22.2.12 Erosion Analysis, Changes

Chapter Contents (Back)
Erosion. Change Detection. Temporal Analysis.

Datta, P., Schack-Kirchner, H.,
Erosion Relevant Topographical Parameters Derived from Different DEMs: A Comparative Study from the Indian Lesser Himalayas,
RS(2), No. 8, August 2010, pp. 1941-1961.
DOI Link 1203
BibRef

d'Oleire-Oltmanns, S.[Sebastian], Marzolff, I.[Irene], Peter, K.D.[Klaus Daniel], and Ries, J.B.[Johannes B.],
Unmanned Aerial Vehicle (UAV) for Monitoring Soil Erosion in Morocco,
RS(4), No. 11, November 2012, pp. 3390-3416.
DOI Link 1211
BibRef

Wiegand, C.[Christoph], Rutzinger, M.[Martin], Heinrich, K.[Kati], Geitner, C.[Clemens],
Automated Extraction of Shallow Erosion Areas Based on Multi-Temporal Ortho-Imagery,
RS(5), No. 5, 2013, pp. 2292-2307.
DOI Link 1307
BibRef

Wang, L.H.[Li-Hui], Huang, J.L.[Jin-Liang], Du, Y.[Yun], Hu, Y.X.[Yan-Xia], Han, P.P.[Peng-Peng],
Dynamic Assessment of Soil Erosion Risk Using Landsat TM and HJ Satellite Data in Danjiangkou Reservoir Area, China,
RS(5), No. 8, 2013, pp. 3826-3848.
DOI Link 1309
BibRef

Hamylton, S.[Sarah], East, H.A.[Holly A.],
Geospatial Appraisal of Ecological and Geomorphic Change on Diego Garcia Atoll, Chagos Islands (British Indian Ocean Territory),
RS(4), No. 11, November 2012, pp. 3444-3461.
DOI Link 1211
BibRef
And:
Response to Atoll Rim Expansion or Erosion in Diego Garcia Atoll, Indian Ocean? Comment on Appraisal of Ecological and Geomorphic Change on Diego Garcia Atoll, Chagos Islands (British Indian Ocean Territory),
RS(6), No. 3, 2014, pp. 2468-2472.
DOI Link 1404
BibRef

Kaiser, A.[Andreas], Neugirg, F.[Fabian], Rock, G.[Gilles], Müller, C.[Christoph], Haas, F.[Florian], Ries, J.[Johannes], Schmidt, J.[Jürgen],
Small-Scale Surface Reconstruction and Volume Calculation of Soil Erosion in Complex Moroccan Gully Morphology Using Structure from Motion,
RS(6), No. 8, 2014, pp. 7050-7080.
DOI Link 1410
BibRef

Sheppard, C.[Charles],
Atoll Rim Expansion or Erosion in Diego Garcia Atoll, Indian Ocean? Comment on Geospatial Appraisal of Ecological and Geomorphic Change on Diego Garcia Atoll, Chagos Islands (British Indian Ocean Territory),
RS(6), No. 3, 2014, pp. 2463-2467.
DOI Link 1404

See also Geospatial Appraisal of Ecological and Geomorphic Change on Diego Garcia Atoll, Chagos Islands (British Indian Ocean Territory). BibRef

Malec, S.[Sarah], Rogge, D.[Derek], Heiden, U.[Uta], Sanchez-Azofeifa, G.A.[G. Arturo], Bachmann, M.[Martin], Wegmann, M.[Martin],
Capability of Spaceborne Hyperspectral EnMAP Mission for Mapping Fractional Cover for Soil Erosion Modeling,
RS(7), No. 9, 2015, pp. 11776.
DOI Link 1511
BibRef

