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Earliest Evidence for Animals


Researchers Find Earliest Evidence for Animal Life

Discovered fossil animal steroids date back to more than 635 million years ago, says UC Riverside’s Gordon Love

(February 4, 2009)

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Sponges are one of the simplest forms of multicellular animals.  Image credit: Love lab, UC Riverside.Enlarge

Sponges are one of the simplest forms of multicellular animals. Image credit: Love lab, UC Riverside.

RIVERSIDE, Calif. – An international team of scientists from UC Riverside, the Massachusetts Institute of Technology and other institutions has found the oldest evidence for animals in the fossil record.

The researchers examined sedimentary rocks in south Oman, and found an anomalously high amount of distinctive steroids that date back to 635 million years ago, to around the end of the last immense ice age. The steroids are produced by sponges – one of the simplest forms of multicellular animals.

The researchers argue that the discovery of the sponges is evidence for multicellular animal life beginning 100 million years before the Cambrian explosion, a well-studied and unique episode in Earth history that began about 530 million years ago when, as indicated by the fossil record, animal life diversified rapidly.

The discovery can help scientists reconstruct Earth’s early ecosystems and explain how animal life may have first evolved on the planet.

“Our findings suggest that the evolution of multicellular animals began earlier than has been thought,” said Gordon Love, an assistant professor of Earth sciences, who led the research group. Love began working on the project while he was a postdoctoral researcher at MIT. “Moreover, sponges live on the seafloor, growing initially in shallow waters and spreading, over time, into deeper waters, implying the existence of oceanic environments which contained dissolved oxygen near the shallow seafloor around 635 million years ago.”

Study results appear in the Feb. 5 issue of Nature.

According to Love, the climatic shock of the extensive glacial episodes of the Neoproterozoic era (1000-542 million years ago) likely caused a major reorganization of marine ecosystems, perhaps by irrevocably altering ocean chemistry.

“This paved the way for the evolution of animal feeders living on the seafloor,” he said. “We believe we are converging on the correct date for the divergence of complex multicellular animal life, on the shallow ocean floor between 635 and 750 million years ago.”

The steroids that Love and his colleagues observed in the Omani rocks are essential biochemicals present in the cell membranes of the sponges, and help provide the membranes with structural support. The sponges are a few millimeters in size, immobile, and were filter feeders existing on the seafloor.

The sponge findings emerged from a project Love was working on at MIT (with Roger Summons, a professor of geobiology) in collaboration with Petroleum Development Oman. Using state-of–the-art techniques, he and his colleagues analyzed 64 Neoproterozoic-Cambrian sedimentary rock samples from the South Oman Salt Basin (SOSB), a region known for some of the best preserved rocks in the world. The researchers also established a robust stratigraphic and temporal framework for the SOSB rocks as part of their analysis.

Next, Love and his colleagues plan to screen other Neoproterozoic sedimentary rocks for animal steroids just before and through the Sturtian and Marinoan glaciations, the greatest ice ages known to have occurred on Earth during 850 to 635 million years ago.

“We aim to investigate the environmental context by which multicellular animal life became viable and flourished,” he said.

Love obtained his Ph.D. in chemistry from the University of Strathclyde (Scotland). He was a recipient of the prestigious Natural Environment Research Council Postdoctoral Fellowship to carry out organic geochemical research at the University of Newcastle (England). He joined UCR’s Department of Earth Sciences in January 2007 after his postdoctoral appointment at the Massachusetts Institute of Technology.

Love has co-authored 50 research papers in international peer-reviewed scientific journals on petroleum geochemistry, geobiology, cosmochemistry, solid state nuclear magnetic resonance (NMR) spectroscopy and analytical chemistry.

Besides researchers at MIT, Love was joined in the study by colleagues at Geoscience Australia; the University of Newcastle upon Tyne, United Kingdom; the California Institute of Technology; and the University of Nottingham, United Kingdom.

The four-year study was funded by Petroleum Development Oman; the NASA Exobiology Program; the National Science Foundation Division of Earth Sciences; the Agouron Institute; and the NASA Astrobiology Institute.
Gordon Love is an assistant professor in the Department of Earth Sciences at UC Riverside.  Image credit: Love lab, UC Riverside.Enlarge

Gordon Love is an assistant professor in the Department of Earth Sciences at UC Riverside. Image credit: Love lab, UC Riverside.

UC Riverside's Gordon Love examining rock strata in northern Oman. Image credit: David Fike, Caltech.Enlarge

UC Riverside's Gordon Love examining rock strata in northern Oman. Image credit: David Fike, Caltech.

Boxes of sediment core laid out in the core shed at Petroleum Development Oman headquarters.  Total drillcore is cut into pieces of a few meters length, archived, covered and stored for later sampling. Image credit: David Fike, Caltech.<br />
Enlarge

Boxes of sediment core laid out in the core shed at Petroleum Development Oman headquarters. Total drillcore is cut into pieces of a few meters length, archived, covered and stored for later sampling. Image credit: David Fike, Caltech.

The University of California, Riverside (www.ucr.edu) is a doctoral research university, a living laboratory for groundbreaking exploration of issues critical to Inland Southern California, the state and communities around the world. Reflecting California's diverse culture, UCR's enrollment has exceeded 21,000 students. The campus opened a medical school in 2013 and has reached the heart of the Coachella Valley by way of the UCR Palm Desert Center. The campus has an annual statewide economic impact of more than $1 billion.

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