Suspended Particulates, Suspended Matter, Water Quality

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Suspended Particulates. Suspended Matter. Water Quality.
See also Organic Carbon, Dissolved Organic Matter, Water Quality.
See also Sediment, Suspended Sediment, Silt, Water Quality.

Wu, G.F.[Guo-Feng], Cui, L.J.[Li-Juan], Duan, H.T.[Hong-Tao], Fei, T.[Teng], Liu, Y.L.[Yao-Lin],
An approach for developing Landsat-5 TM-based retrieval models of suspended particulate matter concentration with the assistance of MODIS,
PandRS(85), No. 1, 2013, pp. 84-92.
Elsevier DOI 1310
Water quality BibRef

Chen, S.S.[Shui-Sen], Han, L.S.[Liu-Sheng], Chen, X.Z.[Xiu-Zhi], Li, D.[Dan], Sun, L.[Lin], Li, Y.[Yong],
Estimating wide range Total Suspended Solids concentrations from MODIS 250-m imageries: An improved method,
PandRS(99), No. 1, 2015, pp. 58-69.
Elsevier DOI 1502
Remote sensing BibRef

Li, J.[Jian], Chen, X.L.[Xiao-Ling], Tian, L.Q.[Li-Qiao], Huang, J.[Jue], Feng, L.[Lian],
Improved capabilities of the Chinese high-resolution remote sensing satellite GF-1 for monitoring suspended particulate matter (SPM) in inland waters: Radiometric and spatial considerations,
PandRS(106), No. 1, 2015, pp. 145-156.
Elsevier DOI 1507
GF-1 BibRef

Gernez, P.[Pierre], Lafon, V.[Virginie], Lerouxel, A.[Astrid], Curti, C.[Cécile], Lubac, B.[Bertrand], Cerisier, S.[Sylvain], Barillé, L.[Laurent],
Toward Sentinel-2 High Resolution Remote Sensing of Suspended Particulate Matter in Very Turbid Waters: SPOT4 (Take5) Experiment in the Loire and Gironde Estuaries,
RS(7), No. 8, 2015, pp. 9507.
DOI Link 1509

Zheng, Z.B.[Zhu-Bin], Li, Y.M.[Yun-Mei], Guo, Y.L.[Yu-Long], Xu, Y.F.[Yi-Fan], Liu, G.[Ge], Du, C.G.[Cheng-Gong],
Landsat-Based Long-Term Monitoring of Total Suspended Matter Concentration Pattern Change in the Wet Season for Dongting Lake, China,
RS(7), No. 10, 2015, pp. 13975.
DOI Link 1511

Han, B.[Bing], Loisel, H.[Hubert], Vantrepotte, V.[Vincent], Mériaux, X.[Xavier], Bryère, P.[Philippe], Ouillon, S.[Sylvain], Dessailly, D.[David], Xing, Q.[Qianguo], Zhu, J.H.[Jian-Hua],
Development of a Semi-Analytical Algorithm for the Retrieval of Suspended Particulate Matter from Remote Sensing over Clear to Very Turbid Waters,
RS(8), No. 3, 2016, pp. 211.
DOI Link 1604

Wang, S.Q.[Sheng-Qiang], Huan, Y.[Yu], Qiu, Z.F.[Zhong-Feng], Sun, D.Y.[De-Yong], Zhang, H.L.[Hai-Long], Zheng, L.F.[Lu-Fei], Xiao, C.[Cong],
Remote Sensing of Particle Cross-Sectional Area in the Bohai Sea and Yellow Sea: Algorithm Development and Application Implications,
RS(8), No. 10, 2016, pp. 841.
DOI Link 1609

Tang, Q.[Qiong], Wang, S.Q.[Sheng-Qiang], Qiu, Z.F.[Zhong-Feng], Sun, D.[Deyong], Bilal, M.[Muhammad],
Variability of the Suspended Particle Cross-Sectional Area in the Bohai Sea and Yellow Sea,
RS(11), No. 10, 2019, pp. xx-yy.
DOI Link 1906

