Ocean reflectance spectra at the red, near‐infrared, and shortwave infrared from highly turbid waters: A study in the Bohai Sea, Yellow Sea, and East China Sea

Shi, Wei; Wang, Menghua

doi:10.4319/lo.2014.59.2.0427

Cited by 59 publications

(64 citation statements)

References 38 publications

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“…A few factors contribute to the observed uncertainties. High turbidity levels in the Salish Sea may cause non-negligible R rs (1240 nm), thus resulting in poor aerosol product retrievals, as it has been reported for other turbid waters [56][57][58]. Turbidity in the Salish Sea reaches values around 30.0 mg L −1 in waters under high influence of the Fraser River plume [16,39].…”

Section: Atmospheric Correctionmentioning

confidence: 97%

“…While there exists a MODIS 1640 nm band with improved SNR compared to the 1240 nm band (495 vs. 157 on-orbit measured, respectively [61]), it is currently non-functional due to a number of broken detectors [62]. Although the current 1240 and 2130 nm SWIR bands have produced effective results in some regions with turbid waters [57,63], other studies, similar to our results, show that the lower SNR often produces poor outcomes [62,64,65]. Specific to our results, this lower SNR resulted in the largest uncertainties and overall variability of MODIS τ a when compared with AERONET, and ultimately inaccurate chlorophyll products (Table 4).…”

Section: Atmospheric Correctionmentioning

confidence: 99%

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Evaluation of MODIS-Aqua Atmospheric Correction and Chlorophyll Products of Western North American Coastal Waters Based on 13 Years of Data

et al. 2017

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Abstract:There is an increasing need for satellite-derived accurate chlorophyll-a concentration (chla) products to improve fisheries management in coastal regions. However, the methods used to derive these products have to be evaluated, so the associated uncertainties are known. The performance of three atmospheric correction methods, the near infrared (NIR), the shortwave infrared (SWIR), and the Management Unit of the North Seas Mathematical Models with an additional modification (MUMM + SWIR), and derived chla products based on the Moderate Resolution Imaging Spectroradiometer AQUA (MODIS) images acquired from 2002 to 2014 over the west coast of Canada and the United States were evaluated. The atmospherically corrected products and above-water reflectance were compared with in situ AERONET (N~650) and above-water reflectance (N~34) data, and the Ocean Color 3 MODIS (OC3M)-derived chla were compared with in situ chla measurements (N~82). The statistical analysis indicated that the MUMM + SWIR method was the most appropriate for this region, with relatively good retrievals of the atmospheric products, improved retrieval of remote sensing reflectance with bias lower than 20% for the OC3M bands, and improved retrievals of chla (r = 0.83, slope = 0.89, log RMSE = 0.33 mg m −3 for ±1 h). The poorest chla retrievals were achieved with the SWIR and NIR methods. These results represent the most comprehensive satellite data analysis of MODIS retrievals for this region and provide a framework for the MUMM + SWIR method that can be further tested in other coastal regions of the world.

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Section: Atmospheric Correctionmentioning

confidence: 97%

Section: Atmospheric Correctionmentioning

confidence: 99%

Evaluation of MODIS-Aqua Atmospheric Correction and Chlorophyll Products of Western North American Coastal Waters Based on 13 Years of Data

et al. 2017

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“…Many studies have been carried out on the remote sensing of optical properties of Bohai sea. Taking Bohai sea as an example, the water reflectance in the wavelengths of red, near-infrared (NIR), and shortwave infrared (SWIR) were studied [4]. A semianalytical model was established for retrieving the attenuation coefficients from Moderate Resolution Imaging Spectroradiometer (MODIS) imagery [5].…”

Section: Introductionmentioning

confidence: 99%

Remote Sensing of Spatiotemporal Variation of Apparent Optical Properties in Bohai Sea

