Abstract
The Jarman-Bell principle states that small herbivores feed on the high quality forage in nutrient-rich, eutrophic savannas, whereas large herbivores tolerate the lower quality forage in nutrient poor, dystrophic, savannas. The African elephant, Loxodonta africana, is a large herbivore occurring in both savanna types, where it meets different quality and quantity of forage and different competition from small herbivores. Activities of elephants are comparatively well studied, but little emphasis has been on contrasting time allocation on different activities in eutrophic and in dystrophic savannas. We studied elephant activities in eutrophic Serengeti and dystrophic Mikumi, in Tanzania in order to explain differences between the savannas which differ in nutrient availability and herbivore densities. The two parks had similar, mean annual precipitation. We drove along all accessible roads in our study areas, and once an individual or a group of elephants was sighted the car was stopped for observation. We used group activity scan sampling methods to record number of individuals grazing, walking, resting, browsing, interacting with other group members or vigilant in a group. We also recorded group type, group size, and habitat. The study revealed that activity patterns of elephants differed between the eutrophic and the dystrophic savanna, between females and males, and between the wet and the dry season. Grazing was a dominant activity in both sites, particularly in the wet season, when nutritious grasses were available. There was more browsing in the eutrophic Serengeti compared to the dystrophic Mikumi and in bachelor compared to family groups, probably due to differences in availability of grass and browse, and in palatability of plant material between the sites. Resting was affected by interaction effect between site and season, where proportions of individuals resting in a group was higher in Mikumi in the dry season and in Serengeti in the wet. Walking was affected by group type, where bachelor groups walked more than family groups, probably searching for estrous females, and by interaction between season and site, where elephants walked more in Serengeti in the wet season and in Mikumi in the dry. The dry season has limited forage quantity and quality and shortage of water, thus animals face a tradeoff between resting to save energy and walking to search for water and food. We conclude that, the differences recorded between the sites might be attributed to differences in quality and quantity of grazing and browsing, as well as to differences in nutritional and reproductive demands between females and males.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Anderson, T.M., Dempewolf, J., Metzger, K.L., Reed, D.N., Serneels, S., 2008. Generation and maintenance of heterogeneity in the Serengeti ecosystem. In: Sinclair, A.R.E., Packer, C., Mduma, S.R., Fryxell, J.M. (Eds.), Serengeti III: Human Impacts on Ecosystem Dynamics. University of Chicago Press, Chicago, pp. 135–182.
Archie, E.A., Chiyo, P.I., 2012. Elephant behaviour and conservation: social relationships, the effects of poaching, and genetic tools for management. Mol. Ecol. 21, 765–778.
Archie, E.A., Morrison, T.A., Foley, C.A., Moss, C.J., Alberts, S.C., 2006a. Dominance rank relationships among wild female African elephants, Loxodonta africana. Anim. Behav. 71, 117–127.
Archie, E.A., Moss, C.J., Alberts, S.C., 2006b. The ties that bind: genetic relatedness predicts the fission and fusion of social groups in wild African elephants. Proc. R. Soc. Lond. B: Biol. Sci. 273, 513–522.
Augustine, D.J., McNaughton, S.J., 2004. Regulation of shrub dynamics by native browsing ungulates on East African rangeland. J. Appl. Ecol. 41, 45–58.
Backéus, I., Pettersson, B., Strómquist, L., Ruffo, C., 2006. Tree communities and structural dynamics in miombo (Brachystegia-Julbernardia) woodland, Tanzania. For. Ecol. Manage. 230, 171–178.
Barnes, R., 1982. Mate searching behaviour of elephant bulls in a semi-arid environment. Anim. Behav. 30, 1217–1223.
Barnes, R., 1983. Elephant behaviour in a semi-arid environment. Afr. J. Ecol. 21, 185–196.
Beekman, J., Prins, H., 1989. Feeding strategies of sedentary large herbivores in East Africa, with emphasis on the African buffalo, Syncerus coffer. Afr. J. Ecol. 27, 129–147.
