TEMPORAL RESOURCE PARTITIONING OF DUNG BEETLES (COLEOPTERA: SCARABAEIDAE: SCARABAEINAE) IN THE DUNG OF TWO COW BREEDS IN A TROPICAL AGROECOSYSTEM

Mary Jomon, Chitra Rajagopal, Anu Anto, Vinod K. V.

Abstract


Dung beetles are important taxon as they decompose the excreta of higher animals, especially vertebrates. These coprophagous coleopterans are considered as biological indicators of healthy and clean ecosystems. Present study was aimed to describe the dung beetle diversity of an agroecosystem in Manjapra village, Ernakulam district of Kerala, South India, which is adjacent to forest areas. The study focused on the assessment of scarabs collected by using two different types of dung which is represented by Vechur (VC) and crossbred Jersey (CB) breeds. This was a preliminary study on dung beetle diversity in Vechur cow, a native breed of Kerala which could become extinct due to the increased preference for crossbred varieties. Identification and cataloguing of indigenous dung beetles associated with this native dung type is done for the first time. Since the dung beetle taxon is characterised by greater adaptability, possible strategies were studied with emphasis on its functional and temporal guild patterns. The sampling was carried out using bait-surface-grid pitfall traps with the dung types mentioned. The study recorded of 22 species of dung beetles belonging to six genera (Onthophagus, Copris, Oniticellus, Paracopris, Tibiodrepanus, Caccobius) under three tribes (Onthophagini, Coprini, Oniticellini). Temporal resource partition analysis recorded diurnal dung beetle preference towards crossbreed dung and nocturnal ones towards Vechur dung but with no significant difference (P>0.05). Functional guild composition of beetles showed the dominance of tunneller with Onthophagus favrei as the most dominant one.  This study gives a glimpse on the checklist of dung beetles of the selected area and stresses the need to protect such agricultural patches in residential areas as potent microhabitats for scarabs and the whole insect community.


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References


Arrow, G.J. 1931. The Fauna of British India including Ceylon and Burma, Coleoptera: Lamellicornia (Coprinae). London: Taylor and Francis.

Baird, E., Byrne, M. J., Scholtz C.H., Warrant E.J. & Dacke M. 2010. Bearing selection in ball-rolling dung beetles: is it constant? Journal of Comparative Physiology A 196: 801-806.

Balthasar, V. 1963. Monographie der Scarabaeidae und Aphodiidae der Palaearktischen und Orientalischen Region (Coleoptera: Lamellicornia). Verlag der Tschechoslowakischen Akademie derWissenschaften Prag 2: 627.

Boonrotpong, S., Sotthibandhu, S. & Satasook, C. 2012. Species turnover and diel flight activity of species of dung beetles, Onthophagus, in the tropical lowland forest of peninsular Thailand. Journal of insect science 12: 1-14.

Byrne, M., Dacke, M., Nordström, P., Scholtz, C. & Warrant, E. 2003. Visual cues used by ball-rolling dung beetles for orientation. Journal of Comparative Physiology A. 189: 411-418.

Cambefort, Y. 1985. Les especesorientales du genre Cleptocaccobius(Coleoptera: Scarabaeidae). Revue Francaised, Entomologie 7: 125–130.

Cambefort, Y. 1991. Dung beetles in tropical savannas. In Hanski, I. & Cambefort, Y. (ed.) Dung Beetle Ecology. New Jersey: Princeton University Press.

Caveney, S., Scholtz, C.H., & McIntyre, P. 1995. Patterns of daily flight activity in onitine dung beetles (Scarabaeinae: Onitini). Oecologia 103: 444-452.

Chacko, C.T. 2005. Development of the Sunandini cattle breed in India. World 12(7).

Chown, S.L. 2001. Physiological variation in insects: Hierarchical levels and implication. Journal of Insect Physiology 47: 649-660.

Clarke, K.R. 1993. Non‐parametric multivariate analyses of changes in community structure. Australian journal of ecology 8: 117-143.

Clarke, K.R., & Warwick, R.M. 1998. Quantifying structural redundancy in ecological communities. Oecologia 113: 278-89.

Colwell, R. K., 2005. Estimate S: Statistical Estimation of Species Richness and Shared Species from Samples. Ecological Letters 8: 148-159.

Davis, A.J .1999. Perching behaviour in Bornean dung beetles (Coleoptera: Scarabaeidae). Coleopterists bulletin 1: 365-70.

