License: Creative Commons Attribution 4.0 International (CC BY 4.0) Citation: "Tofelde, Stefanie; Bufe, Aaron; Turowski, Jens Martin (2022): River terrace height and width analysis. GFZ Data Services. https://doi.org/10.5880/fidgeo.2022.021" First author Year Place Location latitude (°) Location longitude (°) Catchment area (km^2) Terrace name (original) Paired (1=yes, 0=no) Age of terrace as givren in original publication (ka) Measured valley height, H (mm) Measured valley width, W (mm) Measured terrace height above modern channel (mm) Height reference (m) height reference (mm) Width reference (m) Width reference (mm) Calculated valley height, H (m) Calculated valley width, W (m) Calculated terrace height above modern channel (m) Terrace height above modern channel in publication (m) Wang_1 2017 Sutlej River, Tibet 31.09 80.8 9113 T4 0 NaN 0.0 NaN 52.8 280 66.35 1000 19.97 0 NaN 223 NaN Wang_1 2017 Sutlej River, Tibet 31.09 80.8 9113 T4_1- 1 NaN 9.2 92.5 43.7 280 66.35 1000 19.97 39 4634 184 NaN Wang_1 2017 Sutlej River, Tibet 31.09 80.8 9113 T3_1+ 0 NaN 23.7 65.7 29.1 280 66.35 1000 19.97 100 3291 123 NaN Wang_1 2017 Sutlej River, Tibet 31.09 80.8 9113 T3 1 127.5 27.2 43.9 25.7 280 66.35 1000 19.97 115 2200 108 93 Wang_1 2017 Sutlej River, Tibet 31.09 80.8 9113 T2 0 8.8 to 10 40.4 27.9 12.4 280 66.35 1000 19.97 170 1397 52 28 Wang_1 2017 Sutlej River, Tibet 31.09 80.8 9113 T2_1- 0 NaN 41.9 22.0 10.9 280 66.35 1000 19.97 177 1104 46 NaN Wang_1 2017 Sutlej River, Tibet 31.09 80.8 9113 T1_1+ 0 NaN 47.9 17.1 4.9 280 66.35 1000 19.97 202 855 21 NaN Wang_1 2017 Sutlej River, Tibet 31.09 80.8 9113 T1 0 0.22 50.8 13.0 2.1 280 66.35 1000 19.97 214 649 9 8 Wang_1 2017 Sutlej River, Tibet 31.09 80.8 9113 floodplain NaN NaN 52.8 NaN 0.0 280 66.35 1000 19.97 223 180 0 NaN Wang_3 2017 Sutlej River, Tibet 31.13 80.73 9113 T3_2+ 0 NaN 0.0 NaN 39.6 160 39.33 500 16.67 0 NaN 161 NaN Wang_3 2017 Sutlej River, Tibet 31.13 80.73 9113 T3 0 127.5 15.5 141.0 24.0 160 39.33 500 16.67 63 4230 98 93 Wang_3 2017 Sutlej River, Tibet 31.13 80.73 9113 T2_1+ 0 NaN 27.5 112.1 12.0 160 39.33 500 16.67 112 3362 49 NaN Wang_3 2017 Sutlej River, Tibet 31.13 80.73 9113 T2 0 8.8 to 10 31.1 86.4 8.5 160 39.33 500 16.67 126 2592 35 28 Wang_3 2017 Sutlej River, Tibet 31.13 80.73 9113 T1_1+ 1 NaN 34.0 65.4 5.6 160 39.33 500 16.67 138 1962 23 NaN Wang_3 2017 Sutlej River, Tibet 31.13 80.73 9113 T1 1 NaN 36.2 42.6 3.4 160 39.33 500 16.67 147 1279 14 8 Wang_3 2017 Sutlej River, Tibet 31.13 80.73 