Coastal security beefed up in Kerala

May 16, 2010 By Leave a Comment

Kochi (Kerala), May 16 (ANI): The coastal security in Kerala has been increased with the state police inducting high-speed boats to patrol the shoreline and backwaters.

A fleet of around 47 boats along with a specially trained police team has been deployed for the purpose.

The 6.8-metre-long boats can be controlled by a remote device and seat up to six policemen.

A colourful regatta ceremony in the backwaters of Kochi district marked the launch of the new service.

“Backwater security is an integral part of coastal security as far as we are concerned. With that perception, we are trying to implement the scheme throughout the length of Kerala. High-speed boats patrol the waterways constantly so that any interlocutor or somebody, who has intercepted or somebody, who has escaped into the backwaters, we are able to chase him and we are able to catch him,” said Kerala Director-General of Police Jacob Punnoose.

“This will also ensure that along the waterways, which a large number of tourists and common people use, crime, which is becoming a problem will also be addressed by the police. These boats will be used in a consultant manner to prevent such activities,” he added.

Eight new coastal police stations are expected to be fully functional within the next three months in Kerala.

India has initiated several measures to beef security all along its over 7,500 kilometers long coast in the aftermath of the 26/11 Mumbai terror attacks. (ANI)

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Oil slick not seen hitting shore for 3 days: BP

May 6, 2010 By Leave a Comment

(Reuters) – Forecasts for the trajectory of the huge oil slick off the U.S. Gulf Coast did not show it hitting the shore for another three days, BP Chief Operating Officer Doug Suttles said on Tuesday.

U.S. | Green Business

“It’s still offshore … right now we’re not showing shoreline impact for three days,” he told a news briefing in Mobile, Alabama, referring to current projections. (Reporting by Pascal Fletcher)

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Sea levels rose as much as 2 feet this summer along the US East Coast

September 12, 2009 By Leave a Comment

Washington, September 12 (ANI): Reports indicate that sea levels rose as much as 2 feet (60 centimeters) higher than predicted this summer along the US East Coast, surprising scientists who forecast such periodic fluctuations.

According to National Geographic News, though the immediate cause of the unexpected rise has now been solved, the underlying reason remains a mystery.

Usually, predicting seasonal tides and sea levels is a pretty cut-and-dried process, governed by the known movements and gravitational influences of astronomical bodies like the moon, according to Rich Edwing, deputy director for the Center for Operational Oceanographic Products and Services at the US National Oceanic and Atmospheric Administration (NOAA).

But, NOAA’s phones began ringing this summer when East Coast residents reported higher than predicted water levels, much like those associated with short-term weather events like tropical storms.

These high seas persisted for weeks, throughout June and July.

The startling rise caused only minor coastal flooding, but puzzled scientists.

Now, a new report has identified the two major factors behind the high sea levels-a weakened Gulf Stream and steady winds from the northeastern Atlantic.

The Gulf Stream is a northward-flowing superhighway of ocean water off the US East Coast.

Running at full steam, the powerful current pulls water into its “orbit” and away from the East Coast.

But this summer, for reasons unknown, “the Gulf Stream slowed down,” Edwing said, sending water toward the coasts-and sea levels shooting upward.

Adding to the sustained surge, autumn winds from the northeastern Atlantic arrived a few months early, pushing even more water coastward.

The higher waters caused inconveniences for some anglers and boaters and rearranged a bit of shoreline.

“A couple of sand beaches we’d normally fish from were eaten up. And the volume of water was higher than it normally would be,” said Paulie Apostolides, owner of Paulie’s Tackle in Montauk on New York State’s Long Island.

Even before the new report, released by NOAA on September 2, Apostolides said that many local fishers had already attributed the sea level rise to the “ferocious” winds from the northeast. (ANI)

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Bodies of three recovered from Hudson River

August 9, 2009 By Leave a Comment

New York, Aug.9 (ANI): The bodies of three of the nine presumed victims of a helicopter-plane collision over the Hudson River have been recovered, the National Transportation Safety Board (NTSB) said on Saturday.