Bell, R.H., 1971. A grazing ecosystem in the Serengeti. Sci. Am. 225, 86–93.
Bell, R.H., 1982. The effect of soil nutrient availability on community structure in African ecosystems. In: Huntley, B.J., Walker, B.H. (Eds.), Ecology of Tropical Savannas. Springer, Berlin, Germany, pp. 193–216.
Bryant, J., Kuropat, P., Cooper, S., Frisby, It, Owen-Smith, N., 1989. Resource availability hypothesis of plant antiherbivore defence tested in a South African savanna ecosystem. Nature 340, 227–229.
Cerling, T.E., Harris, J.M., Leakey, M.G., 1999. Browsing and grazing in elephants: the isotope record of modern and fossil proboscideans. Oecologia 120, 364–374.
Chiyo, P.I., Cochrane, E.P., Naughton, L., Basuta, G.I., 2005. Temporal patterns of crop raiding by elephants: a response to changes in forage quality or crop availability? Afr. J. Ecol. 43, 48–55.
Clauss, M., Streich, W.J., Schwarm, A., Ortmann, S., Hummel, J., 2007. The relationship of food intake and ingesta passage predicts feeding ecology in two different megaherbivore groups. Oikos 116, 209–216.
Codron, J., Lee-Thorp, J.A., Sponheimer, M., Codron, D., Grant, R.C., de Ruiter, D.J., 2006. Elephant (Loxodonta afncana) diets in Kruger National Park, South Africa: spatial and landscape differences. J. Mammal. 87, 27–34.
Codron, D., Lee-Thorp, J.A., Sponheimer, M., Codron, J., 2007. Nutritional content of savanna plant foods: implications for browser/grazer models of ungulate diversification. Eur. J. Wildl. Res. 53, 100–111.
Coley, P.D., Bryant, J.P., Chapin, F.S., 1985. Resource availability and plant antiherbivore defense. Science 230, 895–899.
Cooper, S.M., Owen-Smith, N., Bryant, J.P., 1988. Foliage acceptability to browsing ruminants in relation to seasonal changes in the leaf chemistry of woody plants in a South African savanna. Oecologia 75, 336–342.
de Azevedo, C.S., Ferraz, J.B., Tinoco, H.P., Young, R.J., Rodrigues, M., 2010. Time-activity budget of greater rheas (Rhea americana, Aves) on a human-disturbed area: the role of habitat, time of the day, season and group size. Acta Ethol. 13, 109–117.
de Boer, W.D., Prins, H., 1990. Large herbivores that strive mightily but eat and drink as friends. Oecologia 82, 264–274.
Demment, M.W., van Soest, P.J., 1985. A nutritional explanation for body-size patterns of ruminant and nonruminant herbivores. Am. Nat. 125, 641–672.
du Toit, J.T., Cumming, D.H., 1999. Functional significance of ungulate diversity in African savannas and the ecological implications of the spread of pastoralism. Biodivers. Conserv. 8, 1643–1661.
du Toit, J.T., Olff, H., 2014. Generalities in grazing and browsing ecology: using across-guild comparisons to control contingencies. Oecologia 174, 1075–1083.
du Toit, J.T., Yetman, C.A., 2005. Effects of body size on the diurnal activity budgets of African browsing ruminants. Oecologia 143, 317–325.
du Toit, J.T., Moe, S.R., Skarpe, C., 2014. Elephant-mediated ecosystem processes in Kalahari-sand woodlands. In: Skarpe, C., du Toit, J.T., Moe, S.R. (Eds.), Elephants and Savanna Woodland Ecosystems: A Study from Chobe National Park, Botswana. Wiley-Blackwell, London, pp. 30–39.
duToit, J.T., Bryant, J.P., Frisby, I., 1990. Regrowth and palatability of Acacia shoots following pruning by African savanna browsers. Ecology 71, 149–154.
East, R., 1984. Rainfall, soil nutrient status and biomass of large African savanna mammals. Afr. J. Ecol. 22, 245–270.