9113 floodplain NaN NaN 39.6 NaN 0.0 160 39.33 500 16.67 161 491 0 NaN Bookhagen 2006 Sutley river, India 31.3892 77.6256 48431 T1 0 9.9 0.0 151.1 34.3 120 35.43 250 23.62 0 1599 116 120 Bookhagen 2006 Sutley river, India 31.3892 77.6256 48431 T2 1 8.6 4.7 133.4 29.6 120 35.43 250 23.62 16 1411 100 110 Bookhagen 2006 Sutley river, India 31.3892 77.6256 48431 T3 0 NaN 14.0 80.7 20.3 120 35.43 250 23.62 47 854 69 NaN Bookhagen 2006 Sutley river, India 31.3892 77.6256 48431 T4 0 6.8 21.3 68.6 13.0 120 35.43 250 23.62 72 726 44 NaN Bookhagen 2006 Sutley river, India 31.3892 77.6256 48431 T5 0 3.6 26.2 26.0 8.1 120 35.43 250 23.62 89 275 27 25 Bookhagen 2006 Sutley river, India 31.3892 77.6256 48431 T6 0 3 30.2 14.7 4.1 120 35.43 250 23.62 102 156 14 10 Bookhagen 2006 Sutley river, India 31.3892 77.6256 48431 floodplain NaN NaN 34.3 5.1 0.0 120 35.43 250 23.62 116 54 0 NaN Colombo 2000 Albarracín Fan, San Juan River, Argentina -31.5472 -68.8385 116 T3 1 Holocene 0.0 NaN 30.5 10 29.73 100 50.83 0 NaN 10 NaN Colombo 2000 Albarracín Fan, San Juan River, Argentina -31.5472 -68.8385 116 T2 1 Holocene 12.7 156.4 17.8 10 29.73 100 50.83 4 308 6 NaN Colombo 2000 Albarracín Fan, San Juan River, Argentina -31.5472 -68.8385 116 T1 1 Holocene 23.8 71.1 6.6 10 29.73 100 50.83 8 140 2 NaN Colombo 2000 Albarracín Fan, San Juan River, Argentina -31.5472 -68.8385 116 floodplain NaN Holocene 30.5 56.2 0.0 10 29.73 100 50.83 10 111 0 NaN Hu 2017 Dahe river, Quilian Shan, Tibet 39.0751 99.4841 78 surface 0 142.8 ± 11.3 0.0 NaN 57.7 100 53.74 600 100.78 0 NaN 107 NaN Hu 2017 Dahe river, Quilian Shan, Tibet 39.0751 99.4841 78 T5 1 103 to 125 7.7 154.7 50.0 100 53.74 600 100.78 14 921 93 93 Hu 2017 Dahe river, Quilian Shan, Tibet 39.0751 99.4841 78 T4 0 82 to 98 17.3 115.3 40.4 100 53.74 600 100.78 32 686 75 74 Hu 2017 Dahe river, Quilian Shan, Tibet 39.0751 99.4841 78 T3 0 87 to 104 25.4 100.1 32.3 100 53.74 600 100.78 47 596 60 61 Hu 2017 Dahe river, Quilian Shan, Tibet 39.0751 99.4841 78 T2 0 12.8 to 14.5 52.9 63.9 4.8 100 53.74 600 100.78 98 380 9 10 Hu 2017 Dahe river, Quilian Shan, Tibet 39.0751 99.4841 78 T1 1 NaN 55.5 39.1 2.2 100 53.74 600 100.78 103 233 4 3 Hu 2017 Dahe river, Quilian Shan, Tibet 39.0751 99.4841 78 floodplain NaN NaN 57.7 22.4 0.0 100 53.74 600 100.78 107 133 0 0 Poisson_Avouac 2004 Kuitun river, Tien Shan, China 44.1845 84.7706 1958 T1 0 ? 