Yang, C.[Chao], Cai, X.O.[Xia-Obin], Wang, X.[Xuelei], Yan, R.[Ranran], Zhang, T.[Ting], Zhang, Q.[Qing], Lu, X.R.[Xiao-Rong],
Remotely Sensed Trajectory Analysis of Channel Migration in Lower Jingjiang Reach during the Period of 1983-2013,
RS(7), No. 12, 2015, pp. 15828.
DOI Link 1601
BibRef

Longoni, L.[Laura], Papini, M.[Monica], Brambilla, D.[Davide], Barazzetti, L.[Luigi], Roncoroni, F.[Fabio], Scaioni, M.[Marco], Ivanov, V.I.[Vladislav Ivov],
Monitoring Riverbank Erosion in Mountain Catchments Using Terrestrial Laser Scanning,
RS(8), No. 3, 2016, pp. 241.
DOI Link 1604
BibRef

Wang, R.H.[Rang-Hu], Zhang, S.[Shuwen], Pu, L.[Luoman], Yang, J.C.[Jiu-Chun], Yang, C.B.[Chao-Bin], Chen, J.[Jing], Guan, C.[Cong], Wang, Q.[Qing], Chen, D.[Dan], Fu, B.[Bolin], Sang, X.J.[Xue-Jia],
Gully Erosion Mapping and Monitoring at Multiple Scales Based on Multi-Source Remote Sensing Data of the Sancha River Catchment, Northeast China,
IJGI(5), No. 11, 2016, pp. 200.
DOI Link 1612
BibRef

Žížala, D.[Daniel], Zádorová, T.[Tereza], Kapicka, J.[Jirí],
Assessment of Soil Degradation by Erosion Based on Analysis of Soil Properties Using Aerial Hyperspectral Images and Ancillary Data, Czech Republic,
RS(9), No. 1, 2017, pp. xx-yy.
DOI Link 1702
BibRef

Sánchez-García, E., Balaguer-Beser, A., Pardo-Pascual, J.E.,
C-Pro: A coastal projector monitoring system using terrestrial photogrammetry with a geometric horizon constraint,
PandRS(128), No. 1, 2017, pp. 255-273.
Elsevier DOI 1706
Beach monitoring BibRef

Sánchez-García, E., Balaguer-Beser, A., Taborda, R., Pardo-Pascual, J.E.,
Modelling Landscape Morphodynamics By Terrestrial Photogrammetry: An Application To Beach And Fluvial Systems,
ISPRS16(B8: 1175-1182).
DOI Link 1610
BibRef

Meng, X.L.[Xue-Lian], Zhang, X.[Xukai], Silva, R.[Rodolfo], Li, C.Y.[Chun-Yan], Wang, L.[Lei],
Impact of High-Resolution Topographic Mapping on Beach Morphological Analyses Based on Terrestrial LiDAR and Object-Oriented Beach Evolution,
IJGI(6), No. 5, 2017, pp. xx-yy.
DOI Link 1706
BibRef

Cao, J.J.[Jian-Jun], Na, J.[JiaMing], Li, J.[Jilong], Tang, G.[Guoan], Fang, X.[Xuan], Xiong, L.Y.[Li-Yang],
Topographic Spatial Variation Analysis of Loess Shoulder Lines in the Loess Plateau of China Based on MF-DFA,
IJGI(6), No. 5, 2017, pp. xx-yy.
DOI Link 1706
BibRef

Payne, C.[Cole], Panda, S.[Santosh], Prakash, A.[Anupma],
Remote Sensing of River Erosion on the Colville River, North Slope Alaska,
RS(10), No. 3, 2018, pp. xx-yy.
DOI Link 1804
BibRef

Markert, K.N.[Kel N.], Schmidt, C.M.[Calla M.], Griffin, R.E.[Robert E.], Flores, A.I.[Africa I.], Poortinga, A.[Ate], Saah, D.S.[David S.], Muench, R.E.[Rebekke E.], Clinton, N.E.[Nicholas E.], Chishtie, F.[Farrukh], Kityuttachai, K.[Kritsana], Someth, P.[Paradis], Anderson, E.R.[Eric R.], Aekakkararungroj, A.[Aekkapol], Ganz, D.J.[David J.],
Historical and Operational Monitoring of Surface Sediments in the Lower Mekong Basin Using Landsat and Google Earth Engine Cloud Computing,
RS(10), No. 6, 2018, pp. xx-yy.
DOI Link 1806
BibRef

