Archive for the ‘Biodiversity Loss’ Category

Polar bears could be listed as ‘endangered’

Wednesday, December 27th, 2006

WASHINGTON: US President George W Bush’s administration is proposing to list the polar bear as an endangered species because of warming temperatures in the animal’s habitat, The Washington Post has reported.

The proposal, described by an Interior Department official who spoke on condition of anonymity, marks the first time the administration has identified climate change as the driving force behind the potential demise of a species, the paper said.

“We’ve reviewed all the available data that leads us to believe the sea ice the polar bear depends on has been receding,” the Interior official told the paper.

“Obviously, the sea ice is melting because the temperatures are warmer.”

The official added that US Fish and Wildlife Service officials have concluded that polar bears could be endangered within 45 years, the report said.

A spokesman for the Interior Department was not immediately available for comment.

The Bush administration has consistently rejected scientific thesis that human activity contributes to global warming and has resisted capping greenhouse gas emissions as bad for business and US workers.

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THE DARKENING SEA

Sunday, December 3rd, 2006

– This is a long article and you may not be sure you want to read  after just reading the teaser section I’ve provided. If you are not sure, go to the end and you’ll find a few quotes from deeper within the article that may pique your interest.

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by ELIZABETH KOLBERT in The New Yorker magazine
What carbon emissions are doing to the ocean

Pteropods are tiny marine organisms that belong to the very broad class known as zooplankton. Related to snails, they swim by means of a pair of winglike gelatinous flaps and feed by entrapping even tinier marine creatures in a bubble of mucus. Many pteropod species—there are nearly a hundred in all—produce shells, apparently for protection; some of their predators, meanwhile, have evolved specialized tentacles that they employ much as diners use forks to spear escargot. Pteropods are first male, but as they grow older they become female.

Victoria Fabry, an oceanographer at California State University at San Marcos, is one of the world’s leading experts on pteropods. She is slight and soft-spoken, with wavy black hair and blue-green eyes. Fabry fell in love with the ocean as a teen-ager after visiting the Outer Banks, off North Carolina, and took up pteropods when she was in graduate school, in the early nineteen-eighties. At that point, most basic questions about the animals had yet to be answered, and, for her dissertation, Fabry decided to study their shell growth. Her plan was to raise pteropods in tanks, but she ran into trouble immediately. When disturbed, pteropods tend not to produce the mucus bubbles, and slowly starve. Fabry tried using bigger tanks for her pteropods, but the only correlation, she recalled recently, was that the more time she spent improving the tanks “the quicker they died.” After a while, she resigned herself to constantly collecting new specimens. This, in turn, meant going out on just about any research ship that would have her.

Fabry developed a simple, if brutal, protocol that could be completed at sea. She would catch some pteropods, either by trawling with a net or by scuba diving, and place them in one-litre bottles filled with seawater, to which she had added a small amount of radioactive calcium 45. Forty-eight hours later, she would remove the pteropods from the bottles, dunk them in warm ethanol, and pull their bodies out with a pair of tweezers. Back on land, she would measure how much calcium 45 their shells had taken up during their two days of captivity.

In the summer of 1985, Fabry got a berth on a research vessel sailing from Honolulu to Kodiak Island. Late in the trip, near a spot in the Gulf of Alaska known as Station Papa, she came upon a profusion of Clio pyramidata, a half-inch-long pteropod with a shell the shape of an unfurled umbrella. In her enthusiasm, Fabry collected too many specimens; instead of putting two or three in a bottle, she had to cram in a dozen. The next day, she noticed that something had gone wrong. “Normally, their shells are transparent,” she said. “They look like little gems, little jewels. They’re just beautiful. But I could see that, along the edge, they were becoming opaque, chalky.”

Like other animals, pteropods take in oxygen and give off carbon dioxide as a waste product. In the open sea, the CO2 they produce has no effect. Seal them in a small container, however, and the CO2 starts to build up, changing the water’s chemistry. By overcrowding her Cliopyramidata, Fabry had demonstrated that the organisms were highly sensitive to such changes. Instead of growing, their shells were dissolving. It stood to reason that other kinds of pteropods—and, indeed, perhaps any number of shell-building species—were similarly vulnerable. This should have represented a major discovery, and a cause for alarm. But, as is so often the case with inadvertent breakthroughs, it went unremarked upon. No one on the boat, including Fabry, appreciated what the pteropods were telling them, because no one, at that point, could imagine the chemistry of an entire ocean changing.