Ernst, W., 1975. Variation in the mineral contents of leaves of trees in miombo woodland in south central Africa. J. Ecol., 801–807.
Fritz, H., Duncan, P., Gordon, I.J., Illius, A.W., 2002. Megaherbivores influence trophic guilds structure in African ungulate communities. Oecologia 131, 620–625.
Frost, P., 1996. The ecology of miombo woodlands. In: Campbell, B. (Ed.), The Miombo in Transition: Woodlands and Welfare in Africa, Bangor, Indonesia., pp. 11–57.
Georgiadis, N.J., McNaughton, S.J., 1990. Elemental and fibre contents of savanna grasses: variation with grazing, soil type, season and species. J. Appl. Ecol., 623–634.
Gobush, It, Kerr, B., Wasser, S., 2009. Genetic relatedness and disrupted social structure in a poached population of African elephants. Mol. Ecol. 18, 722–734.
Hagerman, A.E., Robbins, C.T., Weerasuriya, Y., Wilson, T.C., McArthur, C., 1992. Tannin chemistry in relation to digestion. J. Range Manag. 45, 57–62.
Halley, D.J., Taolo, C., Moe, S.R., 2014. Buffalo and elephants: competition and facilitation in the dry season on the Chobe floodplain. In: Skarpe, C., du Toit, J.T., Moe, S.R. (Eds.), Elephants and Savanna Woodland Ecosystems: A Study from Chobe National Park, Botswana. Wiley Blackwell, London, pp. 172–185.
Hanley, T.A., Robbins, C.T., Hagerman, A.E., McArthur, C., 1992. Predicting digestible protein and digestible dry matter in tannin-containing forages consumed by ruminants. Ecology 73, 537–541.
Harris, G.M., Russell, G.J., van Aarde, R.I., Pimm, S.L., 2008. Rules of habitat use by elephants Loxodonta afncana in southern Africa: insights for regional management. Oryx 42, 66–75.
Hepworth, G., Hamilton, A.J., 2001. Scan sampling and waterfowl activity budget studies: design and analysis considerations. Behaviour 138, 1391–1405.
Hógberg, P., 1986. Nitrogen-fixation and nutrient relations in savanna woodland trees (Tanzania). J. Appl. Ecol., 675–688.
Holdo, R.M., 2003. Woody plant damage by African elephants in relation to leaf nutrients in western Zimbabwe. J. Trop. Ecol. 19, 189–196.
Holdo, R.M., Holt, R.D., Sinclair, A.R., Godley, B.J., Thirgood, S., 2011. Migration impacts on communities and ecosystems: empirical evidence and theoretical insights. In: Milner-Gulland, E.J., Fryxell, J.M., Sinclair, A.R.E. (Eds.), Animal Migration: A Synthesis. Oxford University Press, Oxford, UK, pp. 131–143.
Huntley, B.J., 1982. Southern African savannas. In: Huntley, B.J., Walker, B.H. (Eds.), Ecology of Tropical Savannas. Springer, Berlin, pp. 101–119.
Jachmann, H., 1989. Food selection by elephants in the ‘miombo’ biome, in relation to leaf chemistry. Biochem. Syst. Ecol. 17, 15–24.
Jachmann, H., Bell, R., 1985. Utilization by elephants of the Brachystegia woodlands of the Kasungu National Park, Malawi. Afr. J. Ecol. 23, 245–258.
Jager, T., 1982. Soils of the Serengeti woodlands, Tanzania. Cent. Agric. Publ., Wageningen, The Netherlands.
Jarman, P., 1974. The social organisation of antelope in relation to their ecology. Behaviour 48, 215–267.
Kos, M., Hoetmer, A.J., Pretorius, Y., de Boer, W.F., de Knegt, H., Grant, C., Kohi, E., Page, B., Peel, M., Slotow, R., 2012. Seasonal diet changes in elephant and impala in mopane woodland. Eur. J. Wildl. Res. 58, 279–287.
