The aircraft mission

The agencies involved in this exciting project are the United States National Science Foundation, the British Antarctic Survey, the German Federal Institute for Geosciences and Natural Resources (BGR), Australian Antarctic Division, Chinese Arctic and Antarctic Administration and the Japanese National Institute of Polar Research. Nine aircraft are involved in this ambitious project. In addition to the two specially equipped science aircraft from UK and US, seven others will support the project by transporting people, fuel, equipment and supplies to both field camps.

Fuel to AGAP South will be moved by air and by overland traverse from where it is currently stockpiled. An overland traverse will head out of South Pole arriving at AGAP South on 10th December. Air drops using a C17 are planned for four dates in November to bring additional fuel to AGAP North.
2-3 December 2008: GAMBIT. The BAS twin otter survey aircraft will move to AGAP-North. The survey team will also move to AGAP-North in a BAS support Twin Otter (VPF AZ). The BAS Twin Otter survey aircraft will remain at AGAP-North for 37 days maximum. The goal is to complete 43 survey flights. If weather and field conditions are good flights could take as little as 29 days.

11 December: The USAP aircraft will transfer to AGAP-South to be in place when the early GAMBIT science team arrives.

17 December 2008: The USAP utility twin otter aircraft begins its deployment of 25 seismic stations for the GAMSEIS project. Of the 25 sites to be visited, 15 stations are to be new installations; 10 existing stations are to be serviced (~ 3 hrs per station to be serviced). The stations to be serviced actually take more ground time than the “to be installed” stations. This process includes removing the battery data logger box from the ice, brought back for service at AGAP-South and put into another box install at another site. Sixteen flight days with a double crew are targeted for this effort.







17 December 2008 – 10 January 2009: GAMBIT- USAP Twin Otter aircraft begins flying at AGAP-South. Fifty-four flights are necessary to complete the science program. Assuming a production rate of 1.85 flights per day from the Lake Vostok survey, 39 flights are likely to be completed in the 21 day planned flight operation window. Any option to begin survey flights sooner will facilitate the completion of the science program. The USAP Survey aircraft will conduct flights that require refuelling at a location know as AGO-1 and AGAP-North.

5-10 January 2009: The BAS Survey Twin Otter and team will work from AGAP-South. If fuel is available at AGO-3 the BAS Survey Otter will acquire the geophysical lines over the northern Recovery Lakes at the end of the season. The airframe will transfer back to McMurdo via AGO-1.

10 January 2009: the USAP Survey aircraft will transfer back to McMurdo where the geophysical equipment will be removed. The aircraft will be released to other projects on 16 January.

16 January 2009: The BAS aircraft will depart McMurdo via Pole for Patriot Hills and Rothera on. The survey team will depart with NSF through New Zealand.















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Japanese clone mouse from frozen cell, aim for mammoths

TOKYO (AFP) – Japanese scientists said Tuesday they had created a mouse from a dead cell frozen for 16 years, taking a step in the long impossible dream of bringing back extinct animals such as mammoths.
Scientists at the government-backed research institute Riken used the dead cell of a mouse that had been preserved at minus 20 degrees Celsius (minus 4 degrees Fahrenheit) -- a temperature similar to frozen ground.
The scientists hope that the first-of-a-kind research will pave the way to restore extinct animals such as the mammoth.
The findings were published in the Proceedings of the National Academy of Sciences in the United States.
The scientists extracted a cell nucleus from an organ of the dead mouse and planted it into an egg of another mouse which was alive, leading to the birth of the cloned mouse, the researchers said.
"The newly developed technology of nucleus transfer greatly improved the possibility of reviving extinct animals," the research team led by Teruhiko Wakayama said in a statement.
"Even though reviving extinct animals is often described in films and novels -- such as in Michael Crichton's 'Jurassic Park' -- it had in reality been impossible," they said.
Cells from dead bodies have previously been useless as they are ruined in the freezing process. But Wakayama's team discovered a way to extract a nucleus intact from a frozen cell by grinding cell tissues into multiple pieces.
The cloned mouse was able to reproduce with a female mouse, it added.
But the researchers said tough challenges remain ahead in terms of how to restore extinct animals, which would require breeding with animals that are still alive.
To revive a mammoth, researchers would need to find a way to implant a cell nucleus of a mammoth into the egg of an elephant and then implant the embryo into an elephant's uterus, it said.
The elephant is the closest modern relative of the mammoth, a huge woolly mammal believed to have died out with the Ice Age.
But Akira Iritani, a mammoth expert at Kinki University in Osaka, said it was only a matter of time before researchers could find a mammoth for a resurrection project.
"I have high hopes that we will be able to find a fine sample," he told public broadcaster NHK.
"It's said that there are more than 10,000 mammoths lying underneath Siberia," he said.
Even if it is impossible to recreate a whole animal, the process could create cloned embryonic stem cells for extinct species, giving a boost to research on evolution and zoology, he said.
Cloning can be controversial in terms of both bioethics and, if the animals are eaten, food safety.
Earlier this year, a report by the European Union warned that cloning can threaten the health of livestock.
South Korea's parliament has passed a law to regulate research into cloning, following a scandal in which a now-disgraced expert falsely claimed to have made the first human clone stem cells.

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THE BROWN MOUNTAIN LIGHTS

For centuries, mysterious lights have baffled observers on Brown Mountain in Burke County, North Carolina. The strange lights are often described as white, red, or yellow balls of light. They reportedly move around or remain stationary. Sometimes they are said to look like misty spheres or produce a sizzling sound. Close encounters with the lights have been said to cause dizziness as was described in a 1962 report in the "Charlotte Observer". Twelve eyewitnesses watched the lights from a 60-foot tower. When one of the lights approached one of the men, he suddenly had "a static-like feeling of dizziness". According to the report, when the men climbed down from the tower, they were unable to stand. Explanations for the lights range from several ghostly legends to scientific theories including ball lightning and "earth-lights".
Dating back to 800 year-old Cherokee legends where the lights were said to be the spirits of slain warriors, the Brown Mountain Lights have been observed and investigated numerous times. In 1771, German engineer Geraud de Brahm wrote about the lights in his journals. In an attempt to provide a scientific explanation for the phenomenon, de Brahm wrote: "The mountains emit nitrous vapors which are borne by the wind and when laden winds meet each other the niter inflames, sulphurates and deteriorates." "The Charlotte Observer", a local newspaper, was the first to feature a story on the lights in 1913. W. J. Humphries, of the U.S. Weather Bureau investigated the lights and compared them to a similar phenomenon in the Andes Mountains of South America.
Another government organization, the U.S. Geological Survey, launched two expeditions on Brown Mountain in 1916 and 1922, digging deeper into the mystery. During the 1922 survey, scientist George Rogers Mansfield found a variety of possible causes for the lights including cars, trains, stationary lights and brush fires. Fireflies were even a culprit, but were later viewed as an unlikely explanation. While Mansfield found numerous possibilities for the cause of the lights, he found that a small percentage still had no known cause. Others who have investigated the phenomenon suggest they are "earth lights", a luminous phenomenon caused my seismic activity. Mirages, ball lightning, and swamp gas (despite the lack of swamps on Brown Mountain) have all failed to completely explain the nature of the lights.
The luminous orbs eventually made their way into a bluegrass hit, "The Legend of the Brown Mountain Light," performed by musician Tommy Faile in the 1960’s.
Over a two-week period in November 2000, L.E.M.U.R. Paranormal Research Team based in Asheville, North Carolina observed and filmed the Brown Mountain Lights using an Infrared Night Vision camera. Over an hour of activity was captured on the first known video evidence of the Brown Mountain Lights. L.E.M.U.R. hopes this footage will yield more clues about the mysterious lights that always have eluded a suitable explanation.
The L.E.M.U.R. team plans to show the footage during the First Annual Paranormal Weekend in Asheville, N.C. on January 11-13, 2002. Joshua P. Warren, founder and president of L.E.M.U.R., has written two books, "Haunted Asheville" and "How To Hunt Ghosts". "I believe footage of this quality is the most significant step forward in the history of researching the lights," says Warren. "By studying the video, we’re targeting places on the ridge to research further. Ultimately, we hope to solve the mystery."

