Tag: Huffington Department of Earth Sciences

Ethiopia 27 million years ago had higher rainfall, warmer soil

Post author By Margaret Allen
Post date October 22, 2009

Thirty million years ago, before Ethiopia’s mountainous highlands split and the Great Rift Valley formed, the tropical zone had warmer soil temperatures, higher rainfall and different atmospheric circulation patterns than it does today, according to new research of fossil soils found in the central African nation.

Neil J. Tabor, associate professor of Earth Sciences at SMU and an expert in sedimentology and isotope geochemistry, calculated past climate using oxygen and hydrogen isotopes in minerals from fossil soils discovered in the highlands of northwest Ethiopia. The highlands represent the bulk of the mountains on the African continent.

Tabor’s research supplies a picture of the paleo landscape of Ethiopia that wasn’t previously known because the fossil record for the tropics has not been well established. The fossils were discovered in the grass-covered agricultural region known as Chilga, which was a forest in prehistoric times. Tabor’s research looked at soil fossils dating from 26.7 million to 32 million years ago.

Fossil plants and vertebrates in the Chilga Beds date from 26.7 million to 28.1 million years ago, Tabor says. From his examination, Tabor determined there was a lower and older layer of coal and underclay that was a poorly drained, swampy landscape dissected by well-drained Oxisol-forming uplands. A younger upper layer of the Chilga Beds consists of mudstones and sandstones in what was an open landscape dominated by braided, meandering fluvial stream systems.

Tabor is part of a multi-disciplinary team combining independent lines of evidence from various fossil and geochemical sources to reconstruct the prehistoric climate, landscape and ecosystems of Ethiopia, as well as Africa.

The project is funded with a three-year, $322,000 grant from the National Science Foundation. The team includes paleoanthropologists, paleobotanists and vertebrate paleontologists from the University of Texas at Austin, Miami University, Southern Methodist University, the Fort Worth Museum of Science and History, Washington University and the University of Michigan.

Tabor presented the research in a topical session at the Oct. 18-21 annual meeting of the Geological Society of America. The presentation was titled “Paleoenvironments of Upper Oligocene Strata, NW Ethiopian Plateau.” His co-researcher is John W. Kappelman, Department of Anthropology, University of Texas. — Margaret Allen

Tags Dedman College, Huffington Department of Earth Sciences, Neil Tabor

Earth & Climate Fossils & Ruins Plants & Animals Researcher news

Ethiopian fossils define prehistoric ecosystems, human evolution, climate change

Post author By Margaret Allen
Post date October 5, 2009

Leaf3%2Clr.jpg For paleobotanist Bonnie Jacobs standing atop a mountain in the highlands of northwest Ethiopia, it’s as if she can see forever — or at least as far back as 30 million years ago.

Jacobs is part of an international team of researchers hunting scientific clues to Africa’s prehistoric ecosystems.

The researchers are among the first to combine independent lines of evidence from various fossil and geochemical sources to reconstruct the prehistoric climate, landscape and ecosystems of Ethiopia in particular, and tropical Africa in general for the time interval from 65 million years ago — when dinosaurs went extinct, to about 8 million years ago — when apes split from humans.

Paleobotanist Bonnie Jacobs in Ethiopia.

While it’s generally held that human life began in Africa, ironically there is little known about changes in the continent’s vegetation during the time when humans were evolving.

The team’s work also will help climate scientists trying to model future global warming by providing data from the tropics that up to now did not exist.

The multi-disciplinary team is studying fossils they’ve found near Chilga, a small region in the agricultural highlands.

Contrary to the common notion that vegetation decomposes in the tropics too quickly to supply evidence, sediments there have preserved an abundant variety of 28 million-year-old fossils. These include fruits, seeds, leaves, woods, pollen and spores, says Jacobs, an associate professor of Earth Sciences at Southern Methodist University and director of the Environmental Science and Studies Programs.

“There are lifetimes of work to be done in Africa on plant fossils alone, and certainly a lot more to be done with vertebrates as well,” says Jacobs, who’s done research in Africa since 1980 in Kenya, Tanzania and Ethiopia. “There’s not a well established record of plant fossils, so there’s no real context. It’s all new — so whatever you find is interesting.”

With the permission of the Ethiopian government, Jacobs — along with Ellen Currano, in the Department of Geology at Miami University, and paleobotanist Aaron Pan, curator of science at the Fort Worth Museum of Science and History — is now studying more than 1,600 fossil leaves the team gathered from two age-equivalent sites to understand climate, precipitation, vegetation and the physical landscape.

Jacobs is calculating precipitation and temperature estimates for the two Ethiopian sites using leaf traits for size and shape. While the rainfall estimates are statistically identical, the temperature estimates are not, an informative reflection of the method itself.

