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263 resources-
Muscarella, R., Emilio, T., Phillips, O. L., Lewis, S. L., Slik, F., Baker, W. J., Couvreur, T. L. P., Eiserhardt, W. L., Svenning, J.-C., Affum‐Baffoe, K., Aiba, S.-I., Almeida, E. C. de, Almeida, S. S. de, Oliveira, E. A. de, Álvarez‐Dávila, E., Alves, L. F., Alvez‐Valles, C. M., Carvalho, F. A., Guarin, F. A., … Balslev, H. (2020). The global abundance of tree palms. Global Ecology and Biogeography, 29(9), 1495–1514. https://doi.org/https://doi.org/10.1111/geb.13123
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Klein, B. C. (1989). The effects of forest fragmentation on dung and carrion beetle (Scarabaeinae) communities in Central Amazonia. Ecology, 70, 1715–1725.
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Vasconcelos, H. L., & Cherrett, J. M. (1996). The effect of wilting in the selection of leaves by the leaf-cutting and Atta laevigata. Entomologia Experimentalis et Applicata, 78(2), 215–220.
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Bruna, E. M., Vasconcelos, H., & Heredia, S. (2005). The effect of habitat fragmentation on communities of mutualists: Amazonian ants and their host plants. Biological Conservation, 124(2), 209–216.
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Bruna, E. M., & Ribeiro, M. B. N. (2005). The compensatory responses of an understory herb to experimental damage are habitat-dependent. American Journal of Botany, 92(12), 2101–2106.
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De Marco, P. (1998). The Amazonian campina Dragonfly assemblage: Patterns in microhabitat use and behaviour in a foraging habitat. Odonatologica, 27(2), 239–248.
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Quintero, I., & Halffter, G. (2009). Temporal changes in a community of dung beetles (Insecta: Coleoptera: Scarabaeinae) resulting from modification and fragmentation of tropical rain forest. Acta Zoologica Mexicana, 25(3), 625–649.
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Dáttilo, W., & Izzo, T. J. (2012). Temperature influence on species co-occurrence patterns in treefall gap and dense forest ant communities in a terra-firme forest of central amazon. Razil Sociobiology, 59(2), 351–367.
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Dátillo, W., Izzo, T. J., Vasconcelos, H. L., & Rico-Gray, V. (2013). Strength of the modular pattern in Amazonian symbiotic ant-plant networks. Arthropod Plant Interactions, 7, 455–461.
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Oliveira, M. L. (2001). Stingless bees (Meliponini) and Orchid bees (Euglossini) in terra firme tropical forests and forest fragments. In Lessons from Amazonia - The Ecology and Conservation of a Fragmented Forest (pp. 209–218). Yale University Press.
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Oliveira, M. L., & Morato, H. F. (2000). Stingless bees (Hymenoptera: Apidae) feeding on stinkhorns spores (Fungi: Phallales): robbery or dispersal? Revista Brasileira de Zoologia, 17(3), 881–884.
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Cassiano, S. R., & DeSouza, O. (2011). Spiders, ants and an Amazonian Myrmecophyte: a tale of trophic cascades. Sociobiology, 58(2), 403–418.
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Terra-Araujo, M. H., De Faria, A. D., Vicentini, A., Nylinder, S., & Swenson, U. (2015). Species tree phylogeny and biogeography of the Neotropical genus Pradosia (Sapotaceae, Chrysophylloideae). Molecular Phylogenetics and Evolution, 87, 1–13.
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Durgante, F. M., Higushi, N., Vicentini, A., & Almeida, A. (2013). Species Spectral Signature: Discriminating closely related plant species in the Amazon with Near-Infrared Leaf-Spectroscopy. Forest Ecology and Management, 291, 240–248.
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Mesquita, R. C. G., Workman, S. W., & Neely, C. L. (1998). Slow decomposition in a Cecropia dominated secondary forest of Central Amazonia. Soil Biology and Biochemistry, 30(2), 167–175.
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Fowler, H. G., Silva, C. A., & Venticinque, E. (1993). Size, taxonomic and biomass distributions of flying insects in central Amazonia: Forest edge vs. understory. Revista de Biologia Tropical, 41(3), 755–760.
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Aud, F. F., & Ferraz, I. D. K. (2012). Seed size influence on germination responses to light and temperature of seven pioneer tree species from the Central Amazon. Anais Da Academia Brasileira de Ciências, 84(3), 759–766.
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Wieland, L. M., Mesquita, R. C. G., Bobrowiec, P. E. D., Bentos, T. V., & Williamson, G. B. (2011). Seed rain and advance regeneration in secondary succession in the Brazilian Amazon. Tropical Conservation Science, 4(3), 300–316.
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Bruna, E. M. (1999). Seed germination in rainforest fragments. Nature, 402(6758), 139.
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Roeder, M., Ferraz, I. D. K., & Hölscher, D. (2013). Seed and germination characteristics of 20 amazonian liana species. Plants, 2, 1–15.
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