NTSB chair Deborah Hersman says the recovery operations have been called off and will resume Sunday morning, due to compromising tides and low visibility.

The accident happened just after noon between Manhattan and Hoboken, N.J. when a small private plane collided with a sightseeing helicopter over the Hudson River, leaving debris scattered in the water and on the New Jersey shoreline, sending witnesses ducking for cover, reports the NYT.

The sight-seeing helicopter was carrying five Italian tourists and a pilot, and the plane was carrying a pilot and two passengers, one of whom is believed to have been a child, New York City Mayor Michael Bloomberg said at an afternoon press conference.

“This is not going to have a happy ending. This has changed from a rescue to a recovery mission. If anybody had survived, we would have been there,” said Bloomberg.

Both craft are under water and may have sunk to a depth of 30 feet, he told reporters.

Though it was a crystal-clear summer day in New York, visibility is only about two feet in the water, making the recovery process extremely difficult.

The plane, a Piper PA-32, took off from Teterboro Airport in New Jersey, and the helicopter was a Eurocopter AS 350 owned by Liberty Tours, a sightseeing and charter company, the Federal Aviation Administration said. (ANI)

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Ancient Mars lake may have held as much water as Lake Champlain in US

June 20, 2009 By Leave a Comment

Washington, June 20 (ANI): Scientists have found evidence of the remnants of an ancient lake nestled in a valley near the Martian equator, which may have held as much water as Lake Champlain.

According to a report in Disocvery News, the evidence was found by Gaetano di Achille and a team of researchers at the University of Colorado in Boulder, US, in the form of an ancient shoreline ringing Shalbatana Vallis, a gash in Mars’ surface just east of the massive volcanic province, Tharsis Rise.

Though dry and frigid now, the traces it left behind hint at a water body younger than any other on the planet, and its sediments are a prime target for finding fossilized alien life.

When Mars coalesced billions of years ago it was much warmer, and probably wet. Features that appear to be eroded river deltas more than 3.7 billion years old dot parts of the planet’s surface.

Researchers have speculated they are evidence of lakes – and primitive life may have once existed on the surface.

Now, Gaetano’s team of researchers estimated from powerful images obtained using the powerful High Resolution Imaging Science Experiment (HiRISE) camera on board the Mars Reconnaissance Orbiter (MRO), that the ancient lake was 450 meters (1,476 feet) deep and nearly identical in volume to Lake Champlain in Vermont.

Even more intriguingly, it dried up around 3.4 billion years ago – 300 million years after the Red Planet’s “warm and wet” phase is thought to have ended.

Its deltas appear rich in fine-grained sediments, a sign that they have been relatively untouched by erosion.

“Deltas are high priority targets for exploration because they imply copious and long-lived water,” team member Brian Hynek of the University of Colorado in Boulder told Discovery News. “And the sedimentation process is very effective at burying and preserving organic material,” he said.

The lake is a tempting place to look for fossilized alien life forms.

“Life wouldn’t have arisen in this lake, but lakes on Earth provide many habitats for countless organisms,” said Patrick McGovern of the Lunar and Planetary Institute in Houston.

“This lake could have helped sustain and proliferate life on Mars, if it ever arose,” he added. (ANI)

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Virtual maps provide bird’s-eye view of Titan’s Earth-like landscapes

March 25, 2009 By Leave a Comment

Washington, March 25 (ANI): Scientists have made new virtual topographic maps of Saturn’s moon Titan, which provide a bird’s-eye view its Earth-like landscapes.

Cassini radar team member Randy Kirk with the Astrogeology Science Center at the U.S. Geological Survey in Flagstaff, Arizona, created the maps.

He used some of the 20 or so areas where two or more overlapping radar measurements were obtained during 19 Titan flybys.

These stereo overlaps cover close to two percent of Titan’s surface.

The process of making topographic maps from them is just beginning, but the results already reveal some of the diversity of Titan’s geologic features.

The new flyover maps show, for the first time, the 3-D topography and height of the 1,200-meter (4,000-foot) mountain tops, the north polar lake country, the vast dunes more than 100 meters (300 feet) high that crisscross the moon, and the thick flows that may have oozed from possible ice volcanoes.