Zhang

Qian

Cui

et al. 2015

IEEE J. Sel. Top. Appl. Earth Observations Remote Sensing

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It has been presented in this study, the evaluation of remote sensing reflectance (Rrs) derived from the atmospheric correction of Moderate Resolution Imaging Spectroradiometer (MODIS) aboard Aqua satellite. A switching algorithm was developed for the atmospheric correction. The evaluation shows that MODIS measured Rrs at visible bands compare reasonably well with in situ Rrs, with the mean ratios ranging from 0.955 to 1.374. The spatiotemporal variation of Rrs in Bohai sea is characterized using MODIS data from July 2002 to June 2014. It is noted from the time series of monthly mean Rrs and wind speed a time lag for the response of Rrs to wind. Significant linear relationship is found between the monthly mean Rrs and wind speed, with the correlation coefficients much higher than those between the annual mean Rrs and total river discharge, indicating that wind plays a more important role than river discharge in determining the variation of Rrs in Bohai sea. Strong seasonal variation is observed in the monthly mean Rrs, which is the lowest during July and August and increases to the maximum in January-February and then decreases. Using the entire archive of MODIS/Aqua data over Bohai sea, this study documents the apparent optical properties which serve as an indicator of sediment transport, providing a lowcost and efficient way for monitoring the marine environmental change and for demonstrating the effect from sediment transport on coastal morphology and ecosystem.

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“…However, turbid waters are a complex mix of constituents, such as phytoplankton, CDOM and suspended particulate matter (SPM). Constituent retrieval algorithms for these waters need to make use of reflectance values in the red and NIR parts of the spectrum, as these regions are less affected by CDOM and SPM [114,215]. Although the majority of constituent retrieval algorithms for turbid waters have been developed for multispectral sensors and their estimates of chlorophyll-a are poor [25], a recent method has shown some success at retrieving the chlorophyll-a concentration in turbid waters [251].…”

Section: Spectral Inversion Approachesmentioning

confidence: 99%

“…The SWIR approach has fundamentally resolved the black pixel assumption issue for atmospheric correction over turbid coastal and inland waters [29]. In fact, the SWIR-based atmospheric correction algorithm has been successfully used for accurately deriving ocean colour products over highly turbid coastal and inland waters for various applications [9,10,33,[210][211][212][213][214][215][216]. However, the low SNR in the SWIR bands is a major limitation [203].…”

Section: Black Pixel Approachesmentioning

confidence: 99%

Sensor Capability and Atmospheric Correction in Ocean Colour Remote Sensing

et al. 2015

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Accurate correction of the corrupting effects of the atmosphere and the water's surface are essential in order to obtain the optical, biological and biogeochemical properties of the water from satellite-based multi-and hyper-spectral sensors. The major challenges now for atmospheric correction are the conditions of turbid coastal and inland waters and areas in which there are strongly-absorbing aerosols. Here, we outline how these issues can be addressed, with a focus on the potential of new sensor technologies and the opportunities for the development of novel algorithms and aerosol models. We review hardware developments, which will provide qualitative and quantitative increases in spectral, spatial, radiometric and temporal data of the Earth, as well as measurements from other sources, such as the Aerosol Robotic Network for Ocean Color (AERONET-OC) stations, bio-optical sensors on Argo (Bio-Argo) floats and polarimeters. We provide an overview of the state of the art in atmospheric correction algorithms, highlight recent advances and discuss the possible potential for hyperspectral data to address the current challenges.

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Ocean reflectance spectra at the red, near‐infrared, and shortwave infrared from highly turbid waters: A study in the Bohai Sea, Yellow Sea, and East China Sea

Cited by 59 publications

References 38 publications

Evaluation of MODIS-Aqua Atmospheric Correction and Chlorophyll Products of Western North American Coastal Waters Based on 13 Years of Data

Evaluation of MODIS-Aqua Atmospheric Correction and Chlorophyll Products of Western North American Coastal Waters Based on 13 Years of Data

Remote Sensing of Spatiotemporal Variation of Apparent Optical Properties in Bohai Sea

Sensor Capability and Atmospheric Correction in Ocean Colour Remote Sensing

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