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References

  • Asner, G.P., Rudel, T.K., Aide, T.M., Defries, R. & Emerson, R. (2009). A contemporary assessment of change in humid tropical forests. Conserv. Biol. 23, 13861395.
  • Baraloto, C., Herault, B., Paine, C.E.T., Massot, H., Blanc, L., Bonal, D., Molino, J.-F., Nicolini, E.A. & Sabatier, D. (2012). Contrasting taxonomic and functional responses of a tropical tree community to selective logging. J. Appl. Ecol. 49, 861870.
  • Barragán, F., Moreno, C.E., Escobar, F., Halffter, G. & Navarrete, D. (2011). Negative impacts of human land use on dung beetle functional diversity. PLoS ONE 6, e17976. doi:10.1371/journal.pone.0017976.
  • de Bello, F., Lavorel, S., Díaz, S., Harrington, R., Cornelissen, J.H.C., Bardgett, R.D., Berg, M.P., Cipriotti, P., Feld, C.K., Hering, D., Martins da Silva, P., Potts, S.G., Sandin, L., Sousa, J.P., Storkey, J., Wardle, D.A. & Harrison, P.A. (2010). Towards an assessment of multiple ecosystem processes and services via functional traits. Biodivers. Conserv. 19, 28732893.
  • Bihn, J.H., Gebauer, G. & Brandl, R. (2010). Loss of functional diversity of ant assemblages in secondary tropical forests. Ecology 91, 782792.
  • Blaser, J., Sarre, A., Poore, D. & Johnson, S. (2011). Status of tropical forest management. ITTO Technical Series 38. International Tropical Timber Organization, Yokohama, Japan.
  • Brodie, J., Post, E. & Laurance, W.F. (2012). Climate change and tropical biodiversity: a new focus. Trends Ecol. Evol. 27, 145150.
  • Brooks, T.M., Mittermeier, R.A., Mittermeier, C.G., da Fonseca, G.A.B., Rylands, A.B., Konstant, W.R., Flick, P., Pilgrim, J., Oldfield, S., Magin, G. & Hilton-Taylor, C. (2002). Habitat loss and extinction in the hotspots of biodiversity. Conserv. Biol. 16, 909923.
  • Brown, K.A., Johnson, S.E., Parks, K.E., Holmes, S.M., Ivoandry, T., Abram, N.K., Delmore, K.E., Ludovic, R., Andriamaharoa, H.E., Wyman, T.M. & Wright, P.C. (2013). Use of provisioning ecosystem services drives loss of functional traits across land use intensification gradients in tropical forests in Madagascar. Biol. Conserv. 161, 118127.
  • Cardinale, B.J., Duffy, J.E., Gonzalez, A., Hooper, D.U., Perrings, C., Venail, P., Narwani, A., Mace, G.M., Tilman, D., Wardle, D.A., Kinzig, A.P., Daily, G.C., Loreau, M., Grace, J.B., Larigauderie, A., Srivastava, D.S. & Naeem, S. (2012). Biodiversity loss and its impact on humanity. Nature 486, 5967.
  • Cianciaruso, M.V., Silva, I.A., Batalha, M.A., Gaston, K.J. & Petchey, O.L. (2012). The influence of fire on phylogenetic and functional structure of woody savannas: moving from species to individuals. Perspect. Plant Ecol. Evol. Syst. 14, 205216.
  • Clarke, K.R. & Warwick, R.M. (2001). Change in marine communities: an approach to statistical analysis and interpretation. 2nd edn. Plymouth: Primer-E.
  • Davis, A.J. (1999). Species packing in tropical forests: diel flight activity of rainforest dung-feeding beetles (Coleoptera: Aphodiidae, Scarabaeidae, Hybosoridae) in Borneo. Raffles Bull. Zool. 47, 473486.
  • Davis, A.L.V. & Philips, T.K. (2005). Effect of deforestation on a Southwest Ghana dung beetle assemblage (Coleoptera: Scarabaeidae) at the periphery of Ankasa conservation area. Environ. Entomol. 34, 10811088.