“These flyovers let you take in the bird’s-eye sweeping views of Titan, the next best thing to being there,” said Kirk.

“We’ve mapped many kinds of features, and some of them remind me of Earth. Big seas, small lakes, rivers, dry river channels, mountains and sand dunes with hills poking out of them, lava flows,” he added.

The maps show some features that may be volcanic flows. These flows meander across a shallow basin in the mountains.

One area suspected to be an ice volcano, Ganesa Macula, does not appear to be a volcanic dome. It may still have originated as a volcano, but it’s too soon to know for sure.

“It could be a volcanic feature, a crater, or something else that has just been heavily eroded,” said Kirk.

The stereo coverage includes a large portion of Titan’s north polar lakes of liquid ethane and methane. Based on these topographical models, scientists are better able to determine the depth of lakes.

The highest areas surrounding the lakes are some 1,200 meters (about 4,000 feet) above the shoreline.

By comparing terrain around Earth to the Titan lakes, scientists estimate their depth is likely about 100 meters (300 feet) or less.

More 3-D mapping of these lakes will help refine these depth estimates and determine the volume of liquid hydrocarbons that exist on Titan.

This information is important because these liquids evaporate and create Titan’s atmosphere. Understanding this methane cycle can provide clues to Titan’s weather and climate. (ANI)

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Global project all set to extract more oil and gas from ground

February 22, 2009 By Leave a Comment

Washington, Feb 22 (ANI): An international project is all set to extract more oil and gas from the ground, potentially saving companies billions of dollars.

The project is spearheaded by Associate Professor Bruce Ainsworth, a University of Adelaide petroleum geologist.

Ainsworth is a principal investigator of the WAVE Consortium, an industry-sponsored global group that hopes to improve the average extraction rate of 60 percent from oil and gas fields.

“Petroleum companies are generally leaving about 40% of the oil behind due to a number of factors,” Dr Ainsworth said.

“A large proportion of the remaining hydrocarbon reserves are contained in rocks deposited in marginal and shallow marine environments. When they were laid down these deposits were influenced by waves, tides and river currents that together determine the geometries of our shorelines,” he said.

The consortium’s aim is to study these influences in order to better predict the distribution of oil and gas in the earth’s subsurface and to more efficiently extract it from hydrocarbon reservoirs.

Eight petroleum companies from around the world – in Australia, Austria, Canada, Egypt, New Zealand, Norway, The Netherlands and the United States – have provided 820,000 dollars for the first phase of the project, which involves the study of ancient and modern coastal systems.

The University of Adelaide has employed two postdoctoral researchers, Dr Rachel Nanson and Dr Ivar Midtkandal, who together with Dr Ainsworth and Dr Boyan Vakarelov, a lecturer and co-investigator at ASP, will investigate the wave, tidal and fluvial processes that affect the shoreline.

Dr Nanson is in the final stages of a study to determine which of the three processes were responsible for generating Australia’s present-day coastline, while Dr Midtkandal will be working in western Canada, examining ancient geological systems to help develop models that can be applied to oilfields.

Another Canadian-based researcher is studying the traces that animals left in the sediments over millions of years ago.

“Animals only live in certain environments so their traces can give us a better idea of where these sediments were actually deposited and what the predominant influences on the coastlines were,” Dr Ainsworth said. (ANI)

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Soap-like foam produced by “red tide” algae caused American seabird deaths in 2007

February 22, 2009 By Leave a Comment

Washington, Feb 21 (ANI): Intensive investigation by scientists has determined that a massive “red tide” bloom of marine algae had produced a foamy soap-like substance that stripped the natural waterproofing from the feathers of seabirds in the US, causing them to die in large numbers.

This massive die-off happened in late 2007, when hundreds of dead and stranded seabirds washed up on the shores of Monterey Bay, their feathers saturated with water and coated with an unknown substance.

