Page 9 - GSATJanuary2020
P. 9
also marked a shift from convergent to southwest U.S. Cordillera, in Wright, J.E., and tributions to Mineralogy and Petrology, v. 40,
extensional tectonism in the SW United Shervais, J.W., eds., Ophiolites, Arcs and Batho- p. 259–274, https://doi.org/10.1007/BF00373790.
States, including the initiation of the south- liths: A Tribute to Cliff Hopson: Geological Soci- Ducea, M.N., 2001, The California Arc: Thick gra-
ety of America Special Paper 438, p. 379–396,
nitic batholiths, eclogitic residues, lithospheric-
ern belt (i.e., California, Arizona, and https://doi.org/10.1130/2008.2438(13). scale thrusting, and magmatic flare-ups: GSA
Sonora) of Cordilleran metamorphic core Bennett, V.C., and DePaolo, D.J., 1987, Proterozoic Today, v. 11, p. 4–10, https://doi.org/10.1130/
complexes (Dickinson, 2009) and exhuma- crustal history of the western United States as 1052-5173(2001)011<0004:TCATGB>2.0.CO;2.
tion across the schist outcrop belt (e.g., determined by neodymium isotopic mapping: Ducea, M.N., and Chapman, A.D., 2018, Sub-mag-
Chapman, 2017). Geological Society of America Bulletin, v. 99, matic arc underplating by trench and forearc
The lack of arclogite and abundance of p. 674–685, https://doi.org/10.1130/0016-7606 materials in shallow subduction systems; a geo-
(1987)99 <674:PCHOTW>2.0.CO;2.
logic perspective and implications: Earth-
spinel peridotite xenoliths in ca. 15 Ma and Bird, P., 1988, Formation of the Rocky Mountains, Science Reviews, v. 185, p. 763–779, https://doi
younger volcanic host rocks of the transi- western United States: A continuum computer .org/ 10.1016/j.earscirev.2018.08.001.
tion zone (e.g., the San Carlos locality; model: Science, v. 239, p. 1501–1507, https://doi Ducea, M.N., and Saleeby, J.B., 1998, The age and
Nealey and Sheridan, 1989), in conjunction .org/10.1126/science.239.4847.1501. origin of a thick mafic-ultramafic keel from be-
with a vertical high-seismic-velocity Chapman, A.D., 2017, The Pelona-Orocopia-Rand neath the Sierra Nevada batholith: Contributions
to Mineralogy and Petrology, v. 133, p. 169–185,
and related schists of southern California: A re-
anomaly and the presence of a “double view of the best-known archive of shallow sub- https://doi.org/10.1007/s004100050445.
Moho” within the Colorado Plateau transi- duction on the planet: International Geology Re- Engebretson, D.C., Cox, A., and Gordon, R.G.,
tion zone (Levander et al., 2011; Erdman et view, v. 59, no. 5–6, p. 664–701, https://doi.org 1985, Relative Motions between Oceanic and
al., 2016), suggest that arclogite has been /10.1080/00206814.2016.1230836. Continental Plates in the Pacific Basin: Geo-
foundering into the mantle and being Chapman, A.D., Saleeby, J., Wood, D.J., Piasecki, logical Society of America Special Paper 206,
59 p., https://doi.org/10.1130/SPE206-p1.
A., Kidder, S., Ducea, M., and Farley, K., 2012,
replaced by upwelling asthenosphere since Late Cretaceous gravitational collapse of the Erdman, M.E., Lee, C.-T.A., Levander, A., and
early Miocene time. We speculate that southern Sierra Nevada batholith, California: Jiang, H., 2016, Role of arc magmatism and
post-Laramide rollback and tearing of the Geosphere, v. 8, p. 314–341, https://doi.org/ lower crustal foundering in controlling eleva-
Farallon slab and associated influx of 10.1130/ GES00740.1. tion history of the Nevadaplano and Colorado
asthenosphere destabilized the foreign Chapman, J.B., Dafov, M.N., Gehrels, G., Ducea, Plateau: A case study of pyroxenitic lower crust
from central Arizona, USA: Earth and Plane-
M.N., Valley, J.W., and Ishida, A., 2018, Litho-
mafic keel of the Colorado Plateau, leading spheric architecture and tectonic evolution of the tary Science Letters, v. 439, p. 48–57, https://doi
to its removal and heating of overlying southwestern U.S. Cordillera: Constraints from .org/ 10.1016/j.epsl.2016.01.032.
material. Ensuing flow in the weakened zircon Hf and O isotopic data: Geologic Society Esperança, S., Carlson, R.W., and Shirey, S.B., 1988,
lower crust, which remained feebly cou- of America Bulletin, v. 30, p. 2031–2046, https:// Lower crustal evolution under central Arizona: Sr,
pled to the upper crust, facilitated the local- doi.org/ 10.1130/B31937.1. Nd, and Pb isotopic and geochemical evidence
ized surface extension that ultimately Cheadle, M.J., Czuchra, B.L., Byrne, T., Ando, from mafic xenoliths of Camp Creek: Earth and
C.J., Oliver, J.E., Brown, L.D., Kaufman, S.,
Planetary Science Letters, v. 90, p. 26–40, https://
resulted in the southern belt of Cordilleran Malin, P.E., and Phinney, R.A., 1986, The deep doi.org/10.1016/0012-821X(88)90108-2.
