22.2.26.2 Tidal Areas, Inter-Tidal, Coastal, Wetlands, Wetland Detection, Analysis

Chapter Contents (Back)
Classification. Tidal Wetlands. Wetlands, Tidal.
See also Coastal, Tidal Flood Analysis, Storm Surge.

Dale, P.E.R., Chandica, A.L., Evans, M.,
Using Image Subtraction and Classification to Evaluate Change in Subtropical Intertidal Wetlands,
JRS(17), No. 4, March 10 1996, pp. 703-719. BibRef 9603

Chen, Y.Y.[Yuan-Yuan], He, X.F.[Xiu-Feng], Wang, J.[Jing], Xiao, R.[Ruya],
The Influence of Polarimetric Parameters and an Object-Based Approach on Land Cover Classification in Coastal Wetlands,
RS(6), No. 12, 2014, pp. 12575-12592.
DOI Link 1412
BibRef

Moffett, K.B.[Kevan B.], Nardin, W.[William], Silvestri, S.[Sonia], Wang, C.[Chen], Temmerman, S.[Stijn],
Multiple Stable States and Catastrophic Shifts in Coastal Wetlands: Progress, Challenges, and Opportunities in Validating Theory Using Remote Sensing and Other Methods,
RS(7), No. 8, 2015, pp. 10184.
DOI Link 1509
BibRef

O'Donnell, J.P.R.[John P. R.], Schalles, J.F.[John F.],
Examination of Abiotic Drivers and Their Influence on Spartina alterniflora Biomass over a Twenty-Eight Year Period Using Landsat 5 TM Satellite Imagery of the Central Georgia Coast,
RS(8), No. 6, 2016, pp. 477.
DOI Link 1608
BibRef

Farinós-Celdrán, P.[Pablo], Robledano-Aymerich, F.[Francisco], Carreño, M.F.[María Francisca], Martínez-López, J.[Javier],
Spatiotemporal Assessment of Littoral Waterbirds for Establishing Ecological Indicators of Mediterranean Coastal Lagoons,
IJGI(6), No. 8, 2017, pp. xx-yy.
DOI Link 1708
BibRef

Jensen, D.J., Simard, M., Cavanaugh, K.C., Thompson, D.R.,
Imaging Spectroscopy BRDF Correction for Mapping Louisiana's Coastal Ecosystems,
GeoRS(56), No. 3, March 2018, pp. 1739-1748.
IEEE DOI 1804
ecology, geophysical image processing, land cover, regression analysis, remote sensing, rivers, vegetation, ARGC, remote sensing BibRef

Enwright, N.M.[Nicholas M.], Wang, L.[Lei], Borchert, S.M.[Sinéad M.], Day, R.H.[Richard H.], Feher, L.C.[Laura C.], Osland, M.J.[Michael J.],
The Impact of Lidar Elevation Uncertainty on Mapping Intertidal Habitats on Barrier Islands,
RS(10), No. 1, 2018, pp. xx-yy.
DOI Link 1802
BibRef

Adolph, W.[Winny], Farke, H.[Hubert], Lehner, S.[Susanne], Ehlers, M.[Manfred],
Remote Sensing Intertidal Flats with TerraSAR-X. A SAR Perspective of the Structural Elements of a Tidal Basin for Monitoring the Wadden Sea,
RS(10), No. 7, 2018, pp. xx-yy.
DOI Link 1808
BibRef

Tahsin, S.[Subrina], Medeiros, S.C.[Stephen C.], Singh, A.[Arvind],
Assessing the Resilience of Coastal Wetlands to Extreme Hydrologic Events Using Vegetation Indices: A Review,
RS(10), No. 9, 2018, pp. xx-yy.
DOI Link 1810
BibRef

