Category: Plants & Animals

Los Angeles Times: Fossilized whale bone in African desert holds clues to human evolution

Post author By Margaret Allen
Post date March 23, 2015

Ancient whale swam hundreds of miles up African river and left behind clues about geology and climate change

Paleontologist James G. Mead excavating a whale specimen in an open-pit mine in Kenya in 1964. The long-lost specimen has helped date the onset of uplift on the East African Plateau, a change that altered the local environment and shaped the evolution of human ancestors. (Courtesy of James G. Mead)

The Los Angeles Times covered the research of SMU paleontologist Louis L. Jacobs, a professor in the Roy M. Huffington Department of Earth Sciences of SMU’s Dedman College of Humanities and Sciences.

Jacobs is co-author of a study published in the Proceedings of the National Academy of Sciences.

Findings of the research provide the first constraint on the start of uplift of East African terrain from near sea level.

Uplift associated with the Great Rift Valley of East Africa and the environmental changes it produced have puzzled scientists for decades because the timing and starting elevation have been poorly identified.

Jacobs and his colleagues tapped a fossil from the most precisely dated beaked whale in the world — and the only stranded whale ever found so far inland on the African continent — to pinpoint for the first time a date when East Africa’s mysterious elevation began.

The 17 million-year-old fossil is from the beaked Ziphiidae whale family. It was discovered 740 kilometers inland at a elevation of 620 meters in modern Kenya’s harsh desert region.

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The article published March 16, 2015.

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EXCERPT:

By Geoffrey Mohan
Los Angeles Times
A 22-foot beaked whale that apparently took a wrong turn up an African river about 17 million years ago may offer clues to the climate-change forces that shaped human evolution.

Lost for more than 30 years, the fossilized beak with part of the jaw bone helps determine that the East African Plateau probably began rising no earlier than 17 million years ago, according to a study published online Monday in the journal Proceedings of the National Academy of Sciences.

That geologic upheaval in an area known as the cradle of humankind is believed to be responsible for the gradual conversion of dense, humid forests into more sparsely treed grasslands that made upright locomotion on two feet advantageous to evolving human ancestors.

“The whale is telling us all kinds of things,” said study coauthor Louis Jacobs, a paleontologist at Southern Methodist University in Dallas. “It tells us the starting point for all that uplift that changed the climate that led to humans. It’s amazing.”

Jacobs had been searching for the specimen since 1980, when he was head of paleontology at the National Museums of Kenya. He had read about the 1964 find, by James G. Mead of the Smithsonian Institution, in a 1975 research paper.

Every time Jacobs visited Harvard, Washington or Nairobi, he would try to find it.

“It was protected by a plaster jacket, so you couldn’t really see it,” he said. “I suspect nobody knew what it was. It was just kept in the collections there.”

Finally, just before another trip to Kenya in 2011, a collections official at Harvard located the fossil, sheathed in the protective jacket, Jacobs said.

Jacobs had the specimen scanned and analyzed, then contacted Henry Wichura, a structural geologist at the University of Potsdam in Germany, who had been studying plateau region, trying to determine when it started rising. He had found evidence that rivers and lava had flowed east from high points on the plateau at least 13 million years ago.

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Tags Andrew Lin, Dale A. Winkler, Dedman College, Louis L. Jacobs, Matthew Clemens, Michael J. Polcyn, Roy M. Huffington Department of Earth Sciences

Earth & Climate Fossils & Ruins Plants & Animals Researcher news SMU In The News

Daily Mail: The 17 million-year-old whale that reveals when man first walked on two feet: Mammal’s wrong turn up river sheds light on Africa’s ancient swamplands

Post author By Margaret Allen
Post date March 18, 2015

The marine mammal’s remains were unearthed 459 miles from the ocean; East Africa was flatter, wet and covered in forest.

17 million year old fossil whale, kenya, Louis Jacobs

London’s Daily Mail covered the research of SMU paleontologist Louis L. Jacobs, a professor in the Roy M. Huffington Department of Earth Sciences of SMU’s Dedman College of Humanities and Sciences.

Jacobs is co-author of a study published in the Proceedings of the National Academy of Sciences.

Findings of the research provide the first constraint on the start of uplift of East African terrain from near sea level.

The 17 million-year-old fossil is from the beaked Ziphiidae whale family. It was discovered 740 kilometers inland at a elevation of 620 meters in modern Kenya’s harsh desert region.

The article published March 17, 2015.

Read the full story.