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THE POPOBAWA - A ZANZIBARI INCUBUS

The infamous Popobawa has struck again causing panic in the Zanzibar islands off the coast of Tanzania in Africa. The "creature", described as a cyclops dwarf with bat-like wings and ears, and sharp talons, is feared for its nasty habit of sodomizing men while they sleep in their beds. The presence of the often invisible Popobawa can be detected by an acrid smell or a puff of smoke. Sometimes, the Popobawa is visible to everyone except the terrified victim. It is believed to take human form by day, but with pointed fingers. After doing its vile deed, the Popobawa instructs its victims to spread the word about their ordeal or it would be back.
The Popobawa, its name derived from the Swahili words for "bat" and "wing", first appeared in the neighboring island of Pemba in 1972. More attacks were reported in the 1980s, again in April of 1995, and recently in 2000 and July 2001. Attacks appear to coincide with political stress such as election. The 1972 attacks followed the assassination of the country’s president. Interestingly, the recent attacks have come without any political turmoil.
Hospitals in Zanzibar have treated numerous broken ribs, bruises, and other injuries attributed to the Popobawa. One mentally ill man was hacked to death after confessing that he was the troublesome demon. During times when the Popobawa terrorizes the islands, whole families will often sleep arm-in-arm in front of their houses, seeking safety in numbers.
Mjaka Hamad, a peasant farmer in his mid-50s and a victim of the Popobawa’s attacks in 1995, has related his ordeal to the media. "I could feel it," Hamad said. "...something pressing on me. I couldn’t imagine what sort of thing was happening to me. You feel as if you are screaming with no voice. It was just like a dream but then I was thinking it was this Popobawa and he had come to do something terrible to me, something sexual. It is worse than what he does to women." Hamad claimed that he did not believe in the Popobawa or other spirits before the attack and suggests that is the reason he was attacked. "I don’t believe in spirits so maybe that’s why it attacked me. Maybe it will attack anybody who doesn’t believe."
The Popobawa appears to be an African version of the wide-spread Mara phenomenon. Joe Nickell, an investigator with CSICOP (Committee for the Scientific Investigation of Claims of the Paranormal), has compared the Popobawa to Medieval legends of succubi (female spirits) and incubi (male spirits) who sexually molested their victims in bed at night. In Newfoundland, an ugly old woman sexually molested men in a phenomenon known as Hagging. Other similar reports from around the world describe vampires, formless black blobs, and extraterrestrials among other bizarre entities.
Skeptics claim that these experiences are a result of a hypnogogic hallucination during a "waking dream". Paralysis, a sense of being weighted down, floating sensations, and encounters with otherworldly beings are often all unifying characteristics of the phenomenon.

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BERMUDA TRIANGLE

On 5 December 1945, disaster was about to strike the personnel of Fort Lauderdale in Florida. That afternoon five torpedo-bombers took off on a routine training flight. Soon, things began to go wrong. The flight leader reported equipment malfunctions, gyro-compasses went crazy, and he lost his horizon. Finally, he reported that he was lost. This happened just off the Florida coast and, as the day progressed, the weather worsened rapidly. Two hours later, the aircraft disappeared and were never seen again. No bodies were found and no wreckage spotted.In isolation, the tragedy was not unprecedented. Disorientation is easy to achieve over water and, if lost, it is easy to fly until your fuel runs out, simply falling from the sky. The lack of evidence of a crash was unusual but, again, it has happened before. But what do we make of a sixth plane - part of the search and rescue operation - blowing up less than half an hour after take-off, with total loss of life?
A CATALOGUE OF DISASTER
The above is one of the major episodes of what has become known as the Bermuda Triangle. Others include the loss of two aircraft in 1948, taking sixty lives. In 1950 a freighter disappeared with all hands. 1963 saw a triple tragedy with the loss of another freighter and three large aircraft.Indeed, if you add up the minor incidents as well you come up with a continuous list of mysterious disappearances of over 140 ships and planes and a thousand lives. The greatest tragedy happened in March 1918. Sailing from Barbados to Norfolk, Virginia, the US Navy Supply Vessel Cyclops disappeared without trace, taking three hundred lives.The Bermuda Triangle stretches from Bermuda to Cuba, and along the US coast from Miami to New York. Sceptics would argue there is no mystery as traffic is so dense that disasters are inevitable. But a whole industry of the fantastic has been built up to explain such disappearances.
PSEUDOSCHOLASTIC SHENNANIGANS
Vincent Gaddis blamed a space-time continuum touching our dimension at this point.Charles Berlitz put it down to UFO activity and time warps. A Dr Kenneth McCall postulated the tormented souls of black slaves thrown overboard to be cursing the area.Ivan Sanderson suggested a slightly less bizarre theory with his magnetic vortices. Identifying similar areas around the Earth, such vortices are formed where warm and cold currents collide.A further idea is offered by geo-chemist, Dr Richard McIver, who blames gas hydrates trapped in the seabed. Geo-disturbances can cause the release of large amounts of methane. When this happens, the sea can go frothy, like the head of beer, causing ships to lose buoyancy and sink.When the methane reaches the air, a plane engine can cause it to ignite, the wreckage falling into the frothy sea and disappearing. However, whilst this last theory holds real possibilities, perhaps we are looking at the mystery from the wrong angle.
CLEARING THE FOG
From the myriad disasters and close escapes in the area a list of factors leading to disaster can be highlighted. For instance, escapees speak, almost unanimously, of faulty gyro-compasses, equipment malfunction, loss of horizon, lack of wreckage, planes blowing up, water seeming to rise up as if a water-spout, dense banks of sudden fog, and sudden turbulent waters.Yet each of the above events are experienced all the time by sailors and airmen the world over. There is nothing really unusual about any of them in isolation. What IS unusual is that, in the Bermuda Triangle, they all seem to strike at once. We have a word for such a congregation of events. Coincidence.Even skeptics are wary of using this word to explain the Bermuda Triangle. Better, they think, to not think about it at all. After all, the mystery is just so ridiculous. But this is a mistake. For instance, you do not need to study other disasters for long before you realize that coincidence is often the major factor in disaster. It is the coming together of small mistakes and failures that build up to the coincidental congregation of events that cause disaster.
AN INEVITABLE THEORY
This is, actually, inevitable. The universe is obviously designed in such a way as to allow coincidental happenings to occur. If it wasn’t, they simply wouldn’t happen. The law of chance itself demands that coincidences DO occur. Indeed, in such a ‘coincidental’ universe, the Bermuda Triangle is, itself, an inevitability, for coincidence would dictate that sometime, somewhere, a congregation of events must come to a particular location.Folklore would speak of such an inevitability with terms such as curse or jinx. This, in itself, is interesting. For inevitability can have a marked effect on the human mind, causing people to make silly mistakes they otherwise would not make. For instance, if you think you’re going to have an accident, you will be wary and perform different to the norm, increasing the possibilities of an accident happening. Hence, could it be that, as a culture of disaster arose in the area, human psychology dictated that the prevalence of mistakes would increase?Science is quite rightly based on Reductionism, where the simplest explanation is preferred, and the ‘incidences’ of single events take priority over the wider ‘pattern’ of related events. But I am sure that science requires a bedfellow in terms of a more holistic way of looking at things – a discipline I have called Patternology, or P-ology.The Bermuda Triangle could be a classic example for P-ological study, for nowhere else has such a congregation of events occurred, ripe for analysis and study. The suggested statistical bias towards disaster, combined with a possible collective human psychology of inevitability, could be studied in the raw, with the possible outcome of a ‘science of disaster’ that could offer guidance for avoiding disaster in the future.To ignore such a possibility is to condemn us to a continuing bias towards disaster.

