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October 26, 2010
American Museum of Natural History
A vast new amber deposit in India has yielded 100 fossil spiders, bees, and flies that date to the Early Eocene, or 52-50 million years ago. These arthropods are not unique -- as would be expected on an island (which India was at that time) -- but have close evolutionary relationships with fossils from the Americas, Europe, and Asia. The amber is also the oldest evidence of a tropical broadleaf rainforest in Asia.
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Credit: David Grimaldi/AMNH
A vast new amber deposit in India has yielded 100 fossil spiders, bees, and flies that date to the Early Eocene, or 52-50 million years ago. These arthropods are not unique -- as would be expected on an island (which India was at that time) -- but have close evolutionary relationships with fossils from the Americas, Europe, and Asia. The amber is also the oldest evidence of a tropical broadleaf rainforest in Asia.
Bees, termites, spiders, and flies entombed in a newly-excavated amber deposit are challenging the assumption that India was an isolated island-continent in the Early Eocene, or 52-50 million years ago. Arthropods found in the Cambay deposit from western India are not unique -- as would be expected on an island -- but rather have close evolutionary relationships with fossils from other continents. The amber is also the oldest evidence of a tropical broadleaf rainforest in Asia.
The discovery is published this week in Proceedings of the National Academy of Sciences.
"We know India was isolated, but when and for precisely how long is unclear," says David Grimaldi, curator in the Division of Invertebrate Zoology at the American Museum of Natural History. "The biological evidence in the amber deposit shows that there was some biotic connection."
"The amber shows, similar to an old photo, what life looked like in India just before the collision with the Asian continent," says Jes Rust, professor of Invertebrate Paleontology at the Universität Bonn in Germany. "The insects trapped in the fossil resin cast a new light on the history of the sub-continent."
Amber from broadleaf trees is rare in the fossil record until the Tertiary, or after the dinosaurs went extinct. It was during this era that flowering plants rather than conifers began to dominate forests and developed the ecosystem that still straddles the equator today. The new amber, and amber from Colombia that is 10 million years older, indicates that tropical forests are older than previously thought.
In the research paper, Grimaldi, Rust, and colleagues describe the Cambay amber as the oldest evidence of tropical forests in Asia. The amber has been chemically linked to Dipterocarpaceae, a family of hardwood trees that currently makes up 80 percent of the forest canopy in Southeast Asia. Fossilized wood from this family was found as well, making this deposit the earliest record of these plants in India and showing that this family is nearly twice as old as was commonly believed. It most likely originated when portions of the southern supercontinent Gondwana were still connected.
Also reported in the paper are 100 arthropod species that represent 55 families and 14 orders. Some of these species are early relatives of highly social, or eusocial, insects like honey bees and stingless bees, rhinotermitid termites, and ants, suggesting that these groups radiated during or just prior to the early Eocene. And many of the Cambay fossils have relatives on other continents -- although not where it would be expected. Rather than finding evolutionary ties to Africa and Madagascar, landmasses that India had most recently been linked to as part of Gondwana, the researchers found relatives in Northern Europe, Asia, Australia, and the Americas.
"What we found indicates that India was not completely isolated, even though the Cambay deposit dates from a time that precedes the slamming of India into Asia," says Michael Engel, a professor in the Department of Ecology and Evolutionary Biology and curator of entomology at the University of Kansas. "There might have been some linkages."
Climate might have also played a role in the fauna found in the Cambay amber. The Early Eocene was a time of great climatic warmth: the tropics reached the poles. The researchers predict that the climate would have had an effect on the distribution of arthropods.
"The Cambay Formation spans a period of great warmth which led to a profusion of tropical groups spread around the world," says Grimaldi. "The diversity and evolutionary relationships in the Cambay deposit show how profound an effect climate has on groups."
In addition to Grimaldi, Rust, and Engel, authors include Tom McCann, Frauke Gerdes, and Monica Solórzano-Kraemer of the Universität Bonn in Germany; Hukam Singh of Birbal Sahni Institute of Palaeobotany in India; Rajendra S. Rana and Lacham Singh of H.N.B. Garhwal University in India; Ken Anderson of Southern Illinois University in Carbondale; Nivedita Sarkar and Ashok Sahni of the University of Lucknow in India; Paul C. Nascimbene of the American Museum of Natural History; Jennifer C. Thomas of the University of Kansas; and Christopher J. Williams of Franklin and Marshall College in Pennsylvania. The research was funded in part by several organizations: American Museum of Natural History, U.S. National Science Foundation, National Geographic Society, and DFG (German Research Foundation).
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Materials provided by American Museum of Natural History. Note: Content may be edited for style and length.
Journal Reference:
- Jes Rust, Hukam Singh, Rajendra S. Rana, Tom Mccann, Lacham Singh, Ken Anderson, Nivedita Sarkar, Paul C. Nascimbene, Frauke Stebner, Jennifer C. Thomas, Monica Solórzano Kraemer, Christopher J. Williams, Michael S. Engel, Ashok Sahni, and David Grimaldi. Biogeographic and evolutionary implications of a diverse paleobiota in amber from the early Eocene of India. PNAS, October 25, 2010 DOI: 10.1073/pnas.1007407107
Cite This Page:
American Museum of Natural History. "Vast amber deposit from India: New trove of fossils suggests global distribution of tropical forest ecosystems in the Eocene." ScienceDaily. ScienceDaily, 26 October 2010. <www.sciencedaily.com/releases/2010/10/101025152256.htm>.
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