SEARCH

SEARCH BY CITATION

References

  • Aide, T.M. & Grau, H.R. (2004) Globalization, migration and Latin American ecosystems. Science, 30, 5191551916.
  • Anderson, M.J. (2005) PERMANOVA: A FORTRAN Computer Program for Permutational Multivariate Analysis of Variance. Department of Statistics, University of Auckland, New Zealand.
  • Andresen, E. (2003) Effect of forest fragmentation on dung beetle communities and functional consequences for plant regeneration. Ecography, 26, 8797.
  • Barberena-Arias, M.F. & Aide, T.M. (2003) Species diversity and trophic composition of litter insects during plant secondary succession. Caribbean Journal of Science, 2, 161169.
  • Barlow, J., Gardner, T.A., Araujo, T.S., Avila-Pires, T.C., Bonaldo, A.B., Costa, J.E., Esposito, M.C., Ferreira, L.V., Hawes, J., Hernandez, M.I.M., Hoogmoed, M.S., Leite, R.N., Lo-Man-Hung, R.F., Malcolm, J.R., Martins, M.B., Mestre, L.A.M., Miranda-Santos, R., Nunes-Gutjahr, A.L., Overal, W.L., Parry, L., Peters, S.L., Ribeiro-Junior, M.A., Da Silva, M.N.F., Da Silva-Motta, C. & Peres, C.A. (2007a) Quantifying the biodiversity value of tropical primary, secondary and plantation forests. Proceedings of the National Academy of Science of the United States of America, 104, 1855518560.
  • Barlow, J., Mestre, L.A.M., Gardner, T.A. & Peres, C.A. (2007b) The value of primary, secondary and plantation forests for Amazonian birds. Biological Conservation, 136, 212231.
  • Barrat, B.I.P., Deraik, J.G.B., Rufaut, G.B., Goodman, A.J. & Dickinson, K.J.M. (2003) Morphospecies as a substitute for Coleoptera species identification, and the value of experience in improving accuracy. Journal of the Royal Society of New Zealand, 33, 583590.
  • Basset, Y., Missa, O., Alonso, A., Miller, S.E., Curletti, G., DeMeyer, M., Eardley, C., Lewis, O.T., Mansell, M.W., Novotny, V. & Wagner, T. (2008) Changes in arthropod assemblages along a wide gradient of disturbance in Gabon. Conservation Biology, 22, 15521563.
  • Besuchet, C., Burckhardt, D.H. & Löbl, I. (1987) The ‘Winkler/Moczarski’ eclector as efficient extractor for fungus and litter Coleoptera. The Coleopterists Bulletin, 41, 392394.
  • Bihn, J., Verhaagh, M. & Brändle, M. (2008) Do secondary forests act as refuges for old-growth forest animals? Recovery of ant diversity in the Atlantic forest of Brazil. Biological Conservation, 141, 733743.
  • Brook, B.W., Bradshaw, J.A., Koh, L.P. & Sodhi, N.S. (2006) Momentum drives the crash: mass extinction in the tropics. Biotropica, 38, 302305.
  • Burghouts, T., Ernsting, G., Korthals, G. & DeVries, T. (1992) Litterfall, leaf litter decomposition and litter invertebrates in primary and selectively logged dipterocarp forest in Sabah, Malaysia. Philosophical Transactions: Biological Sciences, 335, 407416.
  • Colwell, R.K. (2006) EstimateS: statistical estimation of species richness and shared species from samples. version 8. persistent Available from URL: http://purl.oclc.org/estimates.
  • Didham, R.K., Hammond, P.M., Lawton, J.H., Eggleton, P. & Stork, N.E. (1998) Beetle species responses to tropical forest fragmentation. Ecological Monographs, 68, 295323.
  • Dirzo, R. & Raven, P.H. (2003) Global state of biodiversity and loss. Annual Review of Environment and Resources, 28, 137167.
  • Doube, B.M. (1983) The habitat preference of some bovine dung beetles (Coleoptera: Scarabaeidae) in Hluhluwe Game Reserve, South Africa. Bulletin of Entomological Research, 73, 357371.