EXCERPT:

By Richard Gray
Daily Mail
A whale that swam hundreds of miles up an African river after taking a wrong turn 17 million years ago is helping shed light on a key moment in human evolution.

Palaeontologists discovered the fossilised remains of the ancient ancestor to modern beaked whales in the middle of one of the harshest desert areas of Turkana, Kenya.

It has allowed scientists to pinpoint when the landscape in east Africa began to change as the land around the Great Rift Valley began to rise up.

This was a crucial moment in human evolution from primates as it created the dry open habitats that led our ape-like ancestors to walk upright for the first time.

They say that for the whale to have travelled so far inland in a river the area must have been much wetter, far flatter and dominated by forests.

Professor Louis Jacobs, a vertebrate palaeontologist at Southern Methodist University in Dallas who led the study, said: ‘The whale was stranded up river at a time when east Africa was at sea level and was covered with forest and jungle.

‘As that part of the continent rose up, that caused the climate to become drier and drier. So over millions of years, forest gave way to grasslands.

‘Primates evolved to adapt to grasslands and dry country. And that’s when – in human evolution – the primates started to walk upright.’

The whale fossil was first discovered in Loperot, west Turkana, Kenya in 1964 by palaeontologist James Mead, a curator at the Smithsonian Instution at the time.

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Tags Andrew Lin, Dale A. Winkler, Dedman College, Huffington Departhment of Earth Sciences, Louis L. Jacobs, Matthew Clemens, Michael J. Polcyn

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17 million-year-old whale fossil provides 1st exact date for East Africa’s puzzling uplift

Post author By Margaret Allen
Post date March 16, 2015

Uplift and aridification of East Africa causing changes in vegetation has been considered a driver of human evolution. Now a fossil whale stranded far inland in Kenya marks the first time scientists can pinpoint how many millions of years ago the uplift began.

Uplift associated with the Great Rift Valley of East Africa and the environmental changes it produced have puzzled scientists for decades. Timing and starting elevation have been poorly understood.

Now paleontologists have tapped a fossil from the most precisely dated beaked whale in the world to pinpoint for the first time a date when East Africa’s mysterious elevation began. The stranded whale is the only one ever found so far inland on the African continent.

The 17 million-year-old fossil is from the beaked Ziphiidae whale family. It was discovered 740 kilometers inland at a elevation of 620 meters in modern Kenya’s harsh desert region, said vertebrate paleontologist Louis L. Jacobs, Southern Methodist University, Dallas.

At the time the whale was alive, it would have been swimming far inland up a river with a low gradient ranging from 24 to 37 meters over more than 600 to 900 kilometers, said Jacobs, a co-author of the study.

A map of Africa and Kenya showing where a 17-million-year-old whale fossil was found far inland . (Wichura/PNAS)

The study, published in the Proceedings of the National Academy of Sciences, provides the first constraint on the start of uplift of East African terrain from near sea level.

“The whale was stranded up river at a time when east Africa was at sea level and was covered with forest and jungle,” Jacobs said. “As that part of the continent rose up, that caused the climate to become drier and drier. So over millions of years, forest gave way to grasslands. Primates evolved to adapt to grasslands and dry country. And that’s when — in human evolution — the primates started to walk upright.”

Identified as a Turkana ziphiid, the whale would have lived in the open ocean, like its modern beaked cousins. Ziphiids, still one of the ocean’s top predators, are the deepest diving air-breathing mammals alive, plunging to nearly 10,000 feet to feed, primarily on squid.

In contrast to most whale fossils, which have been discovered in marine rocks, Kenya’s beached whale was found in river deposits, known as fluvial sediments, said Jacobs, a professor in the Roy M. Huffington Department of Earth Sciences of SMU’s Dedman College of Humanities and Sciences.

The whale fossil bones were originally thought to be those of a turtle specimen, as was recorded in the fossil catalogue for the Harvard Loperot Expedition in 1964. (Museum of Comparative Zoology, Harvard University.)

The ancient large Anza River flowed in a southeastward direction to the Indian Ocean.

The whale, probably disoriented, swam into the river and could not change its course, continuing well inland.

“You don’t usually find whales so far inland,” Jacobs said. “Many of the known beaked whale fossils are dredged by fishermen from the bottom of the sea.”

Determining ancient land elevation is very difficult, but the whale provides one near sea level.

“It’s rare to get a paleo-elevation,” Jacobs said, noting only one other in East Africa, determined from a lava flow.

