December 13, 2012
The canopy raft in position for arthropod collection at San Lorenzo. Image courtesy of Roger Le Guen, Laboratory Copyright: Panacoco
The study, published in the journal Science, involved more than 100 scientists from 21 countries. The researchers collected nearly 130,000 arthropods using a variety of methods between 2003 and 2004, then spent the next eight years sorting and indetifying them. Overall the team found 6,144 arthropod species in the 0.48-hectare research plot. Extrapolating to the entire 6,000-hectare San Lorenzo forest, the researchers estimate the forest contains 25,000 species of arthropods.
Sample of Panama's forest arthropod biodiversity. Photos by Rhett A. Butler
Dawn Frame and Alexey Tishechkin in the crane gondola netting insects attracted to flowers of Nectandra purpurascens. Image courtesy of Jürgen Schmidl, Laboratory Copyright: University of Erlangen
The findings may have implications for estimating the biodiversity of tropical forests, according to Tomas Roslin from the University of Helsinki, one of 35 co-authors of the study.
"[This] means that to determine the species diversity of a tropical rainforest, we need not sample gigantic areas: a total of one hectare may suffice to get an idea of regional arthropod richness – provided that this total includes widely spaced plots representative of variation within the forest," he said in a statement.
But Terry Erwin, an entomologist at the Smithsonian Institution's National Museum of Natural History, cautioned about using the number of arthropods at a site in Panama to come up with global biodiversity estimates.
"This study is exciting because they've taken a large team of people and used every technique available," Erwin told Science NOW. "But to take a little sample from one place and scale up, it's been critiqued and critiqued and it just doesn't work."
Erwin wasn't involved in the study, but published a seminal paper in 1982, where he estimated the world's forests contained 30 million insect species based on "fogging" an area of Panamanian rainforest with insecticide. His estimate was later undercut by University of Melbourne biologist Andrew Hamilton, who used a similar collection approach in New Guinea, but found substantially lower insect diversity. Hamilton put the global number of insects at 6 million.
However the study may have broader implications for forest ecology and conservation, according to the authors.
"Another exciting finding was that the diversity of both herbivorous and non-herbivorous arthropods could be accurately predicted from the diversity of plants", said Basset, adding that the research "implies that for every species of vascular plant, bird or mammal in this forest, you will find 20, 83 and 312 species of arthropods, respectively."
Jürgen Schmidl fogging in the forest understory at San Lorenzo. Image courtesy of Roger Le Guen, Laboratory Copyright: Panacoco
In terms of conservation efforts, Roslin said that focusing on "floristically diverse sites" would protect the most number of arthropods.
"If we are interested in conserving the diversity of life on Earth, we should start thinking about how best to conserve arthropods," he said.
Citation: Basset, Y., Cizek, L., Cuénoud, P., Didham, R.K, Guilhaumon, F., Missa, O., Novotny, V., Ødegaard, F., Roslin, T., Schmidl, J., Tishechkin, A.K., Winchester, N.N., Roubik, D.W., Aberlenc, H-P., Barrios, H., Bridle, J.R., Castaño-Meneses, G., Corbara, B., Curletti, G., Duarte da Rocha, W., De Bakker, D., Delabie, J.H.C., Dejean, A., Fagan, L.L., Floren, A., A., Kitching, R.L., Medianero, E., Miller, S.E., Gama de Oliveira, E., Orivel, J., Pollet, M., Rapp, M., Ribeiro, S.P., Roisin, Y., Schmidt, J.B., Sørensen, L., Leponce, M. 2012. Arthropod Diversity in a Tropical Forest. Science.
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