PUBLICATIONS (PEER REVIEWED)
[42] Condie, K.C., Puetz, S.J., Sundell, K.E., Pisarevsky, S.A., Spencer, C.J., Roberts, N.M.W. (in revision), Geographic bias effects on interpretations of secular trends of Hf isotope times series in zircons, Lithos. Link to publication
[41] Reynolds, A.N., Laskowski, A.K., Howlett, C.J., Orme, D.A., Sundell, K.E., Taylor, M.H., Forte, A.M., Dixon, S., Cai, F., Guo, X., Ding, L. (2024), Kinematic Evolution of the Tangra Yumco Rift, South-Central Tibet, Tektonika. Link to publication
[40] Puetz, S.J., Condie, K.C., Sundell, K.E., Spencer, S.J., Roberts, N.M.W., Boulila, S., Cheng, Q. (2024), The replication crisis and its relevance to Earth Sciences, Geoscience Frontiers. Link to publication
[39] Lever, J.P., Sundell, K.E., Pearson, D.M., Brennan, D. (2024), Recently identified Mesoproterozoic strata in south-central Idaho document late-stage rifting of the Nuna supercontinent in western Laurentia, Tectonics. Link to publication
[38] Sundell, K.E., Macdonald, F.A., Puetz, S.J. (2024), Does zircon geochemistry record global sediment subduction?, Geology. Link to publication
[37] Sundell, K.E., Gehrels, G., Blum, M., Saylor, J.E., Pecha, M., and Hundley, B. (2024), An exploratory study of “large-n” detrital zircon geochronology of the Book Cliffs, UT via rapid (3s/analysis) U-Pb dating, Basin Research. Link to publication
[36] Sundell, K.E., Laskowski, A.K., Howlett, C., Kapp, P., Ducea, M., Chapman, J.B., Ding, L. (2023), Episodic Late Cretaceous to Neogene crustal thickness variation in southern Tibet, Terra Nova. Link to publication
[35] Link, P.K., Welcker, C., Sundell, K.E. (2023), The Geochronometry of Idaho and the Bumpy Barcode Revisited: Snake River Detrital Zircons in Hells Canyon and Beyond, Sedimentary Geology. Link to publication
[34] Saylor, J.E., Sundell, K.E., Perez, N.D., Hensley, J.B., McCain, P., Runyon, B., Alvarez, P., Cárdenas, J., Usnayo Perales, W.P., and Valer Medina, C.S. (2023), Central Andean Plateau formation in response to southward migrating flat-slab subduction, Earth and Planetary Science Letters. Link to publication
[33] Smith, T.M., Saylor, J.E., Lapen, T.J., Leary, R.J., Sundell, K.E. (2023), Large detrital zircon data set investigation and provenance mapping: Local versus regional and continental sediment sources before, during, and after Ancestral Rocky Mountain deformation, GSA Bulletin. Link to publication
[32] Smith, T.M., Lapen, T.J., Saylor, J.E., Hatfield, K., Sundell, K.E. (2023), Identifying sources of non-unique detrital age distributions through integrated provenance analysis: An example from the Paleozoic Central Colorado Trough, Geosphere. Link to publication
[33] Cheng, F., Zuza, A., Liu, Y., Sundell, K.E. (2023), Fold-and-thrust belts and associated basins: a perspective on structure, sedimentation, and dynamics, Journal of the Geological Society. Link to publication
[30] Wang, J.W., Gehrels, G.E., Kapp, P.A., Sundell, K.E. (2023), The mid-Cretaceous Coast Mountains Batholith: Record of the Transition from Sinistral-Oblique to Strongly Convergent Two-Plate Margin, Geosphere. Link to publication
[29] Pecha, M.E., Blum, M.D., Gehrels, G.E., Sundell, K.E., Karlstrom, K.E., Gonzales, D.A., and Mahoney, J.B. (2022), Linking the Gulf of Mexico and Coast Mountains batholith during the Late Paleocene: Insights from Hf isotopes in detrital zircons, GSA Spec. Pub. Link to publication
[28] Göğüş, O.H., Sundell, K.E., Uluocak, E.S., Saylor, J.E., Çetiner, U. (2022), Rapid, axisymmetric surface uplift and crustal flow in Central Andes controlled by lithospheric instability, Scientific Reports. Link to publication
[27] Sundell, K.E. and Macdonald, F.A. (2022), The tectonic context of hafnium isotopes in zircon, Earth and Planetary Science Letters. Link to publication
[26] Sundell, K.E., George, S.W., Carrapa, B., Gehrels, G.E., Ducea, M.N., Saylor, J.E. and Pepper, M., Crustal Thickening of the Northern Central Andean Plateau Inferred from Trace Elements in Zircon. Geophysical Research Letters, p.e2021GL096443, doi.org/10.1029/2021GL096443. Link to publication
