by CAROLE ROBERTS
Artist's impression of an active volcano on
Venus. Results from a long-term study of Venus find evidence of a clear
injection of sulphur dioxide into its upper atmosphere. One possible
interpretation is that a period of volcanic activity increased the sulphur
dioxide component of the upper atmosphere, although an alternative is that a
change atmospheric circulation dredged up the gas. Credit:
For decades, planetary scientists have debated
whether Venus possesses active volcanoes. The latest twist to the tale is
provided by data sent back from ESA's Venus Express orbiter, revealing
unexplained major changes in the amount of sulphur dioxide gas above the
planet's dense cloud layer. Since Earth and Venus are similar in size and
mass, and both planets formed around the same time and in the same region of
the Solar System, one might expect them to virtual twins. However, Venus is
enveloped by a thick blanket of clouds, composed mainly of sulphuric acid
droplets. Hurricane force winds at the cloud tops sweep around the planet in
only four days – a phenomenon known as super-rotation.
This figure shows the volcanic peak Idunn Mons
(at 46 degrees south latitude, 214.5 degrees east longitude) in the Imdr Regio
area of Venus. The topographic backbone derives from data obtained by NASA's
Magellan spacecraft, with a vertical exaggeration of 30 times. Radar data (in
brown) from Magellan has been draped on top of the topographic data. Bright
areas are rough or have steep slopes. Dark areas are smooth.
The coloured overlay shows the heat patterns
derived from surface brightness data collected by the Visible and InfraRed
Thermal Imaging Spectrometer, aboard the European Space Agency's Venus Express
spacecraft. Temperature variations due to topography were removed. The
brightness signals the composition of the minerals that have been changed due
to lava flow. Red-orange is the warmest area and purple is the coolest. The
warmest area is centered on the summit, which stands about 2.5 kilometers (1.6
miles) above the plains, and the bright flows that originate there. Idunn Mons
has a diameter of about 200 kilometers (120 miles).
The spectrometer data was collected from May
2006 to the end of 2007. See also the video featuring 360-degree views of the
volcano that is based on the same data.
Beneath the clouds, the carbon-dioxide-rich
atmosphere has a density 90 times greater than on Earth. This suffocating
atmosphere acts like a greenhouse, trapping solar heat and causing the surface
temperature to soar to around 460 degrees Celsius.
Although it is the closest planet to Earth and
it has been visited by numerous spacecraft, Venus retains many mysteries. One
enduring question is whether there are any active volcanoes.
Radar imagery has revealed more than 1000
volcanic structures and evidence of possible periodic resurfacing of the planet
by floods of lava. By studying emission of infrared radiation from lava flows
around a volcanic mountain, Venus Express has also found indirect evidence that
volcanism has taken place within the last 2.5 million years. However, no
definitive proof of current volcanic eruptions has yet been found, and the
debate continues to rage.
The rise and fall of sulphur dioxide in the
upper atmosphere of Venus over the last 40 years, expressed in units of parts
per billion by volume (ppbv). The dataset on the left is mostly from NASA's
Pioneer Venus, which was in orbit around Venus from 1978 to 1992. The dataset
on the right is from ESA's Venus Express, which has been studying Venus since
2006. A clear rise in the concentration of sulphur dioxide (SO2) concentration
was observed at the start of the mission, with a subsequent decrease. The
increase in sulphur dioxide can be interpreted either as evidence for volcanic
activity or for decadal-scale variations in the circulation of Venus' vast
atmosphere. The data are superimposed on an artist
impression of Venus, depicting a volcanic terrain surrounded by a thick,
noxious atmosphere. ESA/AOES Medialab
The latest contribution to the investigation
into active Venusian volcanism comes from the SPICAV-UV spectrometer on board
Venus Express, which has been in orbit around the planet since 2006. By
studying the SPICAV data, a team of scientists from France and Russia has
discovered an unusual change in the amount of sulphur dioxide (SO2) gas in the
upper atmosphere.
The SPICAV data show that the concentration of
SO2 above the main cloud deck increased slightly to about 1000 parts per
billion by volume (ppbv) between 2006 and 2007, but then steadily decreased
over the next five years, reaching only 100 ppbv by 2012. This is very
reminiscent of a pattern observed by Pioneer Venus during the 1980s, the only
other multi-year dataset of SO2 measurements.
Since Venus does not experience any seasons, the
authors of the paper in Nature Geoscience suggest two possible explanations:
periods of active volcanism, or long-term variability in the general
circulation of the atmosphere.
"Sulphur dioxide is a key indicator of the
processes taking place in the upper atmosphere of Venus," said Emmanuel
Marcq, of LATMOS, Université de Versailles-Saint-Quentin, France, the lead
author of the paper.
"SO2 is known to be an important, and
constant, constituent of the lower atmosphere of Venus. A steady supply of SO2
to high levels is provided by air rising from the hot, lower atmosphere. When
it gets above the clouds, SO2 is rapidly destroyed by solar UV light, so it has
a very short life, less than half a day, in the upper atmosphere of Venus."
"This means that the only explanation for a
marked rise and fall in SO2 concentration at an altitude of 70 km is an
enhanced injection of enriched gas from lower levels, beneath the clouds."
Although SO2 is an important constituent of
volcanic outgassing, the authors of the paper suggest that the increase
observed by Venus Express may be the result of a plume of heated gases rising
to high altitudes, rather than a direct injection of SO2.
"An explosive volcanic eruption, rather
like a more powerful version of the 1991 Mt. Pinatubo eruption on Earth, could
act like a piston, blasting a column of gas up to these levels," said
co-author Jean-Loup Bertaux, Principal Investigator for Venus Express SPICAV
instrument that made the detections. "This extra convection could carry
SO2 above the clouds and temporarily increase its concentration."
On the other hand, the amount of SO2 in the
lower atmosphere has remained remarkably stable at very high levels over more
than a decade, and there has been no evidence of an increase in thermal
emission from the planet's surface to coincide with the changes observed by
SPICAV. This opens up the possibility that the increased levels of SO2 above
the clouds could have been caused by a change in the global atmospheric
circulation which increased the movement of gases from the lower to upper
atmosphere.
"During periods of scarce SO2, there is
usually a greater amount above the poles of Venus than near the equator,"
said Emmanuel Marcq. "However, this distribution pattern was reversed in
our 2006-2007 data when SO2 was abundant. This suggests that there may have
been stronger advection (upwelling) near the equator of air from the lower, SO2
-enriched regions of the atmosphere until 2007. Over the same period of time,
the mean UV brightness of the cloud tops also declined.
"It is possible that long-term variations
occur in the atmospheric circulation, resulting in injections of SO2 from lower
levels and changes in cloud chemistry, revealed by observations of UV
absorption."
"The atmospheric circulation of the planet
is not yet fully understood," said Jean-Loup Bertaux, "but we believe
there may be two simple Hadley cells in which air rises at the equator, spreads
out at cloud level towards the poles, then sinks toward the surface, before
flowing back to the equator.
"Whichever explanation is correct, it seems
that the shift in SO2 concentrations between the poles and equator, as well as
the periodic rise and fall at high altitudes, are consistent with fluctuations
in the SO2 supply from the lower atmosphere at low latitudes."
"There are very few opportunities to search
for evidence of active volcanism on Venus," said HÃ¥kan Svedhem, ESA's
project scientist for Venus Express. "Since there are no other spacecraft
studying Venus at the present time, Venus Express is the only means to find
evidence for such activity. Although it is not yet possible to explain the
results, the SPICAV data are very intriguing and show once again the
similarities in the physical processes that occur on the terrestrial
planets."
Source: ESA Mars Express
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