Si Chee Tsay scite author profile

[1] The aerosol products retrieved using the Moderate Resolution Imaging Spectroradiometer (MODIS) collection 5.1 Deep Blue algorithm have provided useful information about aerosol properties over bright-reflecting land surfaces, such as desert, semiarid, and urban regions. However, many components of the C5.1 retrieval algorithm needed to be improved; for example, the use of a static surface database to estimate surface reflectances. This is particularly important over regions of mixed vegetated and nonvegetated surfaces, which may undergo strong seasonal changes in land cover. In order to address this issue, we develop a hybrid approach, which takes advantage of the combination of precalculated surface reflectance database and normalized difference vegetation index in determining the surface reflectance for aerosol retrievals. As a result, the spatial coverage of aerosol data generated by the enhanced Deep Blue algorithm has been extended from the arid and semiarid regions to the entire land areas. In this paper, the changes made in the enhanced Deep Blue algorithm regarding the surface reflectance estimation, aerosol model selection, and cloud screening schemes for producing the MODIS collection 6 aerosol products are discussed. A similar approach has also been applied to the algorithm that generates the Sea-viewing Wide Field-of-view Sensor (SeaWiFS) Deep Blue products. Based upon our preliminary results of comparing the enhanced Deep Blue aerosol products with the Aerosol Robotic Network (AERONET) measurements, the expected error of the Deep Blue aerosol optical thickness (AOT) is estimated to be better than 0.05 + 20%. Using 10 AERONET sites with long-term time series, 79% of the best quality Deep Blue AOT values are found to fall within this expected error.

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Global and regional trends of aerosol optical depth over land and ocean using SeaWiFS measurements from 1997 to 2010

Hsu

et al. 2012

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Abstract. Both sensor calibration and satellite retrieval algorithm play an important role in the ability to determine accurately long-term trends from satellite data. Owing to the unprecedented accuracy and long-term stability of its radiometric calibration, SeaWiFS measurements exhibit minimal uncertainty with respect to sensor calibration. In this study, we take advantage of this well-calibrated set of measurements by applying a newly-developed aerosol optical depth (AOD) retrieval algorithm over land and ocean to investigate the distribution of AOD, and to identify emerging patterns and trends in global and regional aerosol loading during its 13-yr mission. Our correlation analysis between climatic indices (such as ENSO) and AOD suggests strong relationships for Saharan dust export as well as biomass-burning activity in the tropics, associated with large-scale feedbacks. The results also indicate that the averaged AOD trend over global ocean is weakly positive from 1998 to 2010 and comparable to that observed by MODIS but opposite in sign to that observed by AVHRR during overlapping years. On regional scales, distinct tendencies are found for different regions associated with natural and anthropogenic aerosol emission and transport. For example, large upward trends are found over the Arabian Peninsula that indicate a strengthening of the seasonal cycle of dust emission and transport processes over the whole region as well as over downwind oceanic regions. In contrast, a negative-neutral tendency is observed over the desert/arid Saharan region as well as in the associated dust outflow over the north Atlantic. Additionally, we found decreasing trends over the eastern US and Europe, and increasing trends over countries such as China and India that are experiencing rapid economic development. In general, these results are consistent with those derived from ground-based AERONET measurements.

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The Joint Aerosol–Monsoon Experiment: A New Challenge for Monsoon Climate Research

Lau¹,

Ramanathan²,

Li³

et al. 2008

Bull. Amer. Meteor. Soc.

261

190

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Smoke, Clouds, and Radiation‐Brazil (SCAR‐B) experiment

Kaufman¹,

Hobbs²,

Kirchhoff³

et al. 1998

J. Geophys. Res.

310

175

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Scientific interest in tropical biomass burning was heightened some two decades ago with the suggestion by Crutzen et al. [1979, 1985] that it is an important source of some key trace gases in the atmosphere. It is now known that biomass burning is responsible for 10-30% of the global CO budget, which is of particular importance since the emissions are in the tropics, a region of strong solar radiation, including UV, and therefore of major importance for tropospheric chemical processes

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The Saharan Air Layer and the Fate of African Easterly Waves—NASA's AMMA Field Study of Tropical Cyclogenesis

Zipser¹,

Twohy

Tsay

et al. 2009

Bull. Amer. Meteor. Soc.

126

138

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Si Chee Tsay

Enhanced Deep Blue aerosol retrieval algorithm: The second generation

Global and regional trends of aerosol optical depth over land and ocean using SeaWiFS measurements from 1997 to 2010

The Joint Aerosol–Monsoon Experiment: A New Challenge for Monsoon Climate Research

Smoke, Clouds, and Radiation‐Brazil (SCAR‐B) experiment

The Saharan Air Layer and the Fate of African Easterly Waves—NASA's AMMA Field Study of Tropical Cyclogenesis

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