[25] Sundell, K.E., Laskowski, A.K., Kapp, P.A., Ducea, M.N. and Chapman, J.B., 2021. Jurassic to Neogene Quantitative Crustal Thickness Estimates in Southern Tibet. GSA Today, 31(6), doi.org/10.1130/GSATG461A.1. Link to publication
[24] Burke, W.B., Laskowski, A.K., Orme, D.A., Sundell, K.E., Taylor, M.H., Guo, X., and Ding, L. (2021), Record of Crustal Thickening and Synconvergent Extension from the Dajiamang Tso Rift, Southern Tibet, MDPI Geosciences, doi.org/10.3390/geosciences11050209. Link to publication
[23] Sundell, K.E. and Saylor, J.E., 2021. Two‐Dimensional Quantitative Comparison of Density Distributions in Detrital Geochronology and Geochemistry. Geochemistry, Geophysics, Geosystems, 22(4), p.e2020GC009559, doi.org/10.1029/2020GC009559. Link to publication
[22] Saylor, J.E. and Sundell, K.E., 2021. Tracking Proterozoic–Triassic sediment routing to western Laurentia via bivariate non-negative matrix factorization of detrital provenance data. Journal of the Geological Society, 178(3), doi.org/10.1144/jgs2020-215. Link to publication
[21] Heizler, M.T., Karlstrom, K.E., Albonico, M., Hereford, R., Beard, L.S., Cather, S.M., Crossey, L.J. and Sundell, K.E., 2021. Detrital sanidine 40Ar/39Ar dating confirms< 2 Ma age of Crooked Ridge paleoriver and subsequent deep denudation of the southwestern Colorado Plateau. Geosphere, 17(2), pp.438-454, doi.org/10.1130/GES02319.1. Link to publication
[20] Thomas, W.A., Gehrels, G.E., Sundell, K.E. and Romero, M.C., 2021. Detrital-zircon analyses, provenance, and late Paleozoic sediment dispersal in the context of tectonic evolution of the Ouachita orogen. Geosphere, 17(4), pp.1214-1247, doi.org/10.1130/GES02288.1. Link to publication
[19] Caylor, E.A., Carrapa, B., Sundell, K.E., DeCelles, P.G. and Smith, J.M., 2021. Age and deposition of the Fort Crittenden Formation: A window into Late Cretaceous Laramide and Cenozoic tectonics in southeastern Arizona. GSA Bulletin, v. 133; no. 9/10; p. 1996–2016; https://doi.org/10.1130/B35808.1. Link to publication
[18] Sundell, K.E., Gehrels, G.E. and Pecha, M.E., 2021. Rapid U‐Pb Geochronology by Laser Ablation Multi‐collector ICP‐MS. Geostandards and Geoanalytical Research, 45(1), pp.37-57, doi.org/10.1111/ggr.12355. Link to publication
[17] Saylor, J.E., Rudolph, K.W., Sundell, K.E. and van Wijk, J., 2020. Laramide orogenesis driven by Late Cretaceous weakening of the North American lithosphere. Journal of Geophysical Research: Solid Earth, 125(8), p.e2020JB019570, doi.org/10.1029/2020JB019570. Link to publication
[16] Karlstrom, K.E., Jacobson, C.E., Sundell, K.E., Eyster, A., Blakey, R., Ingersoll, R.V., Mulder, J.A., Young, R.A., Beard, L.S., Holland, M.E. and Shuster, D.L., 2020. Evaluating the Shinumo-Sespe drainage connection: Arguments against the “old”(70–17 Ma) Grand Canyon models for Colorado Plateau drainage evolution. Geosphere, 16(6), pp.1425-1456, doi.org/10.1130/GES02265.1. Link to publication
[15] Thomas, W.A., Gehrels, G.E., Sundell, K.E., Greb, S.F., Finzel, E.S., Clark, R.J., Malone, D.H., Hampton, B.A. and Romero, M.C., 2020. Detrital zircons and sediment dispersal in the eastern Midcontinent of North America. Geosphere, 16(3), pp.817-843, doi.org/10.1130/GES02152.1. Link to publication
[14] Sundell, K.E., Saylor, J.E., Pecha, M., 2019. Sediment provenance and recycling of detrital zircons from Cenozoic Altiplano strata in southern Peru and implications for the crustal evolution of west-central South America. In Horton, K.B. and Folguera, A., Andean Tectonics: Amsterdam, Elsevier, pp.363-397, doi.org/10.1016/B978-0-12-816009-1.00014-9. Link to publication
[13] Thomas, W.A., Gehrels, G.E., Lawton, T.F., Satterfield, J.I., Romero, M.C. and Sundell, K.E., 2019. Detrital zircons and sediment dispersal from the Coahuila terrane of northern Mexico into the Marathon foreland of the southern Midcontinent. Geosphere, 15(4), pp.1102-1127, doi.org/10.1130/GES02033.1. Link to Publication
