TORONTO, August 10, 2010 -- York University researchers will participate in a mission probing the atmosphere of Mars for sources of methane, part of the ongoing search for evidence of life on the red planet.
Researchers from the Faculty of Science & Engineering will be part of a team of Canadian scientists responsible for a device that will measure and diagnose components of Mars’ atmosphere. The instrument, dubbed MATMOS (Mars Atmospheric Trace Molecule Occultation Spectrometer), is a partnership between the California Institute of Technology (Caltech), the Canadian Space Agency (CSA), and NASA’s Jet Propulsion Laboratory (JPL). It will ride aboard the ExoMars Trace Orbiter, a joint mission by NASA and the European Space Agency, slated to launch in 2016.
York scientists will engage in atmospheric modelling and analysis, constructing a weather and chemical forecast of Mars that will help analyze the MATMOS composition data to assess the sources of various component gases. Methane was discovered on Mars in 2003 in greater abundance than expected; because the gas is readily produced by biological activity, it is considered a key biomarker for signs of life.
“We’re looking to find out what is the source of the methane – is it biogenic or geological in origin? Much of the methane we see on Earth is life-based. Determining its source on Mars leads us one step closer to the question of whether the planet can support life,” says Jack McConnell, professor of atmospheric science in the Department of Earth & Space Science & Engineering.
The MATMOS instrument will look at the atmosphere edgewise, rather than simply from above. This will enhance its ability to see multiple layers of the atmosphere.
“Think of it like looking down from the CN Tower at the smog in Toronto. When you’re peering down through it, the sky usually looks relatively clear. But if you were to look at it from the side, you’d be able to see much more pollution,” he says.
The device also has a high spectral resolution, enabling it to more accurately detect the presence of a variety of gases. Besides methane, scientists will also monitor CO2, carbon monoxide, nitric oxide, water vapour and ozone.
McConnell, alongside York colleagues Jim Whiteway and Jacek Kaminski, will lend expertise to another instrument aboard the ExoMars orbiter: the SOIR-NOMAD (Solar Occultation in the InfraRed – Nadir and Occultation for Mars Discovery) experiment. They will contribute their knowledge in the areas of atmospheric modelling and expertise on cloud formation on Mars.
The Canadian science team includes prominent Canadian atmospheric and planetary researchers from Dalhousie University, the University of Toronto, and the University of Winnipeg.
The MATMOS instrument will build on the expertise Canada has acquired from the CSA's SCISAT-I mission, which has been using a similar technique and technology to study ozone depletion in Earth's atmosphere since 2003. The CSA will fund the conceptual phase of the Canadian contribution to MATMOS, and has selected ABB Bomem as the prime contractor for the Canadian elements. Canada's contribution will include the heart of the instrument: a detection instrument known as an interferometer; a solar imager; and optical components that will collect light for the entire instrument.
For more information on MATMOS, visit: http://www.asc-csa.gc.ca/eng/media/news_releases/2010/0802.asp
For more information on SOIR-NOMAD, visit: http://www.aeronomie.be/en/press/soir-nomad.htm
-30-
York University is the leading interdisciplinary research and teaching university in Canada. York offers a modern, academic experience at the undergraduate and graduate level in Toronto, Canada’s most international city. The third largest university in the country, York is host to a dynamic academic community of 50,000 students and 7,000 faculty and staff, as well as 200,000 alumni worldwide. York’s 10 Faculties and 28 research centres conduct ambitious, groundbreaking research that is interdisciplinary, cutting across traditional academic boundaries. This distinctive and collaborative approach is preparing students for the future and bringing fresh insights and solutions to real-world challenges. York University is an autonomous, not-for-profit corporation.
Media Contact:
Melissa Hughes, Media Relations, York University, 416 736 2100 x 22097, mehughes@yorku.ca