Qiu, Z.F.[Zhong-Feng], Sun, D.Y.[De-Yong], Hu, C.M.[Chuan-Min], Wang, S.Q.[Sheng-Qiang], Zheng, L.[Lufei], Huan, Y.[Yu], Peng, T.[Tian],
Variability of Particle Size Distributions in the Bohai Sea and the Yellow Sea,
RS(8), No. 11, 2016, pp. 949.
DOI Link 1612

Novoa, S.[Stéfani], Doxaran, D.[David], Ody, A.[Anouck], Vanhellemont, Q.[Quinten], Lafon, V.[Virginie], Lubac, B.[Bertrand], Gernez, P.[Pierre],
Atmospheric Corrections and Multi-Conditional Algorithm for Multi-Sensor Remote Sensing of Suspended Particulate Matter in Low-to-High Turbidity Levels Coastal Waters,
RS(9), No. 1, 2017, pp. xx-yy.
DOI Link 1702

Liu, H.Z.[Hui-Zeng], Li, Q.Q.[Qing-Quan], Shi, T.Z.[Tie-Zhu], Hu, S.[Shuibo], Wu, G.F.[Guo-Feng], Zhou, Q.M.[Qi-Ming],
Application of Sentinel 2 MSI Images to Retrieve Suspended Particulate Matter Concentrations in Poyang Lake,
RS(9), No. 7, 2017, pp. xx-yy.
DOI Link 1708

Robert, E.[Elodie], Kergoat, L.[Laurent], Soumaguel, N.[Nogmana], Merlet, S.[Sébastien], Martinez, J.M.[Jean-Michel], Diawara, M.[Mamadou], Grippa, M.[Manuela],
Analysis of Suspended Particulate Matter and Its Drivers in Sahelian Ponds and Lakes by Remote Sensing (Landsat and MODIS): Gourma Region, Mali,
RS(9), No. 12, 2017, pp. xx-yy.
DOI Link 1802

Renosh, P.R.[Pannimpullath R.], Jourdin, F.[Frédéric], Charantonis, A.A.[Anastase A.], Yala, K.[Khalil], Rivier, A.[Aurélie], Badran, F.[Fouad], Thiria, S.[Sylvie], Guillou, N.[Nicolas], Leckler, F.[Fabien], Gohin, F.[Francis], Garlan, T.[Thierry],
Construction of Multi-Year Time-Series Profiles of Suspended Particulate Inorganic Matter Concentrations Using Machine Learning Approach,
RS(9), No. 12, 2017, pp. xx-yy.
DOI Link 1802

Zhou, Q.[Qu], Tian, L.Q.[Li-Qiao], Wai, O.W.H.[Onyx W. H.], Li, J.[Jian], Sun, Z.H.[Zhao-Hua], Li, W.K.[Wen-Kai],
Impacts of Insufficient Observations on the Monitoring of Short- and Long-Term Suspended Solids Variations in Highly Dynamic Waters, and Implications for an Optimal Observation Strategy,
RS(10), No. 2, 2018, pp. xx-yy.
DOI Link 1804

Pan, Y.Q.[Yan-Qun], Shen, F.[Fang], Wei, X.D.[Xiao-Dao],
Fusion of Landsat-8/OLI and GOCI Data for Hourly Mapping of Suspended Particulate Matter at High Spatial Resolution: A Case Study in the Yangtze (Changjiang) Estuary,
RS(10), No. 2, 2018, pp. xx-yy.
DOI Link 1804

Shi, W.[Wei], Wang, M.H.[Meng-Hua], Zhang, Y.L.[Yun-Lin],
Inherent Optical Properties in Lake Taihu Derived from VIIRS Satellite Observations,
RS(11), No. 12, 2019, pp. xx-yy.
DOI Link 1907

