Summary
Data from wild populations of baboons are used to derive functional equations relating time budget components, day journey length and group size to environmental variables. This set of equations predicts both time budgets in an independent sample of populations and the geographical distribution of baboon populations extremely well. I then use these equations to examine the maximum ecologically tolerable group size for baboons occupying different habitats. Groups which exceed this value exhibit signs of ecological stress: they spend less time resting and in social activity than would be expected for their size and environment, they are more likely to fragment during foraging and they travel faster. Populations living in poor quality (low rainfall) habitats are more likely to live in groups that are stressed in this way.
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References
Aldrich-Blake FPG, Bunn TK, Dunbar RIM, Headley PM (1971) Observations on baboons, Papio anubis, in an arid region in Ethiopia. Folia Primatol 15:1–35
Altmann J (1974) Observational study of behaviour: sampling methods. Behaviour 48:1–41
Altmann J (1980) Baboon Mothers and Infants. Harvard University Press, Cambridge
Altmann J, Muruthi P (1988) Differences in daily life between semiprovisioned and wild-feeding baboons. Am J Primatol 15:213–221
Altmann SA (1987) Impact of locomotor energetics on mammalian foraging. J Zool London 211:215–225
Altmann SA, Altmann J (1970) Baboon Ecology. Karger, Basel
Anderson CM (1981) Subtrooping in a chacma baboon (Papio ursinus) population. Primates 23:445–458
Barton RA (1989) Foraging Strategies, Diet and Competition in Olive Baboons. PhD thesis, University of St Andrews
Bell RHV (1982) The effect of soil nutrient availability on community structure in African ecosystems. In: Huntley BJ, Walker BH (eds) Ecology of Tropical Savannahs. Springer, New York
Berger ME (1972) Population structure of olive baboons (Papio anubis (JP Fischer)) in the Laikipia District of Kenya. E Aft Wildl J 10:159–164
Braun HMH (1973) Primary production in the Serengeti: purpose, methods and some results of research. Ann Univ Abidjan (E) 6:171–188
Coe MJ, Cumming DH, Phillipson J (1976) Biomass and production of large herbivores in relation to rainfall and primary production. Oecologia 22:341–354
Davidge C (1978) Ecology of baboons (Papio ursinus) at Cape Point. Zool Aft 13:329–350
Demment MJ, van Soest PJ (1985) A nutritional explanation for body-size patterns of ruminant and nonruminant herbivores. Am Nat 125:641–672
Depew LA (1983) Ecology and Behaviour of Baboons (Papio anubis) in the Shai Hills Game Production Reserve, Ghana. MSc thesis, Cape Coast University, Ghana
Deshmukh IK (1984) A common relationship between precipitation and grassland peak biomass for east and southern Africa. Aft J Ecol 22:181–186
DeVore I, Hall KRL (1965) Baboon ecology. In: DeVore I (ed) Primate Behaviour. Holt Rinehart & Winston: New York, pp 20–52
Dunbar RIM (1988) Primate Social Systems. Chapman & Hall, London
Dunbar RIM (1989) Ecological modelling in an evolutionary context. Folia Primatol 53:235–246
Dunbar RIM (1990) Environmental determinants of intraspecific variation in body weight in baboons (Papio spp.). J Zool London 220:157–169
Dunbar RIM (1991a) Environmental determinants of fecundity in klipspringer (Oreotragus oreotragus). Aft J Ecol 28:307–313
Dunbar RIM (1991b) Functional significance of social grooming in primates. Folia Primatol 57:121–131
Dunbar RIM (1992) A model of the gelada socioecological system. Primates 33:69–83
Dunbar RIM, Dunbar P (1974a) Ecological relations and niche separation between sympatric terrestrial primates in Ethiopia. Folia Primatol 21:36–60
Dunbar RIM, Dunbar P (1974b) On hybridisation between Theropithecus gelada and Papio anubis in the wild. J Hum Evol 3:187–192
Dunbar RIM, Dunbar P (1988) Maternal time budgets of gelada baboons. Anim Behav 36:970–980
Dunbar RIM, Nathan MF (1972) Social organisation of the Guinea baboon, Papio papio, in Senegal. Folia Primatol 17:321–334
Dunbar RIM, Sharman M (1984) Is social grooming altruistic? Z Tierpsychol 64:163–173
Dye PJ, Spear PT (1982) The effects of bush clearing and rainfall variability on grass yield and composition in south-west Zimbabwe. Zimbabwe J Agric Res 20:103–118
Eley RM, Strum SC, Muchem G, Reid GDF (1989) Nutrition, body condition, activity patterns and parasitism of free-ranging troops of olive baboons (Papio anubis) in Kenya. Am J Primatol 18:209–219
Hall KRL (1963) Variations in the ecology of the chacma baboon, Papio ursinus. Symp Zool See London 10:1–28
Hall KRL (1965) Behaviour and ecology of baboons, patas and vervet monkeys in Uganda. In: Vagtborg H (ed) The Baboon in Medical Research, Vol. 2. University of Texas Press: San Antonio, pp. 43–61
Hamilton WJ, Buskirk RER, Buskirk WH (1975) Chacma baboon tactics during intertroop encounters. J Mammal 56:857–870
Hamilton WJ, Buskirk RER, Buskirk WH (1976) Defence of space and resources by chacma (Papio ursinus) baboon troops in an African desert and swamp. Ecology 57:1264–1272