Jorgenson, M.T.[M. Torre], Frost, G.V.[Gerald V.], Dissing, D.[Dorte],
Drivers of Landscape Changes in Coastal Ecosystems on the Yukon-Kuskokwim Delta, Alaska,
RS(10), No. 8, 2018, pp. xx-yy.
DOI Link 1809
Erosion. BibRef

Cheng, Z.L.[Zhen-Long], Lu, D.S.[Deng-Sheng], Li, G.Y.[Gui-Ying], Huang, J.Q.[Jian-Qin], Sinha, N.[Nibedita], Zhi, J.J.[Jun-Jun], Li, S.J.[Shao-Jin],
A Random Forest-Based Approach to Map Soil Erosion Risk Distribution in Hickory Plantations in Western Zhejiang Province, China,
RS(10), No. 12, 2018, pp. xx-yy.
DOI Link 1901
BibRef

Shi, H.Y.[Hai-Yun], Cao, Y.[Yuhan], Dong, C.M.[Chang-Ming], Xia, C.S.[Chang-Shui], Li, C.H.[Chun-Hui],
The Spatio-Temporal Evolution of River Island Based on Landsat Satellite Imagery, Hydrodynamic Numerical Simulation and Observed Data,
RS(10), No. 12, 2018, pp. xx-yy.
DOI Link 1901
BibRef

Andriolo, U.[Umberto], Sánchez-García, E.[Elena], Taborda, R.[Rui],
Operational Use of Surfcam Online Streaming Images for Coastal Morphodynamic Studies,
RS(11), No. 1, 2019, pp. xx-yy.
DOI Link 1901
BibRef

Puente, C.[Cesar], Olague, G.[Gustavo], Trabucchi, M.[Mattia], Arjona-Villicańa, P.D.[P. David], Soubervielle-Montalvo, C.[Carlos],
Synthesis of Vegetation Indices Using Genetic Programming for Soil Erosion Estimation,
RS(11), No. 2, 2019, pp. xx-yy.
DOI Link 1902
BibRef

Han, Z.G.[Zhi-Gang], Qin, F.[Fen], Cui, C.[Caihui], Liu, Y.[Yannan], Wang, L.L.[Ling-Ling], Fu, P.[Pinde],
Mr4Soil: A MapReduce-Based Framework Integrated with GIS for Soil Erosion Modelling,
IJGI(8), No. 3, 2019, pp. xx-yy.
DOI Link 1903
BibRef

Xu, H.Q.[Han-Qiu], Hu, X.J.[Xiu-Juan], Guan, H.[Huade], Zhang, B.[Bobo], Wang, M.[Meiya], Chen, S.[Shanmu], Chen, M.H.[Ming-Hua],
A Remote Sensing Based Method to Detect Soil Erosion in Forests,
RS(11), No. 5, 2019, pp. xx-yy.
DOI Link 1903
BibRef

Waqas, M.[Muhammad], Nazeer, M.[Majid], Shahzad, M.I.[Muhammad Imran], Zia, I.[Ibrahim],
Spatial and Temporal Variability of Open-Ocean Barrier Islands along the Indus Delta Region,
RS(11), No. 4, 2019, pp. xx-yy.
DOI Link 1903
BibRef

Nourbakhshbeidokhti, S.[Samira], Kinoshita, A.M.[Alicia M.], Chin, A.[Anne], Florsheim, J.L.[Joan L.],
A Workflow to Estimate Topographic and Volumetric Changes and Errors in Channel Sedimentation after Disturbance,
RS(11), No. 5, 2019, pp. xx-yy.
DOI Link 1903
BibRef

