Refereed Publications: (* indicates student author)

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A. PEER-REVIEWED ARTICLES (*indicates student or postdoc under my supervision at the time the work was undertaken, underlining indicates senior author)

A73. *McMillan, M., Schoenbohm, L.M., *Tye, A., R., 2023, Plateau formation controlled by lithospheric foundering under a weak crust: Geophysical Research Letters, v. 50, doi: 10.1029/2023GL103996.

A72. Godin, L., Crilly, B., Schoenbohm, L.M., Wolpert, J., 2023, Recent Basement Fault Reactivation and Fluvial Drainage Modification in an Intraplate Setting, Eastern Bundelkhand Craton, Madhya Pradesh, India: Geomorphology, v. 436, doi: 10.1016/j.geomorph.2023.108781.

A71. *McMillan, M., Schoenbohm, L.M., 2023, Diverse styles of lithospheric dripping: Synthesizing gravitational instability models, continental tectonics, and geologic observations: Geochemistry, Geophysics, Geosystems, v. 24(2), doi: 10.1029/2022GC010488.

A70. Luo, Q., Li, Y., Schoenbohm, L.M., Rimando, J., Hu, X., Guo, A., Zhao, J., Li, X., Liu, Q., Jiang, S., Li, C., Sun, K., 2022, Direct evidence for dextral shearing in the Shanxi Graben System: geologic and geomorphologic constraints from the North Liulengshan Fault: Tectonics, v. 41(12) doi:10.1029/2022TC007490.

A69. Sherpa, T.Z.L., DeCelles, P.G., Carrapa, B., Schoenbohm, L.M., Wolpert, J., 2022, Bhumichula plateau: a remnant high-elevation low-relief surface in the Himalayan thrust belt of western Nepal: GSA Bulletin, doi:10.1130/B36481.1.

A68. *Giona Bucci, M., Schoenbohm, L.M., 2022, Methodologies for conducting a tectono-geomorphic study in a low relief, low-moderate seismically active area, in the Temiskaming Region, Eastern Canada: Remote Sensing, v. 14(15), 3587, doi: 10.2290/rs14153587.

A67. *McMillan, M., Schoenbohm, L.M., *Tye, A., *McMillan, M., Zhou, R., in press, Early Eocene to Pliocene deformation of the southern Puna Plateau: Thermochronology, geochronology, and structural geology of the Antofalla Basin (NW Argentina): Tectonics, doi: 10.1029/2022TC007252

A66. *Dortch, J.M., Tomkins, M.D., Saha, S., Murari, M.K., Schoenbohm, L.M., and Curl, D., in press, Probabalistic Cosmogenic Age Analysis Tool (P-CAAT), a Tool for the Ages: Quaternary Geochronology.

A65. *Tye, A., McMillan, M., Schoenbohm, L.M., Zhou, R. 2022, Late Cenozoic extensional formation of the Antofalla depression, southern Puna plateau, Argentina: an effect of lithospheric foundering?: Tectonics, doi: 10.1029/2021TC006807.

A64. *Seagren, E.G., *McMillan, M., Schoenbohm, L.M., 2022, Tectonic Control on Drainage Evolution in Broken Forelands: Examples from NW Argentina: Tectonics, doi: 10.1029/2020TC006536.

A63. Schoenbohm, L.M., and *McMillan, M., 2022, Worldbuilding from Tectonic First Principles: Integrating and Challenging Undergraduate Knowledge through a Course Project: Journal of Geoscience Education, doi.org/10.1080/10899995.2021.1908810.

A62. *Seagren, E.G., and Schoenbohm, L.M., 2021, Drainage Reorganization across the Puna Plateau Margin (NW Argentina): Implications for the Preservation of Orogenic Plateaus: JGR – Earth Surface, doi: 10.1029/2021JF006147.