  • Dunn, R.R. (2004) Recovery of faunal communities during tropical forest regeneration. Conservation Biology, 18, 302309.
  • Ewel, J.J. (1976) Litterfall and leaf decomposition in a tropical forest succession in Eastern Guatemala. Journal of Ecology, 64, 293308.
  • FAO (2009) State of the World’s Forests. Food and Agriculture Organisation, United Nations, Rome.
  • Feer, F. & Hingrat, Y. (2005) Effects of forest fragmentation on a dung beetle community in French Guiana. Conservation Biology, 19, 11031112.
  • Gardner, T.A., Barlow, J. & Parry, L.W. (2007b) Predicting the uncertain future of tropical forest species in a data vacuum. Biotropica, 39, 2530.
  • Gardner, T.A., Malva, I.M., Hernández, M.I.M., Barlow, J. & Peres, C.A. (2008) Understanding the biodiversity consequences of habitat change: the value of secondary and plantation forests for neotropical dung beetles. Journal of Applied Ecology, 45, 883893.
  • Gardner, T.A., Ribeiro-Junior, M.A., Barlow, J., Avila-Pires, T.C.S., Hoogmoed, M.S. & Peres, C.A. (2007a) The value of primary, secondary, and plantation forests for a neotropical herpetofauna. Conservation Biology, 21, 775785.
  • Gaston, K.J., Warren, P.H. & Hammond, P.M. (1992) Predator: non-predator ratios in beetle assemblages. Oecologia, 90, 417421.
  • Gotelli, N.J. & Colwell, R.K. (2001) Quantifying biodiversity: procedures and pitfalls in the measurement and comparison of species richness. Ecology Letters, 4, 379391.
  • Grimbacher, P.S., Caterall, C.P., Kanowski, J. & Proctor, H.C. (2007) Responses of ground-active beetle assemblages to different styles of reforestation on cleared rainforest land. Biodiversity and Conservation, 16, 21672184.
  • Haddad, N.M., Tilman, D., Haarstadt, J., Ritchie, M. & Knops, J.M.A. (2001) Contrasting effects of plant richness and competition on insect communities: a field experiment. American Naturalist, 158, 1735.
  • Hammond, P.M. (1990) Insect abundance and diversity in the Dumoga-Bone National Park, N. Sulawesi, with special reference to the beetle fauna of lowland rain forests in the Toraut region. Insects and the Rain Forest of South-East Asia (Wallacea) (ed. by W.J.Knight and J.D.Holloway), pp. 197254. Royal Entomological Society of London, London, UK.
  • Hanagarth, W. & Brändle, M. (2001) Soil beetles (Coleoptera) of a primary forest, secondary forest and two mixed polyculture systems in central Amazonia. Andrias, 15, 155162.
  • Instituto Brasileiro de Geografia e Estatística IBGE (1992) Manual Técnico da Vegetação Brasileira. Série Manuais Técnicos em Geosciencias. Centro de Documentação e Disseminação de Informações (CDDI), Rio de Janeiro, Brazil.
  • Jonsson, B.G. & Jonsell, M. (1999) Exploring potential biodiversity indicators in boreal forests. Biodiversity and Conservation, 8, 14171433.
  • Klein, B.C. (1989) Effects of forest fragmentation on dung and carrion beetle communities in central Amazonia. Ecology, 70, 17151725.
  • Klopfer, P.H. & MacArthur, R. (1960) Niche size and faunal diversity. American Naturalist, 94, 293300.
  • Krell, F.T., Chung, A., DeBoise, E., Eggleton, P., Giusti, A., Inward, K. & Krell-Westerwalbesloh, S. (2005) Quantitative extraction of macro-invertebrates from temperate and tropical leaf-litter and soil: efficiency and time-dependent taxonomic biases of the Winkler extraction. Pedobiologia, 49, 175186.
  • Lassau, S.A., Hochuli, D.F., Cassis, G. & Reid, C.A.M. (2005) Effects of habitat complexity on forest beetle diversity: do functional groups respond consistently? Diversity and Distribution, 11, 7382.