Shi, W.[Wei], Zhang, Y.L.[Yun-Lin], Wang, M.H.[Meng-Hua],
Deriving Total Suspended Matter Concentration from the Near-Infrared-Based Inherent Optical Properties over Turbid Waters: A Case Study in Lake Taihu,
RS(10), No. 2, 2018, pp. xx-yy.
DOI Link 1804

de Mendoza, F.P.[Francesco Paladini], Bonamano, S.[Simone], Martellucci, R.[Riccardo], Melchiorri, C.[Cristiano], Consalvi, N.[Natalizia], Piermattei, V.[Viviana], Marcelli, M.[Marco],
Circulation during Storms and Dynamics of Suspended Matter in a Sheltered Coastal Area,
RS(10), No. 4, 2018, pp. xx-yy.
DOI Link 1805

Caballero, I.[Isabel], Steinmetz, F.[François], Navarro, G.[Gabriel],
Evaluation of the First Year of Operational Sentinel-2A Data for Retrieval of Suspended Solids in Medium- to High-Turbidity Waters,
RS(10), No. 7, 2018, pp. xx-yy.
DOI Link 1808

DeLuca, N.M.[Nicole M.], Zaitchik, B.F.[Benjamin F.], Curriero, F.C.[Frank C.],
Can Multispectral Information Improve Remotely Sensed Estimates of Total Suspended Solids? A Statistical Study in Chesapeake Bay,
RS(10), No. 9, 2018, pp. xx-yy.
DOI Link 1810

Zorrilla, N.A.[Noelia Abascal], Vantrepotte, V.[Vincent], Gensac, E.[Erwan], Huybrechts, N.[Nicolas], Gardel, A.[Antoine],
The Advantages of Landsat 8-OLI-Derived Suspended Particulate Matter Maps for Monitoring the Subtidal Extension of Amazonian Coastal Mud Banks (French Guiana),
RS(10), No. 11, 2018, pp. xx-yy.
DOI Link 1812

Xu, Y.F.[Yi-Fan], Qin, B.Q.[Bo-Qiang], Zhu, G.W.[Guang-Wei], Zhang, Y.L.[Yun-Lin], Shi, K.[Kun], Li, Y.M.[Yun-Mei], Shi, Y.[Yong], Chen, L.G.[Lian-Gang],
High Temporal Resolution Monitoring of Suspended Matter Changes from GOCI Measurements in Lake Taihu,
RS(11), No. 8, 2019, pp. xx-yy.
DOI Link 1905

Jensen, D.[Daniel], Simard, M.[Marc], Cavanaugh, K.[Kyle], Sheng, Y.W.[Yong-Wei], Fichot, C.G.[Cédric G.], Pavelsky, T.[Tamlin], Twilley, R.[Robert],
Improving the Transferability of Suspended Solid Estimation in Wetland and Deltaic Waters with an Empirical Hyperspectral Approach,
RS(11), No. 13, 2019, pp. xx-yy.
DOI Link 1907

Wei, L.F.[Li-Fei], Huang, C.[Can], Zhong, Y.F.[Yan-Fei], Wang, Z.[Zhou], Hu, X.[Xin], Lin, L.Q.[Li-Qun],
Inland Waters Suspended Solids Concentration Retrieval Based on PSO-LSSVM for UAV-Borne Hyperspectral Remote Sensing Imagery,
RS(11), No. 12, 2019, pp. xx-yy.
DOI Link 1907

Bernardo, N.[Nariane], do Carmo, A.[Alisson], Park, E.[Edward], Alcântara, E.H.[Enner Herênio],
Retrieval of Suspended Particulate Matter in Inland Waters with Widely Differing Optical Properties Using a Semi-Analytical Scheme,
RS(11), No. 19, 2019, pp. xx-yy.
DOI Link 1910

