2021

  1. Adams, J.V., Jackson, M.G., Spera, F.J. et al. Extreme isotopic heterogeneity in Samoan clinopyroxenes constrains sediment recycling. Nat Commun., doi:10.1038/s41467-021-21416-9
  2. Horton, F., Nielsen, S., Shu, Y., Gagnon, A., Blusztajn, 2020, Thallium isotopes reveal brine activity during carbonatite magmatism, G-Cubed, doi:10.1029/2020GC009472
  3. Ivanochko, T., 2021, Think, Do, and Communicate Environmental Science, CAmbridge University Press.
  4. Kodaira, S., Seton, M., Sonter, L.J. et al.,2021 Reflections on solid Earth research. Nat Rev Earth Environ.,  doi: 10.1038/s43017-020-00127-7
  5. Looser, N., Madritsch, H., Guillong, M., Laurent, O., Wohlwend, S., Bernasconi, S., 2021., Absolute Age and Temperature Constraints on Deformation along the Basal Décollement of the Jura Fold‐and‐thrust Belt from Carbonate U‐Pb Dating and Clumped Isotopes, Tectonics, doi: 10.1029/2020TC006439
  6. Mehra, A., Keller, C., Zhang, T., et al., 2021, Curation and Analysis of Global Sedimentary Geochemical Data to Inform Earth History, GSA Today, doi: 10.1130/GSATG484A.1
  7. Munroe, J., Ryan, P., Proctor, A., 2021, Pedogenic clay formation from allochthonous parent materials in a periglacial alpine critical zone, CATENA,doi: 10.1016/j.catena.2021.105324
  8. Mysen, B., 2021, Structure of chemically complex silicate systemsEncyclopedia of Glass Science, doi: 10.1002/9781118801017.ch2.6
  9. Pandey, A., Rao, N., Rahaman, W., Seth, V., Sahoo, S., 2021, Paleoproterozoic metaluminous syenites synchronous with the c. 2.21 Ga mafic dyke swarms from the Eastern Dharwar Craton, India: implications for alkaline magmatism associated with the breakup of supercraton Superia, Geological Society of London,doi:10.1144/SP513-2020-92
  10. Parolari, M., Gómez-Tuena, A., Errázuriz-Henao, C., Cavazos-Tovar, J., 2021 Orogenic andesites and their link to the continental rock cycle,
    Lithos, doi: 10.1016/j.lithos.2020.105958.
  11. Reyes, T., Godfrey, D., Ming, L-J., MacLean, S., Gonzalez, F., Madrigal, L., 2021, The distribution in native populations from Mexico and Central America of the C677T variant in the MTHFR gene, doi:10.1002/ajhb.23567.
  12. Rose-Koga, E., Bouvier, A-S., Gaetani, G., Wallace, P., Allison, C., Andrys, J.,et al., 2021 Silicate melt inclusions in the new millennium: A review of recommended practices for preparation, analysis, and data presentation,Chemical Geology, doi: 10.1016/j.chemgeo.2021.120145
  13. Russell, A., McDermott, F., McGrory, E., Cooper, M., Henry, T., Morrison, L.,2021, As-Co-Ni sulfarsenides in Palaeogene basaltic cone sheets as sources of groundwater arsenic contamination in Co. Louth, Ireland, Applied Geochemistry, doi: 10.1016/j.apgeochem.2021.104914
  14. Thomas, C., Jansen, B., Emile van Loon, E., Weisenberg, G., 2021,Transformation of n-alkanes from plant to soil: a review, doi: 10.5194/soil-2020-107
  15. van Welst, I., Crameri, F., Pusok, A., Glerum, A., Dannberg, J., Thieulot,2021, 101 Geodynamic modelling: How to design, carry out, and interpret numerical studies, EarthArXiv, doi: 10.31223/X5ZG66
  16. Wang, D., Wang, XL., 2021, Dual mixing for the formation of Neoproterozoic granitic intrusions within the composite Jiuling batholith, South China. Contrib Mineral Petrol, doi:10.1007/s00410-020-01757-2
  17. Xu, J., Xia, X-P., Wang, Q., Spencer, C., He, B., Lai, C-K., 2021, Low-δ18O A-type granites in SW China: Evidence for the interaction between the subducted Paleotethyan slab and the Emeishan mantle plume. GSA Bulletin, doi: 10.1130/B35929.1
