Remote sensing is recognized as a powerful and efficient tool that provides a comprehensive view of large areas that are difficult to access, and also reduces costs and shortens the timing of projects. The purpose of this study is to introduce effective parameters using remote sensing data and subsequently predict gully erosion using statistical models of Density Area (DA) and Information Value (IV), and data mining based Random Forest (RF) model and their ensemble. The aforementioned models were employed at the Tororud-Najarabad watershed in the northeastern part of Semnan province, Iran. For this purpose, at first using various resources, the map of the distribution of the gullies was prepared with the help of field visits and Google Earth images. In order to analyse the earth's surface and extraction of topographic parameters, a digital elevation model derived from PALSAR (Phased Array type L-band Synthetic Aperture Radar) radar data with a resolution of 12.5 meters was used. Using literature review, expert opinion and multi-collinearity test, 15 environmental parameters were selected with a resolution of 12.5 meters for the modelling. Results of RF model indicate that parameters of NDVI (normalized difference vegetation index), elevation and land use respectively had the highest effect on the gully erosion. Several techniques such as area under curve (AUC), seed cell area index (SCAI), and Kappa coefficient were used for validation. Results of validation indicated that the combination of bivariate (IV and DA models) with the RF data-mining model has increased their performance. The prediction accuracy of AUC and Kappa values in DA, IV and RF are (0.745, 0.782, and 0.792) and (0.804, 0.852, and 0.860) and these values in ensemble models of DA-RF and IV-RF are (0.845, and 0.911) and (0.872, and 0.951) respectively. Results of SCAI show that ensemble models had a good performance, so that, with increasing of sensitivity, the values of SCAI have decreased. Based on results, determination of gullies and assessing the process of gullying through remote sensing technology in combination with field observations and accurate statistical and computer methods can be a suitable methodology for predicting areas with gully erosion potential.

1 Luca Montanarella, "World's soils are under threat" Copernicus GmbH 2 (2): 79-82, 2016

2 Silvia Eleonora Angileri, "Water erosion susceptibility mapping by applying Stochastic Gradient Treeboost to the Imera Meridionale River Basin (Sicily, Italy)" Elsevier BV 262 : 61-76, 2016

3 Álvaro Gómez-Gutiérrez, "Using topographical attributes to evaluate gully erosion proneness (susceptibility) in two mediterranean basins: advantages and limitations" Springer Science and Business Media LLC 79 (79): 291-314, 2015

4 Agata Novara, "Understanding the role of soil erosion on co 2 -c loss using 13 c isotopic signatures in abandoned Mediterranean agricultural land" Elsevier BV 550 : 330-336, 2016

5 G.L. McCloskey, "Timing and causes of gully erosion in the riparian zone of the semi-arid tropical Victoria River, Australia: Management implications" Elsevier BV 266 : 96-104, 2016

6 Saskia D. Keesstra, "The significance of soils and soil science towards realization of the United Nations Sustainable Development Goals" Copernicus GmbH 2 (2): 111-128, 2016

7 I. Marzolff, "The potential of 3D gully monitoring with GIS using high-resolution aerial photography and a digital photogrammetry system" Elsevier BV 111 (111): 48-60, 2009

8 Hastie, T., "The Elements of Statistical Learning: Data Mining, Inference, and Prediction" Springer series in statistics 533-, 2001

9 Al-Abadi, A. M., "Susceptibility mapping of gully erosion using GIS-based statistical bivariate models : a case study from Ali Al-Gharbi District, Maysan Governorate, southern Iraq" 77 : 249-, 2018

10 Meng Kou, "Successional Trajectory Over 10 Years of Vegetation Restoration of Abandoned Slope Croplands in the Hill-Gully Region of the Loess Plateau" Wiley 27 (27): 919-932, 2016

11 Forkuor, G., "Studies on Environmental and Applied Geomorphology" IntechOpen 219-240, 2012

12 Saro Lee, "Statistical analysis of landslide susceptibility at Yongin, Korea" Springer Science and Business Media LLC 40 (40): 1095-1113, 2001