Cao, Z.G.[Zhi-Gang], Ma, R.H.[Rong-Hua], Duan, H.T.[Hong-Tao], Xue, K.[Kun], Shen, M.[Ming],
Effect of Satellite Temporal Resolution on Long-Term Suspended Particulate Matter in Inland Lakes,
RS(11), No. 23, 2019, pp. xx-yy.
DOI Link 1912

Tavora, J.[Juliana], Boss, E.[Emmanuel], Doxaran, D.[David], Hill, P.[Paul],
An Algorithm to Estimate Suspended Particulate Matter Concentrations and Associated Uncertainties from Remote Sensing Reflectance in Coastal Environments,
RS(12), No. 13, 2020, pp. xx-yy.
DOI Link 2007

Ciancia, E.[Emanuele], Campanelli, A.[Alessandra], Lacava, T.[Teodosio], Palombo, A.[Angelo], Pascucci, S.[Simone], Pergola, N.[Nicola], Pignatti, S.[Stefano], Satriano, V.[Valeria], Tramutoli, V.[Valerio],
Modeling and Multi-Temporal Characterization of Total Suspended Matter by the Combined Use of Sentinel 2-MSI and Landsat 8-OLI Data: The Pertusillo Lake Case Study (Italy),
RS(12), No. 13, 2020, pp. xx-yy.
DOI Link 2007

Liu, Y.X.[Yan-Xia], Huang, H.J.[Hai-Jun], Yan, L.W.[Li-Wen], Yang, X.G.[Xi-Guang], Bi, H.B.[Hai-Bo], Zhang, Z.H.[Ze-Hua],
Particle Size Parameters of Particulate Matter Suspended in Coastal Waters and Their Use as Indicators of Typhoon Influence,
RS(12), No. 16, 2020, pp. xx-yy.
DOI Link 2008

Nazirova, K.[Ksenia], Alferyeva, Y.[Yana], Lavrova, O.[Olga], Shur, Y.[Yuri], Soloviev, D.[Dmitry], Bocharova, T.[Tatiana], Strochkov, A.[Alexey],
Comparison of In Situ and Remote-Sensing Methods to Determine Turbidity and Concentration of Suspended Matter in the Estuary Zone of the Mzymta River, Black Sea,
RS(13), No. 1, 2021, pp. xx-yy.
DOI Link 2101

Marzano, F.S., Iacobelli, M., Orlandi, M., Cimini, D.,
Coastal Water Remote Sensing From Sentinel-2 Satellite Data Using Physical, Statistical, and Neural Network Retrieval Approach,
GeoRS(59), No. 2, February 2021, pp. 915-928.
Reflectivity, Atmospheric measurements, Biological system modeling, Sea measurements, Estimation, total suspended matter (TSM) BibRef

Hafeez, S.[Sidrah], Wong, M.S.[Man Sing], Abbas, S.[Sawaid], Jiang, G.J.[Guang-Jia],
Assessing the Potential of Geostationary Himawari-8 for Mapping Surface Total Suspended Solids and Its Diurnal Changes,
RS(13), No. 3, 2021, pp. xx-yy.
DOI Link 2102

Chen, Q.[Qiong], Zhou, B.[Bin], Yu, Z.F.[Zhi-Feng], Wu, J.[Jie], Tang, S.L.[Shi-Lin],
Detection of the Minute Variations of Total Suspended Matter in Strong Tidal Waters Based on GaoFen-4 Satellite Data,
RS(13), No. 7, 2021, pp. xx-yy.
DOI Link 2104

Liu, C.J.[Chang-Jiang], Duan, P.[Pan], Zhang, F.[Fei], Jim, C.Y.[Chi-Yung], Tan, M.L.[Mou Leong], Chan, N.W.[Ngai Weng],
Feasibility of the Spatiotemporal Fusion Model in Monitoring Ebinur Lake's Suspended Particulate Matter under the Missing-Data Scenario,
RS(13), No. 19, 2021, pp. xx-yy.
DOI Link 2110

