27.11.2007
PRESS RELEASE
Arctic Centre,
Embargo: 27.11.2007,
01.00 CET
Volcanic eruptions raise global sea level
Major volcanic eruption’s effect on the global water
cycle and sea level changes equal to El Niño’s, researchers say.
Large volcanic
eruptions inject aerosols into the stratosphere, and these
aerosols reflect sunlight causing global dimming and
thus lower temperatures
at the earth surface. The cooling of the ocean
surface causes less
evaporation. As water flux from terrestrial reservoirs and
river discharge
continue, the reduced evaporation leads to a global sea
level rise of 6-12
millimeters during the first year following an eruption.
This results from
research by Professor John Moore, Dr. Aslak Grinsted and
Dr. Svetlana Jevrejeva, published in Proceedings of the
Sciences of the
After approximately
one year, stratospheric aerosols have been removed and
evaporation reaches normal values. However, now the river
discharge is
reduced due to the low precipitation in the preceding
year and sea level
therefore drops by 4-10 millimeters 2-3 years after the
eruption.
The magnitude of this
phenomena is similar to the impact of El Niño -
Southern Oscillation,
which causes heavy rainfall in
the eastern Pacific and global changes in weather.
To
quantify the impact of eruptions, Prof. Moore, Dr. Grinsted
and Dr.
Jevrejeva used records from 830 tide gauges across the
globe, and five major
eruptions between 1890 and the Pinatubo eruption of 1991. The effects of
climate change and other disturbances such as
earthquakes and uneven
distribution of tide gauges were eliminated from the data
by using novel
statistics.
No other previous sea
level reconstruction has been accurate enough to show
either drop or rise caused by volcanic eruptions.
Climate models have only
showed the drop.
For more information, please contact:
Research Professor,
John Moore, Arctic Centre,
Finland/Thule
Institute,
Email: john.moore (at) ulapland.fi
Researcher, Dr. Aslak Grinsted Arctic Centre,
Email: aslak.grinsted (at) ulapland.fi
www.arcticcentre.org
Researcher, Dr.
Svetlana Jevrejeva, Proudman
Oceanographic Laboratory,
Switchboard: +44 (0)
151 795 4800
Email: sveta (at) pol.ac.uk
Further alternative
text:
Until now climate models showed that large volcanic
eruptions lowered global sea level. In fact, we prove that sea level rises in
the year following an eruption. This illustrates how difficult realistic
climate modeling is and that unexpected surprises often occur.
We examined the impact of the 5
& 9 largest volcanic eruptions on global sea level. Global
sea level was inferred from the observational records from 830 tide gauges all
around the world. Sea level is complicated because many factors influence it.
We use novel statistics and an optimum way to collate the global network of
tide gauges to make the best record of sea level and its uncertainty since
1854. From this we isolate the volcanic signature which surprisingly behaves
very differently than models predict. The mechanism that explains the result is:
1. Large volcanic eruption inject aerosols into
the stratosphere
2. These aerosols reflect sunlight causing a
global dimming, thus lowering temperatures at the earth surface.
3. The cooling of the ocean ‘skin’ causes less
evaporation.
4. Less evaporation
leads to less precipitation and hence less water in terrestrial reservoirs and
less river discharge.
This influences sea level in two ways:
1. Lower evaporation cause an imbalance in water
fluxes to/from the ocean. -Sea level rises by 9±3 mm (dependent on amount on
eruption aerosol in stratosphere). After approximately one year the
stratospheric aerosol has been removed and evaporation reaches normal values.
However, now the river discharge is reduced due to the low precipitation in the
preceding years and sea level therefore drops accordingly.
2. The lower ocean temperatures lead to a
densification which lowers sea level by ~7±3 mm (2-3 years after the eruption).
The water cycle disturbance causes an ‘immediate’ rise in sea level which is
then followed by the drop due to ocean densification. It is the only the drop
that has been modeled in the past, and no other sea level reconstruction is
accurate enough to show either drop or rise in the volcanic signature.