23.5.7.3 Water Clarity, Water Transparancy, Secchi Disk

Knight, J., Voth, M.,
Application of MODIS Imagery for Intra-Annual Water Clarity Assessment of Minnesota Lakes,
RS(4), No. 7, July 2012, pp. 2181-2198.
DOI Link 1208
BibRef

Barnes, B.B., Hu, C.M.[Chuan-Min],
Cross-Sensor Continuity of Satellite-Derived Water Clarity in the Gulf of Mexico: Insights Into Temporal Aliasing and Implications for Long-Term Water Clarity Assessment,
GeoRS(53), No. 4, April 2015, pp. 1761-1772.
IEEE DOI 1502
artificial satellites BibRef

Al Kaabi, M.R.[Muna. R.], Zhao, J.[Jun], Ghedira, H.[Hosni],
MODIS-Based Mapping of Secchi Disk Depth Using a Qualitative Algorithm in the Shallow Arabian Gulf,
RS(8), No. 5, 2016, pp. 423.
DOI Link 1606
BibRef

Xu, X.[Xuan], Huang, X.L.[Xiao-Long], Zhang, Y.L.[Yun-Lin], Yu, D.[Dan],
Long-Term Changes in Water Clarity in Lake Liangzi Determined by Remote Sensing,
RS(10), No. 9, 2018, pp. xx-yy.
DOI Link 1810
BibRef

Jiang, D.[Dalin], Matsushita, B.[Bunkei], Setiawan, F.[Fajar], Vundo, A.[Augusto],
An improved algorithm for estimating the Secchi disk depth from remote sensing data based on the new underwater visibility theory,
PandRS(152), 2019, pp. 13-23.
Elsevier DOI 1905
Secchi disk depth, Quasi-analytical algorithm, Remote sensing, Various waters, Hybrid BibRef

Chen, J.[Jun], Han, Q.J.[Qi-Jin], Chen, Y.L.[Yan-Long], Li, Y.D.[Yong-Dong],
A Secchi Depth Algorithm Considering the Residual Error in Satellite Remote Sensing Reflectance Data,
RS(11), No. 16, 2019, pp. xx-yy.
DOI Link 1909
BibRef

Setiawan, F.[Fajar], Matsushita, B.[Bunkei], Hamzah, R.[Rossi], Jiang, D.[Dalin], Fukushima, T.[Takehiko],
Long-Term Change of the Secchi Disk Depth in Lake Maninjau, Indonesia Shown by Landsat TM and ETM+ Data,
RS(11), No. 23, 2019, pp. xx-yy.
DOI Link 1912
BibRef

Rodrigues, G.[Gonçalo], Potes, M.[Miguel], Costa, M.J.[Maria João], Novais, M.H.[Maria Helena], Penha, A.M.[Alexandra Marchã], Salgado, R.[Rui], Morais, M.M.[Maria Manuela],
Temporal and Spatial Variations of Secchi Depth and Diffuse Attenuation Coefficient from Sentinel-2 MSI over a Large Reservoir,
RS(12), No. 5, 2020, pp. xx-yy.
DOI Link 2003
BibRef

Liu, Y.[Yao], Xiao, C.C.[Chen-Chao], Li, J.S.[Jun-Sheng], Zhang, F.F.[Fang-Fang], Wang, S.L.[Sheng-Lei],
Secchi Disk Depth Estimation from China's New Generation of GF-5 Hyperspectral Observations Using a Semi-Analytical Scheme,
RS(12), No. 11, 2020, pp. xx-yy.
DOI Link 2006
BibRef

Deutsch, E.S.[Eliza S.], Cardille, J.A.[Jeffrey A.], Koll-Egyed, T.[Talia], Fortin, M.J.[Marie-Josée],
Landsat 8 Lake Water Clarity Empirical Algorithms: Large-Scale Calibration and Validation Using Government and Citizen Science Data from across Canada,
RS(13), No. 7, 2021, pp. xx-yy.
DOI Link 2104
BibRef