“The problems we traditionally associate with harmful algal blooms are caused by toxins produced by the algae. In this case, it was a surfactant that removed the water-repellent properties of the feathers,” said Raphael Kudela, professor of ocean sciences at the University of California, Santa Cruz.

Although this red tide bloom was nontoxic, it was very harmful to the affected birds, which included grebes, loons, northern fulmars, and surf scoters.

Live birds found stranded on beaches around Monterey Bay were starving and severely hypothermic, having lost the insulation normally provided by their waterproof plumage.

A total of 550 birds were stranded alive and 207 were found dead during this event.

“There were a lot of questions at the time about whether the stranding was related to those events, and we were able to eliminate those possibilities,” Kudela said.

The dominant species in the red tide was a type of dinoflagellate known by the scientific name Akashiwo sanguinea, which has caused red tides in the past without harmful effects on wildlife.

Kudela said that the problems in 2007 resulted from the unusual combination of a large red tide late in the year, when large numbers of migrating birds had arrived in the area, plus big waves that churned up the water.

An algal protein produced the slimy foam that fouled the birds’ feathers. Its effects were similar to those of soap and other surfactants that are used in detergents to dissolve grease.

Wave action contributed to the problem by breaking up the cells of dying algae and churning the dissolved protein into the thick foam that was seen along the shoreline and floating on the surface of the water.

“We grew the algae in the lab, and when we shook it up it produced the same foam,” Kudela said. “The waves act like a blender, churning up the cells and the protein,” he added.

“Although 2007 was the first time we saw an impact on birds, the conditions are there for the same thing to happen the next time we have that combination of red tide, birds, and big storm waves,” he said. (ANI)

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Soap-like foam produced by “red tide” algae caused American seabird deaths in 2007

February 22, 2009 By Leave a Comment

Washington, Feb 21 (ANI): Intensive investigation by scientists has determined that a massive “red tide” bloom of marine algae had produced a foamy soap-like substance that stripped the natural waterproofing from the feathers of seabirds in the US, causing them to die in large numbers.

This massive die-off happened in late 2007, when hundreds of dead and stranded seabirds washed up on the shores of Monterey Bay, their feathers saturated with water and coated with an unknown substance.

“The problems we traditionally associate with harmful algal blooms are caused by toxins produced by the algae. In this case, it was a surfactant that removed the water-repellent properties of the feathers,” said Raphael Kudela, professor of ocean sciences at the University of California, Santa Cruz.

Although this red tide bloom was nontoxic, it was very harmful to the affected birds, which included grebes, loons, northern fulmars, and surf scoters.

Live birds found stranded on beaches around Monterey Bay were starving and severely hypothermic, having lost the insulation normally provided by their waterproof plumage.

A total of 550 birds were stranded alive and 207 were found dead during this event.

“There were a lot of questions at the time about whether the stranding was related to those events, and we were able to eliminate those possibilities,” Kudela said.

The dominant species in the red tide was a type of dinoflagellate known by the scientific name Akashiwo sanguinea, which has caused red tides in the past without harmful effects on wildlife.

Kudela said that the problems in 2007 resulted from the unusual combination of a large red tide late in the year, when large numbers of migrating birds had arrived in the area, plus big waves that churned up the water.

An algal protein produced the slimy foam that fouled the birds’ feathers. Its effects were similar to those of soap and other surfactants that are used in detergents to dissolve grease.

Wave action contributed to the problem by breaking up the cells of dying algae and churning the dissolved protein into the thick foam that was seen along the shoreline and floating on the surface of the water.

“We grew the algae in the lab, and when we shook it up it produced the same foam,” Kudela said. “The waves act like a blender, churning up the cells and the protein,” he added.

“Although 2007 was the first time we saw an impact on birds, the conditions are there for the same thing to happen the next time we have that combination of red tide, birds, and big storm waves,” he said. (ANI)

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Soap-like foam produced by “red tide” algae caused American seabird deaths in 2007

February 22, 2009 By Leave a Comment

Washington, Feb 21 (ANI): Intensive investigation by scientists has determined that a massive “red tide” bloom of marine algae had produced a foamy soap-like substance that stripped the natural waterproofing from the feathers of seabirds in the US, causing them to die in large numbers.