Liu, M.Y.[Ming-Yue], Mao, D.H.[De-Hua], Wang, Z.M.[Zong-Ming], Li, L.[Lin], Man, W.D.[Wei-Dong], Jia, M.M.[Ming-Ming], Ren, C.Y.[Chun-Ying], Zhang, Y.Z.[Yuan-Zhi],
Rapid Invasion of Spartina alterniflora in the Coastal Zone of Mainland China: New Observations from Landsat OLI Images,
RS(10), No. 12, 2018, pp. xx-yy.
DOI Link 1901
BibRef

Doughty, C.L.[Cheryl L.], Cavanaugh, K.C.[Kyle C.],
Mapping Coastal Wetland Biomass from High Resolution Unmanned Aerial Vehicle (UAV) Imagery,
RS(11), No. 5, 2019, pp. xx-yy.
DOI Link 1903
BibRef

Zhang, A.Z.[Ai-Zhu], Sun, G.Y.[Gen-Yun], Ma, P.[Ping], Jia, X.P.[Xiu-Ping], Ren, J.C.[Jin-Chang], Huang, H.[Hui], Zhang, X.M.[Xu-Ming],
Coastal Wetland Mapping with Sentinel-2 MSI Imagery Based on Gravitational Optimized Multilayer Perceptron and Morphological Attribute Profiles,
RS(11), No. 8, 2019, pp. xx-yy.
DOI Link 1905
BibRef

Stiller, D.[Dorothee], Ottinger, M.[Marco], Leinenkugel, P.[Patrick],
Spatio-Temporal Patterns of Coastal Aquaculture Derived from Sentinel-1 Time Series Data and the Full Landsat Archive,
RS(11), No. 14, 2019, pp. xx-yy.
DOI Link 1908
BibRef

Wang, X.X.[Xiao-Xue], Gao, X.W.[Xiang-Wei], Zhang, Y.Z.[Yuan-Zhi], Fei, X.Y.[Xian-Yun], Chen, Z.[Zhou], Wang, J.[Jian], Zhang, Y.[Yayi], Lu, X.[Xia], Zhao, H.[Huimin],
Land-Cover Classification of Coastal Wetlands Using the RF Algorithm for Worldview-2 and Landsat 8 Images,
RS(11), No. 16, 2019, pp. xx-yy.
DOI Link 1909
BibRef

Ali, A.M.[Abebe Mohammed], Darvishzadeh, R.[Roshanak], Shahi, K.R.[Kasra Rafiezadeh], Skidmore, A.[Andrew],
Validating the Predictive Power of Statistical Models in Retrieving Leaf Dry Matter Content of a Coastal Wetland from a Sentinel-2 Image,
RS(11), No. 16, 2019, pp. xx-yy.
DOI Link 1909
BibRef

Miller, G.J.[Gwen J.], Morris, J.T.[James T.], Wang, C.Z.[Cui-Zhen],
Estimating Aboveground Biomass and Its Spatial Distribution in Coastal Wetlands Utilizing Planet Multispectral Imagery,
RS(11), No. 17, 2019, pp. xx-yy.
DOI Link 1909
BibRef

Jiao, L.L.[Lei-Lei], Sun, W.W.[Wei-Wei], Yang, G.[Gang], Ren, G.B.[Guang-Bo], Liu, Y.N.[Yin-Nian],
A Hierarchical Classification Framework of Satellite Multispectral/Hyperspectral Images for Mapping Coastal Wetlands,
RS(11), No. 19, 2019, pp. xx-yy.
DOI Link 1910
BibRef

Jensen, D.[Daniel], Cavanaugh, K.C.[Kyle C.], Simard, M.[Marc], Okin, G.S.[Gregory S.], Castañeda-Moya, E.[Edward], McCall, A.[Annabeth], Twilley, R.R.[Robert R.],
Integrating Imaging Spectrometer and Synthetic Aperture Radar Data for Estimating Wetland Vegetation Aboveground Biomass in Coastal Louisiana,
RS(11), No. 21, 2019, pp. xx-yy.
DOI Link 1911
BibRef

van Deventer, H.[Heidi], Cho, M.A.[Moses Azong], Mutanga, O.[Onisimo],
Multi-season RapidEye imagery improves the classification of wetland and dryland communities in a subtropical coastal region,
PandRS(157), 2019, pp. 171-187.
Elsevier DOI 1911
Multi-seasons, RapidEye, Subtropical wetland and dryland vegetation communities, Classification BibRef

