![](http://pinterest.com/pin/create/button/?url=http://trecnews4u.blogspot.com/2015/10/tanda-tanda-mega-tsunami-kuno-bisa.html&media=https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjt6lcqcRQZLb4gUXtajzGtsopESapOjDlJwBiDpXkceSjxbQDjih7utwx3o2LlJxtR2yhg1gr9z7PorbntAu3E4KC3EclSPUTqHhynzwdc9Eq8Xz4VmqQtQzkzZYPW3Hl06xB6ri_TP0lJ/s72-c/151002144903_1_540x360.jpg&description=S ILAHKAN MENGGUNAKAN " MESIN TRANSLATE "..GOOGLE TRANSLATE DISAMPING KANAN INI............. PLEASE USE ........ "TRANSLATE M...){kind=link}
DISAMPING KANAN INI.............
PLEASE USE ........ "TRANSLATE MACHINE" .. GOOGLE TRANSLATE BESIDE RIGHT THIS
.................
T-REC -TUGUMUDA REPTILES COMMUNITY-INDONESIA
More info :
www.trecsemarang2011.blogspot.com
minat gabung : ( menerima keanggotaan seluruh kota dan daerah di Indonesia )
08995557626
..................................
KSE – KOMUNITAS SATWA EKSOTIK – EXOTIC PETS COMMUNITY-- INDONESIA
Visit Our Community and Joint W/ Us....Welcome All Over The World
www.facebook.com/groups/komunitassatwaeksotik/
KSE = KOMUNITAS SATWA EKSOTIK
MENGATASI KENDALA MINAT DAN JARAK
KAMI ADA DI TIAP KOTA DI INDONESIA
DETAIL TENTANG KSE-----KLIK : www.komunitassatwaeksotik-pendaftaran.blogspot.com
GABUNG......... ( menerima keanggotaan seluruh kota dan daerah di Indonesia )
HUBUNGI : 089617123865-08995557626
.........................
Tanda-tanda mega – tsunami kuno bisa meramalkan bahaya di zaman modern
Bukti gelombang 800 - kaki di Kepulauan Tanjung Verde
Date:
October 2, 2015
Source:
The Earth Institute at Columbia University
Summary:
Para ilmuwan yang bekerja di barat Afrika di Cape Verde Islands telah menemukan bukti bahwa keruntuhan tiba-tiba gunung berapi yang ada puluhan ribu tahun yang lalu akibat tsunami laut yang mengerdilkan apa yang pernah dilihat oleh manusia . Para peneliti mengatakan gelombang 800 - kaki menelan sebuah pulau lebih dari 30 mil jauhnya . Studi ini bisa menghidupkan kembali kontroversi apakah reruntuhan raksasa tiba-tiba menimbulkan bahaya yang realistis saat ini di sekitar pulau-pulau vulkanik , atau bahkan di sepanjang pantai benua yang lebih jauh .
.......... " Maksud kami adalah bahwa reruntuhan sayap bisa terjadi sangat cepat dan serempak , dan karena itu mampu memicu tsunami raksasa, " kata pemimpin penulis Ricardo Ramalho , yang melakukan penelitian sebagai postdoctoral di Columbia University Lamont - Doherty Earth Observatory , di mana dia sekarang seorang ilmuwan tambahan . " Mereka mungkin tidak sering terjadi . Tapi kita perlu mempertimbangkan hal ini ketika kita berpikir tentang potensi bahaya dari jenis-jenis fitur vulkanik . ".....more
Signs of ancient mega-tsunami could portend modern hazard
Evidence of an 800-foot wave in the Cape Verde Islands
Date:
October 2, 2015
Source:
The Earth Institute at Columbia University
Summary:
Scientists working off west Africa in the Cape Verde Islands have found
evidence that the sudden collapse of a volcano there tens of thousands of years
ago generated an ocean tsunami that dwarfed anything ever seen by humans. The
researchers say an 800-foot wave engulfed an island more than 30 miles away.
