Hyperspectral Shallow-Water Remote Sensing with an Enhanced Benthic Classifier

Garcia, Rodrigo; Lee, Zhongping; Hochberg, Eric J.

doi:10.3390/rs10010147

Cited by 55 publications

(43 citation statements)

References 59 publications

(112 reference statements)

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“…Terrestrially sourced particulates such as river input or run-off can increase particle load, limiting PAR and smothering or physically burying corals [37,38]. In addition to defining the light regimes under which coral reefs exist, the optical properties of the water column must be accounted for in remote sensing studies of coral reefs and other benthic constituents [8,[52][53][54][55][56]. Many remote sensing studies presume that reef waters are clear and that the optical properties of oligotrophic offshore waters can be used as a proxy for reef systems [57].…”

Section: Seabass Id Dates (Local) Location Stationsmentioning

confidence: 99%

Water Column Optical Properties of Pacific Coral Reefs Across Geomorphic Zones and in Comparison to Offshore Waters

2019

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Despite the traditional view of coral reefs occurring in oligotrophic tropical conditions, water optical properties over coral reefs differ substantially from nearby clear oceanic waters. Through an extensive set of optical measurements across the tropical Pacific, our results suggest that coral reefs themselves exert a high degree of influence over water column optics, primarily through release of colored dissolved organic matter (CDOM). The relative contributions of phytoplankton, non-algal particles, and CDOM were estimated from measurements of absorption and scattering across different geomorphic shallow-water reef zones (<10 m) in Hawaii, the Great Barrier Reef, Guam, and Palau (n = 172). Absorption was dominated at the majority of stations by CDOM, with mixtures of phytoplankton and CDOM more prevalent at the protected back reef and lagoon zones. Absorption could be dominated by sediments and phytoplankton at fringing reefs and terrestrially impacted sites where particulate backscattering was significantly higher than in the other zones. Scattering at three angles in the backward direction followed recent measurements of the particulate phase function. Optical properties derived from satellite imagery indicate that offshore waters are consistently lower in absorption and backscattering than reef waters. Therefore, the use of satellite-derived offshore parameters in modeling reef optics could lead to significant underestimation of absorption and scattering, and overestimation of benthic light availability. If local measurements are not available, average optical properties based on the general reef zone could provide a more accurate means of assessing light conditions on coral reefs than using offshore water as a proxy.

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Section: Seabass Id Dates (Local) Location Stationsmentioning

confidence: 99%

Water Column Optical Properties of Pacific Coral Reefs Across Geomorphic Zones and in Comparison to Offshore Waters

2019

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“…Since the spectral shape of backscattering is fairly flat, incorporating high scattering in the seafloor rather than water column does not significantly influence the retrieval of the spectrally varying constituents such as bottom type and absorption by phytoplankton nor influences retrievals of bathymetry. The HOPE model used here was parameterized for seagrass and sediment, but other benthic constituents could be added to provide additional information on other submerged aquatic vegetation such as the green and red macroalgae that occurred along the shore and mixtures of bottom types [59]. Various different permutations of semi-analytical inversion models have been evaluated with different numbers of bottom types, and analytical solutions have been developed in recent years [12,59,75].…”

Section: Discussionmentioning

confidence: 99%

“…The HOPE model used here was parameterized for seagrass and sediment, but other benthic constituents could be added to provide additional information on other submerged aquatic vegetation such as the green and red macroalgae that occurred along the shore and mixtures of bottom types [59]. Various different permutations of semi-analytical inversion models have been evaluated with different numbers of bottom types, and analytical solutions have been developed in recent years [12,59,75]. Comparing such approaches widely across different ecosystems would be an important next step.…”

Section: Discussionmentioning

confidence: 99%

“…Here, we refine the parameterization of B as a pure endmember of a selected bottom type in the HOPE model and treat R b as a linear, or areal, mixture based on a library of known endmembers. Such linear unmixing has also been incorporated by other researchers using the HOPE model (e.g., [57][58][59]). These endmembers can be measured in situ or drawn from a suitable spectral library.…”

Section: Semi-analytical Inversion Methodsmentioning

confidence: 99%

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Pushing the Limits of Seagrass Remote Sensing in the Turbid Waters of Elkhorn Slough, California

et al. 2019

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Remote sensing imagery has been successfully used to map seagrass in clear waters, but here we evaluate the advantages and limitations of different remote sensing techniques to detect eelgrass in the tidal embayment of Elkhorn Slough, CA. Pseudo true-color imagery from Google Earth and broadband satellite imagery from Sentinel-2 allowed for detection of the various beds, but retrievals particularly in the deeper Vierra bed proved unreliable over time due to variable image quality and environmental conditions. Calibrated water-leaving reflectance spectrum from airborne hyperspectral imagery at 1-m resolution from the Portable Remote Imaging SpectroMeter (PRISM) revealed the extent of both shallow and deep eelgrass beds using the HOPE semi-analytical inversion model. The model was able to reveal subtle differences in spectral shape, even when remote sensing reflectance over the Vierra bed was not visibly distinguishable. Empirical methods exploiting the red edge of reflectance to differentiate submerged vegetation only retrieved the extent of shallow alongshore beds. The HOPE model also accurately retrieved the water column absorption properties, chlorophyll-a, and bathymetry but underestimated the particulate backscattering and suspended matter when benthic reflectance was represented as a horizontal eelgrass leaf. More accurate water column backscattering could be achieved by the use of a darker bottom spectrum representing an eelgrass canopy. These results illustrate how high quality atmospherically-corrected hyperspectral imagery can be used to map eelgrass beds, even in regions prone to sediment resuspension, and to quantify bathymetry and water quality.

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“…Much research has been under taken on remotely sensed hyperspectral data processing in recent years, covering topics such as dimensionality reduction [1][2][3], classification [4,5], target detection [6][7][8], data compression [9,10], and spectral unmixing [11][12][13][14][15][16][17][18][19]. Most of this research assumes that each pixel vector comprises the response of a single underlying material in the scene.…”

Section: Introductionmentioning

confidence: 99%

An Automatic Sparse Pruning Endmember Extraction Algorithm with a Combined Minimum Volume and Deviation Constraint

Jun

Yu³

2018

Remote Sensing

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Abstract:In this paper, an automatic sparse pruning endmember extraction algorithm with a combined minimum volume and deviation constraint (SPEEVD) is proposed. The proposed algorithm can adaptively determine the number of endmembers through a sparse pruning method and, at the same time, can weaken the noise interference by a minimum volume and deviation constraint. A non-negative matrix factorization solution based on the projection gradient is mathematically applied to solve the combined constrained optimization problem, which makes sure that the convergence is steady and robust. Experiments were carried out on both simulated data sets and real AVIRIS data sets. The experimental results indicate that the proposed method does not require a predetermined endmember number, but it still manifests an improvement in both the root-mean-square error (RMSE) and the endmember spectra, compared to the other state-of-the-art methods, most of which need an accurate pre-estimation of endmember number.

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Hyperspectral Shallow-Water Remote Sensing with an Enhanced Benthic Classifier

Cited by 55 publications

References 59 publications

Water Column Optical Properties of Pacific Coral Reefs Across Geomorphic Zones and in Comparison to Offshore Waters

Water Column Optical Properties of Pacific Coral Reefs Across Geomorphic Zones and in Comparison to Offshore Waters

Pushing the Limits of Seagrass Remote Sensing in the Turbid Waters of Elkhorn Slough, California

An Automatic Sparse Pruning Endmember Extraction Algorithm with a Combined Minimum Volume and Deviation Constraint

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