Beaked whale fossil surfaced after going missing for more than 30 years
The beaked whale fossil was discovered in 1964 by J.G. Mead in what is now the Turkana region of northwest Kenya.

Mead, an undergraduate student at Yale University at the time, made a career at the Smithsonian Institution, from which he recently retired. Over the years, the Kenya whale fossil went missing in storage. Jacobs, who was at one time head of the Division of Paleontology for the National Museums of Kenya, spent 30 years trying to locate the fossil. His effort paid off in 2011, when he rediscovered it at Harvard University and returned it to the National Museums of Kenya.

The fossil is only a small portion of the whale, which Mead originally estimated was 7 meters long during its life. Mead unearthed the beak portion of the skull, 2.6 feet long and 1.8 feet wide, specifically the maxillae and premaxillae, the bones that form the upper jaw and palate.

The researchers reported their findings in “A 17-My-old whale constrains onset of uplift and climate change in east Africa” online at the PNAS web site.

Modern cases of stranded whales have been recorded in the Thames River in London, swimming up a gradient of 2 meters over 70 kilometers; the Columbia River in Washington state, a gradient of 6 meters over 161 kilometers; the Sacramento River in California, a gradient of 4 meters over 133 kilometers; and the Amazon River in Brazil, a gradient of 1 meter over 1,000 kilometers.

Besides Jacobs, other authors from SMU are Andrew Lin, Michael J. Polcyn, Dale A. Winkler and Matthew Clemens.

From other institutions, authors are Henry Wichura and Manfred R. Strecker, University of Potsdam, and Fredrick K. Manthi, National Museums of Kenya.

Funding for the research came from SMU’s Institute for the Study of Earth and Man and the SMU Engaged Learning program. — Margaret Allen

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Tags Andrew Lin, Dale A. Winkler, Dedman College, Featurette, Louis L. Jacobs, Matthew Clemens, Michael J. Polcyn, Roy M. Huffington Department of Earth Sciences

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CBS DFW 11: Too Much ‘Blue Light’ Hinders Sleep

Post author By Margaret Allen
Post date December 16, 2014

The negative consequences of blue light are associated with people’s metabolic clock being offset from their brain clock.

CBS DFW Channel 11 reporter Doug Dunbar covered the blue light research of Brian Zoltowski, an assistant professor in the SMU Department of Chemistry.

“As a society, we are using more technology, and there’s increasing evidence that artificial light has had a negative consequence on our health,” says Zoltowski, who was awarded $320,500 from the National Institute of General Medical Sciences of the National Institutes of Health to continue its research on the impact of blue light.

“Our study uses physical techniques and chemical approaches to probe an inherently biological problem,” Zoltowski said. “We want to understand the chemical basis for how organisms use light as an environmental cue to regulate growth and development.”

Dunbar’s piece featuring Zoltowski’s research and lab, “Too Much “Blue Light” Hinders Sleep,” was published online Dec. 12.

Watch the full coverage.

EXCERPT:

By Doug Dunbar
CBS DFW 11
Can’t get a good night’s sleep. You might be getting a little too much blue light.

What’s that? It’s a big issue the Federal government is asking researchers at SMU to study.

There’s a reason why it’s dark in this lab. It’s because they’re studying light.

They have the lights off so they can purify the proteins in the dark.

So that we can study the activation process when we first expose them to light. But not just any light. Blue light. The stuff in fluorescents, and devices like laptops and phones. But also daylight.

One of the negative consequences of blue light is associated with our metabolic clock being offset from our brain clock. That can lead to problems for diabetes, cancer, mood disorders.

[ …] But Zoltowski and his crew could potentially tackle problems much bigger than sleeping.

“If we understand how these proteins that respond to light work we can create new biotechnology.”

Maybe new ways to deliver drugs, or even targeted cancer treatments.

“We can shine light on a very specific spot and that can allow us to activate any biological event we want at that very precise location and time.”

Watch the full coverage.

Tags Brian D. Zoltowski, Dedman College, SMU Department of Chemistry

Earth & Climate Fossils & Ruins Plants & Animals Researcher news SMU In The News

The Guardian, Weatherwatch: Climate of Jurassic era just as much a patchwork as today

Post author By Margaret Allen
Post date December 11, 2014

The Guardian reporter David Hambling covered the research of SMU paleontologist Timothy S. Myers in the London newspaper’s daily Weatherwatch column.

Myers’ recent research has focused on the climate of the Jurassic, testing the notion that the era’s ancient climate was similar to modern. His most recent study found that climate was more variable than previously understood in the area now covered by the Morrison Formation, a massive and prolific fossil bearing formation that runs throughout a large portion of the western United States.

