Jump to ContentJump to Main Navigation
Show Summary Details
More options …

American Mineralogist

Journal of Earth and Planetary Materials

Ed. by Baker, Don / Xu, Hongwu / Swainson, Ian


IMPACT FACTOR 2017: 2.645

CiteScore 2017: 2.31

SCImago Journal Rank (SJR) 2017: 1.440
Source Normalized Impact per Paper (SNIP) 2017: 1.059

Online
ISSN
1945-3027
See all formats and pricing
More options …
Volume 102, Issue 1

Issues

Periodic activity in continental magmatic arcs

P.G. DeCelles
Published Online: 2017-01-03 | DOI: https://doi.org/10.2138/am-2017-5908

References Cited

  • Armstrong, R.L. (1988) Mesozoic and early Cenozoic magmatic evolution of the Canadian Cordillera. Geological Society of America Special Paper, 218, 55–92.Google Scholar

  • Buiter, S.J.H. (2012) A review of brittle compressional wedge models. Tectonophysics, 530-531, 1–17.Google Scholar

  • Chung, S.-L., Chu, M.-F., Zhang, Y., Xie, Y., Lo, C.-H., Lee, T.-Y., Lan, C.-Y., Li, X., Zhang, Q., and Wang, Y. (2005) Tibetan tectonic evolution inferred from spatial and temporal variations in post-collisional magmatism. Earth-Science Reviews, 68, 173–196, .CrossrefGoogle Scholar

  • Dahlen, F.A. (1990) Critical taper model of fold-and-thrust belts and accretionary wedges. Annual Reviews of Earth and Planetary Sciences, 18, 55–99.Google Scholar

  • DeCelles, P.G., Ducea, M.N., Kapp, P., and Zandt, G. (2009) Cyclicity in Cordilleran orogenic systems: Nature Geoscience, 2, 251–257, .CrossrefGoogle Scholar

  • DeCelles, P.G., Zandt, G., Beck, S.L., Currie, C.A., Ducea, M.N., Kapp, P., Gehrels, G.E., Carrapa, B., Quade, J., and Schoenbohm, L.M. (2015) Cyclical orogenic processes in the Cenozoic central Andes. In P.G. DeCelles, M.N. Ducea, B. Carrapa, and P.A. Kapp, Eds., Geodynamics of a Cordilleran Orogenic System: The Central Andes of Argentina and Northern Chile. Geological Society of America Memoirs, 212, 459–490. .CrossrefGoogle Scholar

  • Ducea, M.N. (2001) The California arc: Thick granitic batholiths, eclogitic residues, lithospheric-scale thrusting, and magmatic flare-ups. GSA Today, 11(11), 4–10.Google Scholar

  • Kay, S.M., and Coira, B.L. (2009) Shallowing and steepening subduction zones, continental lithospheric loss, magmatism, and crustal flow under the central Andean Altiplano–Puna Plateau. In S.M. Kay, V.A. Ramos, and W.R. Dickinson, Eds., Backbone of the Americas: Shallow Subduction, Plateau Uplift, and Ridge and Terrane Collision. Geological Society of America Memoirs, 204, 229–259.Google Scholar

  • Kirsch, M., Paterson, S.R., Wobbe, F., Martinez Ardila, A.M., Clausen, B.L., and Alasion, P.H. (2016) Temporal histories of Cordilleran continental arcs: Testing models for magmatic episodicity. American Mineralogist, 101, 2133–2154.Google Scholar

  • McGroder, M.F., Lease, R.O., and Pearson, D.M. (2015) Along-strike variation in structural styles and hydrocarbon occurrences, Subandean fold-and-thrust belt and inner foreland, Colombia to Argentina. In P.G. DeCelles, M.N. Ducea, B. Carrapa, and P.A. Kapp, Eds., Geodynamics of a Cordilleran Orogenic System: The Central Andes of Argentina and Northern Chile. Geological Society of America Memoirs, 212, 79–113, .CrossrefGoogle Scholar

  • McKenzie, N.R., Horton, B.K., Loomis, S.E., Stockli, D.F., Planavsky, N.J., and Lee, C.-T.A. (2016) Continental arc volcanism as the principal driver of icehouse-greenhouse variability. Science, 352, 444–447, .CrossrefGoogle Scholar

  • Orme, D.A., Carrapa, B., and Kapp, P.K. (2014) Sedimentology, Provenance and Geochronology of the western Xigaze Forearc, Southern Tibet. Basin Reseach, 27, 387–411, .CrossrefGoogle Scholar

  • Paterson, S.R., Okaya, D., Memeti, V., Economos, R., and Miller, R.B. (2011) Magma addition and flux calculations of incrementally constructed magma chambers in continental margin arcs: Combined field, geochronologic, and thermal modeling studies. Geosphere, 7, 1439–1468, .CrossrefGoogle Scholar

  • Schellart, W.P. (2008) Subduction zone trench migration: Slab driven or overriding-plate driven? Physics of Earth and Planetary Interiors, 170, 73–88, .CrossrefGoogle Scholar

  • Wu, F.-Y., Ji, W.-Q., Liu, C.-Z., and Chung, S.-L. (2010) Detrital zircon U–Pb and Hf isotopic data from the Xigaze fore-arc basin: constraints on Transhimalayan magmatic evolution in southern Tibet. Chemical Geology, 271, 13–25.Google Scholar

  • Yonkee, W.A., and Weil, A.B. (2015) Tectonic evolution of the Sevier and Laramide belts within the North American Cordillera orogenic system. Earth-Science Reviews, 150, 531–593.Google Scholar

About the article

Received: 2016-07-02

Accepted: 2016-07-25

Published Online: 2017-01-03

Published in Print: 2017-01-01


Citation Information: American Mineralogist, Volume 102, Issue 1, Pages 1–2, ISSN (Online) 1945-3027, ISSN (Print) 0003-004X, DOI: https://doi.org/10.2138/am-2017-5908.

Export Citation

© 2017 by Walter de Gruyter Berlin/Boston.

Comments (0)

Please log in or register to comment.
Log in