[12] Smith, T.M., Sundell, K.E., Johnston, S.N., Andrade, C.N.G., Andrea, R.A., Dickinson, J.N., Liu, Y.A., Murphy, M.A., Lapen, T.J. and Saylor, J.E., 2020. Drainage reorganization and Laramide tectonics in north‐central New Mexico and downstream effects in the Gulf of Mexico. Basin Research, 32(3), pp.419-452, doi.org/10.1111/bre.12373. Link to Publication
[11] Saylor, J.E., Sundell, K.E. and Sharman, G.R., 2019. Characterizing sediment sources by non-negative matrix factorization of detrital geochronological data. Earth and Planetary Science Letters, 512, pp.46-58, doi.org/10.1016/j.epsl.2019.01.044. Link to publication
[10] Sundell, K.E., Saylor, J.E., Lapen, T.J. and Horton, B.K., 2019. Implications of variable late Cenozoic surface uplift across the Peruvian central Andes. Scientific reports, 9(1), pp.1-12, doi.org/10.1038/s41598-019-41257-3. Link to publication
[9] Sundell, K.E., Saylor, J.E., Lapen, T.J., Styron, R.H., Villarreal, D.P., Usnayo, P. and Cárdenas, J., 2018. Peruvian Altiplano stratigraphy highlights along‐strike variability in foreland basin evolution of the Cenozoic central Andes. Tectonics, 37(6), pp.1876-1904, doi.org/10.1029/2017TC004775. Link to publication
[8] Saylor, J.E., Jordan, J.C., Sundell, K.E., Wang, X., Wang, S. and Deng, T., 2018. Topographic growth of the Jishi Shan and its impact on basin and hydrology evolution, NE Tibetan Plateau. Basin Research, 30(3), pp.544-563, doi.org/10.1111/bre.12264. Link to publication
[7] Sundell, K.E. and Saylor, J.E., 2017. Unmixing detrital geochronology age distributions. Geochemistry, Geophysics, Geosystems, 18(8), pp.2872-2886, doi.org/10.1002/2016GC006774. Link to publication
[6] Bershaw, J., Saylor, J.E., Garzione, C.N., Leier, A. and Sundell, K.E., 2016. Stable isotope variations (δ18O and δD) in modern waters across the Andean Plateau. Geochimica et Cosmochimica Acta, 194, pp.310-324, doi.org/10.1016/j.gca.2016.08.011. Link to publication
[5] Saylor, J.E. and Sundell, K.E., 2016. Quantifying comparison of large detrital geochronology data sets. Geosphere, 12(1), pp.203-220, doi.org/10.1130/GES01237.1. Link to Publication
[4] Copeland, P., Bertrand, G., France-Lanord, C. and Sundell, K.E., 2015. 40Ar/39Ar ages of muscovites from modern Himalayan rivers: Himalayan evolution and the relative contribution of tectonics and climate. Geosphere, 11(6), pp.1837-1859, doi.org/10.1130/GES01154.1. Link to publication
[3] Styron, R., Taylor, M. and Sundell, K.E., 2015. Accelerated extension of Tibet linked to the northward underthrusting of Indian crust. Nature Geoscience, 8(2), pp.131-134, doi.org/10.1038/ngeo2336. Link to publication
[2] Sundell, K.E., Taylor, M.H., Styron, R.H., Stockli, D.F., Kapp, P., Hager, C., Liu, D. and Ding, L., 2013. Evidence for constriction and Pliocene acceleration of east‐west extension in the North Lunggar rift region of west central Tibet. Tectonics, 32(5), pp.1454-1479, doi.org/10.1002/tect.20086. Link to publication
[1] Styron, R.H., Taylor, M.H., Sundell, K.E., Stockli, D.F., Oalmann, J.A., Moeller, A., McCallister, A.T., Liu, D. and Ding, L., 2013. Miocene initiation and acceleration of extension in the South Lunggar rift, western Tibet: Evolution of an active detachment system from structural mapping and (U‐Th)/He thermochronology. Tectonics, 32(4), pp.880-907, doi.org/10.1002/tect.20053. Link to publication
PUBLICATIONS (UNDER CONSIDERATION)
[--] Sundell, K.E., Gehrels, G., Blum, M., Saylor, J.E., Pecha, M., and Pettit, B. (in review), “Large-n” detrital zircon geochronology, grain size, and maximum depositional age: An exploratory investigation of rapid (3 s/analysis) U-Pb dating, the Book Cliffs, Utah, submitted to Basin Research.
[--] Sundell, K.E., Laskowski, A.K., Howlett, C., Kapp, P., Ducea, M., Chapman, J.B., Ding, L. (in review), Episodic Late Cretaceous to Neogene crustal thickness variation in southern Tibet, submitted to Terra Nova.
[--] Brennan, D.T., Link, P.K., Pearson, D.M., Milton, J., Sundell., K.E., Mangum, K. (in review), Neoproterozoic and Cambrian strata of the locally mineralized Bayhorse succession on the western side of the Lemhi Arch in East-central Idaho, submitted to the tobacco Root Society.