Kim, K.L.[Kye-Lim], Kim, B.J.[Bum-Jun], Lee, Y.K.[Yoon-Kyung], Ryu, J.H.[Joo-Hyung],
Generation of a Large-Scale Surface Sediment Classification Map Using Unmanned Aerial Vehicle (UAV) Data: A Case Study at the Hwang-do Tidal Flat, Korea,
RS(11), No. 3, 2019, pp. xx-yy.
DOI Link 1902
BibRef

Tan, K.[Kai], Chen, J.[Jin], Qian, W.W.[Wei-Wei], Zhang, W.G.[Wei-Guo], Shen, F.[Fang], Cheng, X.J.[Xiao-Jun],
Intensity Data Correction for Long-Range Terrestrial Laser Scanners: A Case Study of Target Differentiation in an Intertidal Zone,
RS(11), No. 3, 2019, pp. xx-yy.
DOI Link 1902
BibRef

Zhang, K.Y.[Kang-Yong], Dong, X.Y.[Xuan-Yan], Liu, Z.G.[Zhi-Gang], Gao, W.X.[Wen-Xiu], Hu, Z.W.[Zhong-Wen], Wu, G.F.[Guo-Feng],
Mapping Tidal Flats with Landsat 8 Images and Google Earth Engine: A Case Study of the China's Eastern Coastal Zone circa 2015,
RS(11), No. 8, 2019, pp. xx-yy.
DOI Link 1905
BibRef

Lamb, B.T.[Brian T.], Tzortziou, M.A.[Maria A.], McDonald, K.C.[Kyle C.],
Evaluation of Approaches for Mapping Tidal Wetlands of the Chesapeake and Delaware Bays,
RS(11), No. 20, 2019, pp. xx-yy.
DOI Link 1910
BibRef

Zhao, C.P.[Chuan-Peng], Qin, C.Z.[Cheng-Zhi], Teng, J.K.[Jia-Kun],
Mapping large-area tidal flats without the dependence on tidal elevations: A case study of Southern China,
PandRS(159), 2020, pp. 256-270.
Elsevier DOI 1912
Tidal flats, Tidal datums, Tidal elevations, Estuarine salinity, SAR data BibRef

Khan, M.J.U.[Md Jamal Uddin], Ansary, M.N.[Md Nazmuddoha], Durand, F.[Fabien], Testut, L.[Laurent], Ishaque, M.[Marufa], Calmant, S.[Stéphane], Krien, Y.[Yann], Saiful Islam, A.K.M., Papa, F.[Fabrice],
High-Resolution Intertidal Topography from Sentinel-2 Multi-Spectral Imagery: Synergy between Remote Sensing and Numerical Modeling,
RS(11), No. 24, 2019, pp. xx-yy.
DOI Link 1912
BibRef

Magolan, J.L.[Jessica Lynn], Halls, J.N.[Joanne Nancie],
A Multi-Decadal Investigation of Tidal Creek Wetland Changes, Water Level Rise, and Ghost Forests,
RS(12), No. 7, 2020, pp. xx-yy.
DOI Link 2004
BibRef

