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Leaf-cutting ants proliferate in the Amazon: an expected response to forest edge?

Published online by Cambridge University Press:  30 September 2011

Christoph Dohm
Affiliation:
Plant Ecology & Systematics, University of Kaiserslautern, P.O. Box 3049, 67663 Kaiserslautern, Germany
Inara R. Leal
Affiliation:
Departamento de Botânica, Universidade Federal de Pernambuco, Av. Prof. Moraes Rego s/no, 50670-901 Recife, PE, Brazil
Marcello Tabarelli
Affiliation:
Departamento de Botânica, Universidade Federal de Pernambuco, Av. Prof. Moraes Rego s/no, 50670-901 Recife, PE, Brazil
Sebastian T. Meyer
Affiliation:
Plant Ecology & Systematics, University of Kaiserslautern, P.O. Box 3049, 67663 Kaiserslautern, Germany Institute of Ecology, Friedrich-Schiller-University, Dornburger Str. 159, 07743 Jena, Germany
Rainer Wirth*
Affiliation:
Plant Ecology & Systematics, University of Kaiserslautern, P.O. Box 3049, 67663 Kaiserslautern, Germany
*
1Corresponding author. Email: [email protected]

Extract

Habitat fragmentation is gradually altering tropical forests all around the globe (Wright 2005), as human populations convert large blocks of pristine forest habitats into permanently fragmented or human-modified landscapes (Tabarelli et al. 2004). Fragmentation processes apparently create opportunities for small sets of species, which proliferate across modified landscapes, while others are driven to extinction or remain as minimal populations (Tabarelli et al. 2010). This ‘winners vs. losers paradigm’ (sensu McKinney & Lockwood 1999) probably describes one of the most conspicuous rearrangements of tropical biotas in response to human disturbances (in addition to biomass collapse), with unanticipated consequences for ecosystem functioning and long-term biodiversity persistence (Lôbo et al. 2011). Despite such appeal, the ecological identity of proliferating organisms and the mechanisms underlying their high abundance levels remains poorly appreciated.