Gao, Z.Y.[Zuo-Yan], Shen, Q.[Qian], Wang, X.L.[Xue-Lei], Peng, H.C.[Hong-Chun], Yao, Y.[Yue], Wang, M.X.[Ming-Xiu], Wang, L.B.[Li-Bing], Wang, R.[Ru], Shi, J.R.[Jia-Rui], Shi, D.W.[Da-Wei], Liang, W.G.[Wen-Guang],
Spatiotemporal Distribution of Total Suspended Matter Concentration in Changdang Lake Based on In Situ Hyperspectral Data and Sentinel-2 Images,
RS(13), No. 21, 2021, pp. xx-yy.
DOI Link 2112

Chalov, S.[Sergey], Prokopeva, K.[Kristina], Habel, M.[Michal],
North to South Variations in the Suspended Sediment Transport Budget within Large Siberian River Deltas Revealed by Remote Sensing Data,
RS(13), No. 22, 2021, pp. xx-yy.
DOI Link 2112

Zhang, X.[Xiang], Song, Y.[Yu], Chen, J.J.[Jun-Jie], Huang, J.[Jue],
Landsat Image-Based Retrieval and Analysis of Spatiotemporal Variation of Total Suspended Solid Concentration in Jiaozhou Bay, China,
RS(13), No. 23, 2021, pp. xx-yy.
DOI Link 2112

Wang, Z.M.[Zuo-Min], Hu, S.B.[Shui-Bo], Li, Q.Q.[Qing-Quan], Liu, H.Z.[Hui-Zeng], Liao, X.M.[Xiao-Mei], Wu, G.F.[Guo-Feng],
A Fuor-Step Method for Estimating Suspended Particle Size Based on In Situ Comprehensive Observations in the Pearl River Estuary in China,
RS(13), No. 24, 2021, pp. xx-yy.
DOI Link 2112

Wang, X.[Xiang], Wen, Z.D.[Zhi-Dan], Liu, G.[Ge], Tao, H.[Hui], Song, K.[Kaishan],
Remote estimates of total suspended matter in China's main estuaries using Landsat images and a weight random forest model,
PandRS(183), 2022, pp. 94-110.
Elsevier DOI 2201
Estuary, TSM, Weight random forest, Landsat images BibRef

Zhu, P.H.[Peng-Hang], Liu, Y.[Yao], Li, J.S.[Jun-Sheng],
Optimization and Evaluation of Widely-Used Total Suspended Matter Concentration Retrieval Methods for ZY1-02D's AHSI Imagery,
RS(14), No. 3, 2022, pp. xx-yy.
DOI Link 2202

Wen, Z.D.[Zhi-Dan], Wang, Q.[Qiang], Liu, G.[Ge], Jacinthe, P.A.[Pierre-Andre], Wang, X.[Xiang], Lyu, L.[Lili], Tao, H.[Hui], Ma, Y.[Yue], Duan, H.T.[Hong-Tao], Shang, Y.X.[Ying-Xin], Zhang, B.[Baohua], Du, Y.[Yunxia], Du, J.[Jia], Li, S.[Sijia], Cheng, S.[Shuai], Song, K.[Kaishan],
Remote sensing of total suspended matter concentration in lakes across China using Landsat images and Google Earth Engine,
PandRS(187), 2022, pp. 61-78.
Elsevier DOI 2205
Google earth engine (GEE), Landsat, Surface reflectance, TSM BibRef

Du, C.G.[Cheng-Gong], Li, Y.M.[Yun-Mei], Lyu, H.[Heng], Shi, K.[Kun], Liu, N.[Naisen], Yan, C.[Chen], Pan, J.H.[Jin-Heng], Guo, Y.L.[Yu-Long], Li, Y.[Yuan],
Characteristics of the Total Suspended Matter Concentration in the Hongze Lake during 1984-2019 Based on Landsat Data,
RS(14), No. 12, 2022, pp. xx-yy.
DOI Link 2206

