Figure 3. Example of the Low-Cloud/Fog image product during the daytime over the eastern United States. Note the thick high clouds, presented in bright colors, along the front stretching across the Ohio Valley, surrounded by some lower clouds in white. Other areas where low clouds are apparent are the panhandle of Texas and over the Great Lakes region. Other cloudy areas that are not either bright white or colored are mixed-phase middle-level clouds. The darkest parts of the product are typically forested land or open water surfaces, or they could be snow-covered ground. For an earlier nighttime image, see Figure 4.
Figures 3 and 4 are further examples of the Low-Cloud/Fog product, but for the eastern U.S. The daytime example in Figure 3 shows low clouds or fog as white in the Great Lakes region, the Texas panhandle, and surrounding the front lying across the Ohio River valley. Thick high clouds are colored brightly. (Color enhancement is used when the radiative/brightness temperature is below -30°C.) Middle-level clouds with mixed phase (ice and water) are medium gray shades. A few surface observations of fog (F) are shown along the Gulf Coast, otherwise most of the low clouds are probably stratus and not necessarily fog (on the ground).
Kidder, S.Q., D.W. Hillger, A.J. Mostek, and K.J. Schrab, 2000: Two simple GOES Imager products for improved weather analysis and forecasting. Nat. Wea. Dig., 24(4), (December), 25-30.
The accompanying nighttime example in Figure 4 occurred a few hours earlier than the image in Figure 3. The meteorological situation is similar, with thick high clouds along the front showing up as brightly colored. Low clouds, showing up as white, are in portions of Florida and the Gulf Coast of Texas. Low clouds are also seen in the Great Lakes states and provinces. The main difference between the nighttime and daytime products is the dark appearance of thin cirrus at night, compared to their bright appearance during the day. Cirrus are most apparent surrounding the front in Figure 3.
Figure 4. An example of the Low-Cloud/Fog image product at night over the eastern United States, a few hours earlier than the image in Figure 3. Here the thick frontal clouds are again brightly colored, but are surrounded by low clouds in white and thin cirrus in black. The thickest low clouds are mainly found in parts of Florida, southern Texas, and in the Great Lakes states/provinces.
The Low-Cloud/Fog product provides a simple yet visually powerful display of different types of clouds. The color enhancement clearly shows higher, colder clouds as distinct from lower clouds, which appear white. Low clouds are clearly differentiated from snow, which appears dark due to its low reflectivity in the shortwave region.
The main disadvantage of this product is the fact that low clouds cannot be seen when high clouds obscure the lower clouds below. Especially at night, thin cirrus will appear black and can mask low clouds. Some of this may be alleviated by observing a temporal loop of the Low-Cloud/Fog product, to see through the higher clouds as they move. Product mages are currently available every 30 minutes at 4 km spatial resolution.
The Low-Cloud/Fog product is generated both day and night, but with the differences explained. This also leads to a transition in the product as the day-night terminator passes over the image area. Because of the formula used to compute the “shortwave albedo”, there are situations for which the product goes out of reasonable range (essentially when the equation is close to a divide-by-zero situation), and that occurs at low sun angles. In those cases, the reflected solar energy and the emitted energy from the earth are about equal. The solution again is to observe the Low-Cloud/Fog product over time, with a new image every 30 minutes, and to not rely on a single image for any analysis.
Finally, in discussing the examples shown, we have been careful to use the language “low-cloud/fog” instead of distinguishing between the two. The reason for this is because the simple GOES Low-Cloud/Fog product cannot by itself distinguish between a low cloud and a fog layer (where the latter is simply a low cloud whose base is in contact with the surface). However, there exist promising techniques that attempt to distinguish between the two, but that is beyond the scope of this product. For details on the future of low-cloud/fog product, see Hillger 2008 , where MODIS imagery is used as a proxy for GOES-R ABI, and three-color imagery can provide some hints at the low-cloud/fog differentiation.
Interactions with NWS users via the Proving Ground will assist algorithm developers in improving this product, such as the desired enhancements, product scaling, etc., to best tailor this unique application to the end-user needs. The development of future, improved products will also benefit from user feedback.
Hillger, D.W., 2008: GOES-R Advanced Baseline Imager Color Product Development, J. Atmos. Ocean. Technol. – Atmospheres, 25(6), (June), 853-872.