0.0 NaN 35.5 200 25.23 1000 31.22 0 NaN 282 NaN Poisson_Avouac 2004 Kuitun river, Tien Shan, China 44.1845 84.7706 1958 T2 0 11 to 10 3.9 75.9 31.7 200 25.23 1000 31.22 31 2431 251 NaN Poisson_Avouac 2004 Kuitun river, Tien Shan, China 44.1845 84.7706 1958 T3 0 10 to 7.5 6.4 60.1 29.2 200 25.23 1000 31.22 50 1925 231 NaN Poisson_Avouac 2004 Kuitun river, Tien Shan, China 44.1845 84.7706 1958 T4 0 7.5 to 6.8 10.2 34.0 25.3 200 25.23 1000 31.22 81 1090 201 NaN Poisson_Avouac 2004 Kuitun river, Tien Shan, China 44.1845 84.7706 1958 floodplain NaN 0 35.5 NaN 0.0 200 25.23 1000 31.22 282 NaN 0 NaN Pazzaglia_Brandon_B 2001 Clearwater Basin, Olympic Peninsula,USA 47.6009 -124.2837 358 Qrd 0 > 200? 0.0 NaN 44.3 200 67.62 1000 32.66 0 NaN 131 NaN Pazzaglia_Brandon_B 2001 Clearwater Basin, Olympic Peninsula,USA 47.6009 -124.2837 358 Qt2 0 ~125 to 140 17.5 88.9 26.8 200 67.62 1000 32.66 52 2722 79 NaN Pazzaglia_Brandon_B 2001 Clearwater Basin, Olympic Peninsula,USA 47.6009 -124.2837 358 Qt3 1 ~60 to 65 28.0 70.9 16.3 200 67.62 1000 32.66 83 2172 48 NaN Pazzaglia_Brandon_B 2001 Clearwater Basin, Olympic Peninsula,USA 47.6009 -124.2837 358 Qt6 0 1 42.9 24.3 1.4 200 67.62 1000 32.66 127 743 4 NaN Pazzaglia_Brandon_B 2001 Clearwater Basin, Olympic Peninsula,USA 47.6009 -124.2837 358 floodplain NaN NaN 44.3 7.4 0.0 200 67.62 1000 32.66 131 228 0 NaN Pazzaglia_Brandon_C 2001 Clearwater Basin, Olympic Peninsula,USA 47.6512 -124.2055 249 surface NaN NaN 0.0 NaN 42.8 200 67.69 1000 32.66 0 NaN 127 NaN Pazzaglia_Brandon_C 2001 Clearwater Basin, Olympic Peninsula,USA 47.6512 -124.2055 249 Qt2 0 ~125 to 140 16.0 72.2 26.9 200 67.69 1000 32.66 47 2210 79 NaN Pazzaglia_Brandon_C 2001 Clearwater Basin, Olympic Peninsula,USA 47.6512 -124.2055 249 Qt3 1 ~60 to 65 29.9 45.0 12.9 200 67.69 1000 32.66 88 1377 38 NaN Pazzaglia_Brandon_C 2001 Clearwater Basin, Olympic Peninsula,USA 47.6512 -124.2055 249 Qt5 0 ~ 9 to 11 39.1 14.7 3.7 200 67.69 1000 32.66 116 451 11 NaN Pazzaglia_Brandon_C 2001 Clearwater Basin, Olympic Peninsula,USA 47.6512 -124.2055 249 Qt6 0 1 41.9 10.3 0.9 200 67.69 1000 32.66 124 317 3 NaN Pazzaglia_Brandon_C 2001 Clearwater Basin, Olympic Peninsula,USA 47.6512 -124.2055 249 floodplain NaN NaN 42.8 3.4 0.0 200 67.69 1000 32.66 127 105 0 NaN Ray_Srivastava_1 2010 Alaknanda (Gholtir), India 30.3006 79.0925 8600 T3 1 NaN 0.0 NaN 16.8 100 17.38 1000 57.71 0 96 75 Ray_Srivastava_1 2010 Alaknanda (Gholtir), India 30.3006 79.0925 8566 T2 0 NaN 5.6 65.3 11.2 100 17.38 1000 57.71 32 1132 64 50 Ray_Srivastava_1 2010 Alaknanda (Gholtir), India 30.3006 79.0925 T1 0 NaN 10.7 41.0 6.1 100 