The huge rise in sea levels has been understood for some time though it is
not yet common knowledge. These guys
went out and refined the curve as much as possible. We are still left with averages, but the big
changes are holding up. Most important
the first melt back began 19,000 years ago and I would guess that the second
melt back began around 14,000 years ago, but was possibly masked by the
continuation of the preceding melt back.
The unanswered question is why?
There is ample support for a directed crustal shift for the second event
and I have posted extensively on this.
It is reasonable that the first melt back was triggered naturally by a
less than ideal first shift as has been suggested by other commentators. This provided confirmation of the possibility
and showed what was possible if the crust was placed properly.
Otherwise we have no working theory for the ice ages that has ever stood
up unless you wish to have an hundred impossibilities before breakfast.
Like the original theory of plate tectonics, the theory of Hapwood and
Einstein was dismissed because of no mechanism allowing a slippery crust. I have overcome that omission in earlier
posts and articles. The weight of
outright evidence forced acceptance of the first and ample evidence is
available for the second.
In the meantime this polishes the sea level data but does not pick up the
fast flood brought on by Lake
Agassiz . The resolution is not so good.
Global Sea-Level Rise At The End Of
The Last Ice Age
by Staff
Writers
The researchers brought together about 400 high-quality sea-level
markers from study sites around the globe, concentrating on locations far
removed from the distorting effects of the past massive ice sheets.
Southampton researchers have estimated that sea-level rose by an average of about 1 metre per century at the end of the last Ice Age, interrupted by rapid 'jumps' during which it rose by up to 2.5 metres per century. The findings, published in Global and Planetary Change, will help unravel the responses of ocean circulation and climate to large inputs of ice-sheet meltwater to the world ocean.
Global sea level rose
by a total of more than 120 metres as the vast ice sheets of the last Ice Age
melted back. This melt-back lasted from about 19,000 to about 6,000 years ago,
meaning that the average rate of sea-level rise was roughly 1 metre per
century.
Previous studies of
sea-level change at individual locations have suggested that the gradual rise
may have been marked by abrupt 'jumps' of sea-level rise at rates that
approached 5 metres per century. These estimates were based on analyses of the
distribution of fossil corals around Barbados
and coastal drowning along the Sunda Shelf, an extension of the continental shelf
of East Asia .
However, uncertainties
in fossil dating, scarcity of sea-level markers, and the specific
characteristics of individual sites can make it difficult to reconstruct global
sea level with a high degree of confidence using evidence from any one site.
"Rather than
relying on individual sites that may not be representative, we have compared
large amounts of data from many different sites, taking into account all
potential sources of uncertainty," said Professor Eelco Rohling of the
University of Southampton's School of Ocean and Earth Science (SOES) based at
the National Oceanography Centre (NOC) in Southampton.
The researchers
brought together about 400 high-quality sea-level markers from study sites
around the globe, concentrating on locations far removed from the distorting
effects of the past massive ice sheets.
Using an extensive
series of sophisticated statistical tests, they then reconstructed sea-level
history of the last 21 thousand years with a high degree of statistical
confidence.
Their analyses
indicate that the gradual rise at an average rate of 1 metre per century was
interrupted by two periods with rates of rise up to 2.5 metres per century,
between 15 and 13 thousand years ago, and between 11 and 9 thousand years ago.
The first of these
jumps in the amount of ice-sheet meltwater entering the world ocean coincides
with the beginning of a period of global climate warming called the Bolling-Allerod
period. The second jump appears to have happened shortly after the end the 'big
freeze' called the Younger Dryas that brought the Bolling-Allerod period to an
abrupt end.
"Our estimates of
rates of sea-level rise are lower than those estimated from individual study
sites, but they are statistically robust and therefore greatly improve our
understanding of loss of ice volume due to the melting of the ice sheets at the
end of the last Ice Age," said lead author Dr Jennifer Stanford of SOES.
"The new findings
will be used to refine models of the Earth climate system, and will thus help
to improve forecasts of future sea-level responses to global climate change," added Rohling.
The researchers are
Jenny Stanford, Rebecca Hemingway, Eelco Rohling and Martin Medina-Elizalde
(SOES), Peter Challenor (NOC) and Adrian Lester (The Chamber of Shipping, London ). Stanford, J. D.,
Heminway, R., Rohling E. J., Challenor, P. G., Medina-Elizalde, M. and Lester,
A. J. Sea-level probability for the last deglaciation: A statistical analysis
of far-field records. Global and Planetary Change (Published online, November
2010).
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