  18. Xu, Y., Li, C., Tan, H., Cheng, X., 2021, Advances on Surficial Geochemistry Database and Related Research, Geological Journal of China Universities, doi: 10.16108/j.issn1006-7493.2021003
  19. Zhang,J., Lee,C-T.,  Farner,M., 2021,Using computer-aided image processing to estimate chemical composition of igneous rocks: A potential tool for large-scale compositional mapping,Solid Earth Sciences, dot: 10.1016/j.sesci.2020.12.003

2020

  1. Anderson, M., Wanless, V., Perfit, M. Conrad, E., Gregg, P., Fornari, D., Ridley, I., 2002, Extreme mantle heterogeneity in mid-ocean ridge mantle revealed in lavas from the 8°20′ N near-axis seamount chain, G-Cubed, doi: 10.1029/2020GC009322
  2. Arribas, A., Mathur, R., Megaw, P, Arribas, I, 2020, The Isotopic Composition of Silver in Ore Minerals,G-Cubde, doi: 10.1029/2020GC009097
  3. Aulbach, S., Massuyeau, M., Garber, J., Gerdes, A., Heamna, L., Viljoen, K., 2020, Ultramafic carbonated melt- and auto-metasomatism in mantle eclogites: Compositional effects and geophysical consequences, G-Cubed, doi:10.1029/2019GC008774
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  6. Bartley, J., Glazner, A., Stearns, M., Coleman, D., 2020, The Granite Aqueduct and Autometamorphism of Plutons, Goesciences, doi:10.3390/geosciences10040136
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  8. Befus, K., Walowski, K., Hervig, R., Cullen, J.,2020, Hydrogen isotope composition of a large silicic magma reservoir preserved in quartz‐hosted glass inclusions of the Bishop Tuff Plinian eruption, doi: 10.1029/2020GC009358
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  12. Brown, M., Kirkland, C., Johnson, T., 2020, Evolution of geodynamics since the Archean: Significant change at the dawn of the Phanerozoic, Geology, doi: 10.1130/G47417.1
  13. Brown, M., Johnson, T., Gardiner, N., 20202, Plate Tectonics and the Archean Earth, Ann Rev Earth Planetary Sci, doi: 10.1146/annurev-earth-081619-052705
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  15. Carr, P., Norman, M., Bennett,V., Blevin, P., 2020, Tin Enrichment in Magmatic-Hydrothermal Environments Associated with Cassiterite Mineralization at Ardlethan, Eastern Australia: Insights from Rb-Sr and Sm-Nd Isotope Compositions in Tourmaline. Economic Geology doi: 10.5382/econgeo.4774
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  18. Cone, K., Palin, R., Singha, K., 2020, Unsupervised machine learning with petrological database ApolloBasaltDB reveals complexity in lunar basalt major element oxide and mineral distribution patterns
  19. Cooper, G., Mcpherson, C., Bludcy, J., Maunder, B, Allen, R., Goes, S., Collier, J., Bie, L., Harmon, N., Hicks, S., Iveson, A., Prytulak, J., Rietbrock, A.,Rychert, C., Davidson, J., and the VoiLA team,2020, Variable water input controls evolution of the Lesser Antilles volcanic arc, Nature, doi: 10.1038/s41586-020-2407-5
  20. Cosentino, N., Ruiz-Etcheverry, L., Bia, G., Simonella, L., Coppo, R., Torre, G., Saraceno, M., Tur, V., Gaiero, D.,  2020, Does Satellite Chlorophyll‐a Respond to Southernmost Patagonian Dust? A Multi‐Year, Event‐Based Approach, JGR Biosciences, doi: 10.1029/2020JG006073
  21. Coulthardt, D., Reagan, M., Shimizu, K., Bindeman, I., Brounce, M., Almeev, R., Ryan, J., Chapman, T., Shervais, J. Pearce, J., 2020, Magma source evolution following subduction initiation: Evidence from the element concentrations, stable isotope ratios, and water contents of volcanic glasses from the Bonin forearc (IODP Expedition 352), G-Cubed, doi:10.1029/2020GC009054
  22. De Obeso, J., Ramos, D., Higgins, J., Kelemen, P., 2020, A Mg isotopic perspective on the mobility of magnesium during serpentinization and carbonation of the Oman ophiolite, JGR Solid Earth, doi: 10.1029/2020JB020237
