![](http://pinterest.com/pin/create/button/?url=http://trecnews4u.blogspot.com/2014/04/penyebab-dan-akibat-dari-pemanasan.html&media=https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhzT3o6acSVV947yb2HE4SjSzCvwMz4EvXJ3N4scEZUVZTcosHgmpILTb_UA_YacRtDIutAJZxxUCb8T08YQzUbgz_i_xJHU44M1s7JgLbOhrqEByy7XD_HYA8qC080sFVgYL-pq2DzbJwr/s72-c/Causes+and+consequences+of+global+climate+warming+56+million+years+ago--phys+dot+org.jpg&description=....SILAHKAN MENGGUNAKAN " MESIN TRANSLATE "..GOOGLE TRANSLATEÂ DISAMPING KANAN INI............. PLEASE USE ........ "...){kind=link}
DISAMPING KANAN INI.............
PLEASE USE ........ "TRANSLATE MACHINE" .. GOOGLE TRANSLATE BESIDE RIGHT THIS
...................
Causes
and consequences of global climate warming 56 million years ago
Causes
and consequences of global climate warming 56 million years ago
Date:
March 25,
2014
Source:
Basque Research
Summary:
Scientists have ruled out the hypothesis that the fall
in sea level was responsible for unleashing global warming 56 million years ago.
he growing and justified concern about the current global warming process has
kindled the interest of the scientific community in geological records as an
archive of crucial information to understand the physical and ecological
effects of ancient climate changes.
.....................
A study by
the UPV/EHU-University of the Basque Country has ruled out the hypothesis that
the fall in sea level was responsible for unleashing global warming 56 million
years ago.
The growing
and justified concern about the current global warming process has kindled the
interest of the scientific community in geological records as an archive of
crucial information to understand the physical and ecological effects of
ancient climate changes. A study by the UPV/EHU’s Palaeogene Study Group deals
with the behaviour of the sea level during the Palaeocene–Eocene Thermal
Maximum (PETM) 56 million years ago and has ruled out any connection. The study
has been published in the journal Palaeogeography, Palaeoclimatology,
Palaeoecology.
“The fall in
sea level did not unleash the emission of greenhouse gases during the
Palaeocene–Eocene Thermal Maximum (PETM),” pointed out Victoriano Pujalte,
lecturer in the UPV/EHU’s Department of Stratigraphy and Palaeontology, and
lead researcher of the study.
The
Palaeocene–Eocene Thermal Maximum (PETM) was a brief interval (in geological
terms, it "only” lasted about 200,000 years) of extremely high
temperatures that took place 56 million years ago as a result of a massive
emission of greenhouse gases into the atmosphere. The global temperature
increase is reckoned to have been between 5º C and 9º C. It was recorded in
geological successions worldwide and was responsible for a great ecological
impact: the most striking from an anthropological point of view was its impact
on mammals, but it also affected other organisms, including foraminifera and
nannofossils (marine microorganisms that are at the base of the trophic chain)
and plants.
However,
what actually caused this warming remains a controversial issue. The most
widely accepted hypothesis suggests that it was due to the destabilising of
methane hydrates that remained frozen on ocean floors. “Some authors, like
Higgins and Schrag (2006), for example, proposed that a fall in sea level could
have caused or co-contributed towards the unleashing of the emission of methane
or CO2,” pointed out Victoriano Pujalte, lecturer in the UPV/EHU’s
Department of Stratigraphy and Palaeontology, and lead researcher in the study.
According to this hypothesis, “the marine sediments that were submerged in the
sea were exposed when the sea level fell, and were responsible for the CO2
emissions," he added. That is what, to a certain extent, prompted this
study. Others not only reject that possibility but also the fall in sea level
itself. “We set out to try and establish the behaviour of the sea level during
that time interval, the PETM,” said Pujalte.
No
cause-effect relationship found
The studies
were carried out mainly in the Pyrenees between Huesca and Lérida, specifically
in the Tremp-Graus Basin, and also in Zumaia (Gipuzkoa, Basque Country). The
Palaeocene-Eocene rocks have outcropped extensively in both areas, in other
words, exposed on the surface, and they represent a whole range of ancient
atmospheres, both continental and marine. “They provide a unique opportunity to
explore the effects of changes in sea level and to analyse their effects,”
added Pujalte.
The most
useful indicators are the stable oxygen and carbon isotopes. The oxygen ones
provide information on palaeotemperatures, but any sign of them can only be
retrieved in deep-sea sample cores. The carbon isotopes provide data on
variations in CO2 content in the atmosphere and in the oceans, and
they can also be retrieved in ancient rocks that have outcropped in
above-ground plots of land. In general, the variations of both isotopes run
parallel, given that an increase in the proportion of CO2 is coupled
with an increase in temperature.
The results
obtained indicate that the PETM was in fact preceded by a fall in sea level,
the size of which is estimated to have been about 20 metres and the maximum
descent of which probably occurred about 75 million years before the start of
the PETM. “However, it is doubtful that the descent was the cause of the PETM,
although it could have contributed towards it," pointed out Victoriano
Pujalte. “They occurred at the same time, but there is no cause-effect
relationship.”
Furthermore,
the researchers observed that the rise in the sea level continued after the
PETM, when the global temperature returned to normal levels. “Its origin was
not only caused, therefore, by the thermal expansion of the oceans linked to
the warming,” said Pujalte. “It is suggested that the most likely cause of it
was the volcanic activity documented in the North Sea during the end of the
Palaeocene and start of the Eocene; this activity was related to the expansion
of the oceanic ridge in the North Atlantic,” he concluded.
Story
Source:
The above
story is based on materials provided by Basque Research.
Note: Materials may be edited for content and length.
Journal
Reference:
- Victoriano Pujalte, Birger Schmitz, Juan Ignacio Baceta. Sea-level changes across the Paleocene–Eocene interval in the Spanish Pyrenees, and their possible relationship with North Atlantic magmatism. Palaeogeography, Palaeoclimatology, Palaeoecology, 2014; 393: 45 DOI: 10.1016/j.palaeo.2013.10.016