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The Legent of Sea Monster "Siren"

In Greek mythology the Sirens were sea deities who lived on an island called Sirenum scopuli. In some different traditions they are placed on Cape Pelorum, others in the island of Anthemusa, and still others in the Sirenusian islands near Paestum, or in Capreae (Strab. i. p. 22 ; Eustath. ad Horn. p. 1709 ; Serv. I.e.). All locations were described to be surrounded by cliffs and rocks. Seamen who sailed near were decoyed with the Sirens' enchanting music to shipwreck on the rocky coast.
The Sirens were considered the daughters of Achelous (by Terpsichore, Melpomene, Sterope, Chthon (in Euripides' Helen)) or Phorcys (Virgil. V. 846; Ovid XIV, 88). Homer says nothing of their number, but later writers mention both their names and number ; some state that they were two, Aglaopheme and Thelxiepeia (Eustath. ad Horn. p. 1709) ; and others, that there were three, Peisinoe, Aglaope, and Thelxiepeia (Tzetz. ad LycopL7l2) or Parthenope, Ligeia, and Leucosia (Eustath. /. c.; Strab. v. pp. 246, 252 ; Serv. ad Virg. Georg. iv. 562). Their number is variously reported as between two and five, and their individual names as Thelxiepeia/Thelxiope/Thelxinoe, Molpe, Aglaophonos/Aglaope, Pisinoe/Peisinoë, Parthenope, Ligeia, Leucosia, Raidne, and Teles. According to some versions, they were playmates of young Persephone and were given wings by Demeter to search for Persephone when she was abducted (Ovid V, 551). Their song is continually calling on Persephone. The term "siren song" refers to an appeal that is hard to resist but that, if heeded, will lead to a bad result. Later writers have stated that the Sirens were anthropophagous, but this is not supported by classical writings, nor is there any evidence that the Sirens drowned themselves failing to seduce one of the many heroes that passed their way, though that has also become a fixture in retellings of the story.

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The Legent of Sea Monster "Scylla"

Scylla was one of the many monsters in Greek mythology (one other being Charybdis) that live on either side of a narrow channel of water. The two sides of the strait are within an arrow's range of each other, so close that sailors attempting to avoid Charybdis will pass too close to Scylla and vice versa. The phrase between Scylla and Charybdis has come to mean being in a state where one is between two dangers and moving away from one will cause you to be in danger from the other. Traditionally the aforementioned strait has been associated with the Strait of Messina between Italy and Sicily, but more recently this theory has been challenged, and the alternative location of Cape Skilla in northwest Greece has been suggested.
Scylla is a horribly grotesque sea monster, with six long necks equipped with grisly heads, each of which contained three rows of sharp teeth. Her body consisted of twelve canine legs and a fish's tail. She was one of the children of Phorcys and either Hecate, Crataeis, Lamia or Ceto (where Scylla would also be known as one of the Phorcydes). Some sources cite her parents as Triton and Lamia.
In classical art she was depicted as a fish-tailed mermaid with four to six dog-heads ringing her waist.
In Homer's Odyssey, Odysseus is given advice by a ghost from the land of the dead to sail closer to Scylla, for Charybdis could drown his whole ship. Odysseus then successfully sails his ship past Scylla and Charybdis, but Scylla manages to catch six of his men, devouring them alive. When this happens, Odysseus takes the empty spot on the boat and helps the men row the ship out of harms way.
According to Ovid, Scylla was once a beautiful nymph. The fisherman-turned-sea-god Glaucus fell madly in love with her, but she fled from him onto the land where he could not follow. Despair filled his heart. He went to the sorceress Circe to ask for a love potion to melt Scylla's heart. As he told his tale of love about Scylla to Circe, she herself fell in love with him. She wooed him with her sweetest words and looks, but the sea-god would have none of her. Circe was furiously angry, but with Scylla and not with Glaucus. She prepared a vial of very powerful poison and poured it in the pool where Scylla bathed. As soon as the nymph entered the water she was transformed into a frightful monster with twelve feet and six heads, each with three rows of teeth. Angry, growling wolf heads grew from her waist, and she tried to brush them off. She stood there in utter misery, unable to move, loathing and destroying everything that came into her reach, a peril to all sailors who passed near her. Whenever a ship passed, each of her heads would seize one of the crew.
In a late Greek myth it was said that Heracles encountered Scylla during a journey to Sicily and slew her. Her father, the sea-god Phorcys, then applied flaming torches to her body and restored her to life.
It is said that by the time Aeneas' fleet came through the strait after the fall of Troy, Scylla had been changed into a dangerous rock outcropping which still stands there to this day.
Scylla and Charybdis are believed to have been the entities from which the phrase, "Between a rock and a hard place" originated.
It has been suggested that the myth of Scylla may have been inspired by real life encounters with giant squid (which are normally dying when near the surface), and she has some similar features to the kraken in Norse mythology and lusca in Caribbean mythology.

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The Legent of Sea Mosters "Kraken"

Kraken are legendary sea monsters of gargantuan size, said to have dwelled off the coasts of Norway and Iceland. The sheer size and fearsome appearance attributed to the beasts have made them common ocean-dwelling monsters in various fictional works (see Kraken in popular culture). The legend may actually have originated from sightings of real giant squid that are estimated to grow to 13 metres (46 feet) in length, including the tentacles. These creatures normally live at great depths, but have been sighted at the surface and reportedly have "attacked" small ships.
Kraken is the definite article form of krake, a Scandinavian word designating an unhealthy animal, or something twisted.[1] In modern German, Krake (plural: Kraken) means octopus, but can also refer to the legendary Kraken (Terrell, 1999).
History