13 Bui, D. T., "Spatial prediction of rainfallinduced landslides for the Lao Cai area(Vietnam)using a hybrid intelligent approach of least squares support vector machines inference model and artificial bee colony optimization" 14 : 447-458, 2017

14 Tehrany, M. S., "Spatial prediction of flood susceptible areas using rule based decision tree(DT)and a novel ensemble bivariate and multivariate statistical models in GIS" 504 : 69-79, 2013

15 Alireza Arabameri, "Spatial modelling of gully erosion using evidential belief function, logistic regression, and a new ensemble of evidential belief function-logistic regression algorithm" Wiley 29 (29): 4035-4049, 2018

16 Mohsen Zabihi, "Spatial modelling of gully erosion in Mazandaran Province, northern Iran" Elsevier BV 161 : 1-13, 2018

17 V. Chaplot, "Spatial and temporal assessment of linear erosion in catchments under sloping lands of northern Laos" Elsevier BV 63 (63): 167-184, 2005

18 Alireza Arabameri, "Spatial Modelling of Gully Erosion Using GIS and R Programing: A Comparison among Three Data Mining Algorithms" MDPI AG 8 (8): 1369-, 2018

19 Massimo Prosdocimi, "Soil water erosion on Mediterranean vineyards: A review" Elsevier BV 141 : 1-21, 2016

20 Gerard Govers, "Soil conservation in the 21st century: why we need smart agricultural intensification" Copernicus GmbH 3 (3): 45-59, 2017

21 Poesen, J., "Soil Erosion in Europe" Wiley 515-536, 2006

22 I. D. Moore, "Soil Attribute Prediction Using Terrain Analysis" Wiley 57 (57): 443-452, 1993

23 Abir Ben Slimane, "Relative Contribution of Rill/Interrill and Gully/Channel Erosion to Small Reservoir Siltation in Mediterranean Environments" Wiley 27 (27): 785-797, 2015

24 Leo Breiman, "Random forests" Springer Science and Business Media LLC 45 (45): 5-32, 2001

25 V.F. Rodriguez-Galiano, "Random Forest classification of Mediterranean land cover using multi-seasonal imagery and multi-seasonal texture" Elsevier BV 121 : 93-107, 2012

26 Massimo Prosdocimi, "Rainfall simulation and Structure-from-Motion photogrammetry for the analysis of soil water erosion in Mediterranean vineyards" Elsevier BV 574 : 204-215, 2017

27 D. Richard Cutler, "RANDOM FORESTS FOR CLASSIFICATION IN ECOLOGY" Wiley 88 (88): 2783-2792, 2007

28 Jabir Haruna Abdulkareem, "Quantification of Runoff as Influenced by Morphometric Characteristics in a Rural Complex Catchment" Springer Science and Business Media LLC 2 (2): 145-162, 2018

29 C. J. van Westen, "Prediction of the occurrence of slope instability phenomenal through GIS-based hazard zonation" Springer Science and Business Media LLC 86 (86): 404-414, 1997

30 Zakerinejad, R., "Prediction of gully erosion susceptibilities using detailed terrain analysis and maximum entropy modeling : a case study in the Mazayejan Plain, Southwest Iran" 37 : 67-76, 2014

31 Dubuis, A., "Predicting spatial patterns of plant biodiversity: from species to communities" University of Lausanne 2013

32 Hamid Reza Pourghasemi, "Performance assessment of individual and ensemble data-mining techniques for gully erosion modeling" Elsevier BV 609 : 764-775, 2017

33 Johansen, K., "Object-based monitoring of gully extent and volume in North Australia using LIDAR data" 168-173, 2012

34 Jabir Haruna Abdulkareem, "Long-Term Hydrologic Impact Assessment of Non-point Source Pollution Measured Through Land Use/Land Cover (LULC) Changes in a Tropical Complex Catchment" Springer Science and Business Media LLC 2 (2): 67-84, 2018

35 Nicodemus, K. K., "Letter to the editor : on the stability and ranking of predictors from random forest variable importance measures" 12 : 369-373, 2011

