Foraging and distribution patterns in a termite assemblage dominated by fungus-growing species in semi-arid northern Botswana

Gregor Schuurman

doi:10.1017/S0266467405003044

Abstract

Termite foraging was monitored with cellulose baits in both the wet and dry season in the semi-arid Okavango Delta region of northern Botswana. Seven wood-feeding species were found. Fungus-growing termites dominated the assemblage in all plots, and four species (Macrotermes michaelseni, Odontotermes sp. A, Allodontermes sp. and Microtermes sp.) were found in most. Foraging by smaller-bodied Allodontermes sp. and Microtermes sp. was largely confined to the wet season. Foraging by M. michaelseni and Odontotermes sp. A was more constant, but showed a general peak in the early dry season (May and June), likely due to nutrient and energy demands associated with alate production. Despite extensive overlap in distributions of these species, co-occurrences on baits were significantly less frequent than expected by chance. In addition, incidence in a plot of Allodontermes sp. and Microtermes sp. was negatively correlated in the wet season, as was that of M. michaelseni and Odontotermes sp. A in the dry season. Differences in body size, life history, and nest structure produce temporal and spatial heterogeneity in the foraging and distribution patterns of termites, and therefore suggest that consideration of community composition can improve prediction of the influence of termite assemblages on decomposition.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Neoh, Kok-Boon and Lee, Chow-Yang 2009. Flight Activity of Two Sympatric Termite Species,Macrotermes gilvusandMacrotermes carbonarius(Termitidae: Macrotermitinae). Environmental Entomology, Vol. 38, Issue. 6, p. 1697.

Evans, Theodore A. Inta, Ra Lai, Joseph C. S. Prueger, Stefan Foo, Nyuk Wei Fu, Eugene Wei'en and Lenz, Michael 2009. Termites eavesdrop to avoid competitors. Proceedings of the Royal Society B: Biological Sciences, Vol. 276, Issue. 1675, p. 4035.

CHOOSAI, C. MATHIEU, J. HANBOONSONG, Y. and JOUQUET, P. 2009. Termite mounds and dykes are biodiversity refuges in paddy fields in north-eastern Thailand. Environmental Conservation, Vol. 36, Issue. 01, p. 71.

Grohmann, C. Oldeland, J. Stoyan, D. and Linsenmair, K. E. 2010. Multi-scale pattern analysis of a mound-building termite species. Insectes Sociaux, Vol. 57, Issue. 4, p. 477.

Rutherford, MC Powrie, LW and Thompson, DI 2012. Impacts of high utilisation pressure on biodiversity components inColophospermum mopanesavanna. African Journal of Range & Forage Science, Vol. 29, Issue. 1, p. 1.

Kaiser, Dorkas Lepage, Michel Konaté, Souleymane and Linsenmair, Karl Eduard 2017. Ecosystem services of termites (Blattoidea: Termitoidae) in the traditional soil restoration and cropping system Zaï in northern Burkina Faso (West Africa). Agriculture, Ecosystems & Environment, Vol. 236, Issue. , p. 198.

Iqbal, Naeem Wijedasa, Lahiru S. and Evans, Theodore A. 2017. Bait station preferences in two Macrotermes species. Journal of Pest Science, Vol. 90, Issue. 1, p. 217.

Ferreira, Dinamarta V. Cristaldo, Paulo F. Rocha, Marcos L. C. Santana, Daniela L. Santos, Lucineide Lima, Paulo S. S. Araújo, Ana P. A. and Bertram, S. 2018. Attraction and vibration: Effects of previous exposure and type of food resource in the perception of allocolonial odors in termites. Ethology, Vol. 124, Issue. 10, p. 743.

da Costa, Rafael R. Hu, Haofu Li, Hongjie and Poulsen, Michael 2019. Symbiotic Plant Biomass Decomposition in Fungus-Growing Termites. Insects, Vol. 10, Issue. 4, p. 87.

Laver, Pete N. Ganswindt, André Ganswindt, Stefanie B. and Alexander, Kathleen A. 2020. Effect of food limitation and reproductive activity on fecal glucocorticoid metabolite levels in banded mongooses. BMC Ecology, Vol. 20, Issue. 1,

Netshifhefhe, Shandukani R. Duncan, Frances D. and Kunjeku, Ednah C. 2020. Termite mound density and distribution patterns across three land‐use types in the Vhembe District of the Limpopo Province, South Africa. African Journal of Ecology, Vol. 58, Issue. 4, p. 674.

Kanyi, Nahashon Chege Karuri, Hannah Nyasani, Johnson O. and Mwangi, Benson 2021. Land use effects on termite assemblages in Kenya. Heliyon, Vol. 7, Issue. 12, p. e08588.

2022.

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Phillips, Seth Piel, Alex K. Stewart, Fiona A. and Oelze, Vicky M. 2023. A chimpanzee’s time to feast: seasonality of Macrotermes flight hole activity and alate dispersal flights detected by termite-fishing experiments and camera traps in the Issa Valley, Tanzania. Frontiers in Ecology and Evolution, Vol. 11, Issue. ,

Bunney, Katherine Robertson, Mark Eggleton, Paul Twine, Wayne and Parr, Catherine 2024. Quantifying the role of termite decomposition in a mesic savanna. Biotropica, Vol. 56, Issue. 4,

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Foraging and distribution patterns in a termite assemblage dominated by fungus-growing species in semi-arid northern Botswana

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Foraging and distribution patterns in a termite assemblage dominated by fungus-growing species in semi-arid northern Botswana

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