Alexakis, D.D.[Dimitrios D.], Tapoglou, E.[Evdokia], Vozinaki, A.E.K.[Anthi-Eirini K.], Tsanis, I.K.[Ioannis K.],
Integrated Use of Satellite Remote Sensing, Artificial Neural Networks, Field Spectroscopy, and GIS in Estimating Crucial Soil Parameters in Terms of Soil Erosion,
RS(11), No. 9, 2019, pp. xx-yy.
DOI Link 1905
BibRef

Gong, C.G.[Chuan-Gang], Lei, S.G.[Shao-Gang], Bian, Z.F.[Zheng-Fu], Liu, Y.[Ying], Zhang, Z.[Zhouai], Cheng, W.[Wei],
Analysis of the Development of an Erosion Gully in an Open-Pit Coal Mine Dump During a Winter Freeze-Thaw Cycle by Using Low-Cost UAVs,
RS(11), No. 11, 2019, pp. xx-yy.
DOI Link 1906
BibRef

Wang, J.[Jie], Zhang, W.W.[Wei-Wei], Zhang, Z.X.[Zeng-Xiang],
Impacts of Land-Use Changes on Soil Erosion in Water-Wind Crisscross Erosion Region of China,
RS(11), No. 14, 2019, pp. xx-yy.
DOI Link 1908
BibRef

Vĺgen, T.G.[Tor-Gunnar], Winowiecki, L.A.[Leigh Ann],
Predicting the Spatial Distribution and Severity of Soil Erosion in the Global Tropics using Satellite Remote Sensing,
RS(11), No. 15, 2019, pp. xx-yy.
DOI Link 1908
BibRef

Đomlija, P.[Petra], Gazibara, S.B.[Sanja Bernat], Arbanas, Ž.[Željko], Arbanas, S.M.[Snježana Mihalic],
Identification and Mapping of Soil Erosion Processes Using the Visual Interpretation of LiDAR Imagery,
IJGI(8), No. 10, 2019, pp. xx-yy.
DOI Link 1910
BibRef

Huff, T.P.[Thomas P.], Feagin, R.A.[Rusty A.], Delgado, A.[Arturo],
Understanding Lateral Marsh Edge Erosion with Terrestrial Laser Scanning (TLS),
RS(11), No. 19, 2019, pp. xx-yy.
DOI Link 1910
BibRef

Guo, X.J.[Xing-Jian], Shao, Q.Q.[Quan-Qin],
Spatial Pattern of Soil Erosion Drivers and the Contribution Rate of Human Activities on the Loess Plateau from 2000 to 2015: A Boundary Line from Northeast to Southwest,
RS(11), No. 20, 2019, pp. xx-yy.
DOI Link 1910
BibRef

Arabameri, A.[Alireza], Cerda, A.[Artemi], Rodrigo-Comino, J.[Jesús], Pradhan, B.[Biswajeet], Sohrabi, M.[Masoud], Blaschke, T.[Thomas], Bui, D.T.[Dieu Tien],
Proposing a Novel Predictive Technique for Gully Erosion Susceptibility Mapping in Arid and Semi-arid Regions (Iran),
RS(11), No. 21, 2019, pp. xx-yy.
DOI Link 1911
BibRef

Wziatek, D.Z.[Dagmara Zelaya], Terefenko, P.[Pawel], Kurylczyk, A.[Apoloniusz],
Multi-Temporal Cliff Erosion Analysis Using Airborne Laser Scanning Surveys,
RS(11), No. 22, 2019, pp. xx-yy.
DOI Link 1911
BibRef