Although the name kraken never appears in the Norse sagas, there are similar sea monsters, the hafgufa and lyngbakr, both described in Örvar-Odds saga and the Norwegian text from c. 1250, Konungs skuggsjá.[2] Carolus Linnaeus included kraken as cephalopods with the scientific name Microcosmus in the first edition of his Systema Naturae (1735), a taxonomic classification of living organisms, but excluded the animal in later editions. Kraken were also extensively described by Erik Pontoppidan, bishop of Bergen, in his "Natural History of Norway" (Copenhagen, 1752–3).
Early accounts, including Pontoppidan's, describe the kraken as an animal "the size of a floating island" whose real danger for sailors was not the creature itself, but the whirlpool it created after quickly descending back into the ocean. However, Pontoppidan also described the destructive potential of the giant beast: "It is said that if it grabbed the largest warship, it could manage to pull it down to the bottom of the ocean" (Sjögren, 1980). Kraken were always distinct from sea serpents, also common in Scandinavian lore (Jörmungandr for instance). A representative early description is given by the Swede Jacob Wallenberg in his book Min son på galejan ("My son on the galley") from 1781:
"… Kraken, also called the Crab-fish, which [according to the pilots of Norway] is not that huge, for heads and tails counted, he is no larger than our Öland is wide [i.e. less than 16 km] ... He stays at the sea floor, constantly surrounded by innumerable small fishes, who serve as his food and are fed by him in return: for his meal, if I remember correctly what E. Pontoppidan writes, lasts no longer than three months, and another three are then needed to digest it. His excrements nurture in the following an army of lesser fish, and for this reason, fishermen plumb after his resting place ... Gradually, Kraken ascends to the surface, and when he is at ten to twelve fathoms, the boats had better move out of his vicinity, as he will shortly thereafter burst up, like a floating island, spurting water from his dreadful nostrils and making ring waves around him, which can reach many miles. Could one doubt that this is the Leviathan of Job? "
According to Pontoppidan, Norwegian fishermen often took the risk of trying to fish over kraken, since the catch was so good. If a fisherman had an unusually good catch, they used to say to each other, "You must have fished on Kraken." Pontoppidan also claimed that the monster was sometimes mistaken for an island, and that some maps that included islands that were only sometimes visible were actually indicating kraken. Pontoppidan also proposed that a young specimen of the monster once died and was washed ashore at Alstahaug (Bengt Sjögren, 1980).
Since the late 18th century, kraken have been depicted in a number of ways, primarily as large octopus-like creatures, and it has often been alleged that Pontoppidan's kraken might have been based on sailors' observations of the giant squid. In the earliest descriptions, however, the creatures were more crab- like than octopus-like, and generally possessed traits that are associated with large whales rather than with giant squid. Some traits of kraken resemble undersea volcanic activity occurring in the Iceland region, including bubbles of water; sudden, dangerous currents; and appearance of new islets.
In 1802, the French malacologist Pierre Dénys de Montfort recognized the existence of two kinds of giant octopus in Histoire Naturelle Générale et Particulière des Mollusques, an encyclopedic description of mollusks. Montfort claimed that the first type, the kraken octopus, had been described by Norwegian sailors and American whalers, as well as ancient writers such as Pliny the Elder. The much larger second type, the colossal octopus (depicted in the above image), was reported to have attacked a sailing vessel from Saint-Malo, off the coast of Angola.
Montfort later dared more sensational claims. He proposed that ten British warships that had mysteriously disappeared one night in 1782 must have been attacked and sunk by giant octopuses. Unfortunately for Montfort, the British knew what had happened to the ships, resulting in a disgraceful revelation for Montfort. Pierre Dénys de Montfort's career never recovered and he died starving and poor in Paris around 1820 (Sjögren, 1980). In defence of Pierre Dénys de Montfort, it should be noted that many of his sources for the "kraken octopus" probably described the very real giant squid, proven to exist in 1857.
In 1830, possibly aware of Pierre Dénys de Montfort's work, Alfred Tennyson published his popular poem "The Kraken" (essentially an irregular sonnet), which disseminated Kraken in English forever fixed with its superfluous the. The poem in its last three lines, also bears similarities to the legend of Leviathan, a sea monster, who shall rise to the surface at the end of days.
Tennyson's description apparently influenced Jules Verne's imagined lair of the famous giant squid in Twenty Thousand Leagues Under the Sea from 1870. Verne also makes numerous references to Kraken, and Bishop Pontoppidan in the novel.
Later developments of the Kraken image may be traced at Kraken in popular culture.

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The Legent of Sea Mosters "Charybdis"

In Greek mythology, Charybdis or Kharybdis (in Greek, Χάρυβδις) was a sea monster, daughter of Poseidon and Gaia. She takes form as a monstrous mouth. She swallows huge amounts of water three times a day and then belches them back out again creating whirlpools. Charybdis was originally a naiad, sea-nymph who flooded land to enlarge her father's underwater kingdom, until Zeus turned her into a monster. He was angry that she was taking so much of his land and made it so that she would be incredibly thirsty three times a day and suck in the water.
The myth has Charybdis lying on one side of a narrow channel of water. On the other side of the strait was Scylla, another sea-monster. The two sides of the strait are within an arrow's range of each other, so close that sailors attempting to avoid Charybdis will pass too close to Scylla and vice versa. The phrase between Scylla and Charybdis has come to mean being in a state where one is between two dangers and moving away from one will cause you to be in danger of the other. Between Scylla and Charybdis is the origin of the phrase "between the rock and the whirlpool" (the rock upon which Scylla dwelt and the whirlpool of Charybdis) and may be the genesis of the phrase "between a rock and a hard place".
The Argonauts were able to avoid both dangers because they were guided by Thetis, one of the Nereids. Odysseus was not so fortunate; he chose to risk Scylla at the cost of some of his crew rather than lose the whole ship to Charybdis. (Homer's Odyssey, Book XII). Odysseus successfully navigated the strait, losing only six men to Scylla. However, the men offended Helios by killing the god's sacred cattle, and Zeus retaliated by destroying ship and crew with a thunderbolt.
Stranded on a makeshift raft, Odysseus was swept back through the strait to face Scylla and Charybdis again. This time, Odysseus passed near Charybdis. His raft was sucked into Charybdis' maw, but Odysseus survived by clinging to a fig tree grown on the rock overhanging her lair. On the next outflow of water, his raft was expelled, and Odysseus was able to recover it and paddle away.
Traditionally, the location of Charybdis has been associated with the Strait of Messina off the coast of Sicily, opposite the rock called Scylla. The whirlpool there is caused by the meeting of currents, but is seldom dangerous. Recently scholars have looked again at the location and suggested this association was a misidentification and that a more likely origin for the story could be found close by Cape Skilla in north west Greece.

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The Legent of Sea monster

Sea monsters or leviathans are sea-dwelling, mythical or legendary creatures, often believed to be of immense size.
Marine monsters can take many forms, including sea dragons, sea serpents, or multi-armed beasts; they can be slimy or scaly, often spouting jets of water. Often they are pictured threatening ships.

Sightings and legendsHistorically

Decorative drawings of heraldic dolphins and sea monsters were frequently used to illustrate maps, such as the Carta marina. This practice died away with the advent of modern cartography. Nevertheless, stories of sea monsters and eyewitness accounts which claim to have seen these beasts persist to this day. Such sightings are often catalogued and studied by folklorists and cryptozoologists.
Sea monster accounts are found in virtually all cultures that have contact with the sea. Eyewitness accounts come from all over the world. For example, Avienus relates of Carthaginian explorer Himilco's voyage "...there monsters of the deep, and beasts swim amid the slow and sluggishly crawling ships." (lines 117-29 of Ora Maritima). Sir Humphrey Gilbert claimed to have encountered a lion-like monster with "glaring eyes" on his return voyage after formally claiming St. John's, Newfoundland (1583) for England. Another account of an encounter with a sea monster comes from July 1734. Hans Egede, a Danish/Norwegian missionary reported that on a voyage to Gothaab/Nuuk on the western coast of Greenland:
''[There] appeared a very terrible sea-animal, which raised itself so high above the water, that its head reached above our maintop. It had a long, sharp snout, and blew like a whale, had broad, large flippers, and the body was, as it were, covered with hard skin, and it was very wrinkled and uneven on its skin; moreover, on the lower part it was formed like a snake, and when it went under water again, it cast itself backwards, and in doing so, it raised its tail above the water, a whole ship length from its body. That evening, we had very bad weather.''