metamorphic core complexes. crustal structure of the Mojave Desert, Califor- Esperança, S., Carlson, R.W., Shirey, S.B., and Smith,
nia, from COCORP seismic reflection data: D., 1997, Dating crust-mantle separation: Re- Os
Tectonics, v. 5, p. 293–320, https://doi.org/ isotopic study of mafic xenoliths from central Ari-
ACKNOWLEDGMENTS
This effort benefitted from assistance by 10.1029/ TC005i002p00293. zona: Geology, v. 25, p. 651–654, https://doi.org/
D. Abboud, B. Hunter, and J. Thole; discussions Chin, E., Lee, C.T., and Luffi, P., 2012, Deep litho- 10.1130/0091-7613(1997)025<0651:DCMSRO>
with S. Esperança and D. Smith; helpful reviews by spheric thickening and refertilization beneath 2.3.CO;2.
G. Axen and C.-T. Lee; and editorial handling by continental arcs: Case study of the P, T and com- Grove, M., Jacobson, C.E., Barth, A.P., and Vucic,
P. Copeland. This work was supported by NSF positional evolution of peridotite xenoliths from A., 2003, Temporal and spatial trends of Late
grants EAR-1524768 (to ADC) and EAR-1725002 the Sierra Nevada, California: Journal of Petrol- Cretaceous–early Tertiary underplating Pelona
(to MND) and Romanian UEFISCDI projects ogy, v. 53, p. 477–511, https://doi.org/10.1093/ and related schist beneath Southern California
PN-III-P4-ID-PCE-2016-0127 and PN-III-P4-ID- petrology/egr069. and southwestern Arizona: Geological Society
PCCF-2016-0014 (to MND). Coney, P.J., and Reynolds, S.J., 1977, Cordilleran of America Special Paper 374, p. 381–406,
Benioff zones: Nature, v. 270, p. 403–406, https://doi.org/10.1130/0-8137-2374-4.381.
https://doi.org/10.1038/270403a0. Gutscher, M.A., Spakman, W., Bijwaard, H., and
REFERENCES CITED Copeland, P., Currie, C.A., Lawton, T.F., and Mur- Engdahl, E.R., 2000, Geodynamics of flat subduc-
Anderson, D.L., 2005, Large igneous provinces, phy, M.A., 2017, Location, location, location: The tion: Seismicity and tomographic constraints from
delamination, and fertile mantle: Elements, v. 1, variable life span of the Laramide orogeny: Geol- the Andean margin: Tectonics, v. 19, p. 814–833,
p. 271–275, https://doi.org/10.2113/gselements ogy, v. 45, p. 223–226, https://doi.org/10.1130/ https://doi.org/10.1029/1999TC001152.
.1.5.271. G38810.1. Henry, C.D., Hinz, N.H., Faulds, J.E., Colgan, J.P.,
Arculus, R.J., and Smith, D., 1979, Eclogite, py- DeCelles, P.G., 2004, Late Jurassic to Eocene evo- John, D.A., Brooks, E.R., Cassel, E.J., Garside,
roxenite, and amphibolite inclusions in the Sul- lution of the Cordilleran thrust belt and foreland L.J., Davis, D.A., and Castor, S.B., 2012,
livan Buttes latite, Chino Valley, Yavapai Coun- basin system, western U.S.: American Journal Eocene–Early Miocene paleotopography of the
ty, Arizona, in Boyd, F.R., and Meyer, H.O.A., of Science, v. 304, no. 2, p. 105–168, https://doi Sierra Nevada–Great Basin–Nevadaplano based
eds., The Mantle Sample: Inclusions in Kimber- .org/10.2475/ajs.304.2.105. on widespread ash-flow tuffs and paleovalleys:
lites and other Volcanics: Washington, D.C., Dickinson, W.R., 2009, Anatomy and global context Geosphere, v. 8, p. 1–27, https://doi .org/ 10.1130/
American Geophysical Union Special Publica- of the North American Cordillera, in Kay, S.M., GES00727.1.
tions, v. 16, p. 309–317. Ramos, V.A., and Dickinson, W.R., eds., Back- Howard, K.A., Shaw, S.E., Allen, C., and Pearson,
Axen, G.J., van Wijk, J.W., and Currie, C.A., 2018, bone of the Americas: Shallow Subduction, Pla- N.J., 2016, Mesozoic and Tertiary pluton sources
Basal continental mantle lithosphere displaced teau Uplift, and Ridge and Terrane Collision: in Mojave continental crust—Zircon U-Pb and
by flat-slab subduction: Nature Geoscience, Geological Society of America Memoir 204, Lu-Hf isotopic evidence: Geological Society of
https://doi.org/10.1038/s41561-018-0263-9. p. 1–29, https://doi.org/10.1130/2009.1204(01). America Abstracts with Programs, v. 48, no. 4,
Barth, A.P., Wooden, J.L., Howard, K.A., and Rich- Dodson, M.H., 1973, Closure temperature in cooling https://gsa.confex.com/gsa/2016CD/ webprogram/
ards, J.L., 2008, Late Jurassic plutonism in the geochronological and petrological systems: Con- Paper274508.html.
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