A61. *Rimando, J.M., Schoenbohm, L.M., Ortiz, Gustavo, Alvarado, P., Venerdini, A., Owen, L.A., Seagren, E.G., Figueriedo, P.M., and Hammer, S.J., 2021, Late Quaternary intraplate deformation Defined by the Las Chacras Fault Zone, West-Central Argentina: Tectonics, v. 40, doi.org/10.1029/2020TC006509.

A60. Lee, C.H., Seong, Y.B., Schoenbohm, L.M., Kim, D.-E., and Yu, B.Y., 2021, Geomorphic constraints on the development of a blind-thrust induced landform, south-central Mongolia: Insights into foreberg growth: Geomorphology, v. 378, doi:10.1016/j.geomorph.2021.107613.

A59. Xu, J.-H., Arrowsmith, R.J., Chen, J., Schoenbohm, L.M., Li, T., and Yuan, Z.-D., 2021, Evaluating young fluvial terrace riser degradation using a nonlinear transport model: with applications to the Kongur Normal Fault in the Pamir, northwest China: Earth Surface Processes and Landforms, v. 46, p. 280-295 doi:10.1002/esp.5002.

A58. Wang, Y., Wang, Y., Schoenbohm, L.M., Zhang, P., Zhang, B., Sobel, E.R., Zhou, R., Shi X., Zhang, J., Stockli, D.F., and Guo, X., 2020, Cenozoic exhumation of the Ailaoshan-Red River shear zone: New insights from low-temperature thermochronology: Tectonics, doi: 10.1029/2020TC006151.

A57. *Seagren, E.G., Schoenbohm, L.M., Owen, L.A., Figueredo, P., Hammer, S., *Rimando, J.M., Wang, Y., and *Bohon, W., 2020, Lithology, topography, and spatial variability of vegetation moderate fluvial erosion in the south-central Andes: EPSL, v. 551, 116555, doi:10.1016/j.epsl.2020.116555.

A56. *McMillan, M., and Schoenbohm, L.M., 2020, Extreme wind erosion in the Puna Plateau: the Salina del Fraile depression: JGR – Earth Surface, doi:10.1029/2020JF005682.

A55. *Krystopowicz, N., Schoenbohm, L.M., *Rimando, J.R., Gilles, B., and Rojay, B., 2020, Tectonic geomorphology and Plio-Quaternary structural evolution of the Tuzgölü fault zone: Implications for deformation in the interior of the Central Anatolian Plateau: Geosphere, v. 16, doi:10.1130/GES02175.1.

A54. *Buceta, R., Schoenbohm, L.M., DeCelles, P.G., 2020, Glacial and Fluvial Erosion in the Dolpo Basin, Western Nepal: Geomorphology, v. 354, doi:10.1016/j.geomorph.2020.107033.

A53. *Rimando, J.M., and Schoenbohm, L.M., 2020, Regional Relative Tectonic Activity of Structures in the Pampean Flat Slab Segment of Argentina from 30 to 32°S: Geomorphology, v. 350doi:10.1016/j.geomorph.2019.106908.

A52. Wang, Y., Wang, Y.-J., Zhang, P.-Z., Schoenbohm, L.M., Zhang, B., Zhang, J.-J., Zhou, R.-J., Stockli, D., *Seagren, E., Wang, F., and Wu, L., 2020, Intracontinental deformation within the India-Eurasia oblique convergence zone: case studies in the Nantinghe and Dayingjiang faults: Geological Society of America Bulletin, doi:10.1130/B35338.1.

A51. Li, T., Schoenbohm, L.M., Chen, J., Yuan, Z.-D., Feng. W.-P., Li, W.-Q., Xu, J.-H., Owen, L.A., Sobel, E.R., Zhang, B.-X., Zheng, W.-J., and Zhang, P.-Z., 2019, Cumulative and coseismic (during the 2016 Mw 6.6 Aketao earthquake) deformation of the dextral-slip Muji Fault, northeastern Pamir orogen: Tectonics, v. 38 doi:10.1029/2019TC005680.

