![]() ![]() Wannamaker P, Caldwell T, Jiracek G, Maris V, Hill GJ, Ogawa Y, Bibby HM, Bennie SL, Heise W (2009) Fluid and deformation regime of an advancing subduction system at Marlborough, New Zealand. Wang Y, Zhang B, Schoenbohm LM, Zhang J, Zhou R, Hou J, Ai S (2016) Late Cenozoic tectonic evolution of the Ailao Shan-RedRiver fault (SE Tibet): implications for kinematicchange during plateau growth. Walcott RI (1998) Modes of oblique compression: late cenozoic tectonics of the South Island of New Zealand. Vry J, Powell R, Golden KM, Petersen K (2009) The role of exhumation in metamorphic dehydration and fluid production. Tapponnier P, Lacassin R, Leloup PH, Scharer U, Dalai Z, Haiwei W, Xiaoshan L, Shaocheng J, Lianshang Z, Jiayou Z (1990) The Ailao Shan/Red River metamorphic belt: tertiary left-lateral shear between Indochina and South China. Searle MP, Meng-Wan Y, Lin TH, Chung SL (2010) Structural constraints on the timing of left-lateral shear along the Red River shear zone in the Ailao Shan and Diancang Shan Ranges, Yunnan, SW China. Boulder, Colorado, Geological Society of America. ![]() Plafker G, Berg HC (1994) The geology of Alaska. Martin-Short R, Allen R, Bastow ID, Porritt RW, Miller MS (2018) Seismic imaging of the Alaska subduction zone: Implications for slab geometry and volcanism. Marechal A, Mazzotti S, Elliott JL, Freymueller JT, Schmidt M (2015) Indentor-corner tectonics in the Yakutat-St. Li P, Sun M, Rosenbaum G, Cai K, Chen M, He Y (2016) Transpressional deformation, strain partitioning and fold superimposition in the southern Chinese Altai, Central Asian Orogenic Belt. Leloup PH, Arnaud N, Lacassin R, Kienast JR, Harrison TM, Phang Trong TT, Replumaz A, Tapponnier P (2001) New constraints on the structure, thermochronology, and timing of the Ailao Shan-Red River shear zone, SE Asia. Jadamec MA, Billen MI, Roeske SM (2013) Three-dimensional numerical models of flat slab subduction and the Denali fault driving deformation in south-central Alaska. Harris R (2004) Tectonic evolution of the Brooks range ophiolite, northern Alaska. Haeussler PJ, Matmon A, Schwartz DP, Seitz GG (2017) Neotectonics of interior Alaska and the late quaternary slip rate along the Denali fault system. Grapes RH (1995) Uplift and exhumation of Alpine Shist, Southern Alps, New Zealand: thermobarometric constraints. Geological Society, London, Special Publications 290:285–303 ![]() Gomez F, Nemer T, Tabet C, Khawlie M, Meghraoui M, Barazangi M (2007) Strain partitioning of active transpression within the Lebanese restraining bend of the Dead Sea Fault (Lebanon and SW Syria). Gomez F, Khawlie M, Tabet C, Darkal A, Khair K, Barazangi M (2006) Late Cenozoic uplift along the northern dead Sea transform in Lebanon and Syria. Tectonics 33:1519–1533įuis GS, Murphy JM, Lutter WJ, Moore TE, Bird KJ (1997) Deep seismic structure and tectonics of northern Alaska: crustal-scale duplexing with deformation extending into the upper mantle. Nat Geosci 2:360–363įitzgerald PG, Roeske SM, Benowitz JA, Riccio SJ, Perry SE, Armstrong PA (2014) Alternating asymmetric topography of the Alaska range along the strike-slip Denali fault: strain partitioning and lithospheric control across a terrane suture zone. Earth Planet Sci Lett 240:436–444Įnkelmann E, Zeitler PK, Pavlis TL, Garver JI, Ridgway KD (2009) Intense localized rock uplift and erosion in the St Elias orogen of Alaska. NZ J Geol Geophys 38:489–499Ĭunningham D (2005) Active intracontinental transpressional mountain building in the Mongolian Altai: defining a new class of orogen. Geological Society, London, Special Publications, 135, pp 81–106Ĭox SC, Findlay RH (1995) The main divide fault zone and its role in formation of the Southern Alps, New Zealand. In: Holdsworth RE, Strachan RA, Dewey JE (Hrsg.) Continental transpressional and transtensional tectonics. Lithosphere 7:235–246īutler RWH, Spencer S, Griffiths HM (1998) The structural response to evolving plate kinematics during transpression: evolution of the Lebanese restraining bend of the Dead Sea Transform. Bemis SP, Weldon RJ, Carver GA (2015) Slip partitioning along a continuously curved fault: quaternary geologic controls on Denali fault system slip partitioning, growth of the Alaska Range, and the tectonics of south-central Alaska. ![]()
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