Hambling wrote about the research in his Dec. 10 Weatherwatch column, “Climate of Jurassic era just as much a patchwork as today.”

Prior to this study, a previous one set out to discover whether the modern relationship between lush environments and a proliferation of animal life held true 150 million years ago during the Late Jurassic when dinosaurs roamed the Earth.

SMU paleontologist Timothy S. Myers collected this plastic bag of paleosol matrix in the field. Myers performed chemical analysis of the ancient soil by grinding it to a powder that is then fused into a glass disc for elemental analysis. (Myers, SMU) — Paleosol matrix was collected in the field by SMU paleontologist Timothy S. Myers for chemical analysis. (Myers, SMU)

Myers’ uses geochemical analysis of ancient soil, called paleosols, to unearth climate data from the Jurassic.

His findings suggest that scientists must use different approaches to quantify paleoclimate, he said.

“It’s not enough to just look at soil types and draw conclusions about the paleoclimate,” Myers said. “It’s not even enough to look at rainfall in this quantitative fashion. There are numerous factors to consider.”

Myers analyzed 22 paleosol samples from northern New Mexico, 15 from northern Wyoming and seven from southern Montana.

The samples from Montana were younger than those from New Mexico, but roughly contemporary with the samples from Wyoming.

Myers is a postdoctoral scholar in SMU’s Shuler Museum of Paleontology in the Roy M. Huffington Department of Earth Sciences, Dedman College.

Ancient soil samples from the Jurassic in Wyoming indicate this area of the massive Morrison Formation surprisingly was more arid than its counterpart in New Mexico. (Credit: Myers, SMU) — Study found this Wyoming area surprisingly was more arid than its counterpart in New Mexico. (Credit: Myers, SMU)

Myers, SMU, Jurassic, Morrison Formation, SMU

Morrison Formation, Jurassic, climate, ancient soil, Myers, paleosols

“We found that, indeed, New Mexico was relatively arid,” Myers said. “But the surprising part was that the Wyoming locality was more arid and had less rainfall than New Mexico, even though it was at a higher latitude, and above the mid-latitude arid belt. And the Montana locality, which is not far from the Wyoming locality, had the highest rainfall of all three. And there’s a very abrupt transition between the two.”

He reported his findings, “Multiproxy approach reveals evidence of highly variable paleoprecipitation in the Upper Jurassic Morrison Formation (western United States),” in The Geological Society of America Bulletin.

Co-authors of the study were Neil J. Tabor, SMU earth sciences professor and an expert in ancient soil, and Nicholas Rosenau, a stable isotope geochemist, Dolan Integration Group.

Read the full story.

EXCERPT:

By David Hambling
The Guardian
We need to understand the conditions of earlier eras to make sense of climate change data. But past conditions were complex; the Jurassic world was, after all, not an unbroken vista of volcanoes and steamy jungle.

Timothy Myers, a palaeontologist at the Southern Methodist University in Dallas, collected 44 samples of ancient soils, or paleosols, from parts of the Morrison formation in the US south-west.

Researchers may assume that soil type gives a good indication of the prevailing climate. The reasoning, here, was that New Mexico, as today, would have been more arid than Wyoming and Montana further to the north.

Yet when Myers did the first detailed quantitative study, he found that mean average rainfall was 76cm (30in) for New Mexico and 114cm (45in) for north Montana, while being just 51cm (20in) in northern Wyoming.

There were big differences even between adjacent sites. “The apparently sudden shift from dry to relatively wet environments over such a short distance was perplexing,” said Myers. Normally this sort of pattern would only occur on opposite sides of a topographic feature, such as a mountain range.

Myers suggested that precipitation could have been highly seasonal at the Wyoming site, and this could have distorted the estimate for the total rainfall.

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Tags Dedman College, Neil Tabor, Nicholas Rosenau, Roy M. Huffington Department of Earth Sciences, Timothy S. Myers

Ancient whale swam hundreds of miles up African river and left behind clues about geology and climate change

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The marine mammal’s remains were unearthed 459 miles from the ocean; East Africa was flatter, wet and covered in forest.

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Uplift and aridification of East Africa causing changes in vegetation has been considered a driver of human evolution. Now a fossil whale stranded far inland in Kenya marks the first time scientists can pinpoint how many millions of years ago the uplift began.

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The negative consequences of blue light are associated with people’s metabolic clock being offset from their brain clock.

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