This massive die-off happened in late 2007, when hundreds of dead and stranded seabirds washed up on the shores of Monterey Bay, their feathers saturated with water and coated with an unknown substance.

“The problems we traditionally associate with harmful algal blooms are caused by toxins produced by the algae. In this case, it was a surfactant that removed the water-repellent properties of the feathers,” said Raphael Kudela, professor of ocean sciences at the University of California, Santa Cruz.

Although this red tide bloom was nontoxic, it was very harmful to the affected birds, which included grebes, loons, northern fulmars, and surf scoters.

Live birds found stranded on beaches around Monterey Bay were starving and severely hypothermic, having lost the insulation normally provided by their waterproof plumage.

A total of 550 birds were stranded alive and 207 were found dead during this event.

“There were a lot of questions at the time about whether the stranding was related to those events, and we were able to eliminate those possibilities,” Kudela said.

The dominant species in the red tide was a type of dinoflagellate known by the scientific name Akashiwo sanguinea, which has caused red tides in the past without harmful effects on wildlife.

Kudela said that the problems in 2007 resulted from the unusual combination of a large red tide late in the year, when large numbers of migrating birds had arrived in the area, plus big waves that churned up the water.

An algal protein produced the slimy foam that fouled the birds’ feathers. Its effects were similar to those of soap and other surfactants that are used in detergents to dissolve grease.

Wave action contributed to the problem by breaking up the cells of dying algae and churning the dissolved protein into the thick foam that was seen along the shoreline and floating on the surface of the water.

“We grew the algae in the lab, and when we shook it up it produced the same foam,” Kudela said. “The waves act like a blender, churning up the cells and the protein,” he added.

“Although 2007 was the first time we saw an impact on birds, the conditions are there for the same thing to happen the next time we have that combination of red tide, birds, and big storm waves,” he said. (ANI)

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Soap-like foam produced by “red tide” algae caused American seabird deaths in 2007

February 22, 2009 By Leave a Comment

Washington, Feb 21 (ANI): Intensive investigation by scientists has determined that a massive “red tide” bloom of marine algae had produced a foamy soap-like substance that stripped the natural waterproofing from the feathers of seabirds in the US, causing them to die in large numbers.

This massive die-off happened in late 2007, when hundreds of dead and stranded seabirds washed up on the shores of Monterey Bay, their feathers saturated with water and coated with an unknown substance.

“The problems we traditionally associate with harmful algal blooms are caused by toxins produced by the algae. In this case, it was a surfactant that removed the water-repellent properties of the feathers,” said Raphael Kudela, professor of ocean sciences at the University of California, Santa Cruz.

Although this red tide bloom was nontoxic, it was very harmful to the affected birds, which included grebes, loons, northern fulmars, and surf scoters.

Live birds found stranded on beaches around Monterey Bay were starving and severely hypothermic, having lost the insulation normally provided by their waterproof plumage.

A total of 550 birds were stranded alive and 207 were found dead during this event.

“There were a lot of questions at the time about whether the stranding was related to those events, and we were able to eliminate those possibilities,” Kudela said.

The dominant species in the red tide was a type of dinoflagellate known by the scientific name Akashiwo sanguinea, which has caused red tides in the past without harmful effects on wildlife.

Kudela said that the problems in 2007 resulted from the unusual combination of a large red tide late in the year, when large numbers of migrating birds had arrived in the area, plus big waves that churned up the water.

An algal protein produced the slimy foam that fouled the birds’ feathers. Its effects were similar to those of soap and other surfactants that are used in detergents to dissolve grease.

Wave action contributed to the problem by breaking up the cells of dying algae and churning the dissolved protein into the thick foam that was seen along the shoreline and floating on the surface of the water.

“We grew the algae in the lab, and when we shook it up it produced the same foam,” Kudela said. “The waves act like a blender, churning up the cells and the protein,” he added.