Since the start of the industrial revolution, humans have burned enough coal, oil, and natural gas to produce some two hundred and fifty billion metric tons of carbon. The result, as is well known, has been a transformation of the earth’s atmosphere. The concentration of CO2 in the air today—three hundred and eighty parts per million—is higher than it has been at any point in the past six hundred and fifty thousand years, and probably much longer. At the current rate of emissions growth, CO2 concentration will top five hundred parts per million—roughly double pre-industrial levels—by the middle of this century. It is expected that such an increase will produce an eventual global temperature rise of between three and a half and seven degrees Fahrenheit, and that this, in turn, will prompt a string of disasters, including fiercer hurricanes, more deadly droughts, the disappearance of most remaining glaciers, the melting of the Arctic ice cap, and the inundation of many of the world’s major coastal cities. But this is only half the story.

Ocean covers seventy per cent of the earth’s surface, and everywhere that water and air come into contact there is an exchange. Gases from the atmosphere get absorbed by the ocean and gases dissolved in the water are released into the atmosphere. When the two are in equilibrium, roughly the same quantities are being dissolved as are getting released. But change the composition of the atmosphere, as we have done, and the exchange becomes lopsided: more CO2 from the air enters the water than comes back out. In the nineteen-nineties, researchers from seven countries conducted nearly a hundred cruises, and collected more than seventy thousand seawater samples from different depths and locations. The analysis of these samples, which was completed in 2004, showed that nearly half of all the carbon dioxide that humans have emitted since the start of the nineteenth century has been absorbed by the sea.

When CO2 dissolves, it produces carbonic acid, which has the chemical formula H2CO3. As acids go, H2CO3 is relatively innocuous—we drink it all the time in Coke and other carbonated beverages—but in sufficient quantities it can change the water’s pH. Already, humans have pumped enough carbon into the oceans—some hundred and twenty billion tons—to produce a .1 decline in surface pH. Since pH, like the Richter scale, is a logarithmic measure, a .1 drop represents a rise in acidity of about thirty per cent. The process is generally referred to as “ocean acidification,” though it might more accurately be described as a decline in ocean alkalinity. This year alone, the seas will absorb an additional two billion tons of carbon, and next year it is expected that they will absorb another two billion tons. Every day, every American, in effect, adds forty pounds of carbon dioxide to the oceans.

Because of the slow pace of deep-ocean circulation and the long life of carbon dioxide in the atmosphere, it is impossible to reverse the acidification that has already taken place. Nor is it possible to prevent still more from occurring. Even if there were some way to halt the emission of CO2 tomorrow, the oceans would continue to take up carbon until they reached a new equilibrium with the air. As Britain’s Royal Society noted in a recent report, it will take “tens of thousands of years for ocean chemistry to return to a condition similar to that occurring at pre-industrial times.”

Humans have, in this way, set in motion change on a geologic scale. The question that remains is how marine life will respond. Though oceanographers are just beginning to address the question, their discoveries, at this early stage, are disturbing.

The complete article is here:

Research thx to LA

Here are a few of LA’s comments on the article:

A recent New Yorker has an article by Elizabeth Kolbert on the
effects of carbon in the oceans. By now we could probably recite the consequences of carbon-loading the atmosphere, but I had never once heard or thought about how it might be affecting the sea. But “nearly half of all the carbon dioxide that humans have emitted since the start of the nineteenth century has been absorbed by the sea.”

This might initially seem like GOOD news. Think what shape the
atmosphere would be in had the oceans not absorbed half the carbon we’ve output! However, the aquatic carbon-loading is far from benign. The main consequence is a change in pH levels. The oceans are alkaline, and the carbon absorption makes them less alkaline, so it’s convenient shorthand (though not strictly accurate) to talk about “ocean acidification.” Research indicates that the changing pH of the oceans will have the following effects:

– Making it more difficult (and at some point impossible) for shellfish to form shells.

