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• Adams BA, Ehlers TA. 2017. Deciphering topographic signals of glaciation and rock uplift in an active orogen: a case study from the Olympic Mountains, USA. Earth Surface Processes and Landforms 42: 1680–1692
• Amato V, Aucelli PPC, Cesarano M, Filocamo F, Leone N, Petrosino P, Rosskopf CM, Valente E, Casciello E, Giralt S, Jicha BR. 2018. Geomorphic response to Late Quaternary tectonics in the axial portion of the Southern Apennines (Italy): a case study from the Calore River valley. Earth Surface Processes and Landforms this issue
• Braun J, Voisin C, Gourlan AT, Chauvel C. 2015. Erosional response of an actively uplifting mountain belt to cyclic rainfall variations. Earth Surface Dynamics 3: 1–14
• Burbank D, Anderson R. 2011. Tectonic Geomorphology, 2nd edn. Wiley-Blackwell: London; 472. ISBN:978-1-4443-3886-7
• Castelltort S, Whittaker A, Vergés J. 2015. Tectonics, sedimentation and surface processes: from the erosional engine to basin deposition. Earth Surface Processes and Landforms 40: 1839–1846
• Chase CG. 1992. Fluvial landsculpting and the fractal dimension of topography. Geomorphology 5: 39–57
• Codilean AT, Bishop P, Hoey TB. 2006. Surface process models and the links between tectonics and topography. Progress in Physical Geography 30(3): 307–333
• Collignon M, Yamato P, Castelltort S, Kaus BJP. 2016. Modeling of wind gap formation and development of sedimentary basins during fold growth: application to the Zagros Fold Belt, Iran. Earth Surface Processes and Landforms 41: 1521–1535
• Davis WM. 1899. The geographical cycle. The Geographical Journal 14(5): 481–504
• Demoulin A. 2011. Basin and river profile morphometry: a new index with a high potential for relative dating of tectonic uplift. Geomorphology 126: 97–107
• Demoulin A, Mather A, Whittaker A. 2017. Fluvial archives, a valuable record of vertical crustal deformation. Quaternary Science Reviews 166: 10–37
• Forte A, Whipple K. 2017. Criteria and tools for determining drainage divide stability. EarthArXiv December 9. pre-print DOI:https://doi.org/10.17605/OSF.IO/ANR29
• Gasparini NM, Fischer GC, Adams JM, Dawers NH, Janoff AM. 2016. Morphological signatures of normal faulting in low-gradient alluvial rivers in south-eastern Louisiana, USA. Earth Surface Processes and Landforms 41: 642–657
• Godard V, Cattin R, Lavé J. 2004. Numerical modeling of mountain building: interplay between erosion law and crustal rheology. Geophysical Research Letters 31: L23607. https://doi.org/10.1029/2004GL021006
• Godard V, Lavé J, Cattin R. 2006. Numerical modelling of erosion processes in the Himalayas of Nepal: effects of spatial variations of rock strength and precipitation. In Analogue and Numerical Modelling of Crustal-Scale Processes, Buiter S, Schreurs G (eds). Geological Society: London, Special Publications 253; 341–358
• Goren L. 2016. A theoretical model for fluvial channel response time during time-dependent climatic and tectonic forcing and its inverse applications. Geophysical Research Letters 43: 10 753–10 763. https://doi.org/10.1002/2016GL070451
• Goren L, Castelltort S, Klinger Y. 2015. Modes and rates of horizontal deformation from rotated river basins: application to the Dead Sea fault system in Lebanon. Geology 43(9): 843–846
• Hemelsdaël R, Ford M. 2016. Relay zone evolution: a history of repeated fault propagation and linkage, central Corinth rift, Greece. Basin Research 28: 34–56
• Howard AD. 1994. A detachment-limited model of drainage basin evolution. Water Resources Research 30(7): 2261–2285
• Jiang W, Han Z, Zhang J, Jiao Q. 2016. Stream profile analysis, tectonic geomorphology and neotectonic activity of the Damxung-Yangbajain rift in the south Tibetan Plateau. Earth Surface Processes and Landforms 41: 1312–1326
