Sunday, January 29, 2012

Seafloor Geography

Good Afternoon Gentlemen,

You'll notice the new link in the "Class Related Files & Links" portion of this Oceanography Blog.

The link is to "Seafloor Geography Files." Clicking on that link will take you to that folder in my "Google Docs." Please note the following:

1. Download and save the PDF files. This contains the lists of seafloor geographic/bathymetric features that we'll be learning this trimester. Feel free to print it.

2. You must have the latest version of Google Earth installed on your computer. If you don't have it, please do that. Make sure you have all of stuff saved.

3. Download the five KMZ files. Each of these files contains placemarks that I made for each of the features on the aforementioned list. The placemarks are sorted by ocean basin, by symbol, and by color. When you download each of them, they should display in Google Earth. Make sure you save each file on your computer before closing Google Earth. This will allow you to avoid continually downloading them.

Good luck, and let me know how it goes. These are my first KMZ files.

Friday, January 27, 2012

Sargasso Sea

NOAA just featured the Sargasso Sea in a short article. There is in the article an awesome animation showing currents that surround the Sargasso, including Gulf Stream Rings. They also mention sargassum, an amazing holopelagic algae.

A timely article indeed since we just completed Chap. 7 on ocean currents.

Click here to read and see more from NOAA: Sargasso Sea Article - NOAA

Wednesday, January 18, 2012

Newly Discovered Hydrothermal Vents

World's Most Extreme Deep-Sea Vents Revealed: Deeper Than Any Seen Before, and Teeming With New Creatures

ScienceDaily (Jan. 10, 2012) — Scientists have revealed details of the world's most extreme deep-sea volcanic vents, 5 kilometres down in a rift in the Caribbean seafloor.

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The undersea hot springs, which lie 0.8 kilometres deeper than any seen before, may be hotter than 450°C and are shooting a jet of mineral-laden water more than a kilometre into the ocean above.

Despite these extreme conditions, the vents are teeming with thousands of a new species of shrimp that has a light-sensing organ on its back. And having found yet more 'black smoker' vents on an undersea mountain nearby, the researchers suggest that deep-sea vents may be more widespread around the world than anyone thought.

Reporting in the scientific journalNature Communications this week, a team led by marine geochemist Dr Doug Connelly at the National Oceanography Centre in Southampton and marine biologist Dr Jon Copley of the University of Southampton has revealed details of the world's deepest known 'black smoker' vents, so-called for the smoky-looking hot fluids that gush from them.

During an expedition in April 2010 aboard the Royal Research Ship James Cook, the scientists used the National Oceanography Centre's robot submarine called Autosub6000 and a deep-diving vehicle, HyBIS, manufactured by the British firm, Hydro-Lek to locate and study the vents at a depth of five kilometres in the Cayman Trough, an undersea trench south of the Cayman Islands.

The vents, which the team named the Beebe Vent Field after the first scientist to venture into the deep ocean, are gushing hot fluids that are unusually rich in copper, and shooting a jet of mineral-laden water four times higher into the ocean above than other deep-sea vents. Although the scientists were not able to measure the temperature of the vents directly, these two features indicate that the world's deepest known vents may be hotter than 450 ºC, according to the researchers. "These vents may be one of the few places on the planet where we can study reactions between rocks and 'supercritical' fluids at extreme temperatures and pressures," says Connelly.

The team found a new species of pale shrimp congregating in hordes (up to 2,000 shrimp per m2) around the six-metre tall mineral spires of the vents. Lacking normal eyes, the shrimp instead have a light-sensing organ on their backs, which may help them to navigate in the faint glow of deep-sea vents. The researchers have named the shrimp Rimicaris hybisae, after the deep-sea vehicle that they used to collect them.

The Cayman shrimp is related to a species called Rimicaris exoculata, found at other deep-sea vents 4,000 kilometres away on the Mid-Atlantic Ridge. Elsewhere at the Beebe Vent Field, the team saw hundreds of white-tentacled anemones lining cracks where warm water seeps from the sea bed. "Studying the creatures at these vents, and comparing them with species at other vents around the world; will help us to understand how animals disperse and evolve in the deep ocean," says Copley.