  • Laurance, W.F. (2007) Have we overstated the tropical biodiversity crisis? Trends in Ecology and Evolution, 22, 6570.
  • Laurance, W.F. (2009) Conserving the hottest of the hotspots. Biological Conservation, 142, 1137.
  • Lawrence, J.F., Hastings, A.M., Dallwitz, M.J., Paine, T.A. & Zurcher, E.J. (1999) Beetles of the World, IntKey. version 5.09. Division of Entomology, CSIRO, Canberra, Australia.
  • Lawton, J.H., Bignell, D.E., Bolton, B., Bloemers, G.F., Eggleton, P., Hammond, P.M., Hodda, M., Holt, R.D., Larson, T.B., Mawdsley, N.A., Stork, N.E., Srivastava, D.S. & Watt, A.D. (1998) Biodiversity inventories, indicator taxa and effects of habitat modification in tropical forest. Nature, 391, 7276.
  • Lewinsohn, T.M., Freitas, A.V.L. & Prado, P.I. (2005) Conservation of terrestrial invertebrates and their habitats in Brazil. Conservation Biology, 19, 640645.
  • Liebsch, D., Goldenberg, R. & Marques, M.C.M. (2007) Florística estrutura de comunidades vegetais em uma cronoseqűência de Floresta Atlântica no estado do Paraná, Brasil. Acta Botanica Brasilica, 21, 983992.
  • Liebsch, D., Marques, M.C.M. & Goldenberg, R. (2008) How long does the Atlantic rain forest take to recover after a disturbance? Changes in species composition and ecological features during secondary succession Biological Conservation, 141, 17171725.
  • Marinoni, R.C. & Ganho, N.G. (2003) Fauna de coleopterano Parque estadual de Vila Velha, Ponta Grossa, Paraná, Brasil Abundância e riqueza das familias capturadas atraves de armadilhas de solo. Revista Brasileira de Zoologia, 20, 737744.
  • Martius, M., Höfer, H., Garcia, M.V.B., Römbke, J. & Hanagarth, H. (2004) Litter fall, litter stocks and decomposition rates in rainforest and agroforestry sites in central Amazonia. Nutrient Cycling in Agroecosystems, 68, 137154.
  • McCune, B. & Mefford, M.J. (1999) Multivariate Analyses of Ecological Data, version 4.01. MJM software, Gleneden Beach, Oregon.
  • Moeed, A. & Meads, M.J. (1985) Seasonality of pitfall trapped invertebrates in three types of native forest, Orongorongo Valley, New Zealand. New Zealand Journal of Zoology, 12, 1753.
  • Nadkarni, N.M. & Longino, T. (1990) Invertebrates in canopy and ground organic matter in a neotropical montane forest, Costa Rica. Biotropica, 22, 286289.
  • Nakamura, A., Caterall, C.P., Burwell, C.J., Kitching, R.L. & House, A.P.N. (2009) Effects of shading and mulch depth on the colonization of habitat patches by arthropods of rainforest soil and litter. Insect Conservation and Diversity, 2, 121131.
  • Nichols, E., Larsen, T., Spector, S., Davis, A.L., Escobar, F., Favila, M., Vulinec, K. & The Scarabaeinae Research Network (2007) Global dung beetle response to tropical forest modification and fragmentation: a quantitative literature review and meta-analysis. Biological Conservation, 137, 119.
  • Novotny, V. & Basset, Y. (2000) Rare species in communities of tropical insect herbivores: pondering the mystery of singletons. Oikos, 89, 564572.
  • Oliver, I. & Beattie, A.J. (1996) Designing a cost effective invertebrate survey: a test of methods for rapid biodiversity assessment. Ecological Application, 6, 594607.
  • Pawson, S.M., Brockerhoff, E.G., Meenken, E.D. & Didham, R.K. (2008) Non-native plantation forests as alternative habitat for native forest beetles in a heavily modified landscape. Biodiversity and Conservation, 17, 11271148.