[--] Reynolds, A.N., Howlett, C.J., Laskowski, A.K., Orme, D.A., Sundell, K.E., Taylor, M.H., Guo, X., Ding, L. (in review), Kinematic Evolution of the Tangra Yumco Rift, South-Central Tibet, submitted to Tektonika.
PUBLICATIONS (In PrepARATION)
[--] Sundell, K.E., Macdonald, F.A., Puetz, S.J. (in prep.), Latest Neoproterozoic global zircon Hf and O isotope excursions record the assembly of Gondwana, anticipated submission Summer 2023 to Geology.
[--] Sundell, K.E., Saylor, J.E., Styron, R.H., Lapen, T.J., Villarreal, D., Usnayo, W.P., Cardenas, J. (in prep.), Hinterland basin response to late Cenozoic lithospheric foundering in the Western Cordillera of southern Peru, anticipated submission fall 2023 to Tectonics.
[--] Eden, R., Sundell., K.E., Gehrels, G., Saylor, J.E., Göğüş, O.H. (in prep.), Late Cenozoic foundering of mantle lithosphere inferred from Paired U-Pb and Lu-Hf Zircon Petrochronology, anticipated submission Summer 2023 to Terra Nova.
[--] Dixon, S., Orme, D.A., Sundell, K.E., Blum, M., Guenthner, W. (in prep.), Changes in provenance and sediment routing history of the Miocene-Pleistocene Bengal Fan, Indian Ocean using detrital zircon (U-Th)/He thermochronology, anticipated submission summer 2023 to Geosphere.
[--] Lever, J.P., Sundell, K.E., Pearson, D.M., Link, P.K. (in prep.), Mesoproterozoic stratigraphy in SE Idaho suggest post-1370 Ma rifting within the Belt Ba-sin of Western Laurentia during Tenure of the Nuna Supercontinent, anticipated submission summer 2023 to Tectonics.
[--] Link, P.K., Welcker, C., Sundell, K.E. (in prep.), The Geochronometry of Idaho and the Bumpy Barcode Revisited: Snake River Detrital Zircons in Hells Canyon and Beyond, anticipated submission summer 2023 to Sedimentary Geology.
[--] George, S.W.M., Gehrels, G., Jepson, G., Rojay, B., Sundell, K.E., Campbell, C., Alberts, D., Quade, J., Mueller, M., Moreno, F. (in prep.), Late Cenozoic lithospheric dripping under the Anatolian Plateau, submitted to Geophysical Research Letters.
THESIS/DISSERTATION
Sundell., K.E. (2017), Cenozoic surface uplift and basin formation in the Peruvian central Andes, Ph.D. Dissertation, University of Houston.
Sundell., K.E. (2011), Thermochronometric analysis of the North Lunggar Rift: Implications for the timing of extension initiation and structural style of deformation in southern Tibet, MS Thesis, University of Kansas.
CONFERENCE ABSTRACTS (**student ADVISEE)
[73] Saylor, J.E., Sundell, K.E. (2023), Sediment provenance and copper porphyry identification via non-negative matrix factorization of bivariate detrital data sets, Cordilleran Tectonics Workshop, Whitehorse, Canada.
[72] Sundell, K.E., Macdonald, F.A. (2022), Global compilations of zircon geochemistry: A biased view into the Proterozoic–Phanerozoic transition, GSA Annual Meeting.
[71] Dixon, T.S.**, Orme, D.A., Sundell, K.E., and Blum, M. (2022), Using detrital zircon (U-Th)/He thermochronology to determine change in provenance, sediment routing and depositional history of the Miocene-Pleistocene Bengal Fan, Indian Ocean, GSA Annual Meeting.
[70] Mangum, K.**, Sundell, K.E., Anderson, R.B., Pearson, D.M., and Link, P.K. (2022), Detrital zircon data supports a Neoproterozoic phase of tilting within the Lemhi Arch pf east-central Idaho, GSA Annual Meeting.
[69] Lever, J.P.**, Sundell, K.E., Pearson, D.M., and Link, P.K. (2022), Testing provenance and regional correlations of newly recognized Mesoproterozoic strata in east-central Idaho, GSA Annual Meeting.
[68] Manta, R.J.**, Sundell, K.E., Kenyon, C., and Carlotto, V. (2022), Wedge-top stratigraphy of southern Peru: Key to understanding foreland basin evolution of the Cenozoic Central Andes, GSA Annual Meeting.
[67] Kenyon, C.**, Sundell, K.E., Finney, B.P., and McCafferty, K. (2022), Variable surface uplift along and across the Central Andes: A re-evaluation of empirically derived isotopic lapse rates applied to hydrated volcanic glass, GSA Annual Meeting.
[66] Link, P.K., Welcker, C., Sundell, K.E., and Christensen, C. (2022), The bumpy barcode goes to hell(s canyon, Idaho): Large-n detrital zircon mixture modeling of the Snake River drainage, GSA Annual Meeting.