• Kent E, Boulton SJ, Whittaker AC, Stewart IS, Alçiçek MC. 2017. Normal fault growth and linkage in the Gediz (Alaşehir) Graben, Western Turkey, revealed by transient river long-profiles and slope-break knickpoints. Earth Surface Processes and Landforms 42: 836–852
• Kirby E, Whipple K. 2012. Expression of active tectonics in erosional landscapes. Journal of Structural Geology 44: 54–75
• Lague D. 2014. The stream power river incision model: evidence, theory and beyond. Earth Surface Processes and Landforms 39: 38–61
• Montgomery D, Korup O. 2011. Preservation of inner gorges through repeated Alpine glaciations. Nature Geoscience 4: 62–67
• Penck W. 1953. Morphological Analysis of Land Forms. Macmillan and Co: London
• Peronace E, Della Seta M, Troiani F, Galli P, Giaccio B, Messina P, Fredi P. 2018. Testing geomorphic signal of active normal faulting: the case of Cittanova Fault (Calabria, southern Italy). Earth Surface Processes and Landforms this issue
• Perron T, Royden L. 2013. An integral approach to bedrock river profile analysis. Earth Surface Processes and Landforms 38: 570–576
• Prasicek G, Larsen IJ, Montgomery D. 2015. Tectonic control on the persistence of glacially sculpted topography. Nature Communications 6(8): 8028. https://doi.org/10.1038/ncomms9028
• Prasicek G, Otto JC, Montgomery D, Schrott L. 2014. Multi-scale curvature for automated identification of glaciated mountain landscapes. Geomorphology 209: 53–65
• Rixhon G, Briant R, Cordier S, Duval M, Jones A, Scholz D. 2017. Revealing the pace of river landscape evolution during the Quaternary: recent developments in numerical dating methods. Quaternary Science Reviews 166: 91–113
• Roberts GG, White NJ, Martin-Brandis GL, Crosby AG. 2012. An uplift history of the Colorado Plateau and its surroundings from inverse modeling of longitudinal river profiles. Tectonics 31: TC4022. https://doi.org/10.1029/2012TC003107
• Roda-Boluda DC, Whittaker AC. 2018. Normal fault evolution and coupled landscape response: examples from the Southern Apennines, Itay. Basin Research 30(Suppl. 1): 186–209
• Struth L, Teixell A, Owen LA, Babault J. 2017. Plateau reduction by drainage divide migration in the Eastern Cordillera of Colombia defined by morphometry and 10Be terrestrial cosmogenic nuclides. Earth Surface Processes and Landforms 42: 1155–1170
• Temme AJAM, Armitage J, Attal M, van Gorp W, Coulthard TJ, Schoorl JM. 2017. Developing, choosing and using landscape evolution models to inform field-based landscape reconstruction studies. Earth Surface Processes and Landforms 42: 2167–2183
• Valla P, van der Beek P, Lague D. 2010. Fluvial incision into bedrock: Insights from morphometric analysis and numerical modeling of gorges incising glacial hanging valleys (Western Alps, France). Journal of Geophysical Research 115: F02010. https://doi.org/10.1029/2008JF001079
• Wang X, Vandenberghe J, Yi S, Van Balen R, Lu H. 2015. Climate-dependent fluvial architecture and processes on a suborbital timescale in areas of rapid tectonic uplift: an example from the NE Tibetan Plateau. Global and Planetary Change 133: 318–329
• Whipple K. 2001. Fluvial landscape response time: how plausible is steady-state denudation? American Journal of Science 301: 313–325
• Whittaker AC. 2012. How do landscapes record tectonics and climate? Lithosphere 4(2): 160–164
• Willett S, McCoy SW, Perron T, Goren L, Chen CY. 2014. Dynamic reorganization of river basins. Science 343 1248765. DOI:https://doi.org/10.1126/science.1248765
• Yang R, Willett SD, Goren L. 2015. In situ low-relief landscape formation as a result of river network disruption. Nature 520: 526–529
• Yanites BJ, Becker JK, Madritsch H, Schnellmann M, Ehlers TA. 2017. Lithologic effects on landscape response to base level changes: a modeling study in the context of the Eastern Jura Mountains, Switzerland. Journal of Geophysical Research: Earth Surface 122: 2196–2222