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DSCOVR Solves – Environment



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DSCOVR Solves – Environment



The satellite is key to monitoring the Global Climate Change and Solar Storms

Yeager, 8

(11/19/08, Ashley Y., Nature, “Satellite risks losing sight of Earth,” http://www.nature.com/news/2008/081119/full/456292a.html, PHS)


NASA is scrambling to work out what to do with a US$100-million Earth-science satellite that has been sitting on a sanitized shelf in Greenbelt, Maryland, for nearly eight years. Last month, President George W. Bush signed a NASA reauthorization bill that, among other things, ordered the agency to come up with a plan for the Deep Space Climate Observatory (DSCOVR), which should have been launched around 2001. The space agency is now in talks with the National Oceanic and Atmospheric Administration (NOAA) and the US Air Force about finally getting the probe off the ground. But the negotiations might mean that the spacecraft loses its Earth-observing instruments and instead goes into orbit with a remit to stare only at the Sun. Stripping the two Earth-monitoring systems from DSCOVR to save money is an “appalling” idea, says Francisco Valero, the mission’s principal investigator at the Scripps Institution of Oceanography in La Jolla, California. A 2006 NOAA study estimated it would take $117 million to refurbish and launch the spacecraft; a 2007 study from NASA put that figure at $205 million. DSCOVR was meant to be the first Earth-observing mission sent to the Lagrange-1 (L-1) point, a parking place 1.5 million kilometres away from Earth in the direction of the Sun. From there the craft would take measurements that would allow scientists to work out Earth’s energy budget — how much radiation the planet absorbs and re-emits — in one take. Satellites in low-Earth orbit make similar energy measurements but can observe only small sections of Earth at a time. DSCOVR would offer a “global, rather than myopic, perspective of the planet”, Valero says. One of its Earth-monitoring instruments, a spectroradiometer, would indirectly measure variables such as ozone levels, aerosols, cloud thickness and water vapour. The other, a radiometer, would measure reflected and emitted radiation for the whole planet. “DSCOVR would offer a global, rather than myopic, perspective of the planet.” Yet the Air Force and NOAA seem more interested in studying the Sun, Valero says. Both are responsible for monitoring solar weather and storms, which can damage or knock out communications and global-positioning satellites. The Advanced Composition Explorer (ACE) satellite is currently based at L-1 to watch for solar eruptions. It sends a one-hour advance warning back to Earth of any impending storms. The 11-year-old ACE instruments are nearing the end of their designed lifespan, so “we are reviewing a variety of options” to replace them, says Colonel Shawn Barnes of the Air Force Space Command. DSCOVR has three Sun-observing instruments that could perform the ACE observations, and top NASA officials have confirmed that the three agencies are discussing how to use the mothballed craft to monitor solar wind and space weather. DSCOVR was originally meant to fly around 2001 aboard the space shuttle. But NASA postponed the launch after Congress demanded an independent review of the probe’s scientific merit. The satellite is a renamed version of Al Gore’s proposed Earth-watching satellite, called Triana. After the review found that the mission’s science goals were still valid, NASA sought another ride for it. In 2001, the French space agency discussed with NASA the possibility of launching Triana, but funding constraints ruled that out. And the 2003 Columbia disaster meant that the mission was out of luck for a shuttle ride. NASA eventually cancelled the mission in January 2006. In May 2007, NASA held a workshop to look at whether NOAA might fly the spacecraft instead. NOAA wanted the launch but “DSCOVR didn’t rise to be NASA’s highest priority”, says Hal Maring, the NASA programme manager who directed the workshop. That’s in part because the 2007 National Research Council decadal survey did not rank the mission among the 17 ‘highest priority’ Earth-observing missions that NASA and NOAA should develop and launch in the next ten years. Since then the scientific community has showed renewed interest in seeing DSCOVR fly. In March 2008, the Ernst Strüngmann Foundation in Frankfurt, Germany, held an invitation-only forum for 44 top climate scientists. Many participants, none of whom was directly involved with DSCOVR, agreed that satellite observations of Earth from L-1 are essential for assessing changes in cloud cover and climate. The issue was pushed to the top of the agenda last month after Bush signed the NASA Reauthorization Act, legislation that directs the space agency in its programmes and budget priorities for 2009. NASA has until 13 April next year to report its plans to Congress.
DSCOVR offers a unique opportunity for scientists to observe climate change and Solar flares

Valero, et. al, 06 ‘

(July 2006, Valero, F. P. J.; Herman, J.; Minnis, P., “DSCOVR, a new approach to Earth Sciences from Space,” http://adsabs.harvard.edu/abs/2006cosp...36.1653V PHS)


The L-1 and L-2 Earth-Sun Lagrange points mark positions where the gravitational pull of the Earth and Sun precisely equals the centripetal force required to rotate with the Earth about the Sun with the same orbital period as the Earth Therefore a satellite maintained at or near one of these Lagrange points would keep the same relative position to the Sun and the Earth and be able to observe most points on the planet as the Earth rotates during the day L-1 and L-2 are of particular interest because a satellite at either location can easily be maintained near the Sun-Earth line and views respectively the entire daytime hemisphere or the entire nighttime hemisphere Synoptic high temporal-resolution observations would be obtained as every point on the planet transits from sunrise to sunset L-1 or from sunset to sunrise L-2 A pair of deep-space observatories one at L-1 and one at L-2 could simultaneously observe almost the entire Earth s surface and atmosphere Such unique attributes are incorporated in the Deep Space Climate Observatory DSCOVR that will systematically observe climate drivers radiation aerosols ozone clouds water vapor from L-1 in a way not possible with other satellites The combination of Solar Lagrange Points SLPs LEO and GEO satellites would certainly provide a powerful observational tool as well as enriched data sets for Earth sciences Such synergism is greatly enhanced when one considers the potential of utilizing LEO GEO and SLPs satellites as an integrated observational system.



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