Google Scholar
OTANI, T. & SHIBATA, E. 2000. Seed dispersal and predation by Yakushima macaques, Macaca fuscata yakui, in a warm temperate forest of Yakushima Island, southern Japan. Ecological Research 15:133144.Google Scholar
PACHECO, L. F. & SIMONETTI, J. A. 2000. Genetic structure of a mimosoid tree deprived of its seed disperser, the spider monkey. Conservation Biology 14:17661775.Google Scholar
PERES, C. A. 1991. Seed predation of Cariniana micrantha (Lecythidaceae) by brown capuchin monkeys in Central Amazonia. Biotropica 23:262270.CrossRefGoogle Scholar
PERES, C. A. & VANROOSMALEN, M. 2002. Primate frugivory in two species-rich Neotropical forests: implications for the demography of large-seeded plants in overhunted areas. Pp. 407421 in Levey, D. J., Silva, W. R. & Galetti, M. (eds.). Seed dispersal and frugivory: ecology, evolution and conservation. CABI, Wallingford.Google Scholar
POILECOT, P. 1991. Un écosystème de savane soudanienne: Le Parc National de la Comoé (Côte d'Ivoire). United Nations, Paris. 346 pp.Google Scholar
POREMBSKI, S. 1991. Beiträge zur Pflanzenwelt des Comoé-Nationalparks (Elfenbeinküste). Natur und Museum 121:6182.Google Scholar
POREMBSKI, S. 2001. Phytodiversity and structure of the Comoé river gallery forest (NE Ivory Coast). Pp. 110 in Gottsberger, G. & Liede, S. (eds.). Life forms and dynamics in tropical forests. Borntraeger, Berlin.Google Scholar
POULSEN, J. R., CLARK, C. J. & SMITH, T. B. 2001. Seed dispersal by a diurnal primate community in the Dja Reserve, Cameroon. Journal of Tropical Ecology 17:787808.Google Scholar
REFISCH, J. 1995. Samenverbreitung durch Paviane im Parc National de la Comoé, Elfenbeinküste. Diploma thesis. University of Bayreuth, Bayreuth.Google Scholar
RHEINDT, F. E., GRAFE, T. U. & LINSENMAIR, K. E. 2002. New bird records in Comoé National Park, Ivory Coast. Malimbus 24:3840.Google Scholar
RHINE, J. R., NORTON, G. W., ROERTGEN, J. W. & KLEIN, H. D. 1980. The brief survival of free-ranging baboon infants (Papio cynocephalus) after separation from their mothers. International Journal of Primatology 1:401409.CrossRefGoogle Scholar
RICE, W. R. 1989. Analyzing tables of statistical tests. Evolution 43:223225.Google Scholar
ROWE, N. 1996. The pictorial guide to the living primates. Pogonias Press, New York. 263 pp.Google Scholar
ROWELL, T. E. & MITCHEL, B. J. 1991. Comparison of seed dispersal by guenons in Kenya and capuchins in Panama. Journal of Tropical Ecology 7:269274.Google Scholar
SALEWSKI, V. 2000. The birds of Comoé National Park, Ivory Coast. Malimbus 22:5576.Google Scholar
SALEWSKI, V. & GÖKEN, F. 2001. Black-and white mannikin Lonchura bicolor, new for Comoé National Park, Ivory Coast. Malimbus 23:56.Google Scholar
SCHUPP, E. W. 1993. Quantity, quality and the effectiveness of seed dispersal by animals. Vegetatio 107/108:1529.Google Scholar
STILES, E. W. 2000. Animals as seed dispersers. Pp. 111124 in Fenner, M. (ed.). Seeds: the ecology of regeneration in plant communities. CABI, Wallingford.Google Scholar
TISCHLER, W. 1993. Einführung in die Ökologie. Fischer, Stuttgart. 528 pp.Google Scholar
TUTIN, C. E. G., WILLIAMSON, M. E. & FERNANDEZ, M. 1991. A case study of a plant-animal relationship: Cola lizae and lowland gorillas in the Lopé Reserve, Gabon. Journal of Tropical Ecology 7:181199.CrossRefGoogle Scholar
UNEP. 2007. Global environment outlook (GEO) Series 4. Environment for Development. Technical Report. EarthPrint Limited, Hertfordshire. 540 pp.Google Scholar
WARREN, Y. 2003. Olive baboons (Papio cynocephalus anubis): behaviour, ecology and human conflict in Gashaka Gumti National Park, Nigeria. PhD thesis. University of Surrey Roehampton, London.Google Scholar
WEHNCKE, E. V., HUBBELL, S. P., FOSTER, R. B. & DALLING, J. W. 2003. Seed dispersal patterns produced by white-faced monkeys: implications for the dispersal limitation of Neotropical tree species. Journal of Ecology 91:677685.CrossRefGoogle Scholar
WHITE, F. 1983. The vegetation of Africa. UNESCO, Paris. 356 pp.Google Scholar
WOLFHEIM, J. H. 1983. Primates of the world. Distribution, abundance, and conservation. University of Washington Press, Seattle. 831 pp.Google Scholar
WRANGHAM, R. W., CHAPMAN, C. A. & CHAPMAN, L. J. 1994. Seed dispersal by forest chimpanzees in Uganda. Journal of Tropical Ecology 10:355368.Google Scholar
YAGIHASHI, T., HAYASHIDA, M. & MIYAMOTA, T. 1998. Effects of bird ingestion on seed germination of Sorbus commixta. Oecologia 114:201212.Google Scholar