![[logo] US EPA](http://www.epa.gov/epafiles/images/logo_epaseal.gif){kind=logo}
Benefits of GEOSS in Missouri
In Missouri, Earth Observations will:
Aid in tornado preparation by using satellite data, weather models, Doppler radar, and other information; thereby, reducing natural disaster impacts.
Average annual damage from tornadoes nationally is $1.1 billion in damage.
Facilitate response to flooding and clean-up efforts after flooding by providing residents and officials better information on flooding, road loss, and extent of property damage.
Average annual damage from floods is $5.2 billion and over 80 deaths per year.2
Help manage large and small farms by providing better local and regional scale temperature, rainfall, and soil moisture information. With Earth observations information, farmers can decide the rate of fertilizer application, placement of seeds, and use of irrigation to maximize crop yield and minimize crop damage.
Evaluate stress in crops through satellite monitoring of soil moisture and tracking of plant diseases and invasive species.
Enable state and local air quality forecasters to issue more timely, accurate, and site-specific warnings about episodes of poor air quality to the public so that people (especially the sensitive population) may take prudent actions to protect their health.
It is estimated that 31 million Americans including 9 million children have asthma. Ground level ozone in the summer time is the chief cause for poor air quality warnings and human exposure to ozone is known to aggravate asthma. Another component of air, airborne particulate matter, is associated with increased hospital admissions and emergency room visits for people with heart and lung disease and increased work and school absences.3
More than one in ten adults, aged 18 years or older, in Missouri have been diagnosed with asthma.4
Provide more accurate weather forecasting and save Missouri millions of dollars in heating and cooling costs.
The value of understanding the interrelationships between weather variables and electric load can save a small utility at least $0.5 M annually through improved temperature forecasts.5
Protect watersheds through water quality monitoring and mapping of land cover changes; thereby, protecting sources of water for agriculture, forestry, and human uses.
Monitor local ground water supplies and surrounding facilities to protect groundwater resources.
Track and forecast Lyme disease through geographic analyses of people and places affected.
Promote reduction of erosion and other non-point sources of pollution in many watersheds, and help to reduce sediment, urban contributions, and fecal coliform bacteria contributions to rivers, lakes, streams and other waters, and potentially reduce phosphorus and nitrogen contributions to waters.
1 National Center for Atmospheric Research (NCAR), Environmental and Societal Impacts Group, and the Atmospheric Policy Program of the American Meteorological Society, 2001, Extreme Weather Sourcebook 2001: Economic and Other Societal Impacts Related to Hurricanes, Floods, Tornadoes, Lightning, and Other U.S. Weather Phenomena, National Center for Atmospheric Research, Boulder, Colo. Available only online at http://sciencepolicy.colorado.edu/sourcebook/data.html
2 Ibid
3 U.S. Centers for Disease Control
4 Missouri Department of Health and Senior Services, Missouri Asthma Burden Report, 2002.
5 Tribble, A.N., 2003: The relationship between weather variables and electricity demand to improve short-term load forecasting. Ph. D. dissertation, School of Meteorology, University of Oklahoma, 221 pp., from Building The National Cooperative Mesonet: Program Development Plan For COOP Modernization dated October 2003.