Source: https://www.geo.arizona.edu/ducea
Timestamp: 2019-04-23 10:15:32+00:00

Document:
Columnar basalts in central Mongolia, Sept 2015.
My beloved Fagaras Mountains In Romania, where I discovered my passion for geology.
I oversee the following laboratory facilities: a rock preparation lab that includes rock crushing, mineral separation facilities, a micro-sampling facility where we can spatially control the sampling of materials at tens of micron scales, a clean laboratory where we dissolve samples, and perform chemical separations for various elements, an ICP-MS laboratory equipped with a Thermo X-Series 2 instrument where we measure trace elemental compositions of various materials in solution and a TIMS laboratory equipped with two multicollector VG instruments where we measure a variety of radiogenic isotopes. If you are interested in having work done in any one of these labs please contact me or laboratory technician Derek Hoffman (mantis@email.arizona.edu).
Clean lab and mass spec.
Rosel P., Oliveros, V, Ducea, MN, Hernandez, L, 2015, Across and along arc geochemical variations in altered volcanic rocks: Evidence for calc-alkaline, alkaline and adakitic signatures from mineral chemistry of Jurassic lavas in northern Chile, and tectonic implications, Lithos, in press.
Stoica AM, Ducea, MN, Roban R, JIanu, D, 2015, Origin and Evolution of the South Carpathians Basement (Romania): A Zircon and Monazite Geochronologic Study of Its Alpine Sedimentary Cover, International Geology Review, doi.org/10.1080/00206814.2015.1092097.
Walker BJ, Bergantz, G, Otamendi, J, Ducea MN, Cristofolini, E, 2015, A MASH Zone Revealed: The Mafic Complex of the Sierra Valle Fértil, Journal of Petrology, in press.
Profeta, L, Ducea, MN, Chapman, JB, Paterson, S, Henriquez Gonzales, S, Kirsch, M, Petrescu, L, DeCelles, PG, 2015, Quantifying crustal thickness over time in magmatic arcs, Scientific Reports, in press.
Chapman, J. B., Ducea, M. N., DeCelles, P. G., and Profeta, L., 2015, Tracking changes in crustal thickness during orogenic evolution with Sr/Y: An example from the North American Cordillera: Geology, v. 43, no. 10, p. 919-922.
Ducea, M. N., Paterson, S. R., and DeCelles, P. G., 2015, High-Volume Magmatic Events in Subduction Systems: Elements, v. 11, no. 2, p. 99-104.
Ducea, M. N., Saleeby, J. B., and Bergantz, G., 2015, The Architecture, Chemistry, and Evolution of Continental Magmatic Arcs, in Jeanloz, R., and Freeman, K. H., eds., Annual Review of Earth and Planetary Sciences, Vol 43, Volume 43, p. 299-331.
Ibanez-Mejia, M., Pullen, A., Arenstein, J., Gehrels, G. E., Valley, J., Ducea, M. N., Mora, A. R., Pecha, M., and Ruiz, J., 2015, Unraveling crustal growth and reworking processes in complex zircons from orogenic lower-crust: The Proterozoic Putumayo Orogen of Amazonia: Precambrian Research, v. 267, p. 285-310.
Paterson, S. R., and Ducea, M. N., 2015, Arc Magmatic Tempos: Gathering the Evidence: Elements, v. 11, no. 2, p. 91-97.
Chapman, AD, Ducea, MD, McQuarrie, N, Coble, M, Petrescu L, Hoffman, D, Constraints on plateau architecture and assembly from deep crustal xenoliths, northern Altiplano (SE Peru), Geol. Soc. Am. Bull. 127, doi:10.1130/B31206.1 (2015).
Currie, C., Ducea, M.N., and DeCelles, P.G., Geodynamic models of Cordilleran orogens: Gravitational instability of magmatic arc roots, in DeCelles, P.G., Ducea, M.N., Carrapa B., and Kapp, P. (editors), “Geodynamics of a Cordilleran Orogenic System: The Central Andes of Argentina and Northern Chile”, Geological Society of America Memoir, 212, p. 1-22; 2015.
DeCelles, P.G., Zandt, G., Beck, SL, Currie, C., Ducea, M.N., Carrapa, B., Reiners, P.W., Quade, J., Kapp, P., and Gehrels, G.E., Cyclical Orogenic Processes in the Central Andes, in DeCelles, P.G., Ducea, M.N., Carrapa B., and Kapp, P. (editors), “Geodynamics of a Cordilleran Orogenic System: The Central Andes of Argentina and Northern Chile”, Geological Society of America Memoir, v. 212, p. 459-490, 2015.
Murray, K.E., Ducea, M.N., Schoenbohm, L., Mafic lavas on the Puna plateau sample the diverse lithospheric architecture of the long-lived central Andean orogeny, in DeCelles, P.G., Ducea, M.N., Carrapa B., and Kapp, P., (editors), “Geodynamics of a Cordilleran Orogenic System: The Central Andes of Argentina and Northern Chile”, Geological Society of America Memoir, v. 212, p. 139-166, 2015.
the Ordovician Fa matinian-Puna Arc, in DeCelles, P.G., Ducea, M.N., Carrapa B., and Kapp, P., (editors), “Geodynamics of a Cordilleran Orogenic System: The Central Andes of Argentina and Northern Chile”, Geological Society of America Memoir, vol. 212, p. 125-139, 2015.
Becker, T., Summa, L., and Ducea, M.N., Temporal growth of the Puna plateau and its bearing on the formation 1 of the Metan foreland basin, northwest Argentina, in DeCelles, P.G., Ducea, M.N., Carrapa B., and Kapp, P., (editors), “Geodynamics of a Cordilleran Orogenic System: The Central Andes of Argentina and Northern Chile”, Geological Society of America Memoir, v. 212, p. 407-434, 2015.

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