Rubin, H.J.[Hannah J.], Lutz, D.A.[David A.], Steele, B.G.[Bethel G.], Cottingham, K.L.[Kathryn L.], Weathers, K.C.[Kathleen C.], Ducey, M.J.[Mark J.], Palace, M.[Michael], Johnson, K.M.[Kenneth M.], Chipman, J.W.[Jonathan W.],
Remote Sensing of Lake Water Clarity: Performance and Transferability of Both Historical Algorithms and Machine Learning,
RS(13), No. 8, 2021, pp. xx-yy.
DOI Link 2104
BibRef

Zhao, Y.L.[Ye-Long], Wang, S.L.[Sheng-Lei], Zhang, F.F.[Fang-Fang], Shen, Q.[Qian], Li, J.S.[Jun-Sheng],
Retrieval and Spatio-Temporal Variations Analysis of Yangtze River Water Clarity from 2017 to 2020 Based on Sentinel-2 Images,
RS(13), No. 12, 2021, pp. xx-yy.
DOI Link 2106
BibRef

Maciel, D.A.[Daniel Andrade], Barbosa, C.C.F.[Claudio Clemente Faria], de Moraes Novo, E.M.L.[Evlyn Márcia Leão], Flores Júnior, R.[Rogério], Begliomini, F.N.[Felipe Nincao],
Water clarity in Brazilian water assessed using Sentinel-2 and machine learning methods,
PandRS(182), 2021, pp. 134-152.
Elsevier DOI 2112
Secchi disk depth, Atmospheric correction, Water quality, Google earth engine, Remote sensing, Water transparency BibRef

Guo, J.T.[Jun-Ting], Lu, J.F.[Jing-Fang], Zhang, Y.M.[Yu-Ming], Zhou, C.[Chen], Zhang, S.F.[Shu-Fang], Wang, D.S.[Dao-Sheng], Lv, X.Q.[Xian-Qing],
Variability of Chlorophyll-a and Secchi Disk Depth (1997-2019) in the Bohai Sea Based on Monthly Cloud-Free Satellite Data Reconstructions,
RS(14), No. 3, 2022, pp. xx-yy.
DOI Link 2202
BibRef

Chen, M.M.[Miao-Miao], Xiao, F.[Fei], Wang, Z.[Zhou], Feng, Q.[Qi], Ban, X.[Xuan], Zhou, Y.D.[Ya-Dong], Hu, Z.Z.[Zheng-Zheng],
An Improved QAA-Based Method for Monitoring Water Clarity of Honghu Lake Using Landsat TM, ETM+ and OLI Data,
RS(14), No. 15, 2022, pp. xx-yy.
DOI Link 2208
BibRef

Tao, H.[Hui], Song, K.[Kaishan], Liu, G.[Ge], Wang, Q.[Qiang], Wen, Z.D.[Zhi-Dan], Hou, J.B.[Jun-Bin], Shang, Y.X.[Ying-Xin], Li, S.[Sijia],
Analysis of Spatio-Temporal Dynamics of Chinese Inland Water Clarity at Multiple Spatial Scales between 1984 and 2018,
RS(14), No. 20, 2022, pp. xx-yy.
DOI Link 2211
BibRef

Wang, Q.[Qiang], Song, K.[Kaishan], Xiao, X.M.[Xiang-Ming], Jacinthe, P.A.[Pierre-Andre], Wen, Z.D.[Zhi-Dan], Zhao, F.[Fangrui], Tao, H.[Hui], Li, S.[Sijia], Shang, Y.X.[Ying-Xin], Wang, Y.[Yu], Liu, G.[Ge],
Mapping water clarity in North American lakes and reservoirs using Landsat images on the GEE platform with the RGRB model,
PandRS(194), 2022, pp. 39-57.
Elsevier DOI 2212
Water clarity, Landsat imagery, Google Earth Engine, Top-of-atmosphere reflectance BibRef

