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uncertainties in the geostationary ocean color imager (goci) remote sensing reflectance for assessing diurnal variability of biogeochemical processesShort-term (sub-diurnal) biological and biogeochemical processes cannot be fully captured by the current suite of polar-orbiting satellite ocean color sensors, as their temporal resolution is limited to potentially one clear image per day. Geostationary sensors, such as the Geostationary Ocean Color Imager (GOCI) from the Republic of Korea, allow the study of these short-term processes because their orbit permit the collection of multiple images throughout each day for any area within the sensor’s field of regard. Assessing the capability to detect sub-diurnal changes in in-water properties caused by physical and biogeochemical processes characteristic of open ocean and coastal ocean ecosystems, however, requires an understanding of the uncertainties introduced by the instrument and/or geophysical retrieval algorithms. This work presents a study of the uncertainties during the daytime period for an ocean region with characteristically low-productivity with the assumption that only small and undetectable changes occur in the in-water properties due to biogeochemical processes during the daytime period. The complete GOCI mission data were processed using NASA’s SeaDAS/l2gen package. The assumption of homogeneity of the study region was tested using three-day sequences and diurnal statistics. This assumption was found to hold based on the minimal diurnal and day-to-day variability in GOCI data products. Relative differences with respect to the midday value were calculated for each hourly observation of the day in order to investigate what time of the day the variability is greater. Also, the influence of the solar zenith angle in the retrieval of remote sensing reflectances and derived products was examined. Finally, we determined that the uncertainties in water-leaving “remote-sensing” reflectance (Rrs) for the 412,443, 490, 555, 660 and 680 nm bands on GOCI are 8.05 x 10(exp -4), 5.49 x 10(exp -4), 4.48 x 10(exp -4), 2.51 x 10(exp -4), 8.83 x 10(exp -5), and 1.36 x 10(exp -4)/sr, respectively, and 1.09 x 10(exp -2)/cu.mgm for the chlorophyll-a concentration (Chl-a), 2.09 x 10(exp -3)/m for the absorption coefficient of chromophoric dissolved organic matter at 412 nm (a(sub g) (412)), and 3.7 mg/cu.m for particulate organic carbon (POC). These R(sub rs) values can be considered the threshold values for detectable changes of the in-water properties due to biological, physical or biogeochemical processes from GOCI.
Document ID
20190001716
Document Type
Reprint (Version printed in journal)
External Source(s)
Authors
Concha, Javier
(Universities Space Research Association (USRA) Columbia, MD, United States)
Mannino, Antonio
(NASA Goddard Space Flight Center Greenbelt, MD, United States)
Franz, Bryan
(NASA Goddard Space Flight Center Greenbelt, MD, United States)
Kim, Wonkook
(Korean Inst. of Ocean Science and Technology (KIOST) Ansan, South Korea, Republic of)
Date Acquired
March 20, 2019
Publication Date
February 1, 2019
Publication Information
Publication: Remote Sensing
Volume: 11
Issue: 3
ISSN: 2072-4292
Subject Category
Earth Resources and Remote Sensing
Oceanography
Report/Patent Number
GSFC-E-DAA-TN65762
Funding Number(s)
CONTRACT_GRANT: NNH12ZDA001N-ESUSPI
Distribution Limits
Public
Copyright
Use by or on behalf of the US Gov. Permitted.

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