EAST LANSING, Mich. — The long-held belief that plant-eating insects in tropical forests are picky eaters that stay “close to home” – dining only on locale-specific vegetation – is being challenged by new research findings that suggest these insects feast on a broader menu of foliage and can be consistently found across hundreds of miles of tropical forestland.
These findings have significant implications related to the sustainability and conservation of these globally-important areas.
Michigan State University scientist Anthony Cognato and graduate student Jiri Hulcr were part of an international team that conducted this groundbreaking research, the results of which are described in the Aug.ust 9 online issue of the journal Nature. The group included scientists from Australia, the Czech Republic, the United Kingdom, New Guinea and the United States.
“Tropical rain forests are home to a rich diversity of plants, birds, insects and other animals,” said Hulcr, an entomology PhD doctoral student working with Cognato and co-author of the report. “They also play an important role in our global climate and provide aesthetic, recreational and medicinal benefits. For these reasons and others, it is critical that we understand how these forests generate and sustain their diversity and what we can do to help conserve them.”
The study included approximately 500 species of caterpillars, beetles and fruitfliesfruit flies from common plant-eating families and 175 species from four diverse plant groups across 28,950 square miles of contiguous lowland rain forest in Paupua, New Guinea.
Cognato and Hulcr were key collaborators on the project because of their expertise related to the biology and ecology of the bark and ambrosia beetle family, a model group of insects compoprised of 6,000 species worldwide, and one common to tropical rain forests.
“What we found was that the composition of the community of beetles does not change with distance as long as the environment is stable,” Cognato said. “Even communities hundreds of miles apart are the same. And if there are differences, they seem to be random and not caused by any environmental change.”
Study findings were similar for the butterfly and fruit fly species examined in the study.
“Such knowledge is critical to understanding the roles of ecological processes in maintaining tropical diversity, predicting species extinction and designing the systems of protected natural areas,” Hulcr said. “Because diversity doesn’t necessarily increase with distance, but animals in small reserves
tend to go extinct, you should plan for one large area instead of having a lot of small and distant areas to manage and conserve.”
Cognato and Hulcr expect similar patterns in other tropical lowland rain forests, as they are typically situated in the extensive low basins of major rivers comparable to the study area in New Guinea. They are currently conducting research in other areas of the tropics – including Borneo, Ecuador, Guyana, Ghana and Thailand – to confirm the New Guinea findings.
“If we want the stability of these forests, especially given how much they are threatened now, we need to understand how to best set up conservation areas,” said Cognato said. “And it’s not just about the flashy species; it’s about the whole thing.”
“This and additional research will allow conservation managers and policy makers to base decisions on data rather than on theory so that we can preserve as much diversity as possible,” Hulcr said. “We are excited to be part of the ongoing, international effort to add to the extensive data necessary for the understanding, analysis and conservation of complex tropical forest ecosystems.”
Cognato and Hulcr’s work was funded by the National Science Foundation, National Geographic Society and MSU’s Michigan Agricultural Experiement Station.
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