– Preventing the growth of coral and endangering the millions of species that depend on coral for habitat

– Killing some kinds of phytoplankton

Climate Change Worsening Biodiversity

Monday, November 27th, 2006

The effects of the gathering Perfect Storm are appearing in the fabric of our world like cracks spreading slowly through glass. We can look through them, we can deny them, but they are there becoming more visible day by day.  Perfect music to consider all of this by: Hans Zimmer and Lisa Gerard – Progeny
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NAIROBI (AFP)—Climate change is having an alarming impact on whales, dolphins, turtles and birds and other rare species that migrate over long distances, the UN Environment Programme (UNEP) has said.

Rising temperatures are already having a dramatic effect on many of these species’ food, habitat, health and reproduction, UNEP said Thursday in a report coinciding with UN talks on climate change in the Kenyan capital.

Achim Steiner, executive director of UNEP, said evidence was mounting that when a migratory species dwindled or an exotic species showed up in places where previously it was absent, global warming was to blame.

“The consequences of habitat change–changes in temperature, food–will, and is already beginning to, fundamentally affect the ability of species to survive,” Steiner said.

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Salt-Water Fish Extinction Seen By 2048

Sunday, November 5th, 2006

Study By Ecologists, Economists Predicts Collapse of World Ocean Ecology

The apocalypse has a new date: 2048.

That’s when the world’s oceans will be empty of fish, predicts an international team of ecologists and economists. The cause: the disappearance of species due to overfishing, pollution, habitat loss, and climate change.

The study by Boris Worm, PhD, of Dalhousie University in Halifax, Nova Scotia, — with colleagues in the U.K., U.S., Sweden, and Panama — was an effort to understand what this loss of ocean species might mean to the world.

The researchers analyzed several different kinds of data. Even to these ecology-minded scientists, the results were an unpleasant surprise.

“I was shocked and disturbed by how consistent these trends are — beyond anything we suspected,” Worm says in a news release.

“This isn’t predicted to happen. This is happening now,” study researcher Nicola Beaumont, PhD, of the Plymouth Marine Laboratory, U.K., says in a news release.

“If biodiversity continues to decline, the marine environment will not be able to sustain our way of life. Indeed, it may not be able to sustain our lives at all,” Beaumont adds.

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British wildlife head north as planet warms

Saturday, October 21st, 2006

LONDON (AFP) – Biologists in Britain have discerned a mass migration of fauna over the past 25 years as animals try to outrun global warming by heading for cooler climes in the north.

Studies by the University of York have shown that 80 percent of some 300 monitored species are on the move, abandoning areas they have inhabited for millennia and heading 70 to 100 kilometres (40 to 60 miles) north.

“Our sample is large enough to be sure about the pattern of change,” said Chris Thomas, professor of conservation biology at the university.

“Eighty percent is a surprisingly large percentage … It’s amazing how strong and already visible is the signature of climate change.”

Animals studied by the university included insects, mammals, vertebrates and invertebrates. Seventy percent of the species found to be on the move were heading to higher ground, up to 150 metres (495 feet) above their normal habitats.

Some scientists predict that average temperatures in Britain will increase by 3.5 degrees Celsius (38.3 degrees Fahrenheit) between now and 2080. Over the past century they have climbed just 0.6 degrees, but the 1990s was the hottest decade on records going back some 400 years.

“Average global temperatures in 2100 will probably be higher than for at least two, and quite probably 10 million or more years,” Shaw said.

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research credit to MD – thx

United Nations to consider deep sea trawling ban

Wednesday, October 4th, 2006

UNITED NATIONS – The United Nations needs to stop the destruction of deep sea ecosystems by banning fishermen from trawling nets on the ocean floor, Australia, New Zealand and Palau, joined by actress Sigourney Weaver, said today.

The 192-member United Nations General Assembly is due to begin debating this week an Australian-led plan to ban deep sea bottom trawling in unmanaged high seas and impose tougher regulation of other destructive fishing practices.

The European Commission, executive of the 25-member European Union, has said it would support a ban on deep sea trawling. UN General Assembly resolutions are non-binding, but they reflect the will of the international community.

About 64 per cent of the world’s ocean is in international waters, of which about three-quarters is unmanaged, according to the Pew Institute for Ocean Science.

“The world’s oceans are facing a crisis,” Weaver told a news conference, adding that deep sea bottom trawling was “raping these oceans beyond site and beyond regulation”.

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