Hermas, E.[El_Sayed], Alharbi, O.[Omar], Alqurashi, A.[Abdullah], Niang, A.J.[Abdoul Jelil], Al-Ghamdi, K.[Khalid], Al-Mutiry, M.[Motirh], Farghaly, A.[Abudeif],
Characterisation of Sand Accumulations in Wadi Fatmah and Wadi Ash Shumaysi, KSA, Using Multi-Source Remote Sensing Imagery,
RS(11), No. 23, 2019, pp. xx-yy.
DOI Link 1912
BibRef

Yang, C.J.[Ci-Jian], Yeh, L.W.[Li-Wei], Cheng, Y.C.[Yeuan-Chang], Jen, C.H.[Chia-Hung], Lin, J.C.[Jiun-Chuan],
Badland Erosion and Its Morphometric Features in the Tropical Monsoon Area,
RS(11), No. 24, 2019, pp. xx-yy.
DOI Link 1912
BibRef

Anders, K.[Katharina], Winiwarter, L.[Lukas], Lindenbergh, R.[Roderik], Williams, J.G.[Jack G.], Vos, S.E.[Sander E.], Höfle, B.[Bernhard],
4D objects-by-change: Spatiotemporal segmentation of geomorphic surface change from LiDAR time series,
PandRS(159), 2020, pp. 352-363.
Elsevier DOI 1912
Terrestrial laser scanning, High-frequency observation, Spatiotemporal analysis, Beach monitoring, Temporal domain BibRef

Xie, Z.X.[Zong-Xu], Yang, H.[Hanbo], Lv, H.F.[Hua-Fang], Hu, Q.F.[Qing-Fang],
Seasonal Characteristics of Disdrometer-Observed Raindrop Size Distributions and Their Applications on Radar Calibration and Erosion Mechanism in a Semi-Arid Area of China,
RS(12), No. 2, 2020, pp. xx-yy.
DOI Link 2001
BibRef

Nagle-McNaughton, T.[Timothy], Cox, R.[Rónadh],
Measuring Change Using Quantitative Differencing of Repeat Structure-From-Motion Photogrammetry: The Effect of Storms on Coastal Boulder Deposits,
RS(12), No. 1, 2019, pp. xx-yy.
DOI Link 2001
BibRef

Arabameri, A.[Alireza], Chen, W.[Wei], Lombardo, L.[Luigi], Blaschke, T.[Thomas], Bui, D.T.[Dieu Tien],
Hybrid Computational Intelligence Models for Improvement Gully Erosion Assessment,
RS(12), No. 1, 2020, pp. xx-yy.
DOI Link 2001
BibRef

Eon, R.S.[Rehman S.], Bachmann, C.M.[Charles M.], Lapszynski, C.S.[Christopher S.], Tyler, A.C.[Anna Christina], Goldsmith, S.[Sarah],
Retrieval of Sediment Filling Factor in a Salt Panne from Multi-View Hyperspectral Imagery,
RS(12), No. 3, 2020, pp. xx-yy.
DOI Link 2002
BibRef

Cao, J.J.[Jian-Jun], Tang, G.[Guoan], Fang, X.[Xuan], Liu, Y.[Yongjuan], Zhu, Y.[Ying], Li, J.[Jinlian], Wagner, W.[Wolfgang],
Identification of Active Gully Erosion Sites in the Loess Plateau of China Using MF-DFA,
RS(12), No. 3, 2020, pp. xx-yy.
DOI Link 2002
BibRef

Gao, J.B.[Jiang-Bo], Jiang, Y.[Yuan], Wang, H.[Huan], Zuo, L.Y.[Li-Yuan],
Identification of Dominant Factors Affecting Soil Erosion and Water Yield within Ecological Red Line Areas,
RS(12), No. 3, 2020, pp. xx-yy.
DOI Link 2002
BibRef

Wang, B.[Biwei], Zhang, Z.X.[Zeng-Xiang], Wang, X.[Xiao], Zhao, X.L.[Xiao-Li], Yi, L.[Ling], Hu, S.G.[Shun-Guang],
Object-Based Mapping of Gullies Using Optical Images: A Case Study in the Black Soil Region, Northeast of China,
RS(12), No. 3, 2020, pp. xx-yy.
DOI Link 2002
BibRef

