The SeaSWIR dataset

<p>The SeaSWIR dataset consists of 137 ASD (Analytical Spectral Devices, Inc.) marine reflectances, 137 total suspended matter (TSM) measurements and 97 turbidity measurements gathered at three turbid estuarine sites (Gironde, La Plata, Scheldt). The dataset is valuable because of the high-qua...

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Autores principales: Knaeps, E., Doxaran, D., Dogliotti, A., Nechad, B., Ruddick, K., Raymaekers, D., Sterckx, S.
Formato: JOUR
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_18663508_v10_n3_p1439_Knaeps
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Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
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spelling todo:paper_18663508_v10_n3_p1439_Knaeps2023-10-03T16:33:38Z The SeaSWIR dataset Knaeps, E. Doxaran, D. Dogliotti, A. Nechad, B. Ruddick, K. Raymaekers, D. Sterckx, S. <p>The SeaSWIR dataset consists of 137 ASD (Analytical Spectral Devices, Inc.) marine reflectances, 137 total suspended matter (TSM) measurements and 97 turbidity measurements gathered at three turbid estuarine sites (Gironde, La Plata, Scheldt). The dataset is valuable because of the high-quality measurements of the marine reflectance in the Short Wave InfraRed I region (SWIR-I: 1000-1200&thinsp;nm) and SWIR-II (1200-1300&thinsp;nm) and because of the wide range of TSM concentrations from 48 up to 1400&thinsp;mgĝ€†Lĝ'1. The ASD measurements were gathered using a detailed measurement protocol and were subjected to a strict quality control. The SeaSWIR marine reflectance is characterized by low reflectance at short wavelengths ( &lt; 450&thinsp;nm), peak reflectance values between 600 and 720&thinsp;nm and significant contributions in the near-infrared (NIR) and SWIR-I parts of the spectrum. Comparison of the ASD water reflectance with simultaneously acquired reflectance from a three-radiometer system revealed a correlation of 0.98 for short wavelengths (412, 490 and 555&thinsp;nm) and 0.93 for long wavelengths (686, 780 and 865&thinsp;nm). The relationship between TSM and turbidity (for all sites) is linear, with a correlation coefficient of 0.96.</p><p>The SeaSWIR dataset has been made publicly available (<a hrefCombining double low line"https://doi.org/10.1594/PANGAEA.886287" targetCombining double low line" blank">https://doi.org/10.1594/PANGAEA.886287</a>).</p>. © Author(s) 2018. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_18663508_v10_n3_p1439_Knaeps
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
description <p>The SeaSWIR dataset consists of 137 ASD (Analytical Spectral Devices, Inc.) marine reflectances, 137 total suspended matter (TSM) measurements and 97 turbidity measurements gathered at three turbid estuarine sites (Gironde, La Plata, Scheldt). The dataset is valuable because of the high-quality measurements of the marine reflectance in the Short Wave InfraRed I region (SWIR-I: 1000-1200&thinsp;nm) and SWIR-II (1200-1300&thinsp;nm) and because of the wide range of TSM concentrations from 48 up to 1400&thinsp;mgĝ€†Lĝ'1. The ASD measurements were gathered using a detailed measurement protocol and were subjected to a strict quality control. The SeaSWIR marine reflectance is characterized by low reflectance at short wavelengths ( &lt; 450&thinsp;nm), peak reflectance values between 600 and 720&thinsp;nm and significant contributions in the near-infrared (NIR) and SWIR-I parts of the spectrum. Comparison of the ASD water reflectance with simultaneously acquired reflectance from a three-radiometer system revealed a correlation of 0.98 for short wavelengths (412, 490 and 555&thinsp;nm) and 0.93 for long wavelengths (686, 780 and 865&thinsp;nm). The relationship between TSM and turbidity (for all sites) is linear, with a correlation coefficient of 0.96.</p><p>The SeaSWIR dataset has been made publicly available (<a hrefCombining double low line"https://doi.org/10.1594/PANGAEA.886287" targetCombining double low line" blank">https://doi.org/10.1594/PANGAEA.886287</a>).</p>. © Author(s) 2018.
format JOUR
author Knaeps, E.
Doxaran, D.
Dogliotti, A.
Nechad, B.
Ruddick, K.
Raymaekers, D.
Sterckx, S.
spellingShingle Knaeps, E.
Doxaran, D.
Dogliotti, A.
Nechad, B.
Ruddick, K.
Raymaekers, D.
Sterckx, S.
The SeaSWIR dataset
author_facet Knaeps, E.
Doxaran, D.
Dogliotti, A.
Nechad, B.
Ruddick, K.
Raymaekers, D.
Sterckx, S.
author_sort Knaeps, E.
title The SeaSWIR dataset
title_short The SeaSWIR dataset
title_full The SeaSWIR dataset
title_fullStr The SeaSWIR dataset
title_full_unstemmed The SeaSWIR dataset
title_sort seaswir dataset
url http://hdl.handle.net/20.500.12110/paper_18663508_v10_n3_p1439_Knaeps
work_keys_str_mv AT knaepse theseaswirdataset
AT doxarand theseaswirdataset
AT dogliottia theseaswirdataset
AT nechadb theseaswirdataset
AT ruddickk theseaswirdataset
AT raymaekersd theseaswirdataset
AT sterckxs theseaswirdataset
AT knaepse seaswirdataset
AT doxarand seaswirdataset
AT dogliottia seaswirdataset
AT nechadb seaswirdataset
AT ruddickk seaswirdataset
AT raymaekersd seaswirdataset
AT sterckxs seaswirdataset
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