Patricio-Valerio, L.[Larissa], Schroeder, T.[Thomas], Devlin, M.J.[Michelle J.], Qin, Y.[Yi], Smithers, S.[Scott],
A Machine Learning Algorithm for Himawari-8 Total Suspended Solids Retrievals in the Great Barrier Reef,
RS(14), No. 14, 2022, pp. xx-yy.
DOI Link 2208

Du, C.G.[Cheng-Gong], Shi, K.[Kun], Liu, N.[Naisen], Li, Y.M.[Yun-Mei], Lyu, H.[Heng], Yan, C.[Chen], Pan, J.[Jinheng],
Remote Estimation of the Particulate Phosphorus Concentrations in Inland Water Bodies: A Case Study in Hongze Lake,
RS(14), No. 16, 2022, pp. xx-yy.
DOI Link 2208

Ren, X.[Xin], Ding, D.[Dong], Qin, H.[Haosen], Ma, L.[Le], Li, G.X.[Guang-Xue],
Extraction of Submarine Gas Plume Based on Multibeam Water Column Point Cloud Model,
RS(14), No. 17, 2022, pp. xx-yy.
DOI Link 2209

Liang, Y.C.[Yong-Chun], Yin, F.[Fang], Xie, D.[Danni], Liu, L.[Lei], Zhang, Y.[Yang], Ashraf, T.[Tariq],
Inversion and Monitoring of the TP Concentration in Taihu Lake Using the Landsat-8 and Sentinel-2 Images,
RS(14), No. 24, 2022, pp. xx-yy.
DOI Link 2212

Chen, W.R.[Wen-Rui], Wang, D.S.[Dao-Sheng], Liu, X.J.[Xiu-Juan], Cheng, J.[Jun], Zhang, J.C.[Ji-Cai],
Improve the Accuracy in Numerical Modeling of Suspended Sediment Concentrations in the Hangzhou Bay by Assimilating Remote Sensing Data Utilizing Combined Techniques of Adjoint Data Assimilation and the Penalty Function Method,
RS(15), No. 1, 2023, pp. xx-yy.
DOI Link 2301

Luo, W.[Wei], Li, R.[Renhu], Shen, F.[Fang], Liu, J.Q.[Jian-Qiang],
HY-1C/D CZI Image Atmospheric Correction and Quantifying Suspended Particulate Matter,
RS(15), No. 2, 2023, pp. xx-yy.
DOI Link 2301

Tavora, J.[Juliana], Salama, M.S.[Mhd. Suhyb], Penning-de Vries, M.[Marloes], Mannaerts, C.M.[Chris M.], van der Wal, D.[Daphne],
Detecting the Effects of Extreme Events on Estuarine Suspended Particulate Matter Using Satellite Remote Sensing (Scheldt Estuary): Challenges and Opportunities,
RS(15), No. 3, 2023, pp. xx-yy.
DOI Link 2302

Jiang, D.[Dalin], Matsushita, B.[Bunkei], Pahlevan, N.[Nima], Gurlin, D.[Daniela], Fichot, C.G.[Cédric G.], Harringmeyer, J.[Joshua], Sent, G.[Giulia], Brito, A.C.[Ana C.], Brotas, V.[Vanda], Werther, M.[Mortimer], Mascarenhas, V.[Veloisa], Blake, M.[Matthew], Hunter, P.[Peter], Tyler, A.[Andrew], Spyrakos, E.[Evangelos],
Estimating the concentration of total suspended solids in inland and coastal waters from Sentinel-2 MSI: A semi-analytical approach,
PandRS(204), 2023, pp. 362-377.
Elsevier DOI 2310
Total suspended solids, Semi-analytical algorithm, Sentinel-2 MSI, Inland waters, Coastal waters BibRef