Davis, A.L., & Philips, T.K .2009. Regional fragmentation of rain forest in West Africa and its effect on local dung beetle assemblage structure. Biotropica 041: 215-20.

Department of animal husbandry and dairying. 2019. Basic animal husbandry statistics. Government of India.

http://www.dahd.nic.in/about-us/divisions/statistics. [21 April 2020]

Edwards, P.B. 1991. Seasonal variation in the dung of African grazing mammals, and its consequences for coprophagous insects. Functional Ecology 1: 617-628.

Ekroos, J., Ödman, A. M., Andersson, G.K., Birkhofer, K., Herbertsson, L., Klatt, B. K., Olsson, O., Olsson, P.A., Persson, A.S., Prentice, H.C. & Rundlöf, M .2016. Sparing land for biodiversity at multiple spatial scales. Frontiers in Ecology and Evolution 3: 1-11.

Enari, H., Koike S., Sakamaki, H. & Jetton, R. 2013. Influences of different large mammalian fauna on dung beetle diversity in beech forests. Journal of Insect Science 13: 1-13.

Espinoza, V.R. & Noriega, J.A. 2018. Diversity of the dung beetles (Coleoptera: Scarabaeinae) in an altitudinal gradient in the east slope of los Andes, Napo province, Ecuador. Neotropical Biodiversity 4: 145-151.

Fincher, G.T., Stewart, T.B. & Davis, R. 1970. Attraction of coprophagous beetles to feces of various animals. Journal of Parasitology 56: 378-383.

Foster, J.J., el Jundi, B., Smolka, J., Khaldy, L., Nilsson, D.E., Byrne, M.J. & Dacke, M. 2017. Stellar performance: mechanisms underlying Milky Way orientation in dung beetles. Philos Trans R Soc Lond B Biol Sci. 372: 1-13.

Gillett, C.P., Johnson, A.J., Barr, I. & Hulcr, J. 2016. Metagenomic sequencing of dung beetle intestinal contents directly detects and identifies mammalian fauna. BioRxiv. 1: 1-42.

Gittings, T. & Giller, P.S. 1998. Resource quality and the colonisation and succession of coprophagous dung beetles. Ecography 21: 581-92.

Goh, T.G. & Hashim, R. 2020. Trait responses of Peninsular Malaysian dung beetles (Scarabaeidae: Scarabaeinae) to the loss of megafauna dung. J. Trop. Eco. 36: 39-41.

Gray, C.L., Hill, S.L., Newbold, T., Hudson, L.N., Börger, L., Contu, S., & Scharlemann., J. P. 2016. Local biodiversity is higher inside than outside terrestrial protected areas worldwide. Nature Communications 7: 1-7.

Gregory, N., Gómez, A., Oliveira, T.M., & Nichols, E. 2015. Big dung beetles dig deeper: trait-based consequences for faecal parasite transmission. International Journal of Parasitology 45: 101-105.

Guhathakurta, P., Sudeepkumar., Menon, P., Prasad, A. K., Sable, S.T. & Advani, S.C. 2020 Observed Rainfall Variability and Changes Over Kerala State. Pune: Climate Research and Services India Meteorological Department Ministry of Earth Sciences.

Halffter, G. & Edmonds, W.D. 1982. The Nesting Behavior of Dung Beetles (Scarabaeinae), an Ecological and Evolutive Approach. Mexico: Instituto de Ecologia.

Hanski, I. & Cambefort, Y. 1991. Dung Beetle Ecology. New Jersey: Princeton university press.

Hanski, I. & Krikken, J. 1991. Dung beetles in tropical forest in Southeast Asia. In Ikka Hanski., Cambefort (ed). Dung Beetle Ecology, pp. 179-197. New Jersey: Princeton University Press.

Haynes, R.J. & Williams, P.H. 1993. Nutrient cycling and soil fertility in the grazed pasture ecosystem. Advances in Agronomy 49: 119-199.

Heinrich, B. & Bartholomew, G.A., 1979. The ecology of the African dung beetle. Scientific American 241: 146-157.

Hernández, M.I. 2002. The night and day of dung beetles (Coleoptera, Scarabaeidae) in the Serra do Japi, Brazil: Elytra colour related to daily activity. Revista Brasileira de Entomologia 46: 597-600.

Hernández, M.I., Monteiro, L.R. & Favila, M.E. 2011. The role of body size and shape in understanding competitive interactions within a community of Neotropical dung beetles. Journal of Insect Science 11: 1-14.