Type
Short Communication
Copyright
Copyright © Cambridge University Press 2011

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References

LITERATURE CITED

ALMEIDA, W., WIRTH, R. & LEAL, I. R. 2008. Edge-mediated reduction of phorid parasitism on leaf-cutting ants in a Brazilian Atlantic forest. Entomologia Experimentalis et Applicata 129:251257.CrossRefGoogle Scholar
BIEBER, A. G. D., OLIVERIA, M. A., WIRTH, R., TABARELLI, M. & LEAL, I. R. 2011. Do abandoned nests of leaf-cutting ants enhance plant recruitment in the Atlantic forest? Austral Ecology 36:220232.CrossRefGoogle Scholar
CORRÊA, M. M., SILVA, P. S. D., WIRTH, R., TABARELLI, M. & LEAL, I. R. 2010. How leaf-cutting ants impact forests: drastic nest effects on light environment and plant assemblages. Oecologia 162:103115.CrossRefGoogle ScholarPubMed
FARJI-BRENER, A. G. 2001. Why are leaf-cutting ants more common in early secondary forests than in old-growth tropical forests? An evaluation of the palatable forage hypothesis. Oikos 92:169177.CrossRefGoogle Scholar
FARJI-BRENER, A. G. & ILLES, A. E. 2000. Do leaf-cutting ant nests make ‘bottom-up’ gaps in neotropical rain forests? A critical review of the evidence. Ecology Letters 3:219227.CrossRefGoogle Scholar
JAFFE, K. & VILELA, E. 1989. On nest densities of the leaf-cutting ant Atta cephalotes in tropical primary rainforest. Biotropica 21:234236.CrossRefGoogle Scholar
LAURANCE, W. F., LOVEJOY, T. E., VASCONCELOS, H. L., BRUNA, E. M., DIDHAM, R. K., STOUFFER, P. C., GASCON, C., BIERREGAARD, R. O., LAURANCE, S. L. & SAMPAIO, E. 2002. Ecosystem decay of Amazonian forest fragments: a 22-year investigation. Conservation Biology 16:605618.CrossRefGoogle Scholar
LÔBO, D., LEÃO, T., MELO, F. P. L., SANTOS, A. M. M. & TABARELLI, M. 2011. Forest fragmentation drives Atlantic forest of northeastern Brazil to biotic homogenization. Diversity and Distributions 17:287296.CrossRefGoogle Scholar
MCKINNEY, M. L. & LOCKWOOD, J. L. 1999. Biotic homogenization: a few winners replacing many losers in the next mass extinction. Trends in Ecology and Evolution 14:450453.CrossRefGoogle ScholarPubMed
MEYER, S. T., LEAL, I. R. & WIRTH, R. 2009. Persisting hyper-abundance of leaf-cutting ants (Atta spp.) at the edge of an old Atlantic forest fragment. Biotropica 41:711716.CrossRefGoogle Scholar
MEYER, S. T., LEAL, I. R., TABARELLI, M. & WIRTH, R. 2011. Ecosystem engineering by leaf-cutting ants: nests of Atta cephalotes drastically alter forest structure and microclimate. Ecological Entomology 36:1424.CrossRefGoogle Scholar
SANTOS, B. A., PERES, C. A., OLIVEIRA, M. A., GRILLO, A., ALVES-COSTA, C. P. & TABARELLI, M. 2008. Drastic erosion in functional attributes of tree assemblages in Atlantic forest fragments of northeastern Brazil. Biological Conservation 141:249260.CrossRefGoogle Scholar
SILVA, J. M. C. & TABARELLI, M. 2000. Tree species impoverishment and the future flora of the Atlantic forest of northeast Brazil. Nature 404:7274.CrossRefGoogle Scholar
STOUFFER, P. C. & BORGES, S. H. 2001. Conserving recommendation for understory birds in Amazonian forest fragments and second-growth areas. Pp. 248261 in Bierregaard, R. O., Gascon, C., Lovejoy, T. E. & Mesquita, R. C. G. (eds.). Lessons from Amazonia. Yale University Press, New Haven.Google Scholar
TABARELLI, M., SILVA, J. M. C. & GASCON, C. 2004. Forest fragmentation, synergisms and the impoverishment of Neotropical Forests. Biodiversity and Conservation 13:14191425.CrossRefGoogle Scholar
TABARELLI, M., AGUIAR, A. V., RIBEIRO, M. C., METZGER, J. P. & PERES, C. A. 2010. Prospects for biodiversity conservation in the Atlantic Forest: lessons from aging human-modified landscapes. Biological Conservation 143:23282340.CrossRefGoogle Scholar
TERBORGH, J., LOPEZ, L., NUNEZ, V. P., RAO, M., SHAHABUDDIN, G., ORIHUELA, G., RIVEROS, M., ASCANIO, R., ADLER, G. H., LAMBERT, T. D. & BALBAS, L. 2001. Ecological meltdown in predator-free forest fragments. Science 294;19231926.CrossRefGoogle ScholarPubMed
URBAS, P., ARAÚJO, M. V., LEAL, I. R. & WIRTH, R. 2007. Cutting more from cut forests – edge effects on foraging and herbivory of leaf-cutting ants. Biotropica 39:489495.CrossRefGoogle Scholar
VASCONCELOS, H. L. 1990. Habitat selection by the queens of the leaf-cutting ant Atta sexdens L. in Brazil. Journal of Tropical Ecology 6:249252.CrossRefGoogle Scholar
VASCONCELOS, H. L. & CHERRETT, J. M. 1995. Changes in leaf-cutting ant populations (Formicidae: Attini) after the clearing of mature forest in Brazilian Amazonia. Studies on Neotropical Fauna and Environment 30:107113.CrossRefGoogle Scholar
VASCONCELOS, H. L., VIEIRA-NETO, E. H. M., MUNDIM, F. M. & BRUNA, E. M. 2006. Roads alter the colonization dynamics of a keystone herbivore in Neotropical savannas. Biotropica 38:661666.CrossRefGoogle Scholar
WIRTH, R., BEYSCHLAG, W., RYEL, R., HERZ, H. & HÖLLDOBLER, B. 2003. The herbivory of leaf-cutting ants. A case study on Atta colombica in the tropical rainforest of Panama. Springer Verlag, Berlin. 230 pp.Google Scholar
WIRTH, R., MEYER, S. T., ALMEIDA, W. R., ARAUJO, M. V., BARBOSA, V. S. & LEAL, I. R. 2007. Increasing densities of leaf-cutting ants (Atta spp.) with proximity to the edge in a Brazilian Atlantic forest. Journal of Tropical Ecology 23:501505.CrossRefGoogle Scholar
WIRTH, R., MEYER, S. T., LEAL, I. R. & TABARELLI, M. 2008. Plant–herbivore interactions at the forest edge. Progress in Botany 68:423448.CrossRefGoogle Scholar
WRIGHT, S. J. 2005. Tropical forests in a changing environment. Trends in Ecology and Evolution 20:553560.CrossRefGoogle Scholar
ZUUR, A. F., IENO, E. N., WALKER, N., SAVELIEV, A. A. & SMITH, G. M. 2009. Mixed effects models and extensions in ecology with R. Springer, New York. 574 pp.CrossRefGoogle Scholar