Wang, X.X.[Xin-Xin], Xiao, X.M.[Xiang-Ming], Zou, Z.H.[Zhen-Hua], Hou, L.[Luyao], Qin, Y.W.[Yuan-Wei], Dong, J.W.[Jin-Wei], Doughty, R.B.[Russell B.], Chen, B.Q.[Bang-Qian], Zhang, X.[Xi], Chen, Y.[Ying], Ma, J.[Jun], Zhao, B.[Bin], Li, B.[Bo],
Mapping coastal wetlands of China using time series Landsat images in 2018 and Google Earth Engine,
PandRS(163), 2020, pp. 312-326.
Elsevier DOI 2005
Coastal wetlands, Tidal flats, Coastal vegetation, Time series Landsat images, China BibRef

Azhar, M.[Mihailo], Schenone, S.[Stefano], Anderson, A.[Arabella], Gee, T.[Trevor], Cooper, J.[James], van der Mark, W.[Wannes], Hillman, J.R.[Jenny R.], Yang, K.[Kaiwen], Thrush, S.F.[Simon F.], Delmas, P.[Patrice],
A framework for multiscale intertidal sandflat mapping: A case study in the Whangateau estuary,
PandRS(169), 2020, pp. 242-252.
Elsevier DOI 2011
Multiscale imaging, 3D maps, UAV, Estuary management, Intertidal zone, Polychaetes BibRef

Chen, Y.Y.[Yuan-Yuan], He, X.F.[Xiu-Feng], Xu, J.[Jia], Zhang, R.C.[Rong-Chun], Lu, Y.Y.[Yan-Yan],
Scattering Feature Set Optimization and Polarimetric SAR Classification Using Object-Oriented RF-SFS Algorithm in Coastal Wetlands,
RS(12), No. 3, 2020, pp. xx-yy.
DOI Link 2002
BibRef

Wen, L.[Li], Hughes, M.[Michael],
Coastal Wetland Mapping Using Ensemble Learning Algorithms: A Comparative Study of Bagging, Boosting and Stacking Techniques,
RS(12), No. 10, 2020, pp. xx-yy.
DOI Link 2006
BibRef

Liao, T.H.[Tien-Hao], Simard, M.[Marc], Denbina, M.[Michael], Lamb, M.P.[Michael P.],
Monitoring Water Level Change and Seasonal Vegetation Change in the Coastal Wetlands of Louisiana Using L-Band Time-Series,
RS(12), No. 15, 2020, pp. xx-yy.
DOI Link 2008
BibRef

Dang, K.B.[Kinh Bac], Nguyen, M.H.[Manh Ha], Nguyen, D.A.[Duc Anh], Phan, T.T.H.[Thi Thanh Hai], Giang, T.L.[Tuan Linh], Pham, H.H.[Hoang Hai], Nguyen, T.N.[Thu Nhung], Tran, T.T.V.[Thi Thuy Van], Bui, D.T.[Dieu Tien],
Coastal Wetland Classification with Deep U-Net Convolutional Networks and Sentinel-2 Imagery: A Case Study at the Tien Yen Estuary of Vietnam,
RS(12), No. 19, 2020, pp. xx-yy.
DOI Link 2010
BibRef

Sun, S.B.[Shao-Bo], Zhang, Y.G.[Yong-Gen], Song, Z.L.[Zhao-Liang], Chen, B.Z.[Bao-Zhang], Zhang, Y.J.[Yang-Jian], Yuan, W.P.[Wen-Ping], Chen, C.[Chu], Chen, W.[Wei], Ran, X.B.[Xiang-Bin], Wang, Y.D.[Yi-Dong],
Mapping Coastal Wetlands of the Bohai Rim at a Spatial Resolution of 10 m Using Multiple Open-Access Satellite Data and Terrain Indices,
RS(12), No. 24, 2020, pp. xx-yy.
DOI Link 2012
BibRef

Dale, J.[Jonathan], Burnside, N.G.[Niall G.], Hill-Butler, C.[Charley], Berg, M.J.[Maureen J.], Strong, C.J.[Conor J.], Burgess, H.M.[Heidi M.],
The Use of Unmanned Aerial Vehicles to Determine Differences in Vegetation Cover: A Tool for Monitoring Coastal Wetland Restoration Schemes,
RS(12), No. 24, 2020, pp. xx-yy.
DOI Link 2012
BibRef