[65] Saylor, J.E., Sundell, K.E., Perez, N.D., Hensley, J.B., McCain, P., Runyon, B., Alvarez, P., Cárdenas, J., Usnayo Perales, W.P., and Valer Medina, C.S. (2022), Diachronous deformation, magmatism, and basin formation in the Central Andean Plateau due to flat slab subduction, GSA Annual Meeting.
[64] Sundell, K.E., Macdonald, F.A. (2022), The latest Neoproterozoic hafnium isotope excursion: Snowball Earth erosion or Pan-African orogens? GSA Joint Cordillerian-Rocky Mountain Section Meeting, Las Vegas, NV.
[63] Eden, R.P.**, Sundell, K.E., Gehrels, G.E., Saylor, J.E. (2022), Late Cenozoic foundering of mantle lithosphere in the Western Cordillera of southern Peru. GSA Joint Cordillerian-Rocky Mountain Section Meeting, Las Vegas, NV.
[62] Sundell, K.E., Macdonald, F.A. (2021), Latest Neoproterozoic Hafnium Isotope Excursion Records the Assembly of Gondwana, AGU, Fall Meeting, New Orleans, LA.
[61] Smith, T.M., Saylor, J.E., Lapen, T.J., Leary, R., Sundell, K.E. (2021), Leveraging of large detrital zircon data sets: Modeling sediment sources, contributions, and provenance mapping of the Ancestral Rocky Mountains, AGU, Fall Meeting, New Orleans, LA.
[60] Sundell, K.E., George, S.W.M., Carrapa, B., Gehrels, G., Saylor, J.E., Ducea, M., and Pepper, M. (2021), Two-stage crustal growth of the northern Central Andean Plateau, Geological Society of America Annual Meeting, Portland, OR.
[59] Lever, J.*, Sundell, K.E., Pearson, D., Link, P.K. (2021), Tightening the belt: New age and provenance constraints on Proterozoic strata in east-central Idaho, Geological Society of America Annual Meeting, Portland, OR.
[58] Saylor, J.E., Rudolph, K., Sundell, K.E., van Wijk, J. (2021), Late Cretaceous evolution of paleo-relief and lithospheric strength in the North American Cordilleran from Monte Carlo-based flexure modeling, Geological Society of America Annual Meeting, Portland, OR.
[57] Welcker, C., Sundell, K.E., Fisher, J.M., Link, P.K. (2021), More than you wanted to know about detrital zircons of Hells Canyon, Idaho and Oregon: Revisiting the bumpy barcode with large-n U-Pb geochronological methods, Geological Society of America Annual Meeting, Portland, OR.
[56] Quinn, D.P., Linzmeier, B.J., Sundell, K.E., Gehrels, G.G., Goring, S.M., Marcott, S.A., Meyers, S.R., Peters, S.E., Ross, J.I., Schmitz, M.D., Singer, B.S., and Williams, J.W. (2021), An extensible database for geochemical data sharing atop the Sparrow laboratory management system, EarthCube, 2021.
[56] Quinn, D.P., Linzmeier, B.J., Sundell, K.E., Gehrels, G.G., Goring, S.M., Marcott, S.A., Meyers, S.R., Peters, S.E., Ross, J.I., Schmitz, M.D., Singer, B.S., and Williams, J.W. (2021), Implementing the Sparrow laboratory data system in multiple subdomains of geochronology and geochemistry, European Geosciences Union General Assembly.
[55] Eden, R.*, Sundell, K.E., Gehrels, G.E., and Saylor, J.E. (2020), Hinterland basin geodynamics: Implications of Lu-Hf analyses of zircon from the Tincopalca basin, Peru, American Geophysical Union, Fall Meeting.
[54] Sundell, K.E., Laskowski, A.K., Kapp, P., Ducea, M., and Chapman, J.B. (2020), Jurassic to Neogene quantitative crustal thickness estimates in southern Tibet from recalibrated Sr/Y and La/Yb trace element geochemical proxies, American Geophysical Union, Fall Meeting.
[53] Eden, R.*, Sundell, K.E., Gehrels, G.E., and Saylor, J.E. (2020), Hinterland basin geodynamics: Implications of Lu-Hf analyses of zircon from the Tincopalca basin, Peru, Geological Society of America Annual Meeting.
[52] Sundell, K.E., Saylor, J.E., and Macdonald, FA. (2020), Fingerprinting Gondwana via bivariate quantitative analysis of joint zircon U-Pb and Hf global archives, Geological Society of America Annual Meeting.
[51] Holland, M.E., Sundell, K.E., and Saylor, J.E. (2020), Testing supercontinent-superocean cycle predictions with quantitative comparison of bivariate kernel density estimates of the global zircon record, Geological Society of America Annual Meeting.