Other reports are known from the Pacific, Indian and Southern Oceans (e.g. see Heuvelmans 1968).
A more recent development has been the mysterious "Bloop" picked up by hydrophonic equipment since 1997. While matching the audio characteristics of an animal, it was deemed too large to be a whale. Investigations thus far have been inconclusive.
It is debatable what these modern "monsters" might be. Possibilities include frilled shark, basking shark, oarfish, giant squid, seiches, or whales. For example Ellis (1999) suggested the Egede-rellis-phooba monster might have been a giant squid. Other hypotheses are that modern-day monsters are surviving specimens of giant marine reptiles, such as ichthyosaur or plesiosaur, from the Jurassic and Cretaceous Periods, or extinct whales like Basilosaurus.
In 1892, Anthonid Cornelis Oudemans, then director of the Royal Zoological Gardens at The Hague saw the publication of his The Great Sea Serpent which suggested that many sea serpent reports were best accounted for as a previously unknown giant, long-necked pinniped.
It is likely that many other reports of sea monsters are misinterpreted sightings of shark and whale carcasses (see below), floating kelp, logs or other flotsam such as abandoned rafts, canoes and fishing nets.
Alleged sea monster carcasses

Sea monster corpses have been reported since recent antiquity (Heuvelmans 1968). Unidentified carcasses are often called globsters. The alleged plesiosaur netted by the Japanese trawler Zuiyo Maru off New Zealand caused a sensation in 1977 and was immortalized on a Brazilian postage stamp before it was suggested by the FBI to be the decomposing carcass of a basking shark. Likewise, DNA testing confirmed that an alleged sea monster washed up on Fortune Bay, Newfoundland in August, 2001, was a sperm whale.
Another modern example of a "sea monster" was the strange creature washed up on the Chilean sea shore in July, 2003. It was first described as a "mammoth jellyfish as long as a bus" but was later determined to be another corpse of a sperm whale. Cases of boneless, amorphic globsters are sometimes believed to be gigantic octopuses, but it has now been determined that sperm whales dying at sea decompose in such a way that the blubber detaches from the body, forming featureless whitish masses that sometimes exhibit a hairy texture due to exposed strands of collagen fibers. The analysis of the Zuiyo Maru carcass revealed a comparable phenomenon in decomposing basking shark carcasses, which lose most of the lower head area and the dorsal and caudal fins first, making them resemble a plesiosaur.

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Submarine canyon

A Submarine canyon is a steep-sided valley on the sea floor of the continental slope. Many submarine canyons are found as extensions to large rivers; however there are many that have no such association. Canyons cutting the continental slopes have been found at depths greater than 2 km below sea level. They are formed by powerful turbidity currents, volcanic and earthquake activity. Many submarine canyons continue as submarine channels across continental rise areas and may extend for hundreds of kilometers.

Characteristics

Submarine canyons are more common on steep slopes than on gentle slopes. They show erosion through all substrates, from unlithified sediment to crystalline rock. They are more densely spaced on steep slopes while being rare on gentle slopes. The walls are generally very steep and can be near vertical. The walls are subject to erosion by turbidity currents, bioerosion, or slumping
Examples of submarine canyons:

Congo canyon, the largest river canyon, extending from the Congo river, is 800 km (500 miles) long, and 1,200m (4000 ft) deep.

Amazon canyon, extending from the Amazon river.

Hudson canyon, extending from the Hudson river.

Ganges canyon, extending from the Ganges river.

Indus canyon, extending from the Indus river.

Monterey Canyon, off the coast of central California.

La Jolla and Scripps canyon, off the coast of La Jolla, southern California.

Whittard Canyon, Atlantic Ocean off southwest Ireland.

Bering Canyon, in the Bering sea Zhemchug Canyon the largest submarine canyon in the world, also in the Bering sea.

Formation of submarine canyons

Many mechanisms have been proposed for the formation of submarine canyons, and during the 1940s and 1950s the primary causes of submarine canyons were subject to active debate.
An early and obvious theory was that the canyons present today were carved during glacial times, when sea level was about 200 meters below present sea level, and rivers flowed to the edge of the continental shelf. However, while many (but not all) canyons are found offshore from major rivers, subaerial river erosion cannot have been active to the water depths as great as 3000 meters where canyons have been mapped, as it is well established (by many lines of evidence) that sea levels did not fall to those depths.
The major mechanism of canyon erosion is now thought to be turbidity currents and underwater landslides. Turbidity currents are dense, sediment-laden currents which flow downslope when an unstable mass of sediment that has been rapidly deposited on the upper slope fails, perhaps triggered by earthquakes. There is a spectrum of turbidity- or density-current types ranging from "muddy water" to massive mudflow, and evidence of both these end members can be observed in deposits associated with the deeper parts of submarine canyons and channels, such as lobate deposits (mudflow) and levees along channels.
Mass wasting, slumping, and submarine landslides are forms of slope failures (the effect of gravity on a hillslope) observed in submarine canyons. Mass wasting is the term used for the slower and smaller action of material moving downhill; and would commonly include the effects of bioerosion: the burrowing, ingestion and defecation of sediment performed by organisms. Slumping is generally used for rotational movement of masses on a hillside. Landslides, or slides, generally comprise the detachment and displacement of sediment masses. All are observed; all are contributory processes.
It is now understood that many mechanisms of submarine canyon creation have had effect to greater or lesser degree in different places, even within the same canyon, or at different times during a canyon's development. However, if a primary mechanism must be selected, the downslope lineal morphology of canyons and channels and the transportation of excavated or loose materials of the continental slope over extensive distances require that various kinds of turbidity or density currents act as major participants.

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Deep sea fish

Deep sea fish is a term for fish that live below the photic zone of the ocean. Examples include the lanternfish, flashlight fish, cookiecutter shark, bristlemouths, and anglerfish.
EnvironmentBecause the photic level zone lies only a few hundred meters below the water, about 90% of the ocean volume is invisible to humans. The deep sea is also an extremely hostile environment, with pressures between 20 and 1,000 atmospheres (between 2 and 100 megapascals), temperatures between 3 and 10 degrees Celsius, and a lack of oxygen. The fish that have evolved to this harsh environment are not capable of surviving in laboratory conditions, and any attempts to keep them in captivity have led to their deaths. For this reason little is known about them, as there are limitations to the amount of fruitful research that can be carried out on a dead specimen and deep sea exploratory equipment is very expensive. As such, many species are known only to scientists and have therefore retained their scientific names.

Characteristics

The fish of the deep sea are among the most elusive and unusual looking creatures on Earth. In this deep unknown lie many unusual creatures we still have yet to study. Since many of these fish live in regions where there is no natural illumination, they cannot rely solely on their eyesight for locating prey and mates and avoiding predators; deep sea fish have evolved appropriately to the extreme sub-photic region in which they live. Many deep sea fish are bioluminescent, with extremely large eyes adapted to the dark. Some have long feelers to help them locate prey or attract mates in the pitch dark of the deep ocean. The deep sea angler fish in particular has a long fishing-rod-like adaptation protruding from its face, on the end of which is a bioluminescent piece of skin that wriggles like a worm to lure its prey. The lifecycle of deep sea fish can be exclusively deep water although some species are born in shallower water and sink on becoming adults.
Due to the poor level of photosynthetic light reaching deep sea environments, most fish need to rely on organic matter sinking from higher levels, or, in rare cases, hydrothermal vents for nutrients. This makes the deep sea much poorer in productivity than shallower regions. Consequently many species of deep sea fish are noticeably smaller and have larger mouths and guts than those living at shallower depths. It has also been found that the deeper a fish lives, the more jelly-like its flesh and the more minimal its bone structure. This makes them slower and less agile than surface fish.