Su, H.J.[Hong-Jun], Yao, W.J.[Wen-Jing], Wu, Z.Y.[Zhao-Yue], Zheng, P.[Pan], Du, Q.[Qian],
Kernel low-rank representation with elastic net for China coastal wetland land cover classification using GF-5 hyperspectral imagery,
PandRS(171), 2021, pp. 238-252.
Elsevier DOI 2012
Wetland, Classification, Hyperspectral remote sensing, Low-rank representation, Elastic net, Kernel function BibRef

Tahsin, S.[Subrina], Medeiros, S.C.[Stephen C.], Singh, A.[Arvind],
Consistent Long-Term Monthly Coastal Wetland Vegetation Monitoring Using a Virtual Satellite Constellation,
RS(13), No. 3, 2021, pp. xx-yy.
DOI Link 2102
BibRef

Wu, N.[Nan], Shi, R.[Runhe], Zhuo, W.[Wei], Zhang, C.[Chao], Zhou, B.[Bingchan], Xia, Z.[Zilong], Tao, Z.[Zhu], Gao, W.[Wei], Tian, B.[Bo],
A Classification of Tidal Flat Wetland Vegetation Combining Phenological Features with Google Earth Engine,
RS(13), No. 3, 2021, pp. xx-yy.
DOI Link 2102
BibRef

Gao, C.[Chen], Xu, M.[Min], Xu, H.Y.[Hanze-Yu], Zhou, W.[Wei],
Retrieving Photometric Properties and Soil Moisture Content of Tidal Flats Using Bidirectional Spectral Reflectance,
RS(13), No. 7, 2021, pp. xx-yy.
DOI Link 2104
BibRef

Taddia, Y.[Yuri], Pellegrinelli, A.[Alberto], Corbau, C.[Corinne], Franchi, G.[Giulia], Staver, L.W.[Lorie W.], Stevenson, J.C.[John Court], Nardin, W.[William],
High-Resolution Monitoring of Tidal Systems Using UAV: A Case Study on Poplar Island, MD (USA),
RS(13), No. 7, 2021, pp. xx-yy.
DOI Link 2104
BibRef

Zou, Z.H.[Zhen-Hua], de Vries, B.[Ben], Huang, C.Q.[Cheng-Quan], Lang, M.W.[Megan W.], Thielke, S.[Sydney], McCarty, G.W.[Greg W.], Robertson, A.G.[Andrew G.], Knopf, J.[Jeff], Wells, A.F.[Aaron F.], Macander, M.J.[Matthew J.], Du, L.[Ling],
Characterizing Wetland Inundation and Vegetation Dynamics in the Arctic Coastal Plain Using Recent Satellite Data and Field Photos,
RS(13), No. 8, 2021, pp. xx-yy.
DOI Link 2104
BibRef

Yan, J.F.[Jin-Feng], Zhao, S.Y.[Shi-Yi], Su, F.Z.[Fen-Zhen], Du, J.X.[Jia-Xue], Feng, P.F.[Peng-Fei], Zhang, S.X.[Shi-Xun],
Tidal Flat Extraction and Change Analysis Based on the RF-W Model: A Case Study of Jiaozhou Bay, East China,
RS(13), No. 8, 2021, pp. xx-yy.
DOI Link 2104
BibRef

Zheng, W.[Wei], Lu, X.[Xia], Li, Y.[Yu], Li, S.[Shan], Zhang, Y.Z.[Yuan-Zhi],
Hyperspectral Identification of Chlorophyll Fluorescence Parameters of Suaeda salsa in Coastal Wetlands,
RS(13), No. 11, 2021, pp. xx-yy.
DOI Link 2106
BibRef