The study could revive a simmering controversy over whether sudden giant
collapses present a realistic hazard today around volcanic islands, or even
along more distant continental coasts.
.....................
Scientists working off west Africa in the Cape Verde Islands have found
evidence that the sudden collapse of a volcano there tens of thousands of years
ago generated an ocean tsunami that dwarfed anything ever seen by humans. The
researchers say an 800-foot wave engulfed an island more than 30 miles away. The
study could revive a simmering controversy over whether sudden giant collapses
present a realistic hazard today around volcanic islands, or even along more
distant continental coasts. The study appears today in the journal Science Advances.
"Our point is that flank collapses can happen extremely fast and
catastrophically, and therefore are capable of triggering giant tsunamis,"
said lead author Ricardo Ramalho, who did the research as a postdoctoral
associate at Columbia University's Lamont-Doherty Earth Observatory, where he
is now an adjunct scientist. "They probably don't happen very often. But
we need to take this into account when we think about the hazard potential of
these kinds of volcanic features."
The apparent collapse occurred some 73,000 years ago at the Fogo volcano,
one of the world's largest and most active island volcanoes. Nowadays, it
towers 2,829 meters (9,300 feet) above sea level, and erupts about every 20
years, most recently last fall. Santiago Island, where the wave apparently hit,
is now home to some 250,000 people.
There is no dispute that volcanic flanks present a hazard; at least eight
smaller collapses have occurred in Alaska, Japan and elsewhere in the last
several hundred years, and some have generated deadly tsunamis. But many scientists
doubt whether big volcanoes can collapse with the suddenness that the new study
suggests. Rather, they envision landslides coming in gradual stages, generating
multiple, smaller tsunamis. A 2011 French study also looked at the Fogo
collapse, suggesting that it took place somewhere between 124,000-65,000 years
ago; but that study says it involved more than one landslide. The French
researchers estimate that the resulting multiple waves would have reached only
45 feet--even at that, enough to do plenty of harm today.
A handful of previous other studies have proposed much larger prehistoric
collapses and resulting megatsunamis, in the Hawaiian islands, at Italy's Mt.
Etna, and the Indian Ocean's Reunion Island. But critics have said these
examples are too few and the evidence too thin. The new study adds a new
possible example; it says the estimated 160 cubic kilometers (40 cubic miles)
of rock that Fogo lost during the collapse was dropped all at once, resulting
in the 800-foot wave. By comparison, the biggest known recent tsunamis, which
devastated the Indian Ocean's coasts in 2004 and eastern Japan in 2011, reached
only about 100 feet. (Like most other well documented tsunamis, these were
generated by movements of undersea earthquake faults--not volcanic collapses.)
Santiago Island lies 55 kilometers (34 miles) from Fogo. Several years ago,
Ramalho and colleagues were working on Santiago when they spotted unusual
boulders lying as far as 2,000 feet inland and nearly 650 feet above sea level.
Some are as big as delivery vans, and they are utterly unlike the young
volcanic terrain on which they lie. Rather, they match marine-type rocks that
ring the island's shoreline: limestones, conglomerates and submarine basalts.
Some weigh up to 770 tons. The only realistic explanation the scientists could
come up with: A gigantic wave must have ripped them from the shoreline and
lofted them up. They derived the size of the wave by calculating the energy it
would have taken to accomplish this feat.
To date the event, in the lab Ramalho and Lamont-Doherty geochemist Gisela
Winckler measured isotopes of the element helium embedded near the boulders'
surfaces. Such isotopes change depending on how long a rock has been lying in
the open, exposed to cosmic rays. The analyses centered around 73,000
years--well within the earlier French estimate of a smaller event. The analysis
"provides the link between the collapse and impact, which you can make
only if you have both dates," said Winckler.
