Chapman, J. B., Shields, J. E., Ducea, M. N., Paterson, S. R., Attia, S., and Ardill, K. E., 2021, The causes of continental arc flare ups and drivers of episodic magmatic activity in Cordilleran orogenic systems: Lithos, v. 398. Article number 106307. Click to View
Ducea, M. N., Chapman, A. D., Bowman, E., and Balica, C., 2021, Arclogites and their role in continental evolution; part 2: Relationship to batholiths and volcanoes, density and foundering, remelting and long-term storage in the mantle: Earth-Science Reviews, v. 214, article number 103476. Click to View
Ducea, M. N., Chapman, A. D., Bowman, E., and Triantafyllou, A., 2021, Arclogites and their role in continental evolution; part 1: Background, locations, petrography, geochemistry, chronology and thermobarometry: Earth-Science Reviews, v. 214, article number 103375. Click to View
Fernicola, J. C., Zimicz, A. N., Chornogubsky, L., Ducea, M., Cruz, L. E., Bond, M., Arnal, M., Cardenas, M., and Fernandez, M., 2021, The Early Eocene Climatic Optimum at the Lower Section of the Lumbrera Formation (Ypresian, Salta Province, Northwestern Argentina): Origin and Early Diversification of the Cingulata: Journal of Mammalian Evolution, v. 28, no. 3, p. 621-633. Click to View
Jepson, G., Carrapa, B., George, S. W. M., Triantafyllou, A., Egan, S. M., Constenius, K. N., Gehrels, G. E., and Ducea, M. N., 2021, Resolving mid- to upper-crustal exhumation through apatite petrochronology and thermochronology: Chemical Geology, v. 565, article number 120071. Click to View
Stephens, J. A., Ducea, M. N., Killick, D. J., and Ruiz, J., 2021, Use of non-traditional heavy stable isotopes in archaeological research: Journal of Archaeological Science, v. 127, article number 105334. Click to View
Vlasceanu, M., Ducea, M. N., Luffi, P., Barla, A., and Seghedi, I., 2021, Carpathian-Pannonian Magmatism Database: Geochemistry Geophysics Geosystems, v. 22, no. 9, Article e2021GC009970. Click to View
Zeng, Y., Ducea, M. N., Xu, J., Chen, J., and Dong, Y.-H., 2021, Negligible surface uplift following foundering of thickened central Tibetan lower crust: Geology, v. 49, no. 1, p. 45-50. Click to View
Seghedi, I., Ntaflos,T., Pécskay, Z., Panaiotu, C., Mirea V., Downes H., 2021. Miocene extension and magma generation in the Apuseni Mts. (western Romania): a review. International Geology Review, DOI: 10.1080/00206814.2021.1962416. Click to View
Scoggin, S.H., Chapman, J.B., Shields, J.E., Trzinski, A.E. ,Ducea, M. N., – Early-Paleogene magmatism in the Pinaleño Mountains, Arizona: evidence for crustal melting of diverse basement assemblages during the Laramide Orogeny. Journal of Petrology, egab095, https://doi.org/10.1093/petrology/egab095, 2021 Click to View
Bowman, E.E., Ducea, M.N., Triantafyllou, A, 2021, Arclogites in the subarc lower crust: effects of crystallization, partial melting, and retained melt on the foundering ability of residual roots, Journal of Petrology, in press, 10.1093/petrology/egab094 Click to View
Zhang, L., Fan, W., Ding, L., Pullen, A., Ducea, M.N., Li, J., Wang, C., Xu, X., Sein, K., 2021, Forced subduction initiation within the Neotethys: An example from the mid-Cretaceous Wuntho-Popa arc in Myanmar, Geological Society of America Bulletin, in press, 10.1130/B35818.1 Click to View
Marcus J. Origlieri M J, Downs R T, Hoffman D R, Ducea M Nand Post J E., 2021, Marshallsussmanite, NaCaMnSi3O8(OH), a new pectolite-group mineral providing insight into hydrogen bonding in pyroxenoids. Mineralogical Magazine (2021), 85, 444–453, doi:10.1180/mgm.2018.2 Click to View