A50. *McCarthy, J.A., Schoenbohm, L.M., Bierman, P, Rood, D. and Hidy, A., 2019, Late Quaternary Tectonics, Incision and Landscape Evolution of the Calchaquí River Catchment, Eastern Cordillera, NW Argentina: JGR Earth Surface, v. 124, doi:10.1029/2019JF005091.

A49. Costa, C., Schoenbohm, L.M., Brooks, B., Gardini, C., and Richard, A., 2019, Assessing Quaternary shortening rates at an Andean front thrust (32°30m), Argentina: Tectonics, doi:10.1029/2019TC005564.

A48. Imrecke, D., Robinson, A., Owen, L.A., Chen, J., Schoenbohm. L.M., Hedrick K., Lapen, T., Li, W.-Q., and Yuan, Z.-D., 2019, Mesozoic Evolution of the Eastern Pamir: Lithosphere, doi:10.130/L1017.1.

A47. *Seagren, E.G., and Schoenbohm, L.M., 2019, Base Level and Lithologic Control of drainage Reorganization in the Sierra de las Planchadas, NW Argentina: Journal of Geophysical Research, Earth Surface, doi: 10.1029/2018JF004885.

A46. Wang, Y., Wang, P., Ge, W.-P., Zhou, R.-J., Schoenbohm, L.M., Zhang, B., Zhang, J.-Z., Yuan, Z.-D., and Li, X.-F, 2019, Differential crustal deformation across the Cona-Oiga rift, southern Tibetan Plateau: Journal of Asian Earth Sciences, v. 177, p. 177-185, doi: 10.1016/j.jseaes.2019.03.023.

A45. *Rimando, J., Schoenbohm, L.M., Costa, C.H., Owen, L.A., Cesta, J., Richard, A., and Gardini, C., 2019, Late Quaternary Activity of the La Rinconada Fault Zone, San Juan, Argentina: Tectonics. doi:10.1029/2018TC005321.

A44. *Wang, Y., Zhang, P.-Z., Schoenbohm, L.M., Zheng, W.-J., Zhang, B., Zhang, J.-J., Zheng, D.-W., Zhou, R.-J., and Tian, Y.- T., 2018, Two-phase exhumation along major shear zones in the SE Tibetan Plateau in the late Cenozoic: Tectonics, v. 37, p. 2675-2694, doi: 10.1029/2018TC004979.

A43. *Wang, Y., Schoenbohm, L.M., Zhang, B., Granger, D.E., Zhou, R.-J., Zhang, J.-J., Hou, J.-J., 2017, Late Cenozoic landscape evolution along the Ailao Shan Shear Zone, SE Tibetan Plateau: Evidence from longitudinal profiles and cosmogenic erosion rates: Earth and Planetary Science Letters, v. 472, p. 323-333, doi: 10.1016/j.epsl.2017.05.030.

A42. Hedrick, K.A., Owen, L.A., Chen, J., Robinson, A., Yuan, Z.-D., Yang, X.-D., Imrecke, D.B., Li, W.-Q., Caffee, M.W., Schoenbohm, L.M., Zhang, B.-X., 2017, Quaternary history and landscape evolution of a high-altitude intermountain basin at the western end of the Himalayan-Tibetan orogen, Waqia Valley, Chinese Pamir: Geomorphology, v. 284, p. 156-174, doi: 10.1016/j.geomorph.2016.09.002.

A41. *Zhou, R., Schoenbohm, L.M., Sobel, E.R., Davis, D.W., and Glodny, J., 2016, New constraints on orogenic models of the southern Central Andean Plateau: basin evolution and bedrock exhumation: GSA Bulletin, doi: 10.1130/B31384.1.

A40. *Wang, Y., Zhang, B., Schoenbohm, L.M., Zhang, J.-J., Zhou, R.J., Hou, J.-J., and Ai, S., 2016, Late Cenozoic tectonic evolution of the Ailao Shan-Red River fault (SE Tibet): Implications for kinematic change during plateau growth: Tectonics, v. 35, p. 1969-1988, doi: 10.1002/2016TC004229.