Zhou, T.[Tao], Cao, B.[Bowen], Qiu, J.L.[Jun-Liang], Cai, S.R.[Shi-Rong], Ou, H.D.[Hai-Dong], Fan, W.[Wei], Yang, X.K.[Xian-Kun], Xie, X.T.[Xue-Tong], Bo, Y.[Yu], Zhang, G.[Gaige],
Mapping Suspended Sediment Changes in the Western Pacific Coasts,
RS(15), No. 21, 2023, pp. 5192.
DOI Link 2311

Ciancia, E.[Emanuele], Campanelli, A.[Alessandra], Colonna, R.[Roberto], Palombo, A.[Angelo], Pascucci, S.[Simone], Pignatti, S.[Stefano], Pergola, N.[Nicola],
Improving Colored Dissolved Organic Matter (CDOM) Retrievals by Sentinel2-MSI Data through a Total Suspended Matter (TSM)-Driven Classification: The Case of Pertusillo Lake (Southern Italy),
RS(15), No. 24, 2023, pp. 5718.
DOI Link 2401

Karalis, S.[Sotirios], Karymbalis, E.[Efthimios], Tsanakas, K.[Konstantinos],
Mid-Term Monitoring of Suspended Sediment Plumes of Greek Rivers Using Moderate Resolution Imaging Spectroradiometer (MODIS) Imagery,
RS(15), No. 24, 2023, pp. 5702.
DOI Link 2401

Hu, X.[Xueke], Li, J.G.[Jia-Guo], Sun, Y.[Yuan], Bao, Y.F.[Yun-Fei], Sun, Y.H.[Yong-Hua], Chen, X.F.[Xing-Feng], Yan, Y.G.[Yue-Guan],
Retrieval of Total Suspended Matter Concentration Based on the Iterative Analysis of Multiple Equations: A Case Study of a Lake Taihu Image from the First Sustainable Development Goals Science Satellite's Multispectral Imager for Inshore,
RS(16), No. 8, 2024, pp. 1385.
DOI Link 2405

Al-Kharusi, E.S.[Enass Said.], Hensgens, G.[Geert], Abdi, A.M.[Abdulhakim M.], Kutser, T.[Tiit], Karlsson, J.[Jan], Tenenbaum, D.E.[David E.], Berggren, M.[Martin],
Drought Offsets the Controls on Colored Dissolved Organic Matter in Lakes,
RS(16), No. 8, 2024, pp. 1345.
DOI Link 2405

Yang, F.[Fan], Feng, Q.[Qi], Zhou, Y.D.[Ya-Dong], Li, W.[Wen], Zhang, X.Y.[Xiao-Yang], He, B.[Baoyin],
Monitoring Total Phosphorus Concentration in the Middle Reaches of the Yangtze River Using Sentinel-2 Satellites,
RS(16), No. 9, 2024, pp. 1491.
DOI Link 2405

Stull, T.[Trevor], Ahmari, H.[Habib],
Estimation of Suspended Sediment Concentration along the Lower Brazos River Using Satellite Imagery and Machine Learning,
RS(16), No. 10, 2024, pp. 1727.
DOI Link 2405

Nurdin, N., Helmi, M., Setiawan, R.Y., Zainuddin, M., Rustam, Agus, Akbar AS, M.,
Landsat Capability to Mapping of Total Solid Suspended (tss) And Coastal Ecosystem,
DOI Link 1912

Lounis, B.[Bahia], Rabia, S.[Sofiane], Ramoul, A.[Adlene], Aissa, A.B.[Aichouche Belhadj],
An Adaptive Method Using Genetic Fuzzy System to Evaluate Suspended Particulates Matters SPM from Landsat and Modis Data,
Springer DOI 1006

Chapter on Remote Sensing General Issue, Land Use, Land Cover continues in
Organic Carbon, Dissolved Organic Matter, Water Quality .

Last update:Jun 24, 2024 at 15:06:29