  • Edwards, D.P., Hodgson, J.A., Hamer, K.C., Mitchell, S.L., Ahmad, A.H., Cornell, S.J. & Wilcove, D.S. (2010). Wildlife-friendly oil palm plantations fail to protect biodiversity effectively. Conserv. Lett. 3, 236242.
  • Edwards, D.P., Larsen, T.H., Docherty, T.D.S., Ansell, F.A., Hsu, W.W., Derhe, M.A., Hamer, K.C. & Wilcove, D.S. (2011). Degraded lands worth protecting: the biological importance of Southeast Asia's repeatedly logged forests. Proc. Biol. Sci. 278, 8290.
  • Edwards, F.A., Edwards, D.P., Hamer, K.C. & Davies, R.G. (2013). Impacts of logging and conversion of rainforest to oil palm on the functional diversity of birds in Sundaland. Ibis 155, 313326.
  • Ernst, R., Linsenmair, K.E. & Rödel, M.-O. (2006). Diversity erosion beyond the species level: dramatic loss of functional diversity after selective logging in two tropical amphibian communities. Biol. Conserv. 133, 143155.
  • FAO (2010). Global Forest Resources Assessment 2010. Food and Agriculture Organization of the United Nations.
  • Fauset, S., Baker, T.R., Lewis, S.L., Feldpausch, T.R., Affum-Baffoe, K., Foli, E.G., Hamer, K.C. & Swaine, M.D. (2012). Drought-induced shifts in the floristic and functional composition of tropical forests in Ghana. Ecol. Lett. 15, 11201129.
  • Fisher, B., Edwards, D.P., Giam, X. & Wilcove, D.S. (2011). The high costs of conserving Southeast Asia's lowland rainforests. Front. Ecol. Environ. 9, 329334.
  • Fitzherbert, E., Struebig, M., Morel, A., Danielsen, F., Bruhl, C., Donald, P. & Phalan, B. (2008). How will oil palm expansion affect biodiversity? Trends Ecol. Evol. 23, 538545.
  • Flynn, D.F.B., Gogol-Prokurat, M., Nogeire, T., Molinari, N., Richers, B.T., Lin, B.B., Simpson, N., Mayfield, M.M. & DeClerck, F. (2009). Loss of functional diversity under land use intensification across multiple taxa. Ecol. Lett. 12, 2233.
  • Garcia-Ulloa, J., Sloan, S., Pacheco, P., Ghazoul, J. & Koh, L.P. (2012). Lowering environmental costs of oil-palm expansion in Colombia. Conserv. Lett. 5, 366375.
  • Gibbs, H.K., Ruesch, A.S., Achard, F., Clayton, M.K., Holmgren, P., Ramankutty, N. & Foley, J.A. (2010). Tropical forests were the primary sources of new agricultural land in the 1980s and 1990s. Proc. Natl. Acad. Sci. U.S.A. 107, 1673216737.
  • Gotelli, N.J. (2000). Null model analysis of species co-occurrence patterns. Ecology 81, 26062621.
  • Gotelli, N.J. & Colwell, R.K. (2001). Quantifying biodiversity: procedures and pitfalls in the measurement and comparison of species richness. Ecol. Lett. 4, 379391.
  • Gray, M.A., Baldauf, S.L., Mayhew, P.J. & Hill, J.K. (2007). The response of avian feeding guilds to tropical forest disturbance. Conserv. Biol. 21, 133141.
  • Hamer, K.C. & Hill, J.K. (2000). Scale dependant effects of habitat disturbance on species richness in tropical forests. Conserv. Biol. 14, 14351440.
  • Hamer, K.C., Hill, J.K., Benedick, S., Mustaffa, N., Sherratt, T.N., Maryati, M. & Chey, V.K. (2003). Ecology of butterflies in natural and selectively logged forests of northern Borneo: the importance of habitat heterogeneity. J. Appl. Ecol. 40, 150162.
