NASA DRYDEN ER-2 SUPPORTS SOUTHERN AFRICAN RANGE FIRE STUDY September 7, 2000 Release: 00-75 Printer Friendly Version
Fires routinely scorch the Southern African landscape at this time of year, blackening an area larger than Montana, Wyoming, Idaho, North Dakota and South Dakota combined. But this year's burning season, which reaches its peak this month, could be nearly twice as big as usual, according to researchers taking part in a NASA-supported field experiment studying the impact of these fires on global climate and the region's air quality and ecosystems.
A NASA ER-2 high-altitude research aircraft based at the Dryden Flight Research Center, Edwards, Calif., is participating in an intensive six-week field experiment in several Southern African countries that began on August 13. The experiment is combining observations from NASA's Terra and Landsat 7 spacecraft, the NASA ER-2, a University of Washington CV-580, several other aircraft and ground stations. SAFARI 2000, the Southern African Regional Science Initiative, brings together nearly 200 African, U.S., and international scientists in a multidisciplinary research effort aimed at understanding the sustainability of the region's sensitive and pressured ecosystems. The base of operations is in Pietersburg, South Africa.
SAFARI 2000 coincides with Southern Africa's dry season, the time of the most extensive biomass burning. The region is subject to some of the highest levels of biomass burning in the world.
Heavy rains earlier this year in southeastern Africa caused extensive flooding in Mozambique says ecologist Robert Scholes of the South African research organization CSIR Environmentek, one of the organizers of SAFARI 2000. The rains spurred the growth of more plant biomass, says Scholes, which results in more plant fuel to burn in the current dry season.
Scholes, noting that heavy fires followed a similar wet year in 1994, predicts that as much as twice the average acreage could burn this season. Grass-fueled fires burn rapidly and do little damage to mature trees.
August and September are the peak months for fires in most of Southern Africa. In an average year, almost 500,000 square miles of grasslands burn in Africa south of the equator. The region's heaviest burning is concentrated in the moist subtropical belt that includes Angola, the southern Congo, Zambia, northern Mozambique, and southern Tanzania.
In addition to observations of the fires and smoke from space, SAFARI 2000 researchers are using an arsenal of airborne and ground-based scientific instruments to sample the chemistry and measure the thickness of the smoke plumes, map the movements of large plumes, and investigate how smoke and other fine particles affect clouds. The collective data will be used to improve the ability of new instruments on Terra to monitor active fires, map "burn scars" left after the fires, and measure the amount of carbon monoxide in the lower atmosphere.
SAFARI 2000 planners track the changing location of fires with daily satellite maps provided by researchers at NASA's Goddard Space Flight Center. At several times during the field experiment, preplanned fires in protected areas such as game reserves are set to coincide with spacecraft passes over the region. Aircraft flights are also coordinated with these burns so that detailed measurements can be made of the fire and smoke plume.
Fire management practices are a subject of much debate in Southern Africa, as they are in the United States, says Scholes. But in Africa fire is considered less of a disaster and more of a natural and necessary part of healthy ecosystem functioning.
Fire management policies in South Africa's largest game reserve, Kruger National Park, have changed over the years from a ban on all fires to a systematic cycle of controlled burns over the entire park. Both practices resulted in unwanted changes to ecosystems and losses of biodiversity, says Scholes. As a result, Kruger instituted a new policy in the mid-1990s of fighting all man-made fires and allowing all natural fires (those ignited by lightning) to burn uncontrolled.
It's not yet clear, says Scholes, whether the benefits to the ecosystem of this new approach will outweigh the danger of allowing the load of plant fuel on the ground to accumulate. "If you don't keep the fuel load down, you can get yourself into a fire trap, like parts of California have done recently, where there is so much fuel on the ground that you're stuck," Scholes believes.
The ER-2, operated by the Airborne Science Directorate at NASA Dryden, is capable of carrying a payload of instruments in a nose bay, the main equipment bay behind the cockpit, two wing-mounted superpods, and small underbody and trailing edge pods. The aircraft typically flies above 65,000 feet. Most missions last about six hours over a range of some 2,200 nautical miles.
--nasa-- Note to Editors: Further information on SAFARI 2000 is available at: http://www.nasa.gov/goddard
Photographs of South African fires and SAFARI 2000 field activities supporting this story are available at: ftp://pao.gsfc.nasa.gov/pub/safarifires Photographs of the ER-2 are available at: /centers/dfrc/Gallery/Photo/index.html
Information about the Airborne Science Program is available at: http://www.nasa.gov/centers/dryden/research/AirSci/index.html
Video footage is available from the Dryden Public Affairs Office to support this release. For video dubs, please call (661) 276-7960. | |