Cui, L.L.[Lin-Lin], Li, G.[Guosheng], Chen, Y.H.[Yan-Hui], Li, L.[Lijuan],
Response of Landscape Evolution to Human Disturbances in the Coastal Wetlands in Northern Jiangsu Province, China,
RS(13), No. 11, 2021, pp. xx-yy.
DOI Link 2106
BibRef

Brunetta, R.[Riccardo], Duo, E.[Enrico], Ciavola, P.[Paolo],
Evaluating Short-Term Tidal Flat Evolution Through UAV Surveys: A Case Study in the Po Delta (Italy),
RS(13), No. 12, 2021, pp. xx-yy.
DOI Link 2106
BibRef

Zhang, L.L.[Li-Li], Fan, Y.[Yu], Yan, R.J.[Rui-Jie], Shao, Y.H.[Ye-Hong], Wang, G.X.[Gao-Xu], Wu, J.[Jisen],
Fine-Grained Tidal Flat Waterbody Extraction Method (FYOLOv3) for High-Resolution Remote Sensing Images,
RS(13), No. 13, 2021, pp. xx-yy.
DOI Link 2107
BibRef

Pan, H.[Hong], Jia, Y.H.[Yong-Hong], Zhao, D.[Dawei], Xiu, T.Y.[Tian-Yu], Duan, F.Z.[Fu-Zhi],
A Tidal Flat Wetlands Delineation and Classification Method for High-Resolution Imagery,
IJGI(10), No. 7, 2021, pp. xx-yy.
DOI Link 2108
BibRef

Li, H.X.[Hui-Xuan], Wang, C.Z.[Cui-Zhen], Cui, Y.X.[Yu-Xin], Hodgson, M.[Michael],
Mapping salt marsh along coastal South Carolina using U-Net,
PandRS(179), 2021, pp. 121-132.
Elsevier DOI 2108
Salt marsh, Coastal remote sensing, U-Net, South Carolina BibRef

Dang, A.T.N.[An T. N.], Kumar, L.[Lalit], Reid, M.[Michael], Nguyen, H.[Ho],
Remote Sensing Approach for Monitoring Coastal Wetland in the Mekong Delta, Vietnam: Change Trends and Their Driving Forces,
RS(13), No. 17, 2021, pp. xx-yy.
DOI Link 2109
BibRef

Morgan, G.R.[Grayson R.], Wang, C.[Cuizhen], Morris, J.T.[James T.],
RGB Indices and Canopy Height Modelling for Mapping Tidal Marsh Biomass from a Small Unmanned Aerial System,
RS(13), No. 17, 2021, pp. xx-yy.
DOI Link 2109
BibRef

Haarpaintner, J.[Jörg], Davids, C.[Corine],
Mapping Atmospheric Exposure of the Intertidal Zone with Sentinel-1 CSAR in Northern Norway,
RS(13), No. 17, 2021, pp. xx-yy.
DOI Link 2109
BibRef


van Dongen, R.J., Behn, G.A., Coote, M., Shanahan, A., Setiawan, H.,
Hydroperiod Classification Of Cervantes Coolimba Coastal Wetlands Using Landsat Time Series Imagery,
ISPRS12(XXXIX-B8:199-202).
DOI Link 1209
BibRef

Liu, C.[Chun], Cai, N.[Neng], Wu, H.B.[Hang-Bin],
Biomass Estimation Based on the Fusion of ICESat GLAS and MODIS Data in the Chongming Eastern Tidal Flat of the Yangtze River,
ISIDF11(1-4).
IEEE DOI 1111
BibRef

Kelly, M., Tuxen, K.,
Integrating Lidar and CIR imagery for mapping tidal wetlands: An object-based approach,
OBIA06(xx-yy).
PDF File. 0607
BibRef

Chapter on Remote Sensing General Issue, Land Use, Land Cover continues in
Marsh, Marsh Detection, Analysis .


Last update:Sep 19, 2021 at 21:11:01