A39. Carrapa, B., Robert, X., DeCelles, P.G., Orme, D., Thomson, S., and Schoenbohm, L.M., 2016, Asymmetric exhumation of the Mount Everest region: Implications for the tectono-topographic evolution of the Himalaya: Geology, v. 44, p. 611-614, doi: 10.1130/G37756.1.

A38. Robinson, A.C., Owen, L.A., Chen, J., Schoenbohm, L., Hedrick, K.A., Blisniuk, K., Sharp, W., Imrecke, D.B., Li, W.-Q., Yuan, Z.-D., Caffee, M.W., and Mertz-Kraus, R., 2016, Response to comment on “No late Quaternary motion on the northern Karakoram fault:” Earth and Planetary Science Letters, doi: 10.1016/j.epsl.2016.03.033.

A37. *Zhou, R., Schoenbohm, L.M., Sobel, E.R., Carrapa, B., and Davis, D.W., 2016, Sedimentary record of regional deformation and dynamics of the thick-skinned southern Puna Plateau, central Andes (26-27°S): EPSL, v. 443, p. 220-223, doi:10.1016/j.epsl.2015.11.012.

A36. *Higgins, M., Schoenbohm, L.M., Brocard, G., Kaymakci, N., Gosse, J., and Cosca, M., 2015, New kinematic and geochronologic evidence for the Quaternary evolution of the Central Anatolian Fault Zone (CAFZ): Tectonics: v. 34, p. 2118-2141, doi: 10.1002/2015TC003864.

A35. *Zhou, R. and Schoenbohm, L.M., 2015, Late Miocene upper-crustal deformation within the interior of the southern Puna Plateau, central Andes: Lithosphere, v. 7, p. 336-352, doi:10.1130/L396.1.

A34. Robinson, A.C., Owen, L.A., Chen, J., Schoenbohm, L., Hedrick, K.A., Blisniuk, K., Sharp, W., Imrecke, D.B., Yuan, Z.-D., Li, W.-Q., Caffee, M.W., and Mertz-Kraus, R., 2015, No late Quaternary motion on the northern Karakoram fault: Earth and Planetary Science Letters, v. 209, p. 290-298.

A33. Murray, K.E., Ducea, M.N., Schoenbohm, L.M., 2015, Mafic lavas on the Puna plateau sample the diverse lithospheric architecture of the long-lived central Andean orogen: in DeCelles, P.G., Ducea, M.N., Carrapa, B., and Kapp, P.A., eds., Geodynamics of a Cordilleran Orogenic System: The Central Andes of Argentina and Northern Chile: Geological Society of America Memoir 212, doi:10.1130/2015.1212(08).

A32. Schoenbohm, L.M., and Carrapa, B., 2015, Miocene-Pliocene shortening, extension and mafic magmatism support small-scale lithospheric foundering in the central Andes, NW Argentina: in DeCelles, P.G., Ducea, M.N., Carrapa, B., and Kapp, P.A., eds., Geodynamics of a Cordilleran Orogenic System: The Central Andes of Argentina and Northern Chile: Geological Society of America Memoir 212, doi:10.1130/2015.1212(09).

A31. Schoenbohm, L.M., Carrapa, B., *McPherson, H., *Pratt, J., Bywater, S., and Mortimer, E., 2015, Climate and Tectonics along the southern margin of the Puna Plateau, NW Argentina: Origin of the Punaschotter Conglomerates: in DeCelles, P.G., Ducea, M.N., Carrapa, B., and Kapp, P.A., eds., Geodynamics of a Cordilleran Orogenic System: The Central Andes of Argentina and Northern Chile: Geological Society of America Memoir 212, doi:10.1130/2015.1212(13).