Endangered Species

A recent study by Canadian scientists, has found five species of deep sea fish – roundnose grenadier, onion-eye grenadier, blue hake, spiny eel and spinytail skate – to be on the verge of extinction due to the shift of commercial fishing from continental shelves to the slopes of the continental shelves, down to depths of 1600 meters. The slow reproduction of these fish – they reach sexual maturity at about the same age as human beings – is one of the main reasons that they cannot recover from the excessive fishing.

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Deep sea

The deep sea, or deep layer is the lowest layer in the ocean, existing below the thermocline. Little or no light penetrates this area of the ocean, and most of its organisms rely on falling organic matter produced in the photic zone for subsistence. For this reason life is much more sparse, becoming rarer still with increasing depth. The other essential ingredient for life is oxygen, which is brought to the ocean's depths via the thermohaline circulation. There is, however, another very different part of the deep sea food chain discovered in the late 1970s, which is rooted in chemosynthesis rather than photosynthesis.
The ocean depths are one of the most hostile environments for life, and represent the least explored of all the world's ecosystems. Cold, dark and almost inaccessible to humans, it is perhaps the closest environment on earth to outer space.

Physical and chemical characteristics

The deep ocean is not well mixed, consists of horizontal layers of equal density, and is often as cold as -1 to 4°C (32 to 37°F). It is characterized by a nearly constant temperature and a positive sound speed gradient caused by pressure. Pressure increases by 1 atm with every 10 meters. Water at a depth of 4 km for example exerts 400 times more pressure than that at the surface.
Light dims by 90% every 75 meters; by 200m, the waters are dimly lit and by 1000m they receive no light at all. For comparison, the human visual threshold occurs at 650m. Ninety percent of the total volume of Earth's oceans is found in the deep ocean. The deepest waters on Earth lie 10,912m below the surface in the Mariana Trench.

Biology

Regions below the epipelagic are divided into further zones, beginning with the mesopelagic which spans from 200 to 1000m below sea level, where a little light penetrates while still being insufficient for primary production. Below this zone the deep sea proper begins, consisting of the aphotic bathypelagic, abyssopelagic and hadopelagic. Food consists of falling organic matter known as 'marine snow' and carcasses derived from the productive zone above, and is scarce both in terms of spatial and temporal distribution.

Adaptations of midwater fish

The midwater fish have special adaptations to cope with these conditions - they are small, usually being under 25cm; they have slow metabolisms and unspecialized diets, preferring to sit and wait for food rather than waste energy searching for it. They have elongated bodies with weak, watery muscles and skeletal structures. They often have extendable, hinged jaws with recurved teeth. Because of the sparse distribution and lack of light, finding a partner with which to breed is difficult, and many organisms are hermaphroditic.
Because light is so scarce fish often have larger than normal, tubular eyes with only rod cells. Their upward field of vision allows them to seek out the silhouette of possible prey. Prey fish however also have adaptations to cope with predation. These adaptations are mainly concerned with reduction of silhouette, a form of camouflage. The two main methods by which this is achieved are reduction in the area of their shadow by lateral compression of the body, and counter illumination via bioluminescence. This is achieved by production of light from ventral photophores, which tend to produce such light intensity to render the underside of the fish of similar appearance to the background light.

Exploration

The deep sea is an environment totally inhospitable to humankind, and it should come as no surprise that it represents one of the least explored areas on Earth. Pressures even in the mesopelagic become too great for traditional exploration methods, demanding alternative approaches for deep sea research. Baited camera stations, small manned submersibles and ROVs (remotely operated vehicles) are three methods utilized to explore the ocean's depths. Because of the difficulty and cost of exploring this zone, current knowledge remains limited.

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MOUNT EVEREST

Mount Everest is so famous for being so high that you've probably heard of it before. It has been known the world over since the early 1950s when Sir Edmund Hillary and Tenzig Norgay first climbed to its awesome summit. Hillary surveyed Everest at the time and determined that it was 29,000 ft/8840m high - a figure amazingly close to the current reading of 29,035 ft/8850m, which was confirmed using radar and global positioning satellite (GPS) technology.
Using state-of-the-art technology Professor Brad Washburn of the Boston Museum of Science, the world's foremost mountain cartographer, and his team have calculated that earth's highest elevation is actually 7 feet higher than the previous record. That makes the official height 29,035 ft/8850m. Thanks to some engineering whizzes at the Massachusetts Institute of Technology who developed really light, high-tech gear, the work of Washburn was made easier because he was able to hand carry a radar device to the top of Everest where it could be positioned to measure the actual height of the mountain - underneath all that snow. GPS technology was also deployed near the summit, which uses satellite signal relays to take readings from the top of Everest. After months of crunching numbers Washburn's team arrived at the new, official world-record elevation.
They've also determined that the Himalayan Mountains are still growing higher, at a rate of about 2.4 in/6.1cm per year. That's twice as fast as previously thought. A growth rate of 2.4 in/6.1cm per year doesn't sound like very much. If you think about it, that means in the last 26,000 years the Himalayans have risen almost a mile into the upper reaches of the earth's atmosphere!
When Hillary and Norgay climbed to the top of Everest they wore oxygen tanks. Because Everest is so high it juts into the upper reaches of the earth's atmosphere, where there are much lower concentrations of oxygen than at sea level. What that means to folks trekking up the side of Everest is that their bodies get less oxygen from each breath they breathe while climbing. But their brains and muscles require the same amount of oxygen to perform as they would at sea level. That makes it especially tough to climb Everest.
Try to imagine what it feels like to climb up a mountain with very little oxygen in your body - you get dizzy, your nose, fingers and feet get numb and tingly, your heart thunders in your chest trying furiously to keep up with the muscles' demand for oxygen. You feel sleepy, confused, downright stupid as your brain struggles to function on limited oxygen. Every step you take is extremely slow and plodding, requiring every ounce of will you have. Hillary and Norgay had extra oxygen to help them make the trip, but there have been a few people who have made the trip since who did it without the aid of oxygen - taking one step about every five minutes! About 4,000 climbers have attempted the summit of Everest, but only 660 have made it. One-hundred forty-two people have died trying.

Highest MountainsMount Everest is just one of over 30 peaks in the Himalayas that are over 24,000 ft/7315m high. Himalaya is a Sanskrit word meaning, "abode of snow", which is so true. The snowfields which dominate many of the peaks in the Himalayas are permanent. Yes, they never melt (not even in the summer). That means there are glaciers in the Himalayas - lots of them. Mount Everest is permanently covered in a layer of ice, topped with snow. The "top" of the mountain at which the elevation was measured can vary as much as twenty feet or more, depending on how much snow has fallen on its peak. Scientists believe that the actual tip of the rock lies tens of feet below the ice and snow on its summit. There are current plans to use ground penetrating radar to get a reading of the actual height of the mountain beneath all that snow. Although the Himalayan Range is only 1,550 miles/2480km long, the average height of all the major peaks in the Himalayas easily makes it the highest mountain range on land.