  • Hansen, M.C., Stehman, S.V., Potapov, P.V., Loveland, T.R., Townshend, J.R.G., DeFries, R.S., Pittman, K.W., Arunarwati, B., Stolle, F., Steininger, M.K., Carroll, M. & DiMiceli, C. (2008). Humid tropical forest clearing from 2000 to 2005 quantified by using multitemporal and multiresolution remotely sensed data. Proc. Natl. Acad. Sci. U.S.A. 105, 94399444.
  • Hanski, I. & Cambefort, Y. (1991). Dung beetle ecology. Princetion: Princeton University Press.
  • Hidasi-Neto, J., Barlow, J. & Cianciaruso, M.V. (2012). Bird functional diversity and wildfires in the Amazon: the role of forest structure. Anim. Conserv. 15, 407415.
  • Hillebrand, H., Bennett, D.M. & Cadotte, M.W. (2008). Consequences of dominance: a review of evenness effects on local and regional ecosystem processes. Ecology 89, 15101520.
  • Katovai, E., Burley, A.L. & Mayfield, M.M. (2012). Understory plant species and functional diversity in the degraded wet tropical forests of Kolombangara Island, Solomon Islands. Biol. Conserv. 145, 214224.
  • Kembel, S.W., Cowan, P.D., Helmus, M.R., Cornwell, W.K., Morlon, H., Ackerly, D.D., Blomberg, S.P. & Webb, C.O. (2010). Picante: R tools for integrating phylogenies and ecology. Bioinformatics 26, 14631464.
  • Koh, L.P. & Wilcove, D.S. (2008). Is oil palm agriculture really destroying tropical biodiversity? Conserv. Lett. 1, 6064.
  • Koh, L.P., Sodhi, N.S. & Brook, B.W. (2004). Ecological correlates of extinction proneness in tropical butterflies. Conserv. Biol. 18, 15711578.
  • Koh, L.P., Miettinen, J., Liew, S.C. & Ghazoul, J. (2011). Remotely sensed evidence of tropical peatland conversion to oil palm. Proc. Natl. Acad. Sci. U.S.A. 108, 51275132.
  • Krikken, J. & Huijbregts, J. (2007). Taxonomic diversity of the genus Ochicanthon in Sundaland (Coleoptera: Scarabaeidae: Scarabaeinae). Tijdschr. Entomol. 150, 421480.
  • Larsen, T.H. (2012). Upslope range shifts of andean dung beetles in response to deforestation: compounding and confounding effects of microclimatic change. Biotropica 44, 8289.
  • Larsen, T.H. & Forsyth, A. (2005). Trap spacing and transect design for dung beetle biodiversity studies. Biotropica 37, 322325.
  • Larsen, T.H., Williams, N.M. & Kremen, C. (2005). Extinction order and altered community structure rapidly disrupt ecosystem functioning. Ecol. Lett. 8, 538547.
  • Larsen, T.H., Lopera, A. & Forsyth, A. (2008). Understanding trait-dependent community disassembly: dung beetles, density functions, and forest fragmentation. Conserv. Biol. 22, 12881298.
  • Laurance, W.F. (2007). Forest destruction in tropical Asia. Curr. Sci. 93, 15441550.
  • Leal, I.R., Filgueiras, B.K.C., Gomes, J.P., Iannuzzi, L. & Andersen, A.N. (2012). Effects of habitat fragmentation on ant richness and functional composition in Brazilian Atlantic forest. Biodivers. Conserv. 21, 16871701.
  • Lindenmayer, D.B., Hunter, M.L., Burton, P.J. & Gibbons, P. (2009). Effects of logging on fire regimes in moist forests. Conserv. Lett. 2, 271277.
  • Lohbeck, M., Poorter, L., Paz, H., Pla, L., van Breugel, M., Martínez-Ramos, M. & Bongers, F. (2012). Functional diversity changes during tropical forest succession. Perspect. Plant Ecol. Evol. Syst. 14, 8996.