  • Peel, M.C., Finlayson, B.L. & McMahon, T.A. (2007) Updated world map of the Köppen-Geiger climate classification. Hydrology and Earth System Sciences, 11, 163316.
  • Perz, S.G. & Skole, D.L. (2003) Secondary forest expansion in the Brazilian Amazon and the refinement of forest transition theory. Society and Natural Resources, 16, 277294.
  • Prendergast, J.R. (1997) Species richness covariance in higher taxa: empirical tests of the biodiversity indicator concept. Ecography, 20, 210216.
  • Ribeiro, M.C., Metzger, J.P., Martensen, A.C., Ponzoni, F.J. & Hirota, M.M. (2009) The Brazilian Atlantic Forest: how much is left, and how is the remaining forest distributed? Implications for conservation Biological Conservation, 142, 11411153.
  • Saint-Germain, M., Larrivee, M., Drapeau, P., Fahrig, L. & Buddle, C.M. (2005) Short-term response of ground beetles (Coleoptera: Carabidae) to fire and logging in a spruce-dominated boreal landscape. Forest Ecology and Management, 212, 118126.
  • Schulze, C.H., Waltert, M., Kessler, P.J.A., Pitopang, R., Shahabuddin, Veddeler, D., Mühlenberg, M., Gradstein, S.R., Leuschner, C., Steffan-Dewenter, I. & Tscharntke, T. (2004) Biodiversity indicator groups of tropical land-use systems: comparing plants, birds and insects. Ecological Application, 14, 13211333.
  • Silva, R.R., Machado Feitosa, R.S. & Eberhardt, F. (2007) Reduced ant diversity along a habitat regeneration gradient in the southern Brazilian Atlantic Forest. Forest Ecology and Management, 240, 6169.
  • Sodhi, N.S., Koh, L.P., Prawiradilaga, D.M.DarjonoTinulele, I.Putra, D.D. & Tan, T.H.T. (2005) Land use and conservation value for forest birds in Central Sulawesi (Indonesia). Biological Conservation, 122, 547558.
  • Spector, S. & Ayzama, S. (2003) Rapid turnover and edge effects in dung beetle assemblages (Scarabaeidae) at a Bolivian neotropical forest-savanna ecotone. Biotropica, 35, 394404.
  • Stork, N.E. & Grimbacher, P.S. (2006) Beetle assemblages from an Australian tropical rainforest show that the canopy and the ground strata contribute equally to biodiversity. Proceedings of the Royal Society of London, Series B, 273, 19691975.
  • Tews, J., Brose, U., Grimm, V., Tielbörger, K., Wichmann, M.C., Schwager, M. & Jeltsch, F. (2004) Animal species diversity driven by habitat heterogeneity/diversity: the importance of keystone structures. Journal of Biogeography, 31, 7992.
  • Uehara-Prado, M., Fernandes, J.O., Bello, A.M., Machado, G., Santos, A.J., Vaz-de-Melo, F.Z. & Freitas, A.V.L. (2009) Selecting terrestrial arthropods as indicators of small-scale disturbance: a first approach in the Brazilian Atlantic forest. Biological Conservation, 142, 12201228.
  • Uetz, G.W. (1976) Gradient analysis of spider communities in a streamside forest. Oecologia, 22, 373385.
  • Vessby, K. & Wiktelius, S. (2003) The influence of slope aspect and soil type on immigration and emergence of some northern temperate dung beetles. Pedobiologia, 47, 3951.
  • Wolters, V., Bengtsson, J. & Zaitsev, A.S. (2006) Relationship among the species richness of different taxa. Ecology, 87, 18861895.
  • Wright, S.J. (2005) Tropical forests in changing environment. Trends in Ecology and Evolution, 20, 553560.
  • Wright, S.J. & Muller-Landau, H.C. (2006a) The future of tropical forest species. Biotropica, 38, 287301.
  • Wright, S.J. & Muller-Landau, H.C. (2006b) The uncertain future of tropical forest species. Biotropica, 38, 443445.