The effects of severe weather are felt every year by many South Africans. To obtain critical weather information, the SAWDOS use voluntary weather observers. These volunteers help keep their local communities safe and informed by providing timely and accurate reports of severe weather to the SAWDOS for publication on the Blog. The SAWDOS is a non-profit organization that renders a FREE COMMUNITY-BASED SERVICE.
Pages
- Home
- SAWDOS1 Twitter South Africa Tweets
- SAWDOS2 Twitter World Wide Tweets
- TrafficSA Twitter Updates
- RSOE Emergency and Disaster Information Service
- USGS Earthquake Monitor
- SA Private WX Stations
- Real-Time APRS WX Station Data
- Disclaimer/Indemnity: SAWDOS
- Articles and Photos: SAWDOS
- About: SAWDOS
- South African Disasters
- Mossel Bay WX Stations
- SA Sea Level Synoptic Chart
- SA Weather Webcams
- YO Weather Prediction
- Mossel Bay Mad Scientist Projects
- Weather Forecast for South Africa
Thursday, 17 May 2012
Crop Circles in the Desert
Over the past three decades, Saudi Arabia has been drilling for a resource more precious than oil. Engineers and farmers have tapped hidden reserves of water to grow grains, fruits, and vegetables in the desert.
The series of false-color images above show the evolution of agricultural operations in the Wadi As-Sirhan Basin, as viewed by satellites in 1987, 1991, 2000, and 2012. The images were captured by similar sensors—the Thematic Mapper and Enhanced Thematic Mapper Plus—on three different Landsat satellites (4, 5, and 7). For scale, the agricultural fields in the images are about one kilometer (0.62 miles) across and use center-pivot irrigation.
The Landsat sensors detected light reflecting off the Earth in the short wave-infrared, near-infrared, and green portions of the electromagnetic spectrum. With this combination of wavelengths, new vegetation appears bright green while dry vegetation or fallow fields appear rust colored. Dry, barren surfaces (mostly desert) are pink and yellow.
The thirsty plants that rise out of the Arabian desert are quenched by water that dates back to the last Ice Age. In a more temperate past about 20,000 years ago, this “fossil” water filled aquifers that are now buried deep under the sand seas and limestone formations.
Saudi Arabians have reached this underground water source by drilling wells through sedimentary rock, as much as a kilometer beneath the desert sands. Although no one knows how much water lies beneath the desert—estimates range from 252 to 870 cubic kilometers—hydrologists believe it will only be economical to pump it for about 50 years.
Rainfall averages just 100 to 200 millimeters per year and usually does not recharge the underground aquifers, making the groundwater a non-renewable source. As of 2006, the country had 2.4 cubic kilometers of renewable fresh water resources at the surface, according to the Food and Agricultural Organization; consumption for human, industrial, and farming uses was 23.7 cubic kilometers per year. The volume of water used for desert agriculture tripled from about 6.8 cubic kilometers in 1980 to about 21 cubic kilometers in 2006.
References:
NASA Earth Observatory (2012, March 5) Agricultural Fields, Wadi As-Sirhan Basin, Saudi Arabia.
U.S. Central Intelligence Agency (2012, April 18) The World Factbook: Saudi Arabia. Accessed May 11, 2012.
UN Food and Agricultural Organization (2008) AQUASTAT: Saudi Arabia. Accessed May 11, 2012.
NASA Earth Observatory image created by Robert Simmon and Jesse Allen, using Landsat data provided by the United States Geological Survey. Caption by Aries Keck and Michael Carlowicz. NASA and the U.S. Geological Survey (USGS) jointly manage Landsat, and the USGS preserves a 40-year archive of Landsat images that is freely available data over the Internet.
Instrument:
Landsat 5 - TM - NASA
Subscribe to:
Post Comments (Atom)
No comments:
Post a Comment