[50] Sundell, K.E., Gehrels, G.E., Quinn, D.P., Pecha, M.E., Giesler, D.M., Pepper, M.B. George, S.W.M., and White, A.M. (2020), AgeCalcML: An open-source MATLAB-based data reduction platform for LA-ICP-MS geochronology and geochemistry data from the Arizona LaserChron Center, Geological Society of America Annual Meeting.
[49] Saylor, J.E. and Sundell, K.E. (2020), Characterization of sediment source petrochronology via non-negative matrix factorization of bivariate detrital data sets, Geological Society of America Annual Meeting.
[48] Smith, T.M., Lapen, T.J., Saylor, J.E., Hatfield, K., and Sundell, K.E. (2020), Petrochronological discrimination of sources for Cambrian detrital zircons in late Paleozoic strata of the Central Colorado Trough during Ancestral Rocky Mountain orogenesis, Geological Society of America Annual Meeting.
[47] Quinn, D.P., Linzmeier, B.J., Sundell, K.E., Bruck, B.T., Ye, S., Gehrels, G.G., Goring, S.M., Marcott, S.A., Meyers, S.R., Peters, S.E., Ross, J.I., Schmitz, M.D., Singer, B.S., and Williams, J.W. (2020), The Sparrow laboratory information management system – A tool for connecting geochemical data to context and community, Geological Society of America Annual Meeting.
[46] Quinn, D.P., Linzmeier, B.J., Sundell, K.E., Bruck, B.T., Ye, S., Gehrels, G.G., Goring, S.M., Marcott, S.A., Meyers, S.R., Peters, S.E., Ross, J.I., Schmitz, M.D., Singer, B.S., and Williams, J.W. (2020), The Sparrow software interface for linking analytical data and metadata in laboratory archives, EarthCube Annual Meeting, San Diego, CA.
[45] Sundell, K.E., Ducea, M., Carrapa, B., and Saylor, J.E. (2019), Crustal growth of the Cenozoic Central Andes from zircon trace and rare Earth element concentrations, American Geophysical Union, Fall Meeting, San Francisco, CA.
[44] Sundell, K.E., Blum, M., Gehrels, G., Pecha, M., and Pettit, B. (2019), Application of rapid U-Pb acquisition (3s/analysis) to combat lithofacies bias in detrital zircon age distributions: Example from the Book Cliffs, UT (Invited), GSA Annual Meeting, Phoenix, AZ.
[43] Quinn, D.P., Schaen, A., Sundell, K.E., Gehrels, G., Goring, S., Marcott, S.A., Meyers, S.R., Peters, S.E., Ross, J., Schmitz, M.D., Singer, B.S., and Williams, J.W. (2019), Sparrow: A data management system and cyberinfrastructure component targeted at geochronology laboratories, GSA Annual meeting, Phoenix, AZ.
[42] Smith, T.M., Lapen, T.J., Sundell, K.E., Hatfield, K., Saylor, J.E., and Leary, R. (2019), Central Colorado trough sediment source isolation: Petrochronologic source discrimination applied to an Ancestral Rocky Mountain basin, GSA Annual meeting, Phoenix, AZ.
[41] Nolan, T., Gehrels, G., Pecha, M., and Sundell, K.E. (2019), Age mapping of complex zircon crystals from the Catalina Core Complex (Arizona), GSA Annual meeting, Phoenix, AZ.
[40] Eden, R.P. *, Sundell, K.E., Carrapa, B., and Ducea., M. (2019), Zircon U-Pb – Lu-Hf petrochronology of the late Cenozoic Central Andes of southern Peru, GSA Annual meeting, Phoenix, AZ.
[39] Sundell, K.E., Gehrels, G., and Pecha, M. (2019). Collecting large-n U-Pb detrital geochronology data via rapid acquisition (300–1,200 analyses/h) laser ablation multicollector ICP-MS, GSA Annual meeting, Phoenix, AZ.
[38] Quinn, D.P., Schaen, A.J., Sundell, K.E., Gehrels, G., Goring, S., Myers, S.R., Peters, S., Ross, J., Schmitz, M., Singer, B.S., and Williams, J. (2019), Sparrow: a laboratory management software tool and distributed data infrastructure component for geochronology, EarthCube Annual Meeting, Denver, CO.
[37] Schaen, A.J., Quinn, D.P., Sundell, K.E., Gehrels, G., Marcott, S., Peters, S., Ross, J., Schmitz, M., and Singer, B.S. (2019), Cyberinfrastructure for data management and sharing in geochronology laboratories, EarthCube Annual Meeting, Denver, CO.
[36] Sundell, K.E., Saylor, J.E., and Pecha, M. (2018), Documenting sediment recycling during Andean mountain building using combined U-Pb geochronology and Lu-Hf geochemistry of detrital zircons from Peruvian Altiplano strata (Invited), American Geophysical Union, Fall Meeting, Washington D.C.