Leggett, K.E., 2006. Home range and seasonal movement of elephants in the Kunene Region, northwestern Namibia. Afr. Zool. 41, 17–36.
Leggett, I., 2009. Diurnal activities of the desert-dwelling elephants in northwestern Namibia. Pachyderm 45, 20–33.
Leuthold, W., 1976. Group size in elephants of Tsavo National Park and possible factors influencing it. J. Anim. Ecol. 45, 425–439.
Loarie, S.R., van Aarde, R.J., Pimm, S.L., 2009. Elephant seasonal vegetation References across dry and wet savannas. Biol. Conserv. 142, 3099–3107.
Loveridge, A.J., Hunt, J.E., Murindagomo, F., Macdonald, D.W., 2006. Influence of drought on prédation of elephant (Loxodonta africana) calves by lions (Panthera leo) in an African wooded savannah. J. Zool. 270, 523–530.
Lyaruu, H.V.M., 1997. Plant Community Structure and Land Degradation in Mikumi National Park, Tanzania, vol. 1. Meddelanden frán Váxtbiologiska Institutionen, Uppsala, pp. 1–35.
Maige, M.K.S.M., 1990. Effects of Elephants Loxodonta afncana on Woody Vegetation in Mikumi National Park Tanzania. Norwegian Centre for International Agricultural Development. Agricultural University of Norway, As.
Makhabu, S.W., 2005. Resource partitioning within a browsing guild in a key habitat, the Chobe Riverfront, Botswana. J. Trop. Ecol. 21, 641–649.
McComb, It, Moss, C., Durant, S.M., Baker, L., Sayialel, S., 2001. Matriarchs as repositories of social knowledge in African elephants. Science 292, 491–494.
Meissner, H., Pieterse, E., Potgieter, J., 1996. Seasonal food selection and intake by male impala Aepyceros melampus in two habitats. S. Afr. J.Wildl. Res. (24-month delayed open access) 26, 56–63.
Mramba, R.P., Mahenya, O., Siyaya, A., Mathisen, K.M., Andreassen, H.P., Skarpe, C., 2017. Sexual segregation in foraging giraffe. Acta Oecologica 79, 26–35.
Olff, H., Ritchie, M.E., Prins, H.H., 2002. Global environmental controls of diversity in large herbivores. Nature 415, 901–904.
Ospina, R., Ferrari, S.., 2012. A general class of zero-or-one inflated beta regression models. Comput. Stat. Data Anal. 56, 1609–1623.
Owen-Smith, N., 1987. Pleistocene extinctions: the pivotal role of megaherbivores. Paleobiology 13, 351–362.
Owen-Smith, R.N., 1992. Megaherbivores: The Influence of Very Large Body Size on Ecology. Cambridge University Press, Cambridge.
Owen-Smith, N., Chafota, J., 2012. Selective feeding by a megaherbivore, the African elephant (Loxodonta afncana). J. Mammal. 93, 698–705.
Owen-Smith, N., Cooper, S.M., 1987. Palatability of woody plants to browsing ruminants in a South African savanna. Ecology 68, 319–331.
Owen-Smith, N., Goodall, V., 2014. Coping with savanna seasonality: comparative daily activity patterns of African ungulates as revealed by GPS telemetry. J. Zool. 293, 181–191.
Pellew, R.A., 1984. Food consumption and energy budgets of the giraffe. J. Appl. Ecol. 21, 141–159.
Peter, F., 1996. The ecology of miombo woodlands. In: Campbell, B.M. (Ed.), The Miombo in Transition: Woodlands and Welfare in Africa. Cifor, Bogor, pp. 11–55.
Peters, R.H., 1986. The Ecological Implications of Body Size. Cambridge University Press, Cambridge.
Poole, J.H., 1987. Rutting behavior in African elephants: the phenomenon of musth. Behaviour 102, 283–316.
Poole, J., 1989a. The effects of poaching on the age structure and social and reproductive patterns of selected East African elephant populations. In: Cobb, S. (Ed.), The Ivory Trade and the Future of the African Elephant. Ivory Trade review group, Oxford, pp. 1–73.