A30. DeCelles, P.G., Zandt, G., Beck, S.L., Ducea, M.N., Kapp, P., Gehrels, G.E., Carrapa, B., Quade, J., Schoenbohm, L.M., 2015, Cyclical orogenic processes in the Cenozoic central Andes: in DeCelles, P.G., Ducea, M.N., Carrapa, B., and Kapp, P.A., eds., Geodynamics of a Cordilleran Orogenic System: The Central Andes of Argentina and Northern Chile: Geological Society of America Memoir 212, doi:10.1130/2015.1212(22).

A29. Carrapa, B., Mustapha, F.S., Cosca, M., Gehrels, G., Schoenbohm, L.M., Sobel, E.R., DeCelles, P.G., Russell, J., and Goodman, P., 2014, Multisystem dating of modern river detritus from Tajikistan and China: Implications for crustal evolution and exhumation of the Pamir, Lithosphere doi: 10.1130/L360.1.           

A28. Schoenbohm, L., Chen J., *Stutz, J., Sobel, E.R., Thiede, R.C., *Kirby, B., and Strecker, M.R., 2014, Glacial morphology in the Chinese Pamir: connections among climate, erosion, topography, lithology and exhumation: Geomorphology, v. 221, p. 1-17, 10.1016/j.geomorph.2014.05.023.

A27. Carrapa, B., Huntington, K.W., Clementz, M., Quade, J., Bywater-Reyes, S., Schoenbohm, L.M., and Canavan, R., 2014, Uplift of the Central Andes of NW Argentina associated with upper crustal shortening revealed by multi-proxy isotopic analyses: Tectonics, v. 33, 10.1002/2013TC003461.

A26. Canavan, R., Carrapa, B., Clementz, M.T., Quade, J., DeCelles, P., and Schoenbohm, L., 2014, Early Cenozoic uplift of the Puna Plateau, Central Andes, based on stable isotope paleoaltimetry of hydrated volcanic glass: Geology, doi:10.1130/G35239.1.

A25. Carrapa, B., Reyes-Bywater, S., Safipour, R. Sobel, E.R., Schoenbohm, L., Reiners, P. and Stockli, D., 2014, The effect of inherited Cretaceous paleotopography on exhumation of the Central Andes of NW Argentina: GSA Bulletin, v. 126(1/2), p. 66-77.

A24. Ducea, M.N., Seclaman, A.C., Murray, K.E., Jianu, D., and Schoenbohm, L.M., 2013, Mantle-drip magmatism beneath the Altiplano-Puna plateau, central Andes: Geology, v. 41, no. 8, p. 915-918, doi: 10.1130/G34509.1.

A23. *Thiede, R.C., Sobel, E.R., Chen, J., Schoenbohm, L.M., Stockli, D., Sudo, M., and Strecker, M.R., 2013, Late Cenozoic extension and crustal doming in the India-Eurasia collision zone: New thermochronologic constraints from the NE Pamir: Tectonics, v. 32, p. 763-779.

A22. Sobel, E.R., Chen, J., Schoenbohm, L., Thiede, R., Stockli, D.F., Sudo, M., and Strecker, M.R., 2013, Oceanic-style subduction controls Late Cenozoic deformation of the Northern Pamir Orogen: Earth and Planetary Science Letters, v. 363, p. 204-218.

A21. Yuan, Z.-D., Chen, J., Owen, L.A., Hedrick, K.A., Caffee, M., Li W.-Q., Schoenbohm, L.M., and Robinson, A.C., 2013, Nature and timing of large landslides within an active orogen, Eastern Pamir, China: Geomorphology, v. 182, p. 49-65.

A20. *Zhou, R.J., Schoenbohm, L.M., and Cosca, M., 2013, Recent, slow normal and strike-slip faulting in the Pasto Ventura region of the southern Puna Plateau, NW Argentina: Tectonics, v. 32, p. 1-17, doi:10.1029/2012TC003189.