Tsunami expert Bill McGuire, a professor emeritus at University College
London who was not involved in the research, said the study "provides
robust evidence of megatsunami formation [and] confirms that when volcanoes
collapse, they can do so extremely rapidly." Based on his own work, McGuire
s says that such megatsunamis probably come only once every 10,000 years.
"Nonetheless," he said, "the scale of such events, as the Fogo
study testifies, and their potentially devastating impact, makes them a clear
and serious hazard in ocean basins that host active volcanoes."
Ramalho cautions that the study should not be taken as a red flag that
another big collapse is imminent here or elsewhere. "It doesn't mean every
collapse happens catastrophically," he said. "But it's maybe not as
rare as we thought."
In the early 2000s, other researchers started publishing evidence that the
Cape Verdes could generate large tsunamis. Others have argued that Spain's
Canary Islands have already done so. Simon Day, a senior researcher at
University College London has sparked repeated controversy by warning that any
future eruption of the Canary Islands' active Cumbre Vieja volcano could set
off a flank collapse that might form an initial wave 3,000 feet high. This, he
says, could erase more than nearby islands. Such a wave might still be 300 feet
high when it reached west Africa an hour or so later he says, and would still
be 150 feet high along the coasts of North and South America. So far, such
studies have raised mainly tsunamis of publicity, and vigorous objections from
other scientists that such events are improbable. A 2013 study of deep-sea
sediments by the United Kingdom's National Oceanography Centre suggests that
the Canaries have probably mostly seen gradual collapses.
Part of the controversy hangs not only on the physics of the collapses
themselves, but on how efficiently resulting waves could travel. In 1792, part
of Japan's Mount Unzen collapsed, hitting a series of nearby bays with waves as
high as 300 feet, and killing some 15,000 people. On July 9, 1958, an
earthquake shook 90 million tons of rock into Alaska's isolated Lituya Bay;
this created an astounding 1,724-foot-high wave, the largest ever recorded. Two
fishermen who happened to be in their boat that day were carried clear over a
nearby forest; miraculously, they survived.
These events, however, occurred in confined spaces. In the open ocean,
waves created by landslides are generally thought to lose energy quickly, and
thus to pose mainly a regional hazard. However, this is based largely on
modeling, not real-world experience, so no one really knows how fast a killer
wave might decay into a harmless ripple. In any case, most scientists are more
concerned with tsunamis generated by undersea earthquakes, which are more
common. When seabed faults slip, as they did in 2004 and 2011, they shove
massive amounts of water upward. In deep water, this shows up as a mere swell
at the surface; but when the swell reaches shallower coastal areas, its energy
concentrates into in a smaller volume of water, and it rears up dramatically.
The 2004 Indian Ocean earthquake and tsunami killed 230,000 people in 14
countries; the 2011 Tohoku event killed nearly 20,000 in Japan, and has caused
a long-term nuclear disaster.
James Hunt, a tsunami expert at the United Kingdom's National Oceanography
Centre who was not involved in the study, said the research makes it clear that
"even modest landslides could produce high-amplitude anomalous tsunami
waves on opposing island coastlines." The question, he said, "is
whether these translate into hazardous events in the far field, which is
debatable."
When Fogo erupted last year, Ramalho and other geologists rushed in to
observe. Lava flows (since calmed down) displaced some 1,200 people, and
destroyed buildings including a new volcano visitors' center. "Right now,
people in Cape Verde have a lot more to worry about, like rebuilding their
livelihoods after the last eruption," said Ramalho. "But Fogo may
collapse again one day, so we need to be vigilant."
Story Source:
The above post is reprinted from materials provided by The Earth Institute at Columbia University. Note:
Materials may be edited for content and length.
Journal Reference:
1.
R. S. Ramalho, G. Winckler, J. Madeira, G. R. Helffrich, A. Hipolito, R.
Quartau, K. Adena, J. M. Schaefer. Hazard potential of volcanic flank
collapses raised by new megatsunami evidence. Science Advances,
2015; 1 (9): e1500456 DOI: 10.1126/sciadv.1500456