Tan, Z.Y.[Zhen-Yu], Cao, Z.G.[Zhi-Gang], Shen, M.[Ming], Chen, J.[Jun], Song, Q.J.[Qing-Jun], Duan, H.T.[Hong-Tao],
Remote Estimation of Water Clarity and Suspended Particulate Matter in Qinghai Lake from 2001 to 2020 Using MODIS Images,
RS(14), No. 13, 2022, pp. xx-yy.
DOI Link 2208
BibRef

Qiu, R.T.[Rui-Ting], Wang, S.L.[Sheng-Lei], Shi, J.K.[Jian-Kang], Shen, W.[Wei], Zhang, W.Z.[Wen-Zhi], Zhang, F.F.[Fang-Fang], Li, J.S.[Jun-Sheng],
Sentinel-2 MSI Observations of Water Clarity in Inland Waters across Hainan Island and Implications for SDG 6.3.2 Evaluation,
RS(15), No. 6, 2023, pp. 1600.
DOI Link 2304
BibRef

Zhang, X.Q.[Xian-Qing], Li, C.[Cai], Zhou, W.[Wen], Zheng, Y.N.[Yuan-Ning], Cao, W.X.[Wen-Xi], Liu, C.[Cong], Xu, Z.T.[Zhan-Tang], Yang, Y.Z.[Yue-Zhong], Yang, Z.M.[Ze-Ming], Chen, F.[Fei],
Study of the Profile Distribution of the Diffuse Attenuation Coefficient and Secchi Disk Depth in the Northwestern South China Sea,
RS(15), No. 6, 2023, pp. 1533.
DOI Link 2304
BibRef

Pi, X.H.[Xue-Hui], Feng, L.[Lian], Li, W.F.[Wei-Feng], Zhao, D.[Dan], Kuang, X.X.[Xing-Xing], Li, J.S.[Jun-Sheng],
Water clarity changes in 64 large alpine lakes on the Tibetan Plateau and the potential responses to lake expansion,
PandRS(170), 2020, pp. 192-204.
Elsevier DOI 2011
Secchi disk depth, Inland water, Tibetan Plateau, MODIS, Alpine lake, Water clarity BibRef

Jiang, B.[Bo], Yang, H.[Hanfei], Deng, L.[Lin], Zhao, J.[Jun],
Optical Water Type Guided Benchmarking of Machine Learning Generalization for Secchi Disk Depth Retrieval,
RS(18), No. 2, 2026, pp. 287.
DOI Link 2602
BibRef

Liu, X.H.[Xiao-Han], Lee, Z.P.[Zhong-Ping], Zhang, Y.L.[Yun-Lin], Lin, J.F.[Jun-Fang], Shi, K.[Kun], Zhou, Y.Q.[Yong-Qiang], Qin, B.Q.[Bo-Qiang], Sun, Z.H.[Zhao-Hua],
Remote Sensing of Secchi Depth in Highly Turbid Lake Waters and Its Application with MERIS Data,
RS(11), No. 19, 2019, pp. xx-yy.
DOI Link 1910
BibRef

Zeng, S.[Shuai], Lei, S.H.[Shao-Hua], Li, Y.M.[Yun-Mei], Lyu, H.[Heng], Xu, J.F.[Jia-Feng], Dong, X.Z.[Xian-Zhang], Wang, R.[Rui], Yang, Z.Q.[Zi-Qian], Li, J.C.[Jian-Chao],
Retrieval of Secchi Disk Depth in Turbid Lakes from GOCI Based on a New Semi-Analytical Algorithm,
RS(12), No. 9, 2020, pp. xx-yy.
DOI Link 2005
BibRef

Chapter on Remote Sensing General Issue, Land Use, Land Cover continues in
Suspended Particulates, Suspended Matter, Water Quality .