  23. Dong, S., Berelson, W.,Teng, H., Rollins, N., Pirbadian, S., El-Naggar, M., Adkins, J., 2020,A Mechanistic Study of Carbonic Anhydrase Enhanced Calcite Dissolution, GRL, doi: 10.1029/2020GL089244
  24. Doucet, L., Li, Z., Gamal El Dien, H., Pourteau, A., Murphy, B., Collins, W., Matielli, N., Olierook, H., Spencer, C., Mitchell, R., 2020,  Distinct formation history for deep-mantle domains reflected in geochemical differences. Nat. Geosci., doi: 10.1038/s41561-020-0599-9
  25. Dygert, N., Draper, D., Rapp, J., Lapen, T., Fagan, A., Neal, C., 2020, Experimental determinations of trace element partitioning between plagioclase, pigeonite, olivine, and lunar basaltic melts and an fO2 dependent model for plagioclase-melt Eu partitioning, GCA, doi: 10.1016/j.gca.2020.03.037
  26. Ferguson. A., Oakes, J., Eyre, B, 2020, Bottom trawling reduces benthic denitrification and has the potential to influence the global nitrogen cycle, Limnology and Oceanography Letters, doi:10.1002/lol2.10150
  27. Gallagher, C., Oettgen, H., BrabanderD., 2020, Beyond community gardens: A participatory research study evaluating nutrient and lead profiles of urban harvested fruit. Elementa: Science of the Anthropocene, doi: https://doi.org/10.1525/elementa.2020.004
  28. Garcia, W., Amann, T., Hartmann, J., Karstens, K., Popp, A., Boysen, L., Smith, P., Goll, D., 2020, Impacts of enhanced weathering on biomass production for negative emission technologies and soil hydrology, Biogeosciences, doi: 10.5194/bg-17-2107-2020
  29. Gibaga, C., Arcilla, C., Hoang, N., 2020, Volcanic rocks from the Central and Southern Palawan Ophiolites, Philippines: Tectonic and mantle heterogeneity constraints, J Asian Earth Sci, doi:
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  30. Glazner, A., Bartley, J., Law, B., 2020, Immiscibility and the origin of ladder structures, mafic layering, and schlieren in plutons, Geology, doi:10.1130/G47634.1
  31. Haproff,P. Odlum, M., Zuza, A., Yin, A., Stocki, D, 2020, Structural and Thermochronolgic constraints on the Cenozoic tectonic development of the northern Indo-Burma ranges, Tectonics, doi: 10.1029/2020TC006231
  32. Heard, A., Dauphas, N., Guilbaud, R., Roucel, O., Butler, I., Nie, N., Bekker, A., 2020, Triple iron isotope constraints on the role of ocean iron sinks in early atmospheric oxygenation, Science, doi: 10.1126/science.aaz8821
  33. Heerema, C., Talling, P., Cartigney, M, et al., 2020, What determines the downstream evolution of turbidity currents?EPSL, doi:10.1594/IEDA/324529
  34. Hein, C., Usman, M., Eglinton, T., Haghipour, N., Galy, V., 2020, Millennial-scale hydroclimate control of tropical soil carbon storage, Nature, doi: 10.1038/s41586-020-2233-9
  35. Herman, A., Forkel, R., McAlister, A., Cruickshank, A., Golitko, M., Kneebpne, B., McCoy, M., Reepmeyer, C., Sheppard, P., Sinton, J., Weisler, M., 2020, Pofatu, a curated and open-access database for geochemical sourcing of archaeological materials, Nature, doi: 10.1038/s41597-020-0485-8
  36. Hezel, D., 2020, MetBase.org as a Research and Learning Tool for Cosmochemistry, elements, doi:10.2138/gselements.16.1.73
  37. Homola, K., Spivak, A., Murray, R., 2020, High precision paleosalinity determination from measured porewater density, Marine Chemistry, doi:10.1016/j.marchem.2020.103868
  38. Horsburgh, J., Hooper, R., Bales, J., Hedstrom, M., Imker, H., Lehnert, K., Shanley, L., Stall, S., 2020, WIREs Water, doi: 10.1002/wat2.1422