Nogueira, K.[Keiller], Machado, G.L.S.[Gabriel L. S.], Gama, P.H.T.[Pedro H. T.], da Silva, C.C.V.[Caio C. V.], Balaniuk, R.[Remis], dos Santos, J.A.[Jefersson A.],
Facing Erosion Identification in Railway Lines Using Pixel-Wise Deep-Based Approaches,
RS(12), No. 4, 2020, pp. xx-yy.
DOI Link 2003
BibRef

Agapiou, A.[Athos], Lysandrou, V.[Vasiliki], Hadjimitsis, D.G.[Diofantos G.],
A European-Scale Investigation of Soil Erosion Threat to Subsurface Archaeological Remains,
RS(12), No. 4, 2020, pp. xx-yy.
DOI Link 2003
BibRef

Yuan, W.T.[Wei-Tao], Zhang, W.L.[Wang-Le], Lai, Z.P.[Zhong-Ping], Zhang, J.X.[Jing-Xiong],
Extraction of Yardang Characteristics Using Object-Based Image Analysis and Canny Edge Detection Methods,
RS(12), No. 4, 2020, pp. xx-yy.
DOI Link 2003
Yardang: Sand ridge formed by the wind. BibRef

Ding, H.[Hu], Liu, K.[Kai], Chen, X.Z.[Xiao-Zheng], Xiong, L.Y.[Li-Yang], Tang, G.[Guoan], Qiu, F.[Fang], Strobl, J.[Josef],
Optimized Segmentation Based on the Weighted Aggregation Method for Loess Bank Gully Mapping,
RS(12), No. 5, 2020, pp. xx-yy.
DOI Link 2003
BibRef

Arabameri, A.[Alireza], Tiefenbacher, J.P.[John P.], Blaschke, T.[Thomas], Pradhan, B.[Biswajeet], Bui, D.T.[Dieu Tien],
Morphometric Analysis for Soil Erosion Susceptibility Mapping Using Novel GIS-based Ensemble Model,
RS(12), No. 5, 2020, pp. xx-yy.
DOI Link 2003
BibRef

Ayalew, D.A.[Dawit A.], Deumlich, D.[Detlef], Šarapatka, B.[Borivoj], Doktor, D.[Daniel],
Quantifying the Sensitivity of NDVI-Based C Factor Estimation and Potential Soil Erosion Prediction Using Spaceborne Earth Observation Data,
RS(12), No. 7, 2020, pp. xx-yy.
DOI Link 2004
BibRef

Pacina, J.[Jan], Lendáková, Z.[Zuzana], Štojdl, J.[Jirí], Grygar, T.M.[Tomáš Matys], Dolejš, M.[Martin],
Dynamics of Sediments in Reservoir Inflows: A Case Study of the Skalka and Nechranice Reservoirs, Czech Republic,
IJGI(9), No. 4, 2020, pp. xx-yy.
DOI Link 2005
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Panagos, P.[Panos], Ballabio, C.[Cristiano], Poesen, J.[Jean], Lugato, E.[Emanuele], Scarpa, S.[Simone], Montanarella, L.[Luca], Borrelli, P.[Pasquale],
A Soil Erosion Indicator for Supporting Agricultural, Environmental and Climate Policies in the European Union,
RS(12), No. 9, 2020, pp. xx-yy.
DOI Link 2005
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Arabameri, A.[Alireza], Nalivan, O.A.[Omid Asadi], Saha, S.I.[Sun-Il], Roy, J.[Jagabandhu], Pradhan, B.[Biswajeet], Tiefenbacher, J.P.[John P.], Ngo, P.T.T.[Phuong Thao Thi],
Novel Ensemble Approaches of Machine Learning Techniques in Modeling the Gully Erosion Susceptibility,
RS(12), No. 11, 2020, pp. xx-yy.
DOI Link 2006
BibRef