The Birth of a Mountain

Mountains aren't just big piles of dirt, they're made of solid rock. Believe it or not, the rocks that make up the Himalayan mountains used to be an ancient sea floor. Over millions of years, rivers washed rocks and soil from existing mountains on the Indian subcontinent and nearby Asia into a shallow sea where the sediment was deposited on the floor. Layer upon layer of sediment built up over millions of years until the pressure and weight of the overlying sediment caused the stuff way down deep to turn into rock. Then about 40 million years ago, in a process called "uplifting", the sea floor began to be forced upward forming mountains.

Plate Tectonics in Action

What caused the sea floor to be pushed up toward the sky was the result of the action of plate tectonics. The theory of plate tectonics was developed about thirty years ago by scientists who discovered that the earth's crust is made up of many "plates" which are constantly moving around. They are still moving around, even today, but the speeds at which they move are REALLY SLOW. In human terms the movement can't even be seen, but it can be felt occasionally when we have earthquakes. Earthquakes happen when plate margins (edges) move past, or bump into each other. In the case of the Himalayan mountains, the continent of India is part of a plate that "crashed" into southwest Asia, but it didn't stop when it hit. It continued to push northward, crushing and rumpling the earth's crust, resulting in the mountains we see today. If you go back to the map of the Himalayas, you can see that the mountains look kind of like a rumpled blanket. India is still pushing northward today, raising the Himalayas even higher!

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Amphipods from the Challenger Deep

A series of hadal surveys using the ROV "Kaiko" was conducted by Japan Marine Science and Technology Center (JAMSTEC) to clarify distributional chartacteristics of megabenthos at the Challenger Deep (approx. 10,900m deep) located southwestern edge of the Mariana Trench.
During the survey, over 130 specimens of amphipods, Hirondellea gigas, were collected by baited traps. The total length of the largest specimen was over 45mm. It was first collected in the Kurile-Kamchatka Trench in a plankton tow deeper than 6,000m and then in the Philippine Trench and the Mariana Trench between depths of 7,350m and 10,590m.
This is the deepest record to capture the amphipod which is known as endemic scavenger in some trenches. JAMSTEC has a plan to collect amphipods from the Japan Trench and other trenches, and to study phylogenic relationships applying molecular biological techniques.

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CHALLENGER DEEP

Challenger Deep got its name from the British survey ship Challenger II, which pinpointed the deep water off the Marianas Islands in 1951. Then in 1960, the US Navy sent the Trieste (a submersible - a mini-submarine designed to go really deep) down into the depths of the Marianas trench to see just how far they would go (read the original press release). They touched bottom at 35,838 ft/10,923m. That means, while they were parked on the bottom in the bathyscaphe, there were almost seven miles/11km of water over their heads! If you cut Mount Everest off at sea level and put it on the ocean bottom in the Challenger Deep, there would still be over a mile of water over the top of it!
Hydrostatic Pressure When you get into the ocean (or any body of water) and you start diving down from the surface, the deeper you dive the more water is over the top of you. The more gallons of water you put between you and the surface of the ocean, the greater the pressure is on your body because of the weight of the water over the top of you. This pressure is called hydrostatic pressure.
You can really get a sense of hydrostatic pressure when you go into a swimming pool and dive all the way to the bottom of the deep end. You'll feel the hydrostatic pressure against your ear drums, like they're being squeezed or pushed in. Well, you can imagine how incredible the pressure must be in the Challenger Deep with almost seven miles of water overhead - it's 16,000 pounds per square inch!
The Trieste in 1960. Plate Tectonics and the Subduction Zone
So how come the Challenger Deep is so deep? Well, the earth's crust isn't one solid piece of rock, it's really pretty thin, like the shell of an egg is compared to the size of the egg. In fact, it's made up of huge plates of thin crust that "float" on the molten rock of the earth's mantle. While floating around on the mantle the edges of these plates slide past each other, bump into each other, and sometimes even crash. The oceanic crust is much heavier than the continental crust so when the plates crash into each other, the oceanic plate plunges downward toward the molten mantle, while the lighter, continental plate rides up over the top. The forces driving the two plates together are really intense so the underlying oceanic plate (the subducted plate) creates a trench where it drags the edge of the continental crust down as it descends underneath (check out the picture at left).
This is what's happening on the bottom of the Pacific Ocean off the Marianas islands. The really deep part of the ocean is in the bottom of the trench created by the subducting ocean crust.
So, How Do They Know?
In 1984 the Japanese sent a highly specialized survey vessel out to the Marianas Trench and collected some data using a piece of equipment called a narrow, multi-beam echo sounder.
What an echo sounder does is send high frequency sound waves (outside the range of human hearing) through the water down to the ocean bottom. Sound waves will travel through water, even faster than they travel through the air, and bounce off solid objects, such as the ocean bottom. The echo sounder measures precisely how long it takes for the sound waves to be returned to the surface and determines the depth based on the rate of return. These soundings are plotted on a graph by a computer to make an "echo map" of the ocean bottom.

The deepest measurement of the Challenger Deep currently available was taken by the Japanese and was found to be 35,838 feet.

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ANTARCTICA Land of Extremes

You want to talk about world records, Antarctica is the land of extremes. It is the coldest, windiest, and highest continent anywhere on earth. With an average elevation about 7,544ft/2,300 meters above sea level it is the highest continent. Even though it is covered in ice it receives some of the least amount of rainfall, getting just slightly more rainfall than the Sahara Desert, making it the largest desert on earth. Most people have the misconception that a desert is a hot, dry, sandy, lifeless place, but the true definition of a desert is any geographical location that receives very, very little rainfall. Even though there's ice on the ground in Antarctica, that ice has been there for a very long time. Antarctica is the only continent that has never had an indigenous population of humans because it has always been such an extreme environment. Just the boat ride getting to the continent is over the most treacherous seas anywhere in the world. The inaccessibility of the place and the lack of reliable food and means for constructing shelter has kept humans away for thousands of years. But the new technologies developed over the last 200 years made it possible for people to reach these icy shores to explore and study the Antarctic for the first time in human history. Since there are no people who claim Antarctica as their homeland, exploration of the continent has been shared by all nations of the world. Scientists from all over the world - Russia, Japan, the United States, United Kingdom, Australia, New Zealand, South America, and many others - come to this place in an internationally cooperative agreement to study the truly unique qualities of Antarctica. Many scientific stations have been constructed on Antarctica to provide shelter and supplies for scientists doing field work there. Meet a scientist who's been to Antarctica - even went diving under the ice! Some scientists actually live on Antarctica for part of the year to conduct their research. Very few scientists stay there more than six months at a time. The sun rises and sets only once a year at the South Pole, which means there are six months of daylight, followed by six months of darkness. During the winter when there is no sun, the Antarctic becomes an even more hostile place to be - colder than cold, BONE-CHILLING cold, and no daylight. Can you imagine living in darkness 24 hours a day? That would almost be like living out in space! Hey.....