The researchers also found black smoker vents on the upper slopes of an undersea mountain called Mount Dent. Mount Dent rises nearly three kilometres above the seafloor of the Cayman Trough, but its peak is still more than three kilometres beneath the waves. The mountain formed when a vast slab of rock was twisted up out of the ocean floor by the forces that pull the plates of Earth's crust apart.

"Finding black smoker vents on Mount Dent was a complete surprise," says Connelly. "Hot and acidic vents have never been seen in an area like this before, and usually we don't even look for vents in places like this." Because undersea mountains like Mount Dent may be quite common in the oceans, the discovery suggests that deep-sea vents might be more widespread around the world than previously thought.

The vents on Mount Dent, which the team has named the Von Damm Vent Field to commemorate the life of geochemist Karen Von Damm, are also thronged with the new species of shrimp, along with snake-like fish, and previously unseen species of snail and a flea-like crustacean called an amphipod. "One of the big mysteries of deep-sea vents is how animals are able to disperse from vent field to vent field, crossing the apparently large distances between them," says Copley. "But maybe there are more 'stepping stones' like these out there than we realised."

The UK expedition that revealed the vents followed a US expedition in November 2009, which detected the plumes of water from deep-sea vents in the Cayman Trough. A second US expedition is currently using a deep-diving remotely operated vehicle to investigate the vents further and the UK team also plans to return to the Cayman Trough in 2013 withIsis, the National Oceanography Centre's deep-diving remotely operated vehicle, which can work at depths of up to six kilometres.

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The above story is reprinted from materials provided byNational Oceanography Centre, Southampton (UK).
Note: Materials may be edited for content and length. For further information, please contact the source cited above.

Journal Reference:

Douglas P. Connelly, Jonathan T. Copley, Bramley J. Murton, Kate Stansfield, Paul A. Tyler, Christopher R. German, Cindy L. Van Dover, Diva Amon, Maaten Furlong, Nancy Grindlay, Nicholas Hayman, Veit Hühnerbach, Maria Judge, Tim Le Bas, Stephen McPhail, Alexandra Meier, Ko-ichi Nakamura, Verity Nye, Miles Pebody, Rolf B. Pedersen, Sophie Plouviez, Carla Sands, Roger C. Searle, Peter Stevenson, Sarah Taws, Sally Wilcox. Hydrothermal vent fields and chemosynthetic biota on the world's deepest seafloor spreading centre. Nature Communications, 2012; 3: 620 DOI: 10.1038/ncomms1636

Note: If no author is given, the source is cited instead.

Disclaimer: Views expressed in this article do not necessarily reflect those of ScienceDaily or its staff.

Beebe Vent Field shrimp. (Credit: Image courtesy of National Oceanography Centre, Southampton (UK))

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Sunday, January 15, 2012

US Volcano Monitoring

Here's an excellent article on the history of volcano monitoring in the US. A timely article, indeed, given our discussions on plate tectonics, volcanoes, and the geological setting of the world ocean.

Here's the link: USGS 100th Anniversary of Volcano Monitoring

The USGS has some excellent links attached so that you can further explore their website.

Check out this other excellent volcano site too: Volcano World Home

Thursday, January 12, 2012

New Shrimp at Hydrothermal Vents

Pictures: Deepest Ocean Vents Swarm With Heat-Vision Shrimp?

Shrimp picture: from world's deepest volcanic ocean vents, in Caribbean

Heat-Seeing Shrimp?

Image courtesy University of Southampton/NOC

Far beneath the Caribbean Sea (map), at the world's deepest volcanic ocean vents, robotic vehicles have helped find a new species of shrimp (pictured) that may have Superman-style heat vision.

Though the vent field and a sister site nearby were found in spring 2010, details and pictures of new species at the site were released just yesterday.

Located near the Cayman Islands, the hot seafloor vents are nearly 3.1 miles (5 kilometers) deep—about 2,900 feet (880 meters) deeper than the previous record holder.

About 12.4 miles (20 kilometers) away, the expedition also found a second mineral-rich vent field close to a section of seafloor where tectonic plates are separating.

There, unexpectedly, a chunk of mantle is poking through Earth's crust. (The planet's hot, semifluid mantle rock layer is typically contained miles below the planet's thin, hard outer crust.)

Though the mantle area is only half as deep as the deepest vent field, both sites are inhabited by hordes of new species, including sea anemones, fish, and swarms of 1-inch-long (2.5-centimeter-long) shrimp (above) with purple organs that may detect infrared light beaming from the vents.