  • Loyola, R.D., Becker, C.G., Kubota, U., Haddad, C.F.B., Fonseca, C.R. & Lewinsohn, T.M. (2008). Hung out to dry: choice of priority ecoregions for conserving threatened neotropical anurans depends on life-history traits. PLoS ONE 3, e2120. doi:10.1371/journal.pone.0002120.
  • Lucey, J.M. & Hill, J.K. (2012). Spillover of insects from rain forest into adjacent oil palm plantations. Biotropica 44, 368377.
  • Magurran, A.E. (2004). Measuring biological diversity. Oxford: Blackwell Science Ltd.
  • Morris, R.J. (2010). Anthropogenic impacts on tropical forest biodiversity: a network structure and ecosystem functioning perspective. Philos. Trans. R. Soc. Lond. B. Biol. Sci. 365, 37093718.
  • Mouillot, D., Graham, N.A.J., Villeger, S., Mason, N.W.H. & Bellwood, D.R. (2013). A functional approach reveals community responses to disturbances. Trends Ecol. Evol. 28, 167177.
  • Myers, N., Mittermeier, R.A., Mittermeier, C.G., da Fonseca, G.A.B. & Kent, J. (2000). Biodiversity hotspots for conservation priorities. Nature 403, 853858.
  • Naeem, S., Duffy, J.E. & Zavaleta, E. (2012). The functions of biological diversity in an age of extinction. Science 336, 14011406.
  • Nelson, G.C., Bennett, E., Berhe, A.A., Cassman, K., DeFries, R., Dietz, T., Dobermann, A., Dobson, A., Janetos, A., Levy, M., Marco, D., Nakicenovic, N., O'Neill, B., Norgaard, R., Petschel-Held, G., Ojima, D., Pingali, P., Watson, R. & Zurek, M. (2006). Anthropogenic drivers of ecosystem change: an overview. Ecol. Soc. 11, 29.
  • Nepstad, D.C., Verssimo, A., Alencar, A., Nobre, C., Lima, E., Lefebvre, P., Schlesinger, P., Potter, C., Moutinho, P., Mendoza, E., Cochrane, M. & Brooks, V. (1999). Large-scale impoverishment of Amazonian forests by logging and fire. Nature 398, 505508.
  • Nichols, E., Larsen, T., Spector, S., Davis, A.L., Escobar, F., Favila, M. & Vulinec, K. (2007). Global dung beetle response to tropical forest modification and fragmentation: a quantitative literature review and meta-analysis. Biol. Conserv. 137, 119.
  • Nichols, E., Spector, S., Louzada, J., Larsen, T., Amezquita, S. & Favila, M.E. (2008). Ecological functions and ecosystem services provided by Scarabaeinae dung beetles. Biol. Conserv. 141, 14611474.
  • Nichols, E., Gardner, T.A., Peres, C.A. & Spector, S. (2009). Co-declining mammals and dung beetles: an impending ecological cascade. Oikos 118, 481487.
  • Nichols, E., Uriarte, M., Bunker, D.E., Favila, M.E., Slade, E.M., Vulinec, K., Larsen, T., Vaz de Mello, F.Z., Louzada, J., Naeem, S. & Spector, S. (2013). Trait-dependent response of dung beetle populations to tropical forest conversion at local and regional scales. Ecology 93, 180189.
  • Ockinger, E., Schweiger, O., Crist, T.O., Debinski, D.M., Krauss, J., Kuussaari, M., Petersen, J.D., Poyry, J., Settele, J., Summerville, K.S. & Bommarco, R. (2010). Life-history traits predict species responses to habitat area and isolation: a cross-continental synthesis. Ecol. Lett. 13, 969979.
  • Oksanen, J., Blanchet, F.G., Kindt, R., Legendre, P., Minchin, P.R., O'Hara, R.B., Simpson, G.L., Solymos, P., Stevens, M.H.H. & Wagner, H. (2011). Vegan: Community Ecology Package.
  • Peres, C.A., Barlow, J. & Haugaasen, T. (2003). Vertebrate responses to surface wildfires in a central amazonian forest. Oryx 37, 97109.