Arabameri, A.[Alireza], Nalivan, O.A.[Omid Asadi], Pal, S.C.[Subodh Chandra], Chakrabortty, R.[Rabin], Saha, A.[Asish], Lee, S.[Saro], Pradhan, B.[Biswajeet], Bui, D.T.[Dieu Tien],
Novel Machine Learning Approaches for Modelling the Gully Erosion Susceptibility,
RS(12), No. 17, 2020, pp. xx-yy.
DOI Link 2009
BibRef

Pal, S.C.[Subodh Chandra], Arabameri, A.[Alireza], Blaschke, T.[Thomas], Chowdhuri, I.[Indrajit], Saha, A.[Asish], Chakrabortty, R.[Rabin], Lee, S.[Saro], Band, S.S.[Shahab. S.],
Ensemble of Machine-Learning Methods for Predicting Gully Erosion Susceptibility,
RS(12), No. 22, 2020, pp. xx-yy.
DOI Link 2011
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Zheng, F.Z.[Fang-Zhou], Wackrow, R.[Rene], Meng, F.R.[Fan-Rui], Lobb, D.[David], Li, S.[Sheng],
Assessing the Accuracy and Feasibility of Using Close-Range Photogrammetry to Measure Channelized Erosion with a Consumer-Grade Camera,
RS(12), No. 11, 2020, pp. xx-yy.
DOI Link 2006
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Maqsoom, A.[Ahsen], Aslam, B.[Bilal], Hassan, U.[Usman], Kazmi, Z.A.[Zaheer Abbas], Sodangi, M.[Mahmoud], Tufail, R.F.[Rana Faisal], Farooq, D.[Danish],
Geospatial Assessment of Soil Erosion Intensity and Sediment Yield Using the Revised Universal Soil Loss Equation (RUSLE) Model,
IJGI(9), No. 6, 2020, pp. xx-yy.
DOI Link 2006
BibRef

Niu, L.N.[Li-Nan], Shao, Q.Q.[Quan-Qin],
Soil Conservation Service Spatiotemporal Variability and Its Driving Mechanism on the Guizhou Plateau, China,
RS(12), No. 14, 2020, pp. xx-yy.
DOI Link 2007
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Lv, J.R.[Jiao-Rong], Xie, Y.S.[Yong-Sheng], Luo, H.[Han],
Erosion Process and Temporal Variations in the Soil Surface Roughness of Spoil Heaps under Multi-Day Rainfall Simulation,
RS(12), No. 14, 2020, pp. xx-yy.
DOI Link 2007
BibRef

Polykretis, C.[Christos], Alexakis, D.D.[Dimitrios D.], Grillakis, M.G.[Manolis G.], Manoudakis, S.[Stelios],
Assessment of Intra-Annual and Inter-Annual Variabilities of Soil Erosion in Crete Island (Greece) by Incorporating the Dynamic 'Nature' of R and C-Factors in RUSLE Modeling,
RS(12), No. 15, 2020, pp. xx-yy.
DOI Link 2008
BibRef

Lei, X.[Xinxiang], Chen, W.[Wei], Avand, M.[Mohammadtaghi], Janizadeh, S.[Saeid], Kariminejad, N.[Narges], Shahabi, H.[Hejar], Costache, R.[Romulus], Shahabi, H.[Himan], Shirzadi, A.[Ataollah], Mosavi, A.[Amir],
GIS-Based Machine Learning Algorithms for Gully Erosion Susceptibility Mapping in a Semi-Arid Region of Iran,
RS(12), No. 15, 2020, pp. xx-yy.
DOI Link 2008
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Westoby, M.[Matthew], Lim, M.[Michael], Hogg, M.[Michelle], Dunlop, L.[Lesley], Pound, M.[Matthew], Strzelecki, M.[Mateusz], Woodward, J.[John],
Decoding Complex Erosion Responses for the Mitigation of Coastal Rockfall Hazards Using Repeat Terrestrial LiDAR,
RS(12), No. 16, 2020, pp. xx-yy.
DOI Link 2008
BibRef