  39. Hyung, E., Jacobsen, S., The 142Nd/144Nd variations in mantle-derived rocks provide constraints on the stirring rate of the mantle from the Hadean to the present, PNAS, doi:10.1073/pnas.2006950117
  40. Iacovino, K., Guild, M., Till, C., 2020,Aqueous fluids are effective oxidizing agents of the mantle in subduction zones, Contrib Min Pet, doi: 10.1007/s00410-020-1673-4
  41. Jaume-Segui, M., Kim, J., Pena, L., Goldstein, S., Knudson, K., Yehudai, M., Hartman, A., Bolge, L., Ferretti, P.,  2020, Distinguishing Glacial AMOC and Interglacial non–AMOC Nd Isotopic Signals in the Deep Western Atlantic over the last 1 Myr,Paleoceanography and Paleoclimatology,  doi: 10.1029/2020PA003877
  42. Jautzy, J., Savardi, M., Dhillon, R., Bernasconi, S., Smirnoff, A., 2020, Clumped isotope temperature calibration for calcite: Bridging theory and experimentation, Geochemical Persp Let., doi:10.7185/geochemlet.2021
  43. Jautzy, J., Savard, M., Lavoie, D., Ardakani, O., Dhillon, R., Defliese, W.,  Castagner, A., 2020, Clumped isotope geothermometry of an Ordovician carbonate mound, Hudson Bay Basin Journal of the Geological Society, doi:10.1144/jgs2020-102
  44. Jensen, L., Morton, P., Twining, B., Heller, M., Hatta, M., Measures, C., John, S., Zhang, R., Pinedo-Gonzalez, P, Sherrell, R., Fitzsimmons, J., 2020, A comparison of marine Fe and Mn cycling: U.S. GEOTRACES GN01 Western Arctic case study, GCA, doi:10.1016/j.gca.2020.08.006
  45. Johnson, C., Ressel, M., Ruprecht, P., 2020, Toward a Global Carlin-Type Exploration Model: The Relationship between Eocene Magmatism and Diverse Gold-Rich Deposits in the Great Basin, USA, Great Basin Eocene Metallogeny
  46. Jolivet, M., Boulvais,P., 2020Global significance of oxygen and carbon isotope compositions of pedogenic carbonates since the cretaceous,Geoscience Frontiers,doi: 10.1016/j.gsf.2020.12.012
  47. Kele, S., Sallam, E., Capezzuoli, E., Rogerson, M., Wanas, H., Shen, C-C., Lone, M., Yu, T-L., Schauer, A., Huntington, K., 2020, Were springline carbonates in the Kurkur-Dungul area (Southern Egypt) Journal of the Geological Society, doi: 10.1144/jgs2020-147
  48. Keller, C., Harrison, T., 2020, Constraining crustal silica on ancient Earth, EarthArXiv, doi: 10.31223/osf.io/75evw
  49. Klein, J., Jagoutz, O., 2020, Construction of a trans-crustal magma system: Building the Bear Valley Intrusive Suite, southern Sierra Nevada, California, EPSL, doi:10.1016/j.epsl.2020.116624
  50. Koffman, B., Goldstein, S., Winckler, G., Borunda, A., Kaplan, M., Bolge, L., Cai, Y., Recasens, C., Koffman, T., Vallelonga, P., 2020, New Zealand as a source of mineral dust to the atmosphere and ocean, Quaternary Science Reviews, doi: 10.1016/j.quascirev.2020.106659
  51. Koger, D., Newell, J., 2020, Spatiotemporal history of fault–fluid interaction in the Hurricane fault, western USA, Solid Earth, doi: 10.5194/se-11-1969-2020
  52. Larson, E., 2020, Big Questions: Digital Preservation of Big Data in Government, The American Archivist, vol 83, no 1., doi: 10.17723/0360-9081-83.1.5
  53. Leutert, T.J., Auderset, A., Martínez-García, A. et al., 2020 Coupled Southern Ocean cooling and Antarctic ice sheet expansion during the middle Miocene. Nat. Geosci., doi:10.1038/s41561-020-0623-0
  54. Leutert, T.J., Modestou, S.,Bernasconi, S., Meckler, A., 2020, Southern Ocean bottom water cooling and ice sheet expansion during the middle Miocene climate transition, Climate of the Past, doi: 10.5194/cp-2020-157
  55. Mackey, T. J., Jost, A. B., Creveling, J. R., & Bergmann, K. D., 2020, A decrease to low carbonate clumped isotope temperatures in Cryogenian strata. AGU Advances, doi: 10.1029/2019AV000159