[35] Saylor, J.E., Sundell, K.E., Perez, N., Karsky, N., Lapen, T.J., and Cárdenas, J. (2018), Sedimentary response to exhumation of the central Andean retro-arc foreland during flat slab subduction, American Geophysical Union, Fall Meeting, Washington D.C.
[34] Sundell, K.E., Saylor, J. E., Lapen, T.J., Villarreal, D., Styron, R., H., Usnayo, P., and Cárdenas, J. (2018), Paleogene foreland basin formation and Neogene surface uplift in the Peruvian central Andes, American Geophysical Union, Fall Meeting, Washington D.C.
[33] Sundell, K.E., Saylor, J.E., Horton, B.K., and Lapen, T.J. (2018), Variable late Cenozoic surface uplift across the Peruvian central Andes documents multiple uplift mechanisms, GSA Annual meeting, Indianapolis, IN.
[32] Gehrels, G., McLelland, W., Thomas, W., and Sundell, K.E. (2018), Detrital zircon constraints on North American tectonism and sediment dispersal during Paleozoic time, GSA Annual meeting, Indianapolis, IN.
[31] Saylor, J.E. and Sundell, K.E. (2018), Quantitative interpretation of detrital geochronology: Synthetic examples and applied case studies, European Geosciences Union General Assembly, Vienna, Austria.
[30] Sundell, K.E., Saylor, J.E., Horton, B.K., and Lapen, T.J. (2018), Geodynamic drivers of surface uplift, foreland basin formation, and Miocene aridity in the Peruvian central Andes, European Geosciences Union General Assembly, Vienna, Austria.
[29] Sundell, K.E., Saylor, J. E., Lapen, T.J., Styron, R.H., Villarreal, D., Usnayo, P., and Cárdenas, J. (2017), Implications of Western-sourced Paleogene Flexural Foreland Basin Development in the Peruvian Altiplano on Andean Geodynamics, American Geophysical Union, Fall Meeting, New Orleans, T027.
[28] Saylor, J.E., Sundell, K.E., Perez, N., Karsky, N., Lapen, T.J., and Cárdenas, J. (2017), Eocene Unification of Peruvian and Bolivian Altiplano Basin Depocenters American Geophysical Union, Fall Meeting, New Orleans, T027.
[27] Smith, T.M., Saylor, J.E., Sundell, K.E., and Lapen, T.J. (2017), Tectonic isolation from regional sediment sourcing of the Paradox Basin, American Geophysical Union, Fall Meeting, New Orleans, T020.
[26] Sundell, K.E. and Saylor, J.E. (2017), Unmixing detrital U-Pb age distributions, GSA Annual Meeting in Seattle, WA, Session 15, T89.
[25] Sundell, K.E., Saylor, J.E., Lapen, T.J., Villarreal, D., Styron, R., H., Usnayo, P., and Cárdenas, J. (2016), Paleoenvironmental change in the Peruvian central Andes recorded by stable isotopes in volcanic glass and modern water: Implications for late Miocene uplift and aridification, American Geophysical Union, Fall Meeting, San Francisco.
[24] Sundell, K.E., Saylor, J.E., Jadamec, M., Lapen, T.J., Styron, R.H., and Cárdenas, J. (2016), Paleogene uplift and geodynamics of the Peruvian central Andes inferred from sediment provenance, detrital geochronology, and flexural modeling of Altiplano stratigraphy, GSA Annual Meeting in Denver, CO, Session 203, T221.
[23] Sundell, K.E., Saylor, J.E., Villarreal, D., Styron, R.H., and Horton, B.K. (2015), Geodynamic Drivers of Vertical Crustal Motion: Integrating Paleoaltimetry with Basin Development in the Central Andean Plateau of Southern Peru, paper presented at American Geophysical Union, Fall Meeting, San Francisco, T33G-03.
[22] Saylor, J.E. and Sundell, K.E. (2015), Quantifying comparison of large detrital geochronology data sets, paper presented at American Geophysical Union, Fall Meeting, San Francisco, V52C-02.
[21] Sundell, K.E., Saylor, J.E., and Villarreal, D. (2014), Basin evolution and surface uplift of the Huacochullo and Puquio regions in southern Peru through zircon U-Pb geochronology and volcanic glass paleoaltimetry, paper presented at the GSA Annual Meeting in Vancouver, British Columbia.
[20] Taylor, M., Styron, R., Murphy, M., Sundell, K.E., McCallister, A., Gosse, J., and Whipp, D. (2014), Dynamics of east-west extension in the region of the Indo-Asian collision zone, paper presented at the GSA Annual Meeting in Vancouver, British Columbia.
[19] Saylor, J.E., Sundell, K.E., and Villarreal, D. (2014), Constraints on geodynamic models of surface uplift from hydrogen isotopes of volcanic glass in southern Peru, paper presented at the GSA Annual Meeting in Vancouver, British Columbia.
