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The Rural Voice, 1985-09, Page 19This is an artist's conception o/ the RADARSAT satellite, a sophisticated new remote sensing satellite being developed by the Canada Centre for Remote Sensing Scheduled for launch in 1990, RADARSAT will carry an advanced radar technology, Synthetic Aperture Radar (SAR), which can "see" day and night in any kind of weather and will have hundreds of uses. SAR is especially effective in forecasting northern ice conditions, and can also be used for crop monitor- ing, oil spill detection and resource exploration. —Canada Centre for Remote Sensing pipeline route was chosen to avoid those areas. Similarly, in northern Ontario, remote sensing has assisted in general route selection for Ontario Hydro corridors. This is followed by low level surveying to more specifically design the route, Ryerson explains. Often aerial photography sup- plements satellite data. The Canadian Centre for Remote Sensing operates, in co-operation with industry, a fleet of three aircraft equipped with sophisticated optical radar laser sen- sors. Data from these sensors is pro- duced in either electronic or photographic form. The electronic data is directed to Canada's receiving station in Prince Albert, Saskat- chewan where it is recorded on large magnetic tapes, processed, and final- ly archived at CCRS. Aerial or low level photography has a number of uses which comple- ment satellite work. Ryerson, who received his Ph.D. at the University of Waterloo and also studied at 1 McMaster, recalls an experience with airborne photography early in his career. As a student he interviewed a farmer (who had one too many drinks that day) about the crops on his farm in the Niagara region. The farmer's tomatoes were "withering on the vine" due to poor management. Ryerson was surprised to see the same farmer on television shortly after. The farmer was blaming a nearby fac- tory's pollution for the damage to his crop. Aerial photography from a number of years proved this man's fields were always inferior to his neighbours'. "The photos showed this guy was a lousy farmer then, and still was." Conversely, aerial photography can also show when a farmer does have a legitimate claim about pollution damage. Infra -red film from aerial photography can also help farmers to locate tile drainage problems, or allow them to access the work of their custom sprayer or seeder. "Remote sensing is not all razzle dazzle. You can't do much if you don't know about the ground," Ryerson points out. Farmers and people who know the ground are often particularly adept at interpreting satellite infor- mation, he says. The most obvious disadvantage of satellite information is that satellites have lower resolution (ability to see detail) than aircraft because satellites are travelling 900 km above the earth. In addition, data may be required more frequently than it is available from the fixed cycle of a satellite. Satellites pass the same spot every 16 days. Each year in Canada, small areas of land about 1.7 km wide by 5 km long are chosen for intensive study. Air photographs and interviews with farmers about these segments of land determine what is actually there; it is then compared to what the satellite observes. In this way, scientists can measure the errors made in inter- preting satellite information. Using information from a very small area, researchers can correct the interpreta- tion of satellite information from a much larger area. A satellite can distinguish between ground areas as small as 0.4 hectares, but it is difficult to discern certain crops at certain times in the growing season. It is admittedly difficult to distinguish wheat and barley from canola soon after germination; the problem is magnified with the distance and speed of a satellite. Dur- ing the flowering stage of canola, however, the satellite can easily record the crop because of its bright yellow flowers. The time when the satellite can most easily differentiate one crop from another is known as the biological window of that crop. LANDSAT, a commonly used satellite for agricultural services in Canada, allows us to take advantage of the biological window of numerous crops to create crop area estimates. The first LANDSAT satellite was put into orbit by the Na- tional Aeronautics and Space Ad- ministration (NASA) of the United SEPTEMBER 1985 17