The World's Biggest Laboratory
At first, the scientific value of studying the Antarctic was just for the sake of understanding this strange place. Recently, scientists have theorized that the conditions in the Antarctic are similar to those on Mars. Because of the similarities exploration of the Antarctic has taken on a new meaning for the search for signs of life in the most extreme environments. Antarctica is not only fascinating itself, but serves as an excellent laboratory for studying the effects of space travel, developing new technologies for exploring other planets and finding extraterrestrial (yeah, alien) life.
Many, many fascinating things have been discovered in the Antarctic that have challenged some of our most basic ideas about what life on earth means. Some really cool factoids:
Deepest Earth Depression: The lowest point on earth is located in the basin of the Bentley Subglacial Trench. At -2,555 meters (8,325 feet) below sea level it is the world's lowest elevation not under seawater. It is not accessible because it is buried under the thickest ice yet discovered.
90% of the ice on earth is located in Antarctica. There is so much ice there you could carve up a block of ice the size of the Great Giza pyramid for every human being on the planet! 98% of Antarctica is covered in ice.
Marine Life: Some species of fish that live in the waters around Antarctica are specially adapted to life in near-freezing waters. Most living creatures on this planet have hemoglobin in their blood, which gives it that red color we all know so well. These particular species of fish, however, have extremely low levels of hemoglobin in their blood. So low that their blood isn't even red! They also have natural antifreeze in their bodies to protect them from freezing to death. (Even if you're a fish and the water in all the cells of your body freezes and turns to ice crystals, you die. 'Nuff said). If you were to catch one of these fish and cut it open the blood, gills and all the organs would be WHITE.
Weather: Yes, the Antarctic has the coldest temperatures on the earth, but that shouldn't surprise you. (Coldest reported temperature ever was -89.4°C/-129°F.) What most people don't know is that the South Pole has the clearest, calmest weather anywhere on earth. Most of the wickedly high winds that everyone associates with the cold and the ice of the Antarctic are around the edges of the continent at the shores. These winds are so fast and so fierce they are world-famous and they have a special name, too - katabatic winds - and they can blow with hurricane force up to 304kmh/190 mph!
Believe it or not with all the ice in the Antarctic, there is very little actual snowfall or precipitation. It does snow on the ice during the austral winter, but measured on an annual basis the Antarctic is as dry as the Sahara Desert.

Antarctic Ice - The Ultimate Cool
Many scientists study Antarctic ice because it is more than just ice. It has accumulated over time, layer upon layer, building up over the millennia to create a type of sedimentary rock. Yes, rock. Ice crystals can be considered a type of mineral, and glacial ice is composed of crystals of the "mineral" water. Just like sedimentary rock is created over time by the repeated layering of particles of clay or sand, glacial ice builds up over millions of years by the build up of snow that never melts.
Scientists drill down deep into the ice with a drill that works kind of like a cookie cutter, only it cuts out some really deep cookies of ice. These core samples contain many layers of ice that represent what the earth's atmosphere was like at the time each layer of ice was formed. By studying the layers of ice in the core samples scientists can learn about how the earth's atmosphere has changed over geologic time.
In the winter time the ocean around Antarctica freezes for thousands of miles in all directions. This vast expanse of ice surrounding the already immense Antarctic ice sheet covers over eleven million square kilometers. The annual freezing of the ocean around Antarctica generates deep ocean currents worldwide. Differences in ocean temperature are what cause weather all over the globe. Some scientists fear that if the global climate gets too warm or too cold it could affect the formation of Antarctic ice, changing the climate as we know it all over the world.

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The Amazon - Home of Extremes

The Amazon River is not only the greatest in the world, it is home to many other "Extremes" of the natural world. Have you ever seen a catfish? They're usually found in warm, slow moving waters of lakes and streams, and some people keep them as pets in aquariums. Catfish are pretty creepy looking fish with big flat heads and "whiskers" on either side of their heads (hence the name, catfish). Most catfish that we're familiar with here in the U.S. are anywhere from eight inches long to about five feet, weighing in at up to 60 pounds. But the catfish that live in the world's greatest river have all the room in the world to grow as big as nature will allow - they have been captured weighing over 200 pounds! One of the largest freshwater fish in the world is found living in the waters of the Amazon River. Arapaima, also known locally as Pirarucu, Arapaima gigas are the largest, exclusively fresh water fish in the world. They have been found to reach a length of 15 ft/4m and can weigh up to 440lbs/200kg. And yes, for you smartypants out there, sturgeon are even larger than this, but they are not exclusively freshwater fish. Sturgeon spend most of their lives at sea, or in brackish water, and only swim into freshwater rivers to spawn. (Read about the biggest freshwater fish in the world.)
(Buy this Photographic Print at AllPosters.com) The Amazon is also home to some other extreme creatures, featured here in "Extreme Science"; the Anaconda (biggest snake), and Piranha (most ferocious). Check it out!

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How Great is the Amazon River?

The Amazon is the greatest river in the world by so many measures; the volume of water it carries to the sea (approximately 20% of all the freshwater discharge into the oceans), the area of land that drains into it, and its length and width. It is one of the longest rivers in the world and, depending upon who you talk to, is anywhere between 6,259km/3,903mi and 6,712km/4,195mi long.
For the last century the length of the Amazon and the Nile Rivers have been in a tight battle for title of world's longest river. The exact length of the two rivers varies over time and reputable sources disagree as to their actual length. The Nile River in Africa is reported to be anywhere from at 5,499km/3,437mi to 6,690km/4,180mi long. But there is no question as to which of the two great rivers carries the greater volume of water - the Amazon River.

At its widest point the Amazon River can be 11km/6.8 mi wide during the dry season. The area covered by the Amazon River and its tributaries more than triples over the course of a year. In an average dry season 110,000 square km of land are water-covered, while in the wet season the flooded area of the Amazon Basin rises to 350,000 square km. When the flood plains and the Amazon River Basin flood during the rainy season the Amazon River can be up to 40km/24.8 mi wide. Where the Amazon opens at its estuary the river is over 325km/202 mi wide!
Because the Amazon drains the entire Northern half of the South American continent (approx. 40% landmass), including all the torrential tropical rains that deluge the rainforests, it carries an enormous amount of water. The mouth of the Amazon River, where it meets the sea, is so wide and deep that ocean-going ships have navigated its waters and traveled as far inland as two-thirds the way up the entire length of the river.

Amazon River Facts

So, how did the Amazon get to be so big? The first reason has to do with its location - right at the equator. Around the "belt line" of the earth lies a warm, tropical zone where over 400 in/1016cm of rain fall every year. That averages out to more than an inch (3cm) of rain, everyday! A lot of water falls onto the land surrounding the river, what is called the "Amazon River drainage basin". A good way to understand what a drainage basin is to think of the whole northern half of the continent of South America as a shallow dish, or saucer. Whenever rain falls and lands anywhere in the river basin it all runs into the lowest place in the pan, which happens to be the Amazon River. The sheer volume of rain in the Amazon jungle, as well as the slope of the surrounding land, combine to create the enormous river known as the Amazon.

news source of www.extremescience.com

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Krakatoa Volcano: The Son Also Rises

As Americans watch the volcanic activity of Mount St. Helens with awe and unease, on the other side of the world, in Indonesia, tourists flock to the site of one of the most spectacular volcanic explosions ever recorded.
Krakatoa, west of Java, erupted with such fury in 1883 that it reportedly was heard as far away as Bangkok and Australia. It blew the island of Rakata to pieces and killed more than 30,000 people. Some scientists say it was the biggest bang in recorded history.
Anak Krakatau (the "son of Krakatoa") emerged from almost the same spot and is growing every day. At roughly 1,300 feet high, it's a popular tourist destination. Many wonder whether -- or when -- it too might erupt. NPR's Michael Sullivan reports.

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