2014
DOI: 10.1016/j.hal.2014.08.010
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Harmful algal bloom (HAB) in the East Sea identified by the Geostationary Ocean Color Imager (GOCI)

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Cited by 64 publications
(37 citation statements)
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“…Unlike polar-orbiting ocean color satellites (e.g., SeaWiFs and MODIS), GOCI has higher temporal resolution which can capture diurnal changes. Plenty of researches showed applications in suspended particulate materials (Ge et al, 2015;He et al, 2013;Pan et al, 2018) and phytoplankton (Choi et al, 2014;Lee et al, 2012;Lou & Hu, 2014). The atmospheric correction utilized in this study (i.e., KOSC standard in GDPS system) is the same as that in the researches of diurnal variation of turbidity fronts (Hu et al, 2016a), tidal currents (Hu et al, 2016b), and salinity (Liu et al, 2017).…”
Section: Diurnal Variation Of Pscsmentioning
confidence: 99%
“…Unlike polar-orbiting ocean color satellites (e.g., SeaWiFs and MODIS), GOCI has higher temporal resolution which can capture diurnal changes. Plenty of researches showed applications in suspended particulate materials (Ge et al, 2015;He et al, 2013;Pan et al, 2018) and phytoplankton (Choi et al, 2014;Lee et al, 2012;Lou & Hu, 2014). The atmospheric correction utilized in this study (i.e., KOSC standard in GDPS system) is the same as that in the researches of diurnal variation of turbidity fronts (Hu et al, 2016a), tidal currents (Hu et al, 2016b), and salinity (Liu et al, 2017).…”
Section: Diurnal Variation Of Pscsmentioning
confidence: 99%
“…Because of the elevated NIR reflectance used to generate FCC images, these patches were detected as red features in the FCC images. Though the MODIS‐Aqua chlorophyll patterns (>2 mg m −3 ) are closely consistent with features in the FCC and SVD images, the chlorophyll product alone is not sufficient to distinguish between C. polykrikoides and N. scintillans blooms because of its positive statistically significant relationship with bloom density of these species [ Ahn and Shanmugam , ; Gomes et al ., ; Choi et al ., ]. In contrast, SVD demonstrated the potential to accurately map C. polykrikoides bloom from the N. scintillans blooms in coastal waters of Oman and Gulf waters.…”
Section: Resultsmentioning
confidence: 99%
“…Recent studies indicated that nutrient sources including upwelling and dust deposition cause regular outbreaks of high‐density C. polykrikoides blooms in coastal regions of the western Arabian Sea and Gulf of Oman [ Richlen et al ., ; Zhao and Ghedira , ]. Earlier studies reported that blooms of C. polykrikoides have increased in geographic extent, frequency, and duration in the world's ocean [ Shanmugam et al ., ; Kudela and Gobler , ; Rountos et al ., ] leading to mass mortalities of wild and formed fish in specific regional waters [ Ahn and Shanmugam , ; Shanmugam et al ., ; Mulholland et al ., ; Choi et al ., ; Wang and Wu , ]. Current approaches for detection of the C. polykrikoides blooms are largely based on the visual interpretation of the features in true color images, chlorophyll‐ a and FLH (fluorescence line height) products, red tide index, sea surface temperature (SST), or combination of these products [ Ahn and Shanmugam , ; Richlen et al ., ; Zhao and Ghedira , ].…”
Section: Introductionmentioning
confidence: 99%
“…Such studies utilized polar-orbiting satellite imageries from the Advanced Very High Resolution Radiometer (e.g., Emery et al, 1986;Kelly & Strub, 1992;Vigan et al, 2000), Coastal Zone Color Scanner (e.g., Garcia & Robinson, 1989;Tokmakian et al, 1990), and Moderate Resolution Imaging Spectroradiometer (e.g., Crocker et al, 2007;Marcello et al, 2008). Since the world's first geostationary orbital ocean color sensor GOCI (Geostationary Ocean Color Imager) launched by Korea on 27 June 2010, research has been fruitful in the past few years due to its hourly observations (e.g., Choi et al, 2014;Huang et al, 2015;Ryu et al, 2011).…”
Section: Introductionmentioning
confidence: 99%