  56. Massa, C., Beilman, D.,Nichols, J.,   Timm, O., 2020,Central Pacific hydroclimate over the last 45,000 years: Molecular-isotopic evidence from leaf wax in a Hawaiʻi peatland,Quaternary Science Reviews, doi: 10.1016/j.quascirev.2020.106744
  57. Mayhew, L., Ellison, E., 2020, A synthesis and meta-analysis of the Fe chemistry of serpentinites and serpentine minerals, Phil Trans Royal Soc, 2020, doi:10.1098/rsta.2018.0420
  58. Modestou, S., Leutert, T., Fernandez, A., Lear, C., Meckler, A., 2020, Warm middle Miocene Indian Ocean bottom water temperatures: comparison of clumped isotope and Mg/Ca based estimates, Paleoceanography and Paleoclimatology, doi: 10.1029/2020PA003927
  59. Moore,N., Grunder, A., Bohrson, W., Carlson, R.,  BIndeman, I., 2020, Changing mantle sources and the effects of crustal passage on the Steens Basalt, SE Oregon: Chemical and isotopic constraints, G-Cubed, doi:10.1029/2020GC008910
  60. Muirhead, J.D., Fischer, T.P., Oliva, S.J. et al. Displaced cratonic mantle concentrates deep carbon during continental rifting. Nature , doi:10.1038/s41586-020-2328-3
  61. Newell, D., 2020, Collaborative Research: Quantifying crustal hydration effects in the Colorado Plateau from xenoliths, Funded Research Records. Paper 132. https://digitalcommons.usu.edu/funded_research_data/132
  62. Newell, D., 2020,  EAGER – Mantle fluid contribution to springs along the Denali Fault System: Constraints on the crustal scale nature of the main strand and splays. Utah State University. https://doi.org/10.26078/ PMCH-TN55
  63. Park, Y., Maffre, P., Godderis, Y., Macdonald, F., Antilla, E., Swanson-Hysell, N., 2020, Emergence of the Southeast Asian islands as a driver for Neogene cooling, PNAS. doi: 10.1073/pnas.2011033117
  64. Platonov, K., Naumova, V., 2020, The Center of quantitative data on geology: Current state and prospects for development, Russian Journal of Earth Sciences, doi:10.2205/2020ES00075
  65. Pourteau, A., Doucet, L., Blereau, E., Volante, S., Johnson, T., Collins, W., Li, Z-LX, Champoin, D., 2020, TTG generation by fluid-fluxed crustal melting: Direct evidence from the Proterozoic Georgetown Inlier, NE Australia, EPSL, doi:10.1016/j.epsl.2020.116548
  66. Regier, M.E., Pearson, D.G., Stachel, T. et al. ,2020, The lithospheric-to-lower-mantle carbon cycle recorded in superdeep diamonds. Nature, doi: 10.1038/s41586-020-2676-z
  67. Restreppo, G., Wood, W., Phrampus, B., 2020, Oceanic sediment accumulation rates predicted via machine learning algorithm: towards sediment characterization on a global scale. Geo-Mar Lett, doi:10.1007/s00367-020-00669-1
  68. Riggs, N., Sanchez, T., Reynolds, S., 2020, Evolution of the early Mesozoic Cordilleran arc: The detrital zircon record of back-arc basin deposits, Triassic Buckskin Formation, western Arizona and southeastern California, USA, Geosphere, doi: 10.1130/GES02193.1
  69. Rodriguez, M., Doherty, J. M., Hilary Man, H. L., Wang, R., Xiao, W., Zhou, B., et al., 2020, Intra‐valve elemental distributions in Arctic marine ostracodes: Implications for Mg/Ca and Sr/Ca paleothermometry. Geochemistry, Geophysics, Geosystems, 121, e2020GC009379https://doi.org/10.1029/2020GC009379
  70. Rose-Koga, E., Koga, K., Devidal, J-L., Shimizu, N., Le Voyer, M., Dalou, C., Doebeli, M., 2020, In-situ measurements of magmatic volatile elements, F, S, and Cl, by electron microprobe, secondary ion mass spectrometry, and heavy ion elastic recoil detection analysis, American Mineralogist, doi:10.2138/am-2020-7221
  71. Saper, L., Stolper, E., Controlled cooling-rate experimentson olivine-hosted melt inclusions: chemical diffusionand quantification of eruptive cooling-rates on Hawaii and Mars, G-Cubed, doi:10.1029/2019GC008772
