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Responses of leaf-litter ant communities to tropical forest wildfires vary with season

Published online by Cambridge University Press:  29 August 2012

Juliana M. Silveira*
Affiliation:
Universidade Federal de Lavras – UFLA, Caixa Postal 3037, Cep: 37200-000, Lavras, Minas Gerais, Brasil
Jos Barlow
Affiliation:
Lancaster Environment Centre, Lancaster University, Lancaster LA1 4YQ, UK
Rafael B. Andrade
Affiliation:
South Dakota State University, Brookings-SD 57007, USA
Luiz A. M. Mestre
Affiliation:
South Dakota State University, Brookings-SD 57007, USA Universidade Federal do Paraná, Palotina-PR 85950-000, Brazil
Sébastien Lacau
Affiliation:
Universidade Estadual do Sudoeste da Bahia, Itapetinga-BA, 45700-000, Brazil
Mark A. Cochrane
Affiliation:
South Dakota State University, Brookings-SD 57007, USA
*
1Corresponding author. Email: [email protected]

Extract

Fire is an important land-management tool in tropical forest landscapes. However, these fires sometimes escape into surrounding forests (Uhl & Buschbacker 1985), and are one of the most severe disturbances threatening tropical forest biodiversity (Barlow et al 2006). These forest fires have become more frequent over the last decades due to the combined effect of selective logging, fragmentation and abnormal droughts that increase the flammability of forests, and agriculture expansion that brings the ignition sources (Aragão & Shimabukuro 2010).

Type
Short Communication
Copyright
Copyright © Cambridge University Press 2012

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References

LITERATURE CITED

AKUTSO, K., CHEY, V. K. & TODA, M. J. 2007. Assessment of higher insect taxa as bioindicators for different logging-disturbance regimes in lowland tropical rain forest in Sabah, Malaysia. Ecological Research 22:542550.Google Scholar
ARAGÃO, L. E. O. C. & SHIMABUKURO, Y. E. 2010. The incidence of fire in Amazonian forests with implications for REDD. Science 328:12751278.Google Scholar
BALCH, J. K., NEPSTAD, D., BRANDO, P. M., CURRAN, L. M., PORTELA, O. F., DE CARVALHO, O. & LEFEBVRE, P. 2008. A negative fire feedback in a transitional forest of southeastern Amazonia. Global Change Biology 14:112.Google Scholar
BARLOW, J. & SILVEIRA, J. M. 2009. The consequences of fire for the fauna of humid tropical forests. Pp. 543556 in Cochrane, M. A. (ed.). Tropical fire ecology – climate change, land use and ecosystem dynamics. Springer, Berlin.Google Scholar
BARLOW, J., PERES, C. A., HENRIQUES, L. M. P., STOUFFER, P. C. & WUNDERLE, J. M. 2006. The responses of understorey birds to forest fragmentation, logging and wildfires: an Amazonian synthesis. Biological Conservation 128:182192.Google Scholar
BARLOW, J., OVERAL, W. L., ARAÚJO, I. S., GARDNER, T. A. & PERES, C. A. 2007. The value of primary, secondary and plantation forests for fruit-feeding butterflies in the Brazilian Amazon. Journal of Applied Ecology 44:13652664.Google Scholar
CASTAÑO-MENESES, G. & PALACIOS-VARGAS, J. G. 2003. Effects of fire and agricultural practices on neotropical ant communities. Biodiversity and Conservation 12:19131919.Google Scholar
DEBLAUWE, I. & DEKONINCK, W. 2007. Diversity and distribution of ground-dwelling ants in a lowland rainforest in southeast Cameroon. Insect Sociaux 54:334342.Google Scholar
HAMER, K. C. & Hill, J. K. 2000. Scale-dependent effects of habitat disturbance on species-richness in tropical forests. Conservation Biology 14:14351440.Google Scholar
HAMER, K. C., Hill, J. K., MUSTAFFA, N., BENEDICK, S., SHERRATT, T. N., CHEY, V. K. & MARYATI, M. 2005. Temporal variation in abundance and diversity of butterflies in Bornean rain forests: opposite impacts of logging recorded in different seasons. Journal of Tropical Ecology 21:417425.Google Scholar
HERNÁNDEZ-RUIZ, P. & CASTAÑO-MENESES, G. 2006. Ants (Hymenoptera Formicidae) diversity agricultural ecosystems at Mezquita Valley, Hidalgo, Mexico. European Journal of Soil Biology 42:208212.Google Scholar
HILL, J. K., HAMER, , , K. C., DAWOOD, M. M., TANGAH, J. & CHEY, V. K. 2003. Rainfall but not selective logging affect changes in abundance of a tropical forest butterfly in Sabah, Borneo. Journal of Tropical Ecology 19:3542.Google Scholar
NEVES, F. S., BRAGA, R. F., DO ESPÍRITO-SANTO, M. M., DELABIE, J. H. C., FERNANDES, G. W. & SÁNCHEZ-AZOFEITA, G. A. 2010. Diversity of arboreal ants in a Brazilian tropical dry forest: effects of seasonality and successional stages. Sociobiology 56:177194.Google Scholar
SILVEIRA, J. M., BARLOW, J., LOUZADA, J. & MOUTINHO, P. 2010. Factors affecting the abundance of leaf-litter arthropods in unburned and thrice-burned seasonally-dry Amazon forests. Plos One 5:e12877. http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0012877Google Scholar
UHL, C. & BUSCHBACHER, R. 1985. A disturbing synergism between cattle ranch, burning practices and selective tree harvesting in the eastern Amazon. Biotropica 17:265268.Google Scholar
VASCONCELOS, H. L., LEITE, M. F., VILHENA, J. M. S., LIMA, A. P. & MAGNUSSON, W. E. 2008. Ant diversity in an Amazonian savanna: relationship with vegetation structure, disturbance by fire and dominant ants. Austral Ecology 33:221231.Google Scholar
VASCONCELOS, H. L., PACHECO, R., SILVA, R. C., VASCONCELOS, P. B., LOPES, C. T., COSTA, A. N. & BRUNA, E. N. 2009. Dynamics of the leaf-litter arthropod fauna following fire in a Neotropical woodland savanna. Plos One 4:e7762. http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0007762Google Scholar