Semianalytical Derivation of Phytoplankton, CDOM, and Detritus Absorption Coefficients From the Landsat 8/OLI Reflectance in Coastal Waters

Wei, Jianwei; Lee, Zhongping; Shang, Shaoling; Yu, Xiaolong

doi:10.1029/2019jc015125

Cited by 29 publications

(8 citation statements)

References 56 publications

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“…It is possible to implement the NIR‐RGB SPM algorithm with R rs ( λ ) data from OLI. In particular, the OLI imagery allows for mapping in greater detail with 30‐m spatial resolution in coastal and inland waters (Luis et al., 2019; Pan et al., 2018; Wei et al., 2019). We tested two OLI images captured over the Mississippi River Delta and the Nantucket Sound off of Massachusetts.…”

Section: Discussionmentioning

confidence: 99%

“…It is possible to implement the NIR-RGB SPM algorithm with R rs (λ) data from OLI. In particular, the OLI imagery allows for mapping in greater detail with 30-m spatial resolution in coastal and inland waters (Luis et al, 2019;Pan et al, 2018;Wei et al, 2019 The above function results from the least squares fit to a large set of hyperspectral measurements (Wei et al, 2016), with R 2 = 0.99. Similarly, R rs (561) of OLI was transformed to R rs (551) with the function given below (R 2 = 0.…”

Section: Algorithm Compatibility With Landsat-8mentioning

confidence: 99%

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Global Estimation of Suspended Particulate Matter From Satellite Ocean Color Imagery

et al. 2021

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Remote sensing of the suspended particulate matter (SPM) concentration (unit: mg l −1 ) in the surface water is driven by its close ties with the environment-and climate-related problems. The suspended particles, living or nonliving, organic or inorganic, absorb and scatter sunlight penetrating through the upper water column, influencing the water turbidity and color (Kirk, 1994). Additionally, pollutants can attach to the suspended particles and disperse farther with them (James, 2002). Government-led environmental agencies, such as the US Environmental Protection Agency (EPA), have designated SPM as a conventional water quality parameter (Bilotta & Brazier, 2008). In the land-ocean interface zones, sediments from river discharge, shoreline erosion, and bottom resuspension can be transported by currents or settle down the water column. Satellite-derived SPM products are useful for tracing ocean currents (Yang et al., 2014), for sediment transport modeling with satellite assimilation (Ouillon et al., 2004;Stroud et al., 2009) and for global land-ocean flux (Milliman & Farnsworth, 2011). In open oceans, the suspended particles within the

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Section: Discussionmentioning

confidence: 99%

Section: Algorithm Compatibility With Landsat-8mentioning

confidence: 99%

Global Estimation of Suspended Particulate Matter From Satellite Ocean Color Imagery

et al. 2021

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“…However, they have a limitation in receiving signals in the 400-450 nm in order to capture some clear water, which generally included for ocean colour space sensors, and restricted their usage for the quasi-analytical derivation of Z SD and other optically active water quality parameters [32]. By including such feasible, virtually estimated reflectance bands at these missing wavelengths we can further improve the accuracy of the analytical derivation approach [69].…”

Section: Limitations and Future Improvementsmentioning

confidence: 99%

Patterns, Trends and Drivers of Water Transparency in Sri Lanka Using Landsat 8 Observations and Google Earth Engine

et al. 2021

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Addressing inland water transparency and driver effects to ensure the sustainability and provision of good quality water in Sri Lanka has been a timely prerequisite, especially under the Sustainable Development Goals 2030 agenda. Natural and anthropogenic changes lead to significant variations in water quality in the country. Therefore, an urgent need has emerged to understand the variability, spatiotemporal patterns, changing trends and impact of drivers on transparency, which are unclear to date. This study used all available Landsat 8 images from 2013 to 2020 and a quasi-analytical approach to assess the spatiotemporal Secchi disk depth (ZSD) variability of 550 reservoirs and its relationship with natural (precipitation, wind and temperature) and anthropogenic (human activity and population density) drivers. ZSD varied from 9.68 cm to 199.47 with an average of 64.71 cm and 93% of reservoirs had transparency below 100 cm. Overall, slightly increasing trends were shown in the annual mean ZSD. Notable intra-annual variations were also indicating the highest and lowest ZSD during the north-east monsoon and south-west monsoon, respectively. The highest ZSD was found in wet zone reservoirs, while dry zone showed the least. All of the drivers were significantly affecting the water transparency in the entire island. The combined impact of natural factors on ZSD changes was more significant (77.70%) than anthropogenic variables, whereas, specifically, human activity accounted for the highest variability across all climatic zones. The findings of this study provide the first comprehensive estimation of the ZSD of entire reservoirs and driver contribution and also provides essential information for future sustainable water management and conservation strategies.

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“…Chl-a is a pigment capable of photosynthesis and a marker for phytoplankton biomass, which is the most significant driver of the health and productivity of ocean ecosystems. Phytoplankton are an important component of coastal aquatic ecosystems [6]. According to [7], this is due to the fact that phytoplankton are the main primary producers in marine ecosystems and support important food webs in waters.…”

Section: Introductionmentioning

confidence: 99%

Determining spatio-temporal distribution dynamics of chlorophyll-a in Banyuasin sea waters using remote sensing data

Agussalim,

Murti,

Santosa

2024

Eighth Geoinformation Science Symposium 2023: Geoinformation Science for Sustainable Planet

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The sea waters of Banyuasin have several estuaries. These conditions will affect the biophysics of the waters, especially chlorophyll-a as an indicator of water fertility and fishing ground habitat. This study aims to map the dynamics of the distribution of chlorophyll-a concentrations based on different seasons in the coastal water of Banyuasin Regency. The method used is the analysis of Landsat 8 OLI imagery. The images used consist of images recorded on

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Semianalytical Derivation of Phytoplankton, CDOM, and Detritus Absorption Coefficients From the Landsat 8/OLI Reflectance in Coastal Waters

Cited by 29 publications

References 56 publications

Global Estimation of Suspended Particulate Matter From Satellite Ocean Color Imagery

Global Estimation of Suspended Particulate Matter From Satellite Ocean Color Imagery

Patterns, Trends and Drivers of Water Transparency in Sri Lanka Using Landsat 8 Observations and Google Earth Engine

Determining spatio-temporal distribution dynamics of chlorophyll-a in Banyuasin sea waters using remote sensing data

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