  72. Schwab, M., HIlton, R., Raymonf, P., Haghipour, N., Amos, E., Tank, S., Holmes, R., Tippler, E., Eglinton, T., 2020, An Abrupt Aging of Dissolved Organic Carbon in Large Arctic Rivers, GRL, doi: 10.1029/2020GL088823,
  73. Schwartz, D., Wanless, D., Soule, S., Schmitz, M., Kurz, M., 2020, Monogenetic Near-Island Seamounts in the Galapagos archipelago, G-Cubed, doi:10.1029/2020GC008914
  74. Scott, B., Newell, D., Jessup, M., Grambling, T., Shaw, C.,Structural controls on crustal fluid circulation and hot spring geochemistry above a flat‐slab subduction zone, Peru, 2020, G-Cubed, doi: 10.1029/2020GC008919
  75. Shaughnessy, A., Gu, X., Wen, T., SL Brantley, S., 2020, Machine Learning Deciphers CO2 Sequestration and Subsurface Flowpaths from Stream Chemistry, Hydrology and Earth System Sciences, doi: 10.5194/hess-2020-537
  76. Thivet, S., Gurioli, L., Di Muro, A., Derrien, A., Ferrazzini, V., Gouhier, M., Coppola, D., Galle, B., Arellano, S., 2020, Evidences of plug pressurization enhancing magma fragmentation during the September 2016 basaltic eruption at Piton de la Fournaise (La Réunion Island, France), G-Cubed, doi:10.1029/2019GC008611
  77. Valentine, D., Zaslavsky, I., Richard, S., Meier, O., Hudman, G., Peucker-Ehrenbrink, B., Stocks, K., 2020, EarthCube Data Discovery Studio: A gateway into geoscience data discovery and exploration with Jupyter notebooks, Concurrency and Computation Pratice and Experience, doi: 10.1002/cpe.6086
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  79. Xu, X., Zhao, K., He, Z., Liu, L., Hong, W., 2020, Cretaceous volcanic-plutonic magmatism in SE China and a genetic model, Lithos, doi: 10.1016/j.lithos.2020.105728
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2019

  1. Abbey, A., and Niemi, N., 2019, Perspectives on continental rifting processes from spatiotemporal patterns of faulting and magmatism in the Rio Grande rift, USA, Tectonics, doi: 10.1029/2019TC005635
  2. Agather, A., Bowman, K., Lamborg, C., Hammerschmidt, C., 2019, Distribution of mercury species in the Western Arctic Ocean (U.S. GEOTRACES GN01), Marine Chemistry, doi:10.1016/j.marchem.2019.103686
  3. Aiuppa, A., Fischer, T., Plank, T., Bani P., 2019, CO2 flux emissions from the Earth’s most actively degassing volcanoes, 2005–2015, Nature, doi: 10.1038/s41598-019-41901-y
  4. Aldega, L., Viola, G., Casas-Sainz, A., Marzen., M., Roman-Berdiel, T., van der Lelij, 2019, Unravelling multiple thermo-tectonic events accommodated by crustal-scale faults in northern Iberia, Spain: Insights from K-Ar dating of clay gouges, Tectonics, doi: 10.1029/2019TC005585
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2018

  1. Abbey, A., 2018, Assessing Rio Grande Rift Development and Exhumation in the Southern Rocky Mountains Using Techniques in Low-temperature Thermochronometry,PhD Thesis University of Michigan
  2. Blanchet, C., 2018, A database of marine and terrestrial radiogenic Nd and Sr isotopes for tracing earth-surface processes, Earth Syst. Sci. Data Discuss., doi:10.5194/essd-2018-109
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2017

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2016

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2015

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  13. Machlus ML, Ramezani J, Bowring SA, Hemming SR, Tsukui K, Clyde WC. A strategy for cross-calibrating U–Pb chronology and astrochronology of sedimentary sequences: An example from the Green River Formation, Wyoming, USA. Earth and Planetary Science Letters. 2015;413:70-8. doi: 10.1016/j.epsl.2014.12.009