"We were absolutely stunned to find these vent sites," said marine geochemistDoug Connelly of the U.K.'s National Oceanography Centre and a member of the expedition.

Vents like this "may be far more common than we think they are," he said. "We just may not be looking in all of the right places."

The discoveries follow closely behind another deep-sea expedition just north of Antarctica by the same team. That investigation found warm bastions of life—including new yeti crab species and a ghostly octopus—on the usually near-freezing ocean bottom. (See pictures: "'Lost World' of Odd Species Found Off Antarctica.")

Details of Earth's deepest volcanic vents are described today in the journalNature Communications.

—Dave Mosher

Wednesday, January 4, 2012

Microenvironments & Hydrothermal Vents

Prior to their discover in the mid-1970s, scientists thought every organisms on earth depended on the sun for its existence. The communities of organisms around hydrothermal vents don't depend upon the sun, but rather the heat and sulfur expelled into the ocean at those sites.

Some new discoveries were recently made in neighborhood of Antarctica. Read on to find out more.

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'Lost World' Discovered Around Antarctic Vents

ScienceDaily (Jan. 3, 2012) — Communities of species previously unknown to science have been discovered on the seafloor near Antarctica, clustered in the hot, dark environment surrounding hydrothermal vents.

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The discoveries, made by teams led by the University of Oxford, University of Southampton, the National Oceanography Centre, and British Antarctic Survey, include new species of yeti crab, starfish, barnacles, and sea anemones, and even an octopus probably new to science.

For the first time researchers, using a Remotely Operated Vehicle (ROV), have been able to explore the East Scotia Ridge deep beneath the Southern Ocean where hydrothermal vents, including 'black smokers' reaching temperatures of up to 382 degrees Celsius, create a unique environment lacking sunlight but rich in certain chemicals.

The team report their findings in this week's PLoS Biology.

'Hydrothermal vents are home to animals found nowhere else on the planet that get their energy not from the Sun but from breaking down chemicals, such as hydrogen sulphide,' said Professor Alex Rogers of Oxford University's Department of Zoology, who led the research. 'The first survey of these particular vents, in the Southern Ocean near Antarctica, has revealed a hot, dark, 'lost world' in which whole communities of previously unknown marine organisms thrive.'

Highlights from the ROV dives include images showing huge colonies of the new species of yeti crab, thought to dominate the Antarctic vent ecosystem, clustered around vent chimneys. Elsewhere the ROV spotted numbers of an undescribed predatory seastar with seven arms crawling across fields of stalked barnacles and found an unidentified pale octopus nearly 2,400 metres down on the seafloor.

'What we didn't find is almost as surprising as what we did,' said Professor Rogers. 'Many animals such as tubeworms, vent mussels, vent crabs, and vent shrimps, found in hydrothermal vents in the Pacific, Atlantic, and Indian Oceans, simply weren't there.'

The team believe that the differences between the groups of animals found around the Antarctic vents and those found around vents elsewhere suggest that the Southern Ocean may act as a barrier to some vent animals. The unique species of the East Scotia Ridge also suggest that, globally, vent ecosystems may be much more diverse, and their interactions more complex, than previously thought.

In April Professor Rogers was part of an international panel of marine scientists who gathered at Somerville College, Oxford to consider the latest research on the world's oceans. A preliminary report from the panel in June warned that the world's oceans are at risk of entering a phase of extinction of marine species unprecedented in human history.

'These findings are yet more evidence of the precious diversity to be found throughout the world's oceans,' said Professor Rogers. 'Everywhere we look, whether it is in the sunlit coral reefs of tropical waters or these Antarctic vents shrouded in eternal darkness, we find unique ecosystems that we need to understand and protect.'

ROV dives were conducted with the help of the crews of RRSJames Cook and RRS James Clark Ross. The discoveries were made as part of a consortium project with partners from the University of Oxford, University of Southampton, University of Bristol, Newcastle University, British Antarctic Survey, National Oceanography Centre, and Woods Hole Oceanographic Institution supported by the UK's Natural Environment Research Council (NERC) and the US National Science Foundation (NSF).

A report of the research, entitled 'The discovery of new deep-sea hydrothermal vent communities in the Southern Ocean and implications for biogeography', is published this week in PLoS Biology.