Recent News \| Archives \| Tags \| About \| Newsletter \| Submit News \| Links \| Subscribe

New Articles

Stronger coastal winds due to climate change may have far-reaching effects 1/3/2009

Trapped water cause of regular tremors under Vancouver Island 1/2/2009

6 North American sites hold 12,900-year-old nanodiamond-rich soil 1/2/2009

Climate change could dramatically affect water supplies 12/31/2008

Some climate impacts happening faster than anticipated 12/30/2008

Lifecycles of tropical cyclones predicted in global computer model 12/29/2008

To improve forecasting earthquakes, mathematician studies grains 12/26/2008

New 'seawater' -- the way ahead for ocean science 12/25/2008

Abrupt climate change: United States report findings 12/24/2008

CAT scan reveals inner workings of volcano island 12/23/2008

No quick or easy technological fix for climate change, researchers say 12/23/2008

Abrupt climate shifts may move faster than thought 12/22/2008

Professor 'follows the elements' to understand evolution in ancient oceans 12/22/2008

The year of the Alaska volcano: Eruptions keep observatory busy 12/21/2008

Researchers use satellites to measure inland floods 12/20/2008

Paleozoic 'sediment curve' provides new tool for tracking sea-floor sediment movements (10/3/2008)

Tags:
sediment cores, paleozoic era, stratigraphy

Follows sea-level rise and fall between 542 and 251 million years ago

As the world looks for more energy, the oil industry will need more refined tools for discoveries in places where searches have never before taken place, geologists say.

One such tool is a new sediment curve (which shows where sediment-on-the-move is deposited), derived from sediments of the Paleozoic Era 542 to 251 million years ago, scientists report in this week's issue of the journal Science. The sediment curve covers the entire Paleozoic Era.

"The new Paleozoic sea-level sediment curve provides a way of deriving predictive models of sediment migration on continental margins and in interior seaways," said Bilal Haq, lead author of the Science paper and a marine geologist at the National Science Foundation (NSF). The paper's co-author is geologist Stephen Schutter of Murphy Oil International in Houston, Tx.

"The sediment curve is of interest to industry, and also to scientists in academia," said Haq, "as the rise and fall of sea-level form the basis for intepretations of Earth history based on stratigraphy."

Through stratigraphy, the study of rock layering (stratification), scientists can derive a sequence of time and events in a particular region. Recent advances in the field of stratigraphy, including better time-scales for when sediments were deposited, and availability of data on a worldwide basis, are allowing scientists to reconstruct sea level during the Paleozoic.

The rises and falls of sea level during this period form the basis of stratigraphic interpretations of geology not only in the sea, but on land. These sea level increases and decreases are used extensively, Haq said, in predictive models of sediment movements.

The current Science paper is a shorter version of the results of a global synthesis of Paleozoic stratigraphy on which the authors have worked for many years.

"We hope that the publication of a sediment curve for this entire era will enhance interest in Paleozoic geology," said Haq, "and help the exploration industry in its efforts to look at older and deeper sediments."

Note: This story has been adapted from a news release issued by the National Science Foundation

Credit Card Consolidation - Credit Cards - Renegade Motorhomes - Loans

Post Comments:

Search

Archives \| Submit News \| Advertise With Us \| Contact Us \| Links