Pan has identified palm fossils, which help to address a big question about the timeframe for a decline in the presence of palm trees in Africa. He’s also calculating past climate using species composition of fossil leaves, fruit and flowers.

Morediggers%2Clr.jpg Currano is looking at insect damage on fossil leaves, to see if the insect fauna is as diverse and as specialized as expected for tropical forests. Neil Tabor, associate professor of Earth Sciences at SMU and an expert in sedimentology and isotope geochemistry, is calculating past climate using oxygen isotopes in minerals from fossil soils.

“We’re using multiple independent lines of evidence to get at climate reconstruction during this time interval for a place — the tropics of Africa — for which there were few data before,” Jacobs says. “The lower latitudes are especially poorly documented for fossils, which tell us about climate, so the tropical regions of Earth are poorly documented for past climate as well.”

The project is funded with a three-year, $322,000 grant from the National Science Foundation. Paleoanthropologists and vertebrate paleontologists from UT Austin, Washington University and the University of Michigan have studied the fossil bones that co-occur with the plants.

Questions they will address:

When and how did Africa’s rain forests evolve into the present day savannas and how did that impact human evolution?
What happened to the prehistoric lowland forest that’s been hypothesized across Africa in the tropical belt?
When did the Great Rift Valley’s formation divide the forest into eastern and western components, and how did the process evolve?
Why is there evidence of a large diversity of palm trees at 33 million years ago in Africa, but certain species are missing by 28 million years ago?
Why were palm trees abundant and diverse 100 million years ago in Africa and South America, but now rare in present-day Africa, while still prolific in the tropical forests of Southeast Asia, South America and Madagascar?

SMU graduate student Daniel Danehy.

Jacobs will present her research in October at a seminar on “Cenozoic Evolution of African Landscapes” at Penn State. She and other members of the team will also report on the Ethiopian fossils in a Geological Society of America Topical Session called “Phanerozoic Paleoenvironmental Evolution of Africa,” which they’ve organized for the annual meeting from Oct. 18-21.

Jacobs’ research today expands on earlier work. She reported with her collaborators at the 2008 “Celebrating the International Year of Planet Earth” meeting of the Geological Society of America that palm trees were significant in Africa 28 million years ago

In a 2006 study that published in the “Botanical Journal of the Linnean Society,” Jacobs and lead author Pan reported that Chilga fossil leaves represent the earliest records of Africa’s characteristic palm genus “Hyphaene.”

The leaf fossils that Jacobs, Currano, and Pan are cataloging will be permanently housed in a new building now under construction at the National Museum of Ethiopia in Addis Ababa.

With a $21,600 supplemental grant from the National Science Foundation, cabinets for storing the plant and vertebrate fossils have been made in Ethiopia and Jacobs, Currano and Pan will return later this year to curate the collections. — Margaret Allen

Tags Bonnie F. Jacobs, Dedman College, Ellen Currano, Huffington Department of Earth Sciences, Neil Tabor

Earth & Climate Fossils & Ruins Researcher news

Nat Geo: Rare fossil supervolcano discovery in Italian Alps captures attention

Post author By Margaret Allen
Post date September 24, 2009

Basalt%20Yellowstone.jpg SMU geologist James E. Quick led a team of geologists that discovered a rare fossil supervolcano in the Sesia Valley of the Italian Alps.

Now news journalists from internet, radio, television and newspaper outlets are interviewing Quick and his team, which was back at the site this September for further research. The team made the discovery two years ago and announced it in July. The discovery will advance scientific understanding of active supervolcanoes, like Yellowstone, which is the second-largest supervolcano in the world and which last erupted 630,000 years ago.

Sesia Valley’s unprecedented exposure of magmatic plumbing provides a model for interpreting geophysical profiles and magmatic processes beneath active calderas. The exposure also serves as direct confirmation of the cause-and-effect link between molten rock moving through the Earth’s crust and explosive volcanism.

James%20Quick.jpg Quick is a professor in the SMU Roy M. Huffington Department of Earth Sciences as well as SMU associate vice president for research and dean of graduate studies.

Co-authors of the report are Silvano Sinigoi, Gabriella Peressini and Gabriella Demarchi, all of the Universita di Trieste; John L. Wooden, Stanford University; and Andrea Sbisa, Universita di Trieste.

Excerpt from the Oct. 1, 2009 National Geographic News article “‘Supervolcano’ with twisted innards found in Italy”:

By Ker Than

Long before Vesuvius blew its top and smothered Pompeii, Italy was rocked by a “supervolcano” eruption so powerful it possibly blocked out the sun and triggered prolonged global cooling, scientists say.

The now fossilized supervolcano last erupted about 280 million years ago, leaving behind an 8-mile-wide (13-kilometer-wide) caldera, which was recently discovered in the Italian Alps’ Sesia Valley.