Poole, J. H., 1989b. Announcing intent: the aggressive state of musth in African elephants. Anim. Behav. 37, 140–152.
Poole, J. H., 1994. Sex differences in the behaviour of African elephants. In: Short, R.V., Balaban, E. (Eds.), The Differences between the Sexes. Cambridge University Press, Cambridge, pp. 331–346.
Poole, J.H., Moss, C.J., 1989. Elephant mate searching: group dynamics and vocal and olfactory communication. Symp. Zool. Soc. Lond. 61, 111–125.
Ramey, E.M., Ramey, R.R., Brown, L.M., Kelley, S.T., 2013. Desert-dwelling African elephants (Loxodonta afncana) in Namibia dig wells to purify drinking water. Pachyderm 53, 66–72.
Redfern, J.V., Grant, R., Biggs, H., Getz, W.M., 2003. Surface-water constraints on herbivore foraging in the Kruger National Park, South Africa. Ecology 84, 2092–2107.
Rubanza, C.D.It, Shem, M.N., Otsyina, R., Bakengesa, S.S., Ichinohe, T., Fujihara, T., 2005. Polyphenolics and tannins effect on in vitro digestibility of selected Acacia species leaves. Anim. Feed. Sci. Tech. 119, 129–142.
Rubanza, C.D.It, Shem, M.N., Ichinohe, T., Fujihara, T., 2008. Quantification and characterisation of condensed tannin of selected indigenous browse tree species leaves of north-western Tanzania. JFAE 6, 145–149.
Ruggiero, R.G., 1991. Opportunistic prédation on elephant calves. Afr. J. Ecol. 29, 86–89.
Ruggiero, R., 1992. Seasonal forage utilization by elephants in central Africa. Afr. J. Ecol. 30, 137–148.
Scholes, R., 1990. The influence of soil fertility on the ecology of southern African dry savannas. J. Biogeogr. 17, 415–419.
Senzota, R., Mtahko, G., 1990. Effect on wildlife of a water-hole in Mikumi National Park, Tanzania. Afr. J. Ecol. 28, 147–151.
Shannon, G., Page, B.R., Duffy, K.J., Slotow, R., 2006. The role of foraging behaviour in the sexual segregation of the African elephant. Oecologia 150, 344–354.
Shannon, G., Druce, D.J., Page, B.R., Eckhardt, H.C., Grant, R., Slotow, R., 2008a. The utilization of large savanna trees by elephant in southern Kruger National Park. J. Trop. Ecol. 24, 281–289.
Shannon, G., Page, B.R., Mackey, R.L., Duffy, K.J., Slotow, R., 2008b. Activity budgets and sexual segregation in African elephants (Loxodonta africana).. Mammal. 89, 467–476.
Shannon, G., Mackey, R.L., Slotow, R., 2013. Diet selection and seasonal dietary switch of a large sexually dimorphic herbivore. Acta Oecologica 46, 48–55.
Shipley, L.A., 1999. Grazers and browsers: how digestive morphology affects diet selection. In: Launchbaugh, K.L., Sanders, K.D., Mosley, J.C. (Eds.), Grazing Behavior of Livestock and Wildlife. University of Idaho, Moscow, pp. 20–27.
Shrestha, A., Van Wieren, S., Van Langevelde, F., Fuller, A., Hetem, R., Meyer, L., De Bie, S., Prins, H., 2014. Larger antelopes are sensitive to heat stress throughout all seasons but smaller antelopes only during summer in an African semi-arid environment. Int. J. Biometeorol. 58, 41–49.
Sinclair, A.R.E., Arcese, P., 1995. Serengeti II: Dynamics, Management, and Conservation of an Ecosystem. University of Chicago Press, Chicago.
Smit, I., Grant, C., Whyte, I., 2007. Landscape-scale sexual segregation in the dry season distribution and resource utilization of elephants in Kruger National Park, South Africa. Divers. Distrib. 13, 225–236.