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  20. Vandekerkhove E, Bertrand S, Reid B, Bartels A, Charlier B. Sources of dissolved silica to the fjords of northern Patagonia (44-48°S): the importance of volcanic ash soil distribution and weathering. Earth Surface Processes and Landforms. 2015:n/a – n/a. doi: 10.1002/esp.3840
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2014

  1. Bataille CP, Brennan SR, Hartmann J, Moosdorf N, Wooller MJ, Bowen GJ. A geostatistical framework for predicting variability in strontium concentrations and isotope ratios in Alaskan rivers. Chemical Geology. 2014. doi: 10.1016/j.chemgeo.2014.08.030
  2. Carr MJ, Feigenson MD, Bolge LL, Walker JA, Gazel E. RU_CAGeochem, a database and sample repository for Central American volcanic rocks at Rutgers University. Geoscience Data Journal. 2014:n/a – n/a. doi: 10.1002/gdj3.10
  3. Clemens JD, Bezuidenhout A. Origins of co-existing diverse magmas in a felsic pluton: the Lysterfield Granodiorite, Australia. Contributions to Mineralogy and Petrology. 2014;167(3). doi: 10.1007/s00410-014-0991-9
  4. Clemens JD, Phillips GN. Inferring a deep-crustal source terrane from a high-level granitic pluton: the Strathbogie Batholith, Australia. Contributions to Mineralogy and Petrology. 2014;168(5). doi: 10.1007/s00410-014-1070-y
  5. Gregory LC, Thomas AL, Walker RT, Garland R, Mac Niocaill C, Fenton CR, et al. Combined uranium series and 10Be cosmogenic exposure dating of surface abandonment: A case study from the Ölgiy strike-slip fault in western Mongolia. Quaternary Geochronology. 2014. doi: 10.1016/j.quageo.2014.07.005
  6. Hazen RM. Data-driven abductive discovery in mineralogy. American Mineralogist. 2014;99(11-12):2165-70. doi: 10.2138/am-2014-4895
  7. LEE C-, Bachmann O. How important is the role of crystal fractionation in making intermediate magmas? Insights from Zr and P systematics. Earth and Planetary Science Letters. 2014;393:266-74. doi: 10.1016/j.epsl.2014.02.044
  8. Mysen B. Water-melt interaction in hydrous magmatic systems at high temperature and pressure. Progress in Earth and Planetary Science. 2014;1(1):4. doi: 10.1186/2197-4284-1-4
  9. Ortolano G, Cirrincione R, Pezzino A, Tripodi V, Zappala L. Petro-structural geology of the Eastern Aspromonte Massif crystalline basement (southern Italy-Calabria): an example of interoperable geo-data management from thin section – to field scale. Journal of Maps. 2014:1-20. doi: 10.1080/17445647.2014.948939

2013

  1. Aalbersberg IJ, Atzeni S, Koers H, Specker B, Zudilova-Seinstra E. Bringing Digital Science Deep Inside the Scientific Article: the Elsevier Article of the Future Project. LIBER Quarterly. 2013;22.
  2. Adcock SW, Spirito WA, Garrett RG. Geochemical data management – issues and solutions. Geochemistry: Exploration, Environment, Analysis. 2013;13(4):337-48. doi: 10.1144/geochem2011-084
  3. Beaulieu SE, Baker ET, German CR, Maffei A. An authoritative global database for active submarine hydrothermal vent fields. Geochemistry, Geophysics, Geosystems. 2013;14(11):4892-905. doi: 10.1002/2013GC004998
  4. Clague DA, Dreyer BM, Paduan JB, Martin JF, Chadwick WW, Caress DW, et al. Geologic history of the summit of Axial Seamount, Juan de Fuca Ridge. Geochemistry, Geophysics, Geosystems. 2013:n/a – n/a. doi: 10.1002/ggge.20240
  5. Clemens JD. Element concentrations in granitic magmas: ghosts of textures past? Journal of the Geological Society. 2013. doi: 10.1144/jgs2013-008
  6. Faccenna C, Becker TW, Jolivet L, Keskin M. Mantle convection in the Middle East: Reconciling Afar upwelling, Arabia indentation and Aegean trench