What’s more, seismic forces have twisted the volcano’s interior, giving scientists an unprecedented glimpse deep into the feature’s explosive plumbing — and a better shot at deciphering when the next one might blow.

Click here to read the full story.

Excerpt from the Sept. 24, 2009 MSNBC.COM/LiveScience.com article “Supervolcano plumbing revealed”:

090924-supervolcano-02.hmedium.jpg

By Rachael Rettner

The fossilized remains of a supervolcano that erupted some 280 million years ago in the Italian Alps are giving geologists a first-time glimpse at the deep “plumbing system” that brings molten rock from far underground to the Earth’s surface.

James E. Quick of Southern Methodist University in Texas and his team discovered the “fossil,” or extinct, supervolcano in the Alps’ Sesia Valley two years ago, but they are just now reporting the results after careful study.

The researchers estimate the ancient eruption sent about 1,102 cubic kilometers of volcanic ash into the atmosphere. For comparison, the supervolcano under Yellowstone National Park, which erupted 630,000 years ago, produced about 2,204 cubic kilometers.

Click here to read the full story.

Other news coverage:
Discovery Channel: Daily Planet at 3:41 into the video
geology.com
ScienceDaily.com
Corriere della Sera
La Stampa.com
physorg.com
livescience.com
redorbit.com
dailyindia.com
scientificcomputing.com
Fox News

Tags Dedman College, Huffington Department of Earth Sciences, James E. Quick

Fossils & Ruins Researcher news

Polcyn in Discovery Channel’s “Mega Beasts: T-Rex of the Deep”

Post author By Margaret Allen
Post date September 14, 2009

Paleontologist Michael J. Polcyn, director of the Visualization Laboratory in the SMU Huffington Department of Earth Sciences and SMU adjunct research associate, appears as an expert source in “Mega Beasts: T-Rex of the Deep,” a science documentary that aired Sept. 13 on the Discovery Channel.

Polcyn is a world-recognized expert on the extinct marine reptile named Mosasaur.

His research interests include the early evolution of Mosasauroidea and adaptations in secondarily aquatic tetrapods. Polcyn’s research also includes application of technology to problems in paleontology.

Tags Dedman College, Huffington Department of Earth Sciences, Michael J. Polcyn

Fossils & Ruins Researcher news

Angola: Final fossil frontier, museum in the ground

Post author By Margaret Allen
Post date September 2, 2009

Angola%20006a.jpg Fossils in the rock outcrops of the coast of Angola in Africa are a “museum in the ground,” says SMU vertebrate paleontologist Louis L. Jacobs. Louise Redvers with Agence France Presse interviewed Jacobs. BBC and others published the story “Angola: Final frontier for fossils.”

“Angola is the final frontier for palaeontology,” Jacobs is quoted. “Due to the war, there has been little research carried out… but now we are getting in finally and there is so much to find.

“In some areas there are literally fossils sticking out of the rocks, it is like a museum in the ground.”

Angola%20002a.jpg

Excerpt:
By Louise Redvers
BBC News, Luanda
In the past, most people who went to Angola were searching for oil, diamonds or landmines.

Now, the country is also proving a big draw for fossil hunters — known in the scientific community as palaeontologists — who have described Angola as a “museum in the ground”.

Angola was closed off for many years because of its three-decade long civil war, which only ended in 2002, so few scientists have had the chance to visit.

We believe there are more dinosaurs to be found, we just need the facilities and means to dig for them

Those getting the chance now are not leaving disappointed. Louis Jacobs, of the Southern Methodist University in Dallas, says:

“Angola is the final frontier for palaeontology. Due to the war, there has been little research carried out… but now we are getting in finally and there is so much to find.

“In some areas there are literally fossils sticking out of the rocks, it is like a museum in the ground.”

Fossil-hunter heaven
Louis Jacobs is part of the “PaleoAngola” project whose biggest find to date was in 2005, when five bones from the front-left leg of a sauropod dinosaur were discovered on a cliff at Iembe, around 65 km (40 miles) north of the capital, Luanda.

Read the full story.

Also:
Red Orbit
Google.com
The Jakarta Globe

Jacobs’ work in Angola is jointly funded by the Petroleum Research Fund and National Geographic Society.

A professor in Dedman College‘s Roy M. Huffington Department of Earth Sciences, Jacobs joined SMU’s faculty in 1983. Currently he has projects in Mongolia, Angola and Antarctica. His book, “Lone Star Dinosaurs” (1999, Texas A&M University Press) was the basis of an exhibit at the Fort Worth Museum of Science and History that traveled the state. He is consulting on a new exhibit, Mysteries of the Texas Dinosaurs, which is set to open in the fall of 2009.

Tags Dedman College, Huffington Department of Earth Sciences, Louis L. Jacobs