Depountis, N.[Nikolaos], Michalopoulou, M.[Maria], Kavoura, K.[Katerina], Nikolakopoulos, K.[Konstantinos], Sabatakakis, N.[Nikolaos],
Estimating Soil Erosion Rate Changes in Areas Affected by Wildfires,
IJGI(9), No. 10, 2020, pp. xx-yy.
DOI Link 2010
BibRef

Roy, P.[Paramita], Pal, S.C.[Subodh Chandra], Arabameri, A.[Alireza], Chakrabortty, R.[Rabin], Pradhan, B.[Biswajeet], Chowdhuri, I.[Indrajit], Lee, S.[Saro], Bui, D.T.[Dieu Tien],
Novel Ensemble of Multivariate Adaptive Regression Spline with Spatial Logistic Regression and Boosted Regression Tree for Gully Erosion Susceptibility,
RS(12), No. 20, 2020, pp. xx-yy.
DOI Link 2010
BibRef

Elez, J.[Javier], Silva, P.G.[Pablo G.], Martínez-Grańa, A.M.[Antonio M.],
Quantification of Erosion and Uplift in a Rising Orogen: A Large-Scale Perspective (Late Tortonian to Present): The Case of the Gibraltar Arc, Betic Cordillera, Southern Spain,
RS(12), No. 21, 2020, pp. xx-yy.
DOI Link 2011
BibRef

Chowdhuri, I.[Indrajit], Pal, S.C.[Subodh Chandra], Arabameri, A.[Alireza], Saha, A.[Asish], Chakrabortty, R.[Rabin], Blaschke, T.[Thomas], Pradhan, B.[Biswajeet], Band, S.S.[Shahab. S.],
Implementation of Artificial Intelligence Based Ensemble Models for Gully Erosion Susceptibility Assessment,
RS(12), No. 21, 2020, pp. xx-yy.
DOI Link 2011
BibRef

Yang, X.[Xihua], Zhang, M.X.[Ming-Xi], Oliveira, L.[Lorena], Ollivier, Q.R.[Quinn R.], Faulkner, S.[Shane], Roff, A.[Adam],
Rapid Assessment of Hillslope Erosion Risk after the 2019-2020 Wildfires and Storm Events in Sydney Drinking Water Catchment,
RS(12), No. 22, 2020, pp. xx-yy.
DOI Link 2011
BibRef

Waltner, I.[István], Saeidi, S.[Sahar], Grósz, J.[János], Centeri, C.[Csaba], Laborczi, A.[Annamária], Pásztor, L.[László],
Spatial Assessment of the Effects of Land Cover Change on Soil Erosion in Hungary from 1990 to 2018,
IJGI(9), No. 11, 2020, pp. xx-yy.
DOI Link 2012
BibRef

Samarin, M.[Maxim], Zweifel, L.[Lauren], Roth, V.[Volker], Alewell, C.[Christine],
Identifying Soil Erosion Processes in Alpine Grasslands on Aerial Imagery with a U-Net Convolutional Neural Network,
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Zhang, J.[Junzhe], Guo, W.[Wei], Zhou, B.[Bo], Okin, G.S.[Gregory S.],
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Lu, Y.F.[Yue-Feng], Liu, C.[Cong], Ge, Y.[Yong], Hu, Y.L.[Yu-Long], Wen, Q.[Qiao], Fu, Z.L.[Zhong-Liang], Wang, S.B.[Shao-Bo], Liu, Y.[Yong],
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Chapter on Remote Sensing General Issue, Land Use, Land Cover continues in
Evapotranspiration, Evaporation, Remote Sensing .


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