36 Guo-liang Du, "Landslide susceptibility mapping using an integrated model of information value method and logistic regression in the Bailongjiang watershed, Gansu Province, China" Springer Science and Business Media LLC 14 (14): 249-268, 2017

37 Heidary, F., "Investigating the factors affecting the growth of gulls and determining their propagation model in Kerman Province(case study of Baft, Rabor and Rhine Area)" 9 : 1-10, 2015

38 E. A. Gurbanov, "Intensity of gully erosion in arid zone of Azerbaijan republic (by the example of the region of the Mingechaur water reservoir)" Pleiades Publishing Ltd 7 (7): 251-255, 2017

39 Paolo Tarolli, "Human topographic signatures and derived geomorphic processes across landscapes" Elsevier BV 255 : 140-161, 2016

40 J. A. Ballesteros Cánovas, "Gully evolution and geomorphic adjustments of badlands to reforestation" Springer Science and Business Media LLC 7 (7): 2017

41 C. Valentin, "Gully erosion: Impacts, factors and control" Elsevier BV 63 (63): 132-153, 2005

42 Omid Rahmati, "Gully erosion susceptibility mapping: the role of GIS-based bivariate statistical models and their comparison" Springer Science and Business Media LLC 82 (82): 1231-1258, 2016

43 Christian Conoscenti, "Gully erosion susceptibility assessment by means of GIS-based logistic regression: A case of Sicily (Italy)" Elsevier BV 204 : 399-411, 2014

44 Ion Ionita, "Gully erosion as a natural and human-induced hazard" Springer Science and Business Media LLC 79 (79): 1-5, 2015

45 J Poesen, "Gully erosion and environmental change: importance and research needs" Elsevier BV 50 (50): 91-133, 2003

46 Ion Ionita, "Gully development in the Moldavian Plateau of Romania" Elsevier BV 68 (68): 133-140, 2006

47 Martínez, L. J., "Geopedology an Integration of Geomorphology and Pedology for Soil and Landscape Studies" Springer International Publishing 377-388, 2016

48 Massimo Conforti, "Geomorphology and GIS analysis for mapping gully erosion susceptibility in the Turbolo stream catchment (Northern Calabria, Italy)" Springer Science and Business Media LLC 56 (56): 881-898, 2011

49 Sandipan Ghosh, "Geomorphic Threshold Estimation for Gully Erosion in the Lateritic Soil of Birbhum, West Bengal, India" Copernicus GmbH 1-29, 2016

50 Tehrany, M. S., "Flood susceptibility mapping using a novel ensemble weights-of-evidence and support vector machine models in GIS" 512 : 332-343, 2014

51 Tehrany, M. S., "Flood susceptibility assessment using GIS-based support vector machine model with different kernel types" 125 : 91-101, 2015

52 Omid Rahmati, "Evaluating the influence of geo-environmental factors on gully erosion in a semi-arid region of Iran: An integrated framework" Elsevier BV 579 : 913-927, 2017

53 Abul Razzaq Ghumman, "Evaluating the impact of lower resolutions of digital elevation model on rainfall-runoff modeling for ungauged catchments" Springer Science and Business Media LLC 189 (189): 2017

54 Lulseged Tamene, "Estimating landscape susceptibility to soil erosion using a GIS-based approach in Northern Ethiopia" Elsevier BV 5 (5): 221-230, 2017

55 R. L. Bingner, "Ephemeral gully channel width and erosion simulation technology" Springer Science and Business Media LLC 80 (80): 1949-1966, 2016

56 Li Wang, "Effects of vegetation and slope aspect on water budget in the hill and gully region of the Loess Plateau of China" Elsevier BV 87 (87): 90-100, 2011

57 Hao Li, "Effects of topography and land use change on gully development in typical Mollisol region of Northeast China" Springer Science and Business Media LLC 26 (26): 779-788, 2016

58 Fen-Li ZHENG, "Effect of Vegetation Changes on Soil Erosion on the Loess Plateau" Elsevier BV 16 (16): 420-427, 2006

59 Umar, Z., "Earthquake induced landslide susceptibility mapping using an integrated ensemble frequency ratio and logistic regression models in West Sumatera Province, Indonesia" 118 : 124-135, 2014