  • Petchey, O.L. & Gaston, K.J. (2006). Functional diversity: back to basics and looking forward. Ecol. Lett. 9, 741758.
  • Qie, L., Lee, T.M., Sodhi, N.S. & Lim, S.L.H. (2011). Dung beetle assemblages on tropical land-bridge islands: small island effect and vulnerable species. J. Biogeogr. 38, 792804.
  • R Development Core Team (2011). R: a language and environment for statistical computing. In R Foundation for Statistical Computing. Vienna, Austria.
  • Reynolds, G., Payne, J., Sinun, W., Mosigil, G. & Walsh, R.P.D. (2011). Changes in forest land use and management in Sabah, Malaysian Borneo, 1990–2010, with a focus on the Danum Valley region. Philos. Trans. R. Soc. Lond. B. Biol. Sci. 366, 31683176.
  • 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. J. Anim. Ecol. 76, 10941104.
  • Slade, E.M., Mann, D.J. & Lewis, O.T. (2011). Biodiversity and ecosystem function of tropical forest dung beetles under contrasting logging regimes. Biol. Conserv. 144, 166174.
  • Slik, J.W.F. & Van Balen, S. (2006). Bird community changes in response to single and repeated fires in a lowland tropical rainforest of eastern Borneo. Biodivers. Conserv. 15, 44254451.
  • Sodhi, N.S., Koh, L.P., Clements, R., Wanger, T.C., Hill, J.K., Hamer, K.C., Clough, Y., Tscharntke, T., Posa, M.R.C. & Lee, T.M. (2010). Conserving Southeast Asian forest biodiversity in human-modified landscapes. Biol. Conserv. 143, 23752384.
  • Sowig, P. (1995). Habitat selection and offspring survival rate in three paracoprid dung beetles: the influence of soil type and soil moisture. Ecography 18, 147154.
  • Tilman, D. (2001). Forecasting agriculturally driven global environmental change. Science 292, 281284.
  • Vandewalle, M., de Bello, F., Berg, M.P., Bolger, T., Doledec, S., Dubs, F., Feld, C.K., Harrington, R., Harrison, P.A., Lavorel, S., da Silva, P.M., Moretti, M., Niemela, J., Santos, P., Sattler, T., Sousa, J.P., Sykes, M.T., Vanbergen, A.J. & Woodcock, B.A. (2010). Functional traits as indicators of biodiversity response to land use changes across ecosystems and organisms. Biodivers. Conserv. 19, 29212947.
  • Villéger, S., Mason, N.W.H. & Mouillot, D. (2008). New multidimensional functional diversity indices for a multifaceted framework in functional ecology. Ecology 89, 22902301.
  • Villéger, S., Ramos Miranda, J., Flores Hernandez, D. & Mouillot, D. (2010). Contrasting changes in taxonomic vs. functional diversity of tropical fish communities after habitat degradation. Ecol. Appl. 20, 15121522.
  • Villéger, S., Novack-Gottshall, P.M. & Mouillot, D. (2011). The multidimensionality of the niche reveals functional diversity changes in benthic marine biotas across geological time. Ecol. Lett. 14, 561568.
  • Wilcove, D.S., Giam, X., Edwards, D.P., Fisher, B. & Koh, L.P. (2013). Navjot's nightmare revisited: logging, agriculture, and biodiversity in Southeast Asia. Trends Ecol. Evol. 28, 531540.
  • Woodcock, P., Edwards, D.P., Fayle, T.M., Newton, R.J., Khen, C.V., Bottrell, S.H. & Hamer, K.C. (2011). The conservation value of South East Asia's highly degraded forests: evidence from leaf-litter ants. Philos. Trans. R. Soc. Lond. B. Biol. Sci. 366, 32563264.
  • Yamada, D., Imura, O., Shi, K. & Shibuya, T. (2007). Effect of tunneler dung beetles on cattle dung decomposition, soil nutrients and herbage growth. J. Japan. Soc. Grassl. Sci. 53, 121129.