Stamp, N., 2003. Out of the quagmire of plant defense hypotheses. Q. Rev. Biol. 78, 23–55.
Stasinopoulos, D.M., Rigby, R.A., 2007. Generalized additive models for location scale and shape (GAMLSS) in R. J. Stat. Softw. 23, 1–46.
Stokke, S., 1999. Sex differences in feeding-patch choice in a megaherbivore: elephants in Chobe National Park, Botswana. Can. J. Zool. 77, 1723–1732.
Stokke, S., du Toit, J.T., 2002. Sexual segregation in habitat use by elephants in Chobe National Park, Botswana. Afr. J. Ecol. 40, 360–371.
Stokke, S., du Toit, J.T., 2014. The chobe elephants: one species, two niches. In: Skarpe, C., du Toit, J.T., Moe, S.R. (Eds.), Elephants and Savanna Woodland Ecosystems: A Study from Chobe National Park, Botswana. Wiley-Blackwell, London, pp. 104–117.
Stokke, S., Toit, J.T., 2000. Sex and size related differences in the dry season feeding patterns of elephants in Chobe National Park, Botswana. Ecography 23, 70–80.
Styles, C., Skinner, J., 2000. The influence of large mammalian herbivores on growth form and utilization of mopane trees, Colophospermum mopane, in Botswana’s Northern Tuli Game Reserve. Afr. J. Ecol. 38, 95–101.
Swearingen, C.J., Castro, M.S.M., Bursac, Z., 2012. Inflated Beta Regression: Zero, One and Everything in Between. SAS Global Forum, Citeseer, pp. 325.
Turkalo, A.K., Wrege, P.H., Wittemyer, G., 2013. Long-term monitoring of Dzanga Bai forest elephants: forest clearing use patterns. PLoS One 8, e85154.
van de Koppel, J., Prins, H.H., 1998. The importance of herbivore interactions for the dynamics of African savanna woodlands: an hypothesis. J. Trop. Ecol. 14, 565–576.
van Soest, P.J., 1994. Nutritional Ecology of the Ruminant, second ed. Cornell University Press, Ithaca, NY.
van Soest, P.J., 1996. Allometry and ecology of feeding behavior and digestive capacity in herbivores: a review. Zoo Biol. 15, 455–479.
Vance, E.A., Archie, E.A., Moss, C.J., 2009. Social networks in African elephants. Comput. Math. Organ. Theory 15, 273.
Vedeld, P., Jumane, A., Wapalila, G., Songorwa, A., 2012. Protected areas, poverty and conflicts: a livelihood case study of Mikumi National Park, Tanzania. For. Policy Econ. 21, 20–31.
Vesey-FitzGerald, D.F., 1969. Utilization of the habitat by buffalo in Lake Manyara National Park. Afr. J. Ecol. 7, 131–145.
Western, D., Lindsay, W., 1984. Seasonal herd dynamics of a savanna elephant population. Afr. J. Ecol. 22, 229–244.
Williamson, B., 1975. The Condition and Nutrition of Elephant in Wankie National Park. National Museums and Monuments of Rhodesia.
Wittemyer, G., Douglas-Hamilton, I., Getz, W.M., 2005. The socioecology of elephants: analysis of the processes creating multitiered social structures. Anim. Behav. 69, 1357–1371.
Wittemyer, G., Getz, W., Vollrath, F., Douglas-Hamilton, I., 2007. Social dominance, seasonal movements, and spatial segregation in African elephants: a contribution to conservation behavior. Behav. Ecol. Sociobiol. 61, 1919–1931.
Woolnough, A., du Toit, J.T., 2001. Vertical zonation of browse quality in tree canopies exposed to a size-structured guild of African browsing ungulates. Oecologia 129, 585–590.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Mramba, R.P., Andreassen, H.P., Mlingi, V. et al. Activity patterns of African elephants in nutrient-rich and nutrient-poor savannas. Mamm Biol 94, 18–24 (2019). https://doi.org/10.1016/j.mambio.2018.12.001
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1016/j.mambio.2018.12.001