DocumentCode
681856
Title
Developing satellite-based tool for water turbidity mapping in the Arabian Gulf: Abu Dhabi case study
Author
Al Kaabi, Muna R. ; Jun Zhao ; Charron, Camilo ; Gherboudj, Imen ; Lazzarini, Michele ; Ghedira, Hosni
Author_Institution
Earth Obs. & Hydro-Climate Modeling Lab., Masdar Inst. of Sci. & Technol., Abu Dhabi, United Arab Emirates
fYear
2013
fDate
23-27 Sept. 2013
Firstpage
1
Lastpage
4
Abstract
Water turbidity is a crucial water quality indicator, which describes how light attenuates through the water column. However, there were limited localized studies in the Arabian Gulf and satellite-based tools have not been adapted to local dusty climate. In this study, in situ measurements were collected to validate existing ocean color algorithms and develop new models for better adapting to the environmental conditions of the Abu Dhabi coast. Secchi disk depth (SDD) from February to April 2010 at 117 stations were collected, 35 of which were retained after strict data quality control. SDD varied in the range of 1.67~10.97 m. “Concurrent” MODIS derived diffuse attenuation coefficient for downwelling irradiance at 490 (Kd_490) was used to estimate SDD. Two models were established. Both models have shown their potential to detect water turbidity over Abu Dhabi coast. More in situ measurements are required to assess and improve the performance of the newly established models.
Keywords
oceanographic regions; radiometry; turbidity; underwater optics; water quality; AD 2010 02 to 04; Abu Dhabi case study; Abu Dhabi coast; Arabian Gulf; SDD estimation; Secchi disk depth; concurrent MODIS derived diffuse attenuation coefficient; crucial water quality indicator; downwelling irradiance; environmental conditions; in situ measurements; light attenuation; limited localized studies; local dusty climate; model development; newly established model performance assessment; newly established model performance improvement; ocean color algorithm validation; satellite-based tool development; strict data quality control; water column; water turbidity detection; water turbidity mapping; Image color analysis; MODIS; Pollution measurement; Satellites; Sea measurements; Water pollution; Water resources; Abu Dhabi; MODIS; Secchi disk depth; diffuse attenuation coefficient; water turbidity;
fLanguage
English
Publisher
ieee
Conference_Titel
Oceans - San Diego, 2013
Conference_Location
San Diego, CA
Type
conf
Filename
6741137
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