AI Article Synopsis
- Dust aerosols significantly impact the environment, necessitating effective monitoring techniques, which can be accomplished using satellite data.
- The modified CO₂ slicing method was employed on GOSAT satellite data to identify dust aerosol layer heights and was compared with lidar measurements, particularly during summer in northern Africa.
- While the slicing method often detects lower aerosol layers effectively, it may overestimate layer heights due to uncertainties in surface temperature and atmospheric conditions, indicating that relying solely on this method is challenging for accurately assessing dust aerosol behavior.
Article Abstract
Dust aerosols, which have diverse and strong influences on the environment, must be monitored. Satellite data are effective for monitoring atmospheric conditions globally. In this work, the modified CO₂ slicing method, a cloud detection technique using thermal infrared data from space, was applied to GOSAT data to detect the dust aerosol layer height. The results were compared using lidar measurements. Comparison of horizontal distributions found for northern Africa during summer revealed that both the relative frequencies of the low level aerosol layer from the slicing method and the dust frequencies of CALIPSO are high in northern coastal areas. Comparisons of detected layer top heights using collocated data with CALIPSO and ground-based lidar consistently showed high detection frequencies of the lower level aerosol layer, although the slicing method sometimes produces overestimates. This tendency is significant over land. The main causes of this tendency might be uncertainty of the surface skin temperature and a temperature inversion layer in the atmosphere. The results revealed that obtaining the detailed behavior of dust aerosols using the modified slicing method alone is difficult.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6479980 | PMC |
| http://dx.doi.org/10.3390/s19071615 | DOI Listing |
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