17.38 1000 57.71 62 710 35 10 Ray_Srivastava_1 2010 Alaknanda (Gholtir), India 30.3006 79.0925 floodplain NaN NaN 16.8 6.9 0.0 100 17.38 1000 57.71 96 120 0 0 Ray_Srivastava_2 2010 Alaknanda (Gaucher), India 30.2937 79.151 8331 T4 NaN Late Pleistocene, Holocene, < 40 ka 0.0 NaN 28.3 120 35.04 1000 49.10 0 NaN 97 99 Ray_Srivastava_2 2010 Alaknanda (Gaucher), India 30.2937 79.151 8331 T3 1 Late Pleistocene, Holocene, < 40 ka 12.7 53.2 15.6 120 35.04 1000 49.10 43 1083 54 57 Ray_Srivastava_2 2010 Alaknanda (Gaucher), India 30.2937 79.151 8331 T2 0 Late Pleistocene, Holocene, < 40 ka 22.8 30.1 5.5 120 35.04 1000 49.10 78 613 19 16 Ray_Srivastava_2 2010 Alaknanda (Gaucher), India 30.2937 79.151 8331 T1 0 Late Pleistocene, Holocene, < 40 ka 24.1 22.4 4.2 120 35.04 1000 49.10 83 457 14 NaN Ray_Srivastava_2 2010 Alaknanda (Gaucher), India 30.2937 79.151 8331 floodplain NaN NaN 28.3 5.3 0.0 120 35.04 1000 49.10 97 109 0 0 Rigsby 2003 Rio Ilave, Peru -16.1142 -69.6706 9957 T4 1 several ages between 6 and 8 0.0 NaN 48.4 30 88.31 2000 117.44 0 NaN 16 17.5 Rigsby 2003 Rio Ilave, Peru -16.1142 -69.6706 9957 T3 1 NaN 20.5 74.4 28.0 30 88.31 2000 117.44 7 1267 10 10 Rigsby 2003 Rio Ilave, Peru -16.1142 -69.6706 9957 T2 1 3.7 ± 0.13 to 2.5 ± 0.06 31.5 45.9 16.9 30 88.31 2000 117.44 11 781 6 6.7 Rigsby 2003 Rio Ilave, Peru -16.1142 -69.6706 9957 T1 0 1.67 ± 0,04 43.3 26.2 5.2 30 88.31 2000 117.44 15 447 2 NaN Rigsby 2003 Rio Ilave, Peru -16.1142 -69.6706 9957 floodplain NaN NaN 48.4 13.1 0.0 30 88.31 2000 117.44 16 223 0 NaN Tofelde, this study 2017 Toro river , Argentina -24.5062 -65.8635 1673 T6 0 450 to 490 0.0 294.2 138.3 100 56.44 3000 254.35 0 3470 245 NaN Tofelde, this study 2017 Toro river , Argentina -24.5062 -65.8635 1673 T5 0 NaN 35.0 213.5 103.2 100 56.44 3000 254.35 62 2518 183 NaN Tofelde, this study 2017 Toro river , Argentina -24.5062 -65.8635 1673 T4 1 260 to 285 68.0 143.6 70.3 100 56.44 3000 254.35 120 1693 125 NaN Tofelde, this study 2017 Toro river , Argentina -24.5062 -65.8635 1673 T3 0 NaN 94.2 61.9 44.1 100 56.44 3000 254.35 167 730 78 NaN Tofelde, this study 2017 Toro river , Argentina -24.5062 -65.8635 1673 T2 0 75 to 110 106.2 51.6 32.1 100 56.44 3000 254.35 188 608 57 NaN Tofelde, this study 2017 Toro river , Argentina -24.5062 -65.8635 1673 T1 0 NaN 123.5 33.0 14.8 100 56.44 3000 254.35 219 389 26 NaN Tofelde, this study 2017 Toro river , Argentina -24.5062 -65.8635 1673 floodplain NaN NaN 138.3 20.0 0.0 100 56.44 3000 254.35 245 236 0 NaN