* Astronomy

More than a dozen countries are taking part in a drilling project at the site of a 35-million-year-old impact crater on Virginia's Eastern Shore.
A drilling rig arrived last month and set up on a farm near Cape Charles that was settled by colonists in the early 1600s.
From samples of rock and sediment that are collected, scientists hope to learn about the prehistoric climate, the effects of an asteroid or comet collision, how life survives after natural disasters and why groundwater in the Hampton Roads area is salty, among other things.

"None of us will probably ever drill a 7,000-foot hole again" - Greg Gohn, U.S. Geological Survey, one of four principal investigators for the project.

The crater is about 56 miles wide and at least a mile deep. Core samples already have been taken from other drilling locations, but the latest site near Cape Charles is by far the deepest.
"We'll be crossing bridges that nobody's crossed" -David Powars, Geological Survey scientist.
In 1994, Mr. Powars and other scientists announced the crater's existence. They had been trying to figure out why some aquifers were salty and why older fossils could be found lying on top of younger ones.
The project is being funded by the Geological Survey and the International Continental Scientific Drilling Program – a consortium of science agencies in 13 countries, including China, Canada, Germany and South Africa.
The Chesapeake Bay impact crater was created by an object from outer space. Because it is buried under layers and layers of sediment, it is one of the best-preserved craters in the world.

British scientist Charles Cockell will lead the search for microbes that could have survived the impact. If any are uncovered, he will try to grow some in a lab, and Penn State microbiologist Jennifer Macalady will examine their DNA.
Science teams plan to look into how the crater formed and its physical properties. The potential immediate effects of the big impact also will be explored – including tsunamis, wildfires across the East Coast and melted sand that formed glass beads carried thousands of miles on the wind.
Modellers will project what could happen in the event of another space rock collision. In the newer sediment layers at the crater site, geologists hope to find information on historic climate changes that affected sea levels and ice sheets.

source

An international project involving 13 countries will drill more than a mile deep into an ancient impact crater on the Eastern Shore, looking for clues to prehistoric climate, modern-day water problems and the beginnings of life on Earth and Mars.
In three weeks, the first samples of rock and sediment should start coming out of a hole on a farm just north of Cape Charles. From them, scientists hope to learn about Earth’s climate history, what really happens when an asteroid or comet collides with a planet, how life survives in the presence of tsunamis, massive fires and shock and, of more local concern, why groundwater in Hampton Roads is so salty.


Expand

"We hope to drill entirely through the crater and into its floor. None of us will probably ever drill a 7,000-foot hole again." - Greg Gohn, U.S. Geological Survey, one of four principal investigators for the project.

The USGS has drilled eight holes into the outer trough and edges of the crater, which is about 56 miles wide and at least a mile deep. Core samples – long tubes of rock and dirt – have been taken from sites in Hampton, Newport News, Mat hews County, Gloucester and several places on the Eastern Shore. But the deepest of those was only 2,699 feet, less than half of the ambitious attempt to go 7,218 feet that will begin in early September.

"We’ll be crossing bridges that nobody’s crossed" - USGS scientist David Powars, one of the first to suspect an impact crater lay under the Chesapeake Bay.

Powars and other scientists, trying to figure out why some aquifers were salty and why older fossils could be found l ying on top of younger ones, announced the existence of the crater in 1994. For decades prior, such strange evidence had been considered the results of poor sampling and poorer science, rather than the ground truth of a cosmic collision.
The Chesapeake Bay impact crater is the sixth -largest in the world. Its centre is under Cape Charles, and it is concealed under layers of sediment that have filled the gigantic hole in the 35 million years since it was blasted out by an object from outer space. Because it is buried, it is one of the best preserved craters in the world.

"This is going to be so exciting to see what comes out of this hole" - David Powars.

The $1.3 million project is funded by the USGS and the International Continental Scientific Drilling Program. The program is a consortium of science agencies in 13 countries, including China, Canada, Germany and South Africa. In the United States, the National Science Foundation is the funding partner.
The program focuses on globally significant sites, such as the Chicxulub crater (possible cause of dinosaur extinction) on the Yucatan Peninsula, the San Andreas earthquake fault, plate tectonics in Crete and volcanoes in Hawaii.
In addition, 118 scientists have made 44 proposals to use core samples; that research will be funded separately from the drilling budget.
The drilling rig is expected to arrive on Sept. 9 and set up in the midst of soybean fields at Eyreville, a farm that was settled by Englishmen in the early 1600s. But the original occupants may have been there much longer.
British scientist Charles Cockell will lead the search for microbes that could have survived the impact and still be colonizing the rocks deep in the earth. Such extremophiles, as they are called for their ability to live in extreme environments, could have quietly taken up residence in the spaces that formed in the rock when it was blasted out of the hole, then fell or washed back into the crater.

If microbes are found, Cockell will attempt to grow some in a lab, and Penn State microbiologist Jennifer Macalady will examine their DNA. Large amounts of iron in water samples taken from the crater may indicate microbes that can use electrons from iron for energy.

"The meek shall inherit the Earth, that’s what I always say. That’s the thing about microbes. They don’t just survive, they find new opportunities. Catastrophes create new opportunities for life" - Charles Cockell.

Crater scientists, including Powars, presented information in July at the Lunar and Planetary Institute’s conference about Martian impact craters. The shape of the Chesapeake Bay crater – a central peak surrounded by a deep ring, which is then surrounded by a wide, more shallow brim – could be a useful comparison to craters on the Red Planet. The Bay crater was formed by an object that landed in a shallow sea. The wet sediments of the sea floor broke off in chunks and slumped toward the deep inner ring, making the crater much larger than it might have been had the object hit land.
Similar-looking impact craters on Mars could mean they also formed in water or in comparable sediments, the researchers wrote. And there’s more:

"These impact craters were possibly the source of life, and that’s not just whistling 'Dixie. A crater with hydrothermal activity on other planets could be the place where life begins" - David Powars.

Other science teams will look at how the crater formed and what physical properties it has. In the melted rock deep inside, traces of the object that made the crater may exist as chemical signatures of elements rare in Earth’s crust. The immediate effects of such a large impact also will be examined – tsunamis that could have hit Europe and bounced back, wildfires that set the entire East Coast ablaze, melted sand that formed glass beads to float thousands of miles in the wind.
Modelers will take information from the core hole and project what might happen if another space rock were to hit Earth today. In the younger sediment layers at the top of the crater, geologists hope to find information on historic climate changes that affected sea level and ice sheets.
Of local interest, hydrologists will look at how the crater disrupted freshwater aquifers that supply drinking water in Hampton Roads. Samples from other holes have produced water saltier than the sea, and scientists hope to gain understanding on how the crater impedes the flow of water.
Once drilling begins, it will continue 24 hours a day for three months. During that time, farmer Roger Buyrn will likely be inconvenienced by traffic on his narrow farm lane, drilling lights and noise, and publicity from international media. He has no regrets.

"My father had a saying: 'It’s a very good day when you learn something. He also would say, 'Try to learn something every day.’ How would you say no when there’s an opportunity to learn so much?" - Roger Buyrn.

Source

-- Edited by Blobrana at 21:12, 2005-08-22