60 Kwanchai Pakoksung, "Digital elevation models on accuracy validation and bias correction in vertical" Springer Science and Business Media LLC 2 (2): 2016

61 Mustafa Neamah Jebur, "Detection of vertical slope movement in highly vegetated tropical area of Gunung pass landslide, Malaysia, using L-band InSAR technique" 한국지질과학협의회 18 (18): 61-68, 2014

62 Wenjun Zhang, "Constructing DEM Based on InSAR and the Relationship between InSAR DEM's Precision and Terrain Factors" Elsevier BV 16 : 184-189, 2012

63 Wim Aertsen, "Comparison and ranking of different modelling techniques for prediction of site index in Mediterranean mountain forests" Elsevier BV 221 (221): 1119-1130, 2010

64 Thuan Chu, "Comparison and Validation of Digital Elevation Models Derived from InSAR for a Flat Inland Delta in the High Latitudes of Northern Canada" Informa UK Limited 43 (43): 109-123, 2017

65 S. A. Mashi, "Causes and consequences of gully erosion: perspectives of the local people in Dangara area, Nigeria" Springer Science and Business Media LLC 17 (17): 1431-1450, 2015

66 Christian Conoscenti, "Assessment of Gully Erosion Susceptibility Using Multivariate Adaptive Regression Splines and Accounting for Terrain Connectivity" Wiley 29 (29): 724-736, 2018

67 Asnake Mekuriaw, "Assessing the effectiveness of land resource management practices on erosion and vegetative cover using GIS and remote sensing techniques in Melaka watershed, Ethiopia" Springer Science and Business Media LLC 6 (6): 2017

68 OMRI ALLOUCHE, "Assessing the accuracy of species distribution models: prevalence, kappa and the true skill statistic (TSS)" Wiley 43 (43): 1223-1232, 2006

69 Althuwaynee, O. F., "Application of an evidential belief function model in landslide susceptibility mapping" 44 : 120-135, 2012

70 Oh, H. J., "Application of a neuro-fuzzy model to landslide-susceptibility mapping for shallow landslides in a tropical hilly area" 37 : 1264-1276, 2011

71 Nampak, H., "Application of GIS based data driven evidential belief function model to predict groundwater potential zonation" 513 : 283-300, 2014

72 Reza Zakerinejad, "An integrated assessment of soil erosion dynamics with special emphasis on gully erosion in the Mazayjan basin, southwestern Iran" Springer Science and Business Media LLC 79 (79): 25-50, 2015

73 J. Elith, "A working guide to boosted regression trees" Wiley 77 (77): 802-813, 2008

74 Alan H. FIELDING, "A review of methods for the assessment of prediction errors in conservation presence/absence models" Cambridge University Press (CUP) 24 (24): 38-49, 1997

75 Althuwaynee, O. F., "A novel ensemble bivariate statistical evidential belief function with knowledge-based analytical hierarchy process and multivariate statistical logistic regression for landslide susceptibility mapping" 114 : 21-36, 2014

76 Bui, D. T., "A hybrid artificial intelligence approach using GIS-based neural-fuzzy inference system and particle swarm optimization for forest fire susceptibility modeling at a tropical area" 233 : 32-44, 2017

77 Michael Märker, "A functional entity approach to predict soil erosion processes in a small Plio-Pleistocene Mediterranean catchment in Northern Chianti, Italy" Elsevier BV 125 (125): 530-540, 2011

78 Pradhan, B., "A comparative study on the predictive ability of the decision tree, support vector machine and neuro-fuzzy models in landslide susceptibility mapping using GIS" 51 : 350-365, 2013

79 Chen, W., "A comparative study of logistic model tree, random forest, and classification and regression tree models for spatial prediction of landslide susceptibility" 151 : 147-160, 2017

80 Zhou Chunxia, "A case study of using external DEM in InSAR DEM generation" Informa UK Limited 8 (8): 14-18, 2012

81 Getaneh K. Ayele, "A Biophysical and Economic Assessment of a Community-based Rehabilitated Gully in the Ethiopian Highlands" Wiley 27 (27): 270-280, 2016