Holter, P. 2016. Herbivore dung as food for dung beetles: Elementary coprology for entomologists. Ecological entomology 41(4): 367-377.

Inward, D. J., Davies, R. G., Pergande, C., Denham, A.J. & Vogler, A.P. 2011. Local and regional ecological morphology of dung beetle assemblages across four biogeographic regions. Journal of Biogeography 38: 1668-82.

Iype, S. 2013. Vechur cattle – from extinction to sustainability. Animal Genetic Resources 52: 105-110.

Jenkins, C.N. & Joppa, L. 2009. Expansion of the global terrestrial protected area system. Biological conservation 142: 2166-2174.

Katona, K. & Coetsee, C. 2019. Impacts of browsing and grazing ungulates on faunal biodiversity. In Gordon, I.J. & Prins, H.H.T. (eds.).The Ecology of Browsing and Grazing, pp. 277-300. Springer-Verlag Berlin Heidelberg: Springer.

Kessler, M., Hertel, D., Jungkunst, H.F., Kluge, J., Abrahamczyk, S., Bos, M., Buchori, D., Gerold G., Gradstein, S.R., Köhler, S. & Leuschner, C. 2012. Can Joint Carbon and Biodiversity Management in Tropical Agroforestry Landscapes Be Optimized? PLoS ONE 7: e47192.

Krell-Westerwalbesloh, S., Krell, F.T. & Eduard Linsenmair, K. 2004. Diel separation of Afrotropical dung beetle guilds—avoiding competition and neglecting resources (Coleoptera: Scarabaeoidea). Journal of Natural History 38: 2225-2249.

Latha, T. & Sabu, T. K. 2018. Dung beetle (Coleoptera: Scarabaeinae) community structure across a forest-agriculture habitat ecotonein South Western Ghats. International Journal of Environment, Agriculture and Biotechnology 3: 1879-1890.

Lobo, J.M., Martin-Piera, F. & Veiga, C.M. 1988. Las trampas pitfall con cebo, sus posibilidadesen el estudio de las comunidadescoprofagas de Scarabaeoidea (Col.) Revue d’Ecologie et de Biologie du Sol 25: 77-100.

Lumaret, J.P. & Kirk, A.A. 1987. Ecology of dung beetles in the French Mediterranean region (Coleoptera, Scarabaeidae). Acta Zoologica mexicana 24: 1-55.

Martín-Piera, F. & Lobo, J.M. 1996. A comparative discussion of trophic preferences in dung beetle communities. Miscel·lània Zoològica 19: 13-3.

McIntyre, P. & Caveney, S. 1998 Superposition optics and the time of flight in onitine dung beetles. Journal of Comparative Physiology A 183: 45-60.

Milotić, T., Baltzinger, C., Eichberg, C., Eycott, A. E., Heurich, M., Müller, J., Noriega, J.A., Menendez, R., Stadler, J., Ádám, R. & Bargmann, T. 2019. Functionally richer communities improve ecosystem functioning: Dung removal and secondary seed dispersal by dung beetles in the Western Palaearctic. Journal of Biogeography 46: 70-82.

Muhaimin, A.M., Hazmi, I.R. & Yaakop, S. 2015. Colonisation of Dung Beetles (Coleoptera: Scarabaeidae) of Smaller Body Size in the Bangi Forest Reserve, Selangor, Malaysia: A Model Sampling Site for a Secondary Forest Area. Pertanika Journal of Tropical Agricultural Science 38: 519-531

Nichols, E.S. & Gardner, T.A. 2011. Dung beetles as a candidate study taxon in applied biodiversity conservation research. In: Leigh W.S. & Ridsdill‐Smith T.J (eds.). Ecology and evolution of dung beetles. pp. 267-291. New York: Wiley.

Niino, M., Hosaka, T., Kon, M., Ochi, T., Yamada T., & Okuda, T. 2014. Diel flight activity and habitat preference of dung beetles (Coleoptera: Scarabaeidae) in Peninsular Malaysia. Raffles Bull. Zool. 62: 795-804

Noriega, J.A. 2012. Dung beetles (Coleoptera: Scarabaeinae) attracted to Lagothrix lagotricha (Humboldt) and Alouatta seniculus (Linnaeus) (Primates: Atelidae) dung in a colombian amazon forest. Psyche 2012: 1-6.

Rainio, M.1966. Abundance and phenology of some co- prophagous beetles in different kinds of dung. Annales Zoologici Fennici 3: 88-98.