[18] Sundell, K.E., Saylor, J.E. Villarreal, D., and Horton, B.K. (2014), Testing geodynamic models for surface uplift of the central Andean plateau through volcanic glass paleoaltimetry and basin analysis in southern Peru, paper presented at American Geophysical Union, Fall Meeting, San Francisco.
[17] Saylor, J.E. and Sundell., K.E. (2014), Statistics of large detrital geochronology data sets, paper presented at American Geophysical Union, Fall Meeting, San Francisco.
[16] Sundell, K.E. (2014), Cenozoic Basin Evolution and Uplift History of the Central Andean Plateau, Southern Peru, 2014 Bob F. Perkins Research Conference, Gulf Coast Section 2014 poster abstract and honorable mention.
[15] Sundell, K.E. (2014), Cenozoic Basin Evolution and Uplift History of the Central Andean Plateau, Southern Peru, 2014 Dobrin Lecture, UH Hilton, Shamrock Ballroom, poster abstract, University of Houston.
[14] Taylor, M., Styron, R., and Sundell, K.E. (2013) Active structures in the Himalayan-Tibetan orogen and implications for lithospheric and seismogenic processes, Tectonics Observatory, California Institute of Technology.
[13] Sundell, K.E., Taylor, M., Styron, R., Stockli, D., Kapp, P., Liu, D., and Ding, L. (2013), Evidence for constriction and Pliocene acceleration of east-west extension in the North Lunggar rift region of west-central Tibet, AGU abstract.
[12] Sundell, K.E., Taylor, M., Styron, R., Stockli, D., Kapp, P., Liu, D., and Ding, L. (2013), Constriction and Pliocene acceleration of east-west extension in the North Lunggar rift region of west-central Tibet, paper presented at Geological Society of America, Abstracts with Programs Volume 45.
[11] Sundell, K.E., Taylor, M., Styron, R., Stockli, D., Kapp, P., Liu, D., and Ding, L. (2011), Late Miocene–Pliocene development of the North Lunggar Rift: Implications for the onset of strike-slip faulting and constrictional strain in central Tibet, AGU abstract, session T19.
[10] Styron, R., Taylor, M., Sundell, K.E., Stockli, D., McCallister, A., Liu, D., and Ding, D. (2011), Along-strike variations in extensional style for the Lunggar Rift, Southern Tibet: the role of gravitational potential energy and basal shear tractions, AGU abstract, session T19.
[9] Styron, R., Taylor, M., Stockli, D., Sundell, K.E., McCallister, A., Ding, L., and Liu, D. (2011), The South Lunggar Rift, western Tibet: Rates, timing and evolution of an active detachment system from structural mapping and (U-Th)/He thermochronology, GSA Abstracts.
[8] Stockli, D., Horton, B., Taylor, M., Sundell, K.E., Woodruff, W., Kapp, P., Hager, C., and Ding, L. (2011), Reconstruction of the tectonic and exhumation history of the North Lunggar Rift, southern Tibet, through integrated footwall and detrital hanging wall thermochronometry, GSA Annual Meeting.
[7] Sundell, K.E., Taylor, M., Stockli, D., Styron, R., Kapp, P., Liu, D., and Ding, L. (2011), Low-temperature thermochronology of the North Lunggar Rift, west-central Tibet. 2011 Annual AAPG SEG Spring Break Student Expo Norman, OK.
[6] Taylor, M., Styron, R. Stockli, D., Sundell, K.E., and Ding, L. (2010), Preliminary Structural and thermochronological Observations from the South Lunggar Rift, Western Tibet, American Geophysical Union, Fall Meeting, abstract T43C-2243.
[5] Styron, R., Taylor, M., Sundell, K.E., Stockli, D., Liu, D., and Ding, L. (2010), The South Lunggar Rift: A juvenile detachment in western Tibet?, GSA Abstracts with Programs Vol. 42, No. 5.
[4] Sundell, K.E., Taylor, M., Stockli, D., Styron, R., Kapp, P., Liu, D., and Ding, L. (2010), Low-temperature thermochronology of the North Lunggar Rift, west-central Tibet, GSA Abstracts with Programs Vol. 42, No. 5.
[3] Sundell, K.E., Taylor, M., Stockli, D., Styron, R., Kapp, P., Liu, D., and Ding, L. (2010), Low-temperature thermochronology of the Lunggar Shan extensional system, west-central Tibet. Thermo2010 12th International Conference on Thermochronology, Glasgow, Scotland, Abstract.
[2] Sundell, K.E., Taylor, M., Stockli, D., Kapp, P., Styron, R., Liu, D., and Ding, L. (2010), Low-temperature thermochronology of the North Lunggar Rift, western Tibet, G-Hawker Student Symposium, University of Kansas, Lawrence, KS.
[1] Sundell, K.E., Taylor, M., Kapp, P., Stockli, D., and Styron, R. (2009), A field test of the rolling hinge model: Example from the Lunggar extensional system, AGU Abstract, p. 2112.