Harding RSO (1976) Ranging patterns of a troop of baboons (Papio annbis) in Kenya. Folia Primatol 25:143–185
Harvey PH, Mace GM (1982) Comparisons between taxa and adaptive trends: problems of methodology. In: King's College Sociobiology Group (eds) Current Problems in Sociobiology. Cambridge University Press: Cambridge, pp 343–362
Harvey PH, Pagel MD (1991) The Comparative Method in Evolutionary Biology. Oxford University Press, Oxford
Hurni H (1982) Simen Mountains – Ethiopia. Vol 2. Climate and the Dynamics of Altitudinal Belts from the Last Cold Period to the Present Day. University of Bern Geographical Institute, Bern
Iwamoto T, Dunbar RIM (1983) Thermoregulation, habitat quality and the behavioural ecology of gelada baboons. J Anim Ecol 52:357–366
Jouventin P (1975) Observations sur le socio-ecologie du mandrill. Terre Vie 29:493–532
Kawamuto Y, Shotake T, Nozawa K (1982) Genetic differentiation among three genera of Family Cercopithecidae. Primates 23:272–286
Kleiber M (1961) The Fire of Life. Wiley, New York
Le Houeron HN, Hoste CH (1977) Rangeland production and annual rainfall relations in the Mediterranean basin and in the Africa Sahelo-Sudanian zone. J Range Manage 30: 181–189
Messerli B, Aerni K (1977) Simen Mountains — Ethiopia. Vol. 1. Cartography and its Application for Geographical and Ecological Problems. University of Bern Geographical Institute, Bern
McFarland DJ (1974) Time-sharing as a behavioural phenomenon. Adv Study Behav 5:201–225
McFarland DJ, Houston AI (1981) Quantitative Ethology: A State Space Approach. Pitman, Oxford
McNaughton SJ (1985) Ecology of a grazing ecosystem: the Serengeti. Ecol Monogr 55:259–294
Mount LE (1979) Adaptation to Thermal Environment. Arnold, London
Nagel U (1973) A comparison of anubis baboons, hamadryas baboons and their hybrids at a species border in Ethiopia. Folia Primatol 19:104–165
Patterson JD (1976) Variations in Ecology and Adaptation of Ugandan Baboons Papio cynocephalus anubis. PhD thesis, University of Calgary
Peet RK (1974) The measurement of diversity. Annu Rev Ecol Syst 5:285–307
Peters RH (1983) The Ecological Implications of Body Size. Cambridge University Press: Cambridge
Post D (1978) Feeding and Ranging Behaviour of the Yellow Baboon (Papio cynocephalus). PhD thesis, Yale University
Rasmussen DR (1978) Environmental and Behavioural Correlates of Changes in Range Use in a Troop of Yellow (Papio cynocephalus) and a Troop of Olive (P. anubis) baboons. PhD thesis, University of California, Riverside
Rowell TE (1966) Forest-living baboons in Uganda. J Zool London 147:344–354
Schoener TW (1971) Theory of feeding strategies. Ann Rev Ecol Syst 2:369–404
Sharman M (1981) Feeding, Ranging and Social Organisation of the Guinea Baboon. PhD thesis, University of St Andrews
Shotake T, Nozawa K, Tanabe Y (1977) Blood protein variations in baboons. I. Gene Exchange and genetic distance between Papio anubis, Papio hamadrys and their hybrid. Jap J Genet 52:223–237
Sigg H, Stolba A (1981) Home range and daily march in a hamadryas baboon troop. Folia Primatol 36:40–75
Singh M, Vinathe S (1990) Inter-population differences in the time budgets of bonnet monkeys (Macaca radiata). Primates 31:589–596
Smuts BB, Cheney DL, Seyfarth RM, Wrangham RW, Struhsaker TT (1987) Primates Societies. Chicago University Press, Chicago
Sokal RR, Rohlf FJ (1969) Biometry. Freeman, San Francisco
Stacey PB (1986) Group size and foraging efficiency in yellow baboons. Behav Ecol Sociobiol 18:175–187
Stelzner JK (1988) Thermal effects on movement patterns of yellow baboons. Primates 29:91–105
Stephens DW, Krebs JR (1986) Foraging Theory. Princeton University Press, Princeton
Stoltz L, Saayman GS (1970) Ecology and behaviour of baboons in the Transvaal. Ann Transvaal Mus 26:99–143
Taylor CR, Heglund NC, Maloiy GMO (1982) Energetics and mechanics of terrestrial locomotion. I. Metabolic energy consumption as a function of speed and body size in birds and mammals. J Exp Biol 97:11–21
Tokura H, Hara F, Okada M, Mekata F, Ohsawa W (1975) Thermoregulatory responses at various temperatures in some primates. In: Kondo S, Kawai M, Ehara A (eds) Contemporary Primatology. Karger, Basel, pp 171–176
van Schaik CP, van Noordwijk MA, de Boer RJ, den Tonkelaar I (1983) The effect of group size on time budgets and social behaviour in wild long-tailed macaques (Macaca fascicularis). Behav Ecol Sociobiol 13:173–181
van Soest PJ (1982) The Nutritional Ecology of the Ruminant. Cornell University Press, Ithaca
Wheeler PE (1984) The evolution of bipedality and loss of functional body hair in hominids. J Hum Evol 13:91–98
Whiten A, Byrne RW, Henzi SP (1987) The behavioural ecology of mountain baboons. Int J Primatol 8:367–388
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Dunbar, R.I.M. Time: a hidden constraint on the behavioural ecology of baboons. Behav Ecol Sociobiol 31, 35–49 (1992). https://doi.org/10.1007/BF00167814
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DOI: https://doi.org/10.1007/BF00167814