Raine, E, H. & Slade E, M. 2019. Dung beetle mammal associations: Methods, research trends and future directions. Royal Society Proceedings B 286(1897): 20182002.

Rodrigues, A. S., Andelman, S.J., Bakarr, M.I., Boitani, L., Brooks, T.M., Cowling, R.M., Fishpool, L.D., Da Fonseca, G.A., Gaston, K.J., Hoffmann, M. & Long, J.S. 2004. Effectiveness of the global protected area network in representing species diversity. Nature 428: 640–643.

Sabu, T.K., Vinod, K.V., Latha, M., Nithya, S. & Boby, J. 2011. Cloud forest dung beetles (Coleoptera: Scarabaeinae) in the Western Ghats, a global biodiversity hotspot in southwestern India. Tropical Conservation Science 4: 12-24.

Sabu, T.K., Vinod, K.V. & Vineesh, P.J. 2006. Guild structure, diversity and succession of dung beetles associated with Indian elephant dung in South Western Ghats forests. Journal of insect science 6: 1-12.

Sabu, T.K., Vinod, K.V. & Vineesh, P.J. 2007 Succession of dung beetles (Scarabaeinae: Coleoptera) in the dung pats of gaur, Bos gaurus H. Smith (Artiodactyla: Bovidae), from the moist deciduous forests of southern Western Ghats. Biosystematica 1: 59-69.

Santos-Heredia, C., Andresen, E., Zárate, D.A. & Escobar, F. 2018. Dung beetles and their ecological functions in three agroforestry systems in the Lacandona rainforest of Mexico. Biodiversity Conservation 27: 2379-2394.

Shafiei, M., Moczek, A.P. & Nijhout, H.F. 2001. Food availability controls the onset of metamorphosis in the dung beetle Onthophagustaurus (Coleoptera: Scarabaeidae). Physiological Entomology 26: 173-180.

Simmons, L.W. & Ridsdill-Smith, T.J. 2011. Ecology and evolution of dung beetles. John New York: Wiley & Sons.

Slade, E.M., Mann, D.J., Villanueva, J.F. & Lewis, O.T. 2007. Experimental evidence for the effects of dung beetle functional group richness and composition on ecosystem function in a tropical forest. Journal of Animal Ecology 76: 1094-1104.

Sullivan, G.T., Ozman-Sullivan, S.K., Lumaret, J.P., Bourne, A., Zeybekoglu, U., Zalucki, M.P. & Baxter, G. 2017. How guilds build success; aspects of temporal resource partitioning in a warm, temperate climate assemblage of dung beetles (Coleoptera: Scarabaeidae). Environmental Entomology 46: 1060-1069.

Troupin, D. & Carmel, Y. 2014. Can agro-ecosystems efficiently complement protected area networks? Biological Conservation 169: 158-166.

Veiga. C.M., Lobo. J.M. & Martin-Piera. F.1989. Las trampas pitfall con cebo, sus posibilidadesen el estudio de las comunidadescoprófagas de Scarabaeoidea (Col.) Revue d'écologie et de biologie du sol 26: 91-109.

Venugopal, K.S., Thomas, S.K. & Flemming, A.T. 2012. Diversity and community structure of dung beetles (Coleoptera: Scarabaeinae) associated with semi-urban fragmented agricultural land in the Malabar coast in southern India. Journal of Threatened taxa 26: 2685-92.

Vernes, K., Pope, L.C., Hill, C.J. & Bärlocher, F. 2005. Seasonality, dung specificity and competition in dung beetle assemblages in the Australian Wet Tropics, north-eastern Australia. Journal of Tropical Ecology 21: 1-8.

Vinod, K.V. & Sabu, T.K. 2007. Species composition and community structure of dung beetles attracted to dung of gaur and elephant in the moist forests of South Western Ghats. Journal of Insect Science 7: 1-14.

Young, O.P. 2015. Predation on dung beetles (Coleoptera: Scarabaeidae): A literature review. Transactions of the American Entomological Society 141: 111-155.

Warwick, R.M. & Clarke, K.R. 1995. New biodiversity measures reveal a decrease in taxonomic distinctness with increasing stress. Marine ecology progress series 129: 301-305.

Wassmer, T. 1995. Selection of the spatial habitat of coprophagous beetles in the Kaiserstuhl area near Freiburg (SW-Germany). Acta Oecologica 16: 461- 478.


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