A19. Owen, L.A., Chen, J., Hedrick, K.A., Caffee, M.W., Robinson, A.C., Schoenbohm, L.M., Yuan, Z., Li, W., Imrecke, D., and Liu, J.,2012, Quaternary glaciation of the Tashkurgan Valley, Southeast Pamir: Quaternary Science Reviews, v. 47, p. 56-72.

A18. Yuan, Z.-D., Chen, J., Li W.-Q., Owen, L.A., and Schoenbohm, L.M., 2012, 10Be dating of the Taheman large-scale landslide in eastern Pamir and Paleoseismic Implications: Quaternary Sciences, v. 32, p. 409-416 (in Chinese).

A17. Bershaw, J., Garzione, C., Schoenbohm, L., Gehrels, G., and Li, T., 2012, Cenozoic evolution of the Pamir plateau based on stratigraphy, zircon provenance, and stable isotopes of foreland basin sediments at Oytag (Wuyitake): Journal of Asian Earth Sciences: v. 44, p. 136-148.

A16. *Dortch, J.M., Owen, L.A., Schoenbohm, L.M., and Caffee, M.W., 2011, Asymmetrical erosion and morphological development of the central Ladakh Range, northern India: Geomorphology: v. 135, p. 167-180.

A15. Sobel, E.R., Schoenbohm, L., Chen, J., Thiede, R., Stockli,, D., Sudo, M., and Strecker, M.R., 2011, Late Miocene - Pliocene deceleration of dextral slip between Pamir and Tarim: Implications for Pamir orogenesis: Earth and Planetary Science Letters, v. 304, p. 369-378.

A14. Carrapa, B., Hauer, J., Schoenbohm, L., Strecker, M.R., Schmitt, A.K., Villanueva, A., and Sosa Gomez, J., 2010, Dynamics of deformation and sedimentation in the northern Sierras Pampeanas: An integrated study of the Neogene Fiambalá basin, NW Argentina: Reply: Geological Society of America Bulletin, v. 122, p. 950-953.

A13. Bywater-Reyes, S., Carrapa, B., Clementz, M. and Schoenbohm, L., 2010, Effect of late Cenozoic aridification on sedimentation in the Eastern Cordillera of northwest Argentina (Angastaco basin): Geology: v. 38, p. 235-238.

A12. Schoenbohm, L., and Strecker, M., 2009, Normal faulting along the southern margin of the Puna Plateau, northwest Argentina: Tectonics, v. 28, doi:10.1029/2008TC002341.

A11. Strecker, M., Alonso, R., Bookhagen, B., Carrapa, B., Coutand, I., Hain, M.P., Hilley, G.E., Mortimer, E., Schoenbohm, L., and Sobel, E.R., 2009, Does the topographic distribution of the central Andean Puna Plateau result from  climatic or geodynamic processes?: Geology, v. 37, p. 643-646.

A10. *Drew, S., Ducea, M., and Schoenbohm, L., 2009, Relationship between recent volcanism and Famatinian arc magmatism in Northwest Argentina: Implications for lithospheric composition and evolution beneath the central Andean volcanic zone: Lithosphere, v. 1, p. 2.

A9. Seong, Y.B., Owen, L.A., Yi, C., Finkel, R.C. and Schoenbohm, L., 2009, Geomorphology of anomalously high glaciated mountains at the northwestern end of Tibet: Muztag Ata and Kongur Shan: Geomorphology, v. 103, p. 227-250.

A8. Carrapa, B., Hauer, J., Schoenbohm, L., Strecker, M.R., Schmitt, A.K., Villanueva, A. and Sosa-Gomez, J., 2008, Dynamics of deformation and sedimentation in the northern Sierras Pampeanas: An integrated study of the Neogene Fiambalá basins, NW Argentina: Geological Society of America Bulletin, v. 120, p. 1518-1543, doi: 10.1130/B26111.1.