“Although 2007 was the first time we saw an impact on birds, the conditions are there for the same thing to happen the next time we have that combination of red tide, birds, and big storm waves,” he said. (ANI)

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Soap-like foam produced by “red tide” algae caused American seabird deaths in 2007

February 22, 2009 By Leave a Comment

Washington, Feb 21 (ANI): Intensive investigation by scientists has determined that a massive “red tide” bloom of marine algae had produced a foamy soap-like substance that stripped the natural waterproofing from the feathers of seabirds in the US, causing them to die in large numbers.

This massive die-off happened in late 2007, when hundreds of dead and stranded seabirds washed up on the shores of Monterey Bay, their feathers saturated with water and coated with an unknown substance.

“The problems we traditionally associate with harmful algal blooms are caused by toxins produced by the algae. In this case, it was a surfactant that removed the water-repellent properties of the feathers,” said Raphael Kudela, professor of ocean sciences at the University of California, Santa Cruz.

Although this red tide bloom was nontoxic, it was very harmful to the affected birds, which included grebes, loons, northern fulmars, and surf scoters.

Live birds found stranded on beaches around Monterey Bay were starving and severely hypothermic, having lost the insulation normally provided by their waterproof plumage.

A total of 550 birds were stranded alive and 207 were found dead during this event.

“There were a lot of questions at the time about whether the stranding was related to those events, and we were able to eliminate those possibilities,” Kudela said.

The dominant species in the red tide was a type of dinoflagellate known by the scientific name Akashiwo sanguinea, which has caused red tides in the past without harmful effects on wildlife.

Kudela said that the problems in 2007 resulted from the unusual combination of a large red tide late in the year, when large numbers of migrating birds had arrived in the area, plus big waves that churned up the water.

An algal protein produced the slimy foam that fouled the birds’ feathers. Its effects were similar to those of soap and other surfactants that are used in detergents to dissolve grease.

Wave action contributed to the problem by breaking up the cells of dying algae and churning the dissolved protein into the thick foam that was seen along the shoreline and floating on the surface of the water.

“We grew the algae in the lab, and when we shook it up it produced the same foam,” Kudela said. “The waves act like a blender, churning up the cells and the protein,” he added.

“Although 2007 was the first time we saw an impact on birds, the conditions are there for the same thing to happen the next time we have that combination of red tide, birds, and big storm waves,” he said. (ANI)

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Coastal security being strengthened, says government

February 18, 2009 By Leave a Comment

New Delhi, Feb.18 (ANI): Coastal security across the country is being strengthened through a series of measures, the government revealed on Wednesday.

Radhika V. Selvi, Minister of State of Home, told members of the Rajya Sabha that several meetings have been held in the ministries of Home, Defence, Shipping, Road Transport and Highways and Agriculture to review, upgrade and strengthen the coastal security of the country.

The following major decisions have been taken:

The task of guarding the Indian coastline right from the shoreline (High Tide Line) has been entrusted to the Coast Guard. However, the responsibility of overall maritime security rests with the Indian Navy.

Coastal States/UTs have been directed to expedite the implementation of the approved Coastal Security Scheme such as early completion of construction of coastal police stations, check posts, out-posts and barracks apart from sanctioning, recruitment and training of executive and technical manpower.

The coastal States and UTs have been directed to immediately start coastal patrolling by locally hired fishing boats/trawlers, charges being reimbursable by MHA.

The coastal States/UTs have been directed to carry out vulnerability/gap analysis on their coasts in consultation with Coast Guard, and furnish their additional requirements for formulation of a comprehensive proposal for further approval of the Government of India.

Ministry of Shipping, Road Transport and Highways has been directed to streamline the process of registration of all types of vessels, i.e., fishing as well as non-fishing vessels, and also to ensure fitting/provision of navigational and communication equipments on these boats.

Ministry of Agriculture, Department of Animal Husbandry, Dairies and Fisheries is taking steps to issue ID cards to all the fishermen. The Registrar General of India (RGI) is also issuing ID cards under Multi-purpose National Identity Card (MNICs) Scheme to all the population in the coastal villages including fishermen. (ANI)

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