A7. Mortimer, E., Carrapa, B., Coutand, I., Schoenbohm, L., Sobel, E., Sosa-Gomez, J., and Strecker, M., 2007, Fragmentation of a foreland basin in response to out-of-sequence basement uplifts and structural reactivation: El Cajón–Campo del Arenal basin, NW Argentina: Geological Society of America Bulletin, v. 119, p. 637-653.

A6. Schoenbohm, L., Burchfiel, B.C., and Chen, L., 2006, Propagation of surface uplift, lower crustal flow, and Cenozoic tectonics of the southeast margin of the Tibetan Plateau: Geology, v. 34, p. 813-816.

A5. Schoenbohm, L., Burchfiel, B.C., Chen, L., and Yin, J., 2006, Miocene to present activity along the Red River fault, China, in the context of continental extrusion, upper crustal rotation and lower crustal flow: Geological Society of America Bulletin, v. 118, p. 672-688; doi: 10.1130/B25816.1.

A4. Alonso, R., Bookhagen, B., Carrapa, B., Coutand, I., Haschke, M., Hilley, G., Schoenbohm, L., Sobel, E., Strecker, M., Trauth, M., Villanueva, A., 2006, Tectonics, climate and landscape evolution of the Southern Central Andes: The Argentine Puna Plateau and adjacent regions between 22 and 30º S lat: in Oncken, O., Chong, G., Franz, G., Giese, P. Gotze, H.-J., Ramos, V., Strecker, M., Wigger, P., eds., The Andes – Active Subduction Orogeny: Frontiers in Earth Sciences, Vol. 1, Springer, p. 265-283.

A3. Schoenbohm, L., Burchfiel, B.C., Chen, L., and Yin, J., 2005, Exhumation of the Ailao Shan shear zone as recorded by Cenozoic sedimentary rocks, Yunnan Province, China: Tectonics, v. 24, TC6015, doi:10.1029/2005TC001803.

A2. Schoenbohm, L., Whipple, K., Burchfiel, B.C., 2004, Geomorphic constraints on surface uplift, exhumation, and plateau growth in the Red River region, Yunnan Province, China: Geological Society of America Bulletin, v. 116, p. 895-909.

A1. Clark, M.K., Schoenbohm, L.M., Royden, L.H., Whipple, K.X., Burchfiel, B.C., Zhang X., Tang W., Wang E. and Chen L., 2004, Surface uplift, tectonics and erosion of eastern Tibet from large-scale drainage patterns: Tectonics, v. 23, TC1006, doi:10.1029/2002TC001402.

 

B. BOOKS AND PEER REVIEWED BOOK CHAPTERS (underlining indicates senior author)

B4. Schoenbohm, L.M., 2022, Tectonic Geomorphology of Continental Collision Zones, in: Shroder, J., (Editor in Chief), Treatise on Geomorphology, Second Edition, Elsevier, Academic Press, San Diego, CA, vol. 2 p. 120-149.

B3. Schoenbohm, L.M., 2013, Continental-continental collision zone. In: Shroder, J., (Editor in Chief), Owen, L.A., (Volume Editor), Treatise on Geomorphology. Academic Press, San Diego, CA, vol. 5, Tectonic Geomorphology, p. 13-36.

B2. Schoenbohm, L., Barta, N., Borkow, P., Carey, A., Drew, S., Goldsmith, S., Lower, S., McKenzie, G., Miller J., Taylor E., Tierney, K., Williams M., and Young, S., 2009, Exercises for Earth Sciences 100 2009-2010, 2nd edition: Hayden-McNeil, LLC, Plymouth, Michigan, ISBN: 978-0-7380-3054-8.

B1. Schoenbohm, L., Barta, N., Borkow, P., Carey, A., Drew, S., Goldsmith, S., Lower, S., McKenzie, G., Miller J., Taylor E., Tierney, K., Williams M., and Young, S., 2008, Exercises for Earth Sciences 100 2008-2009: Hayden-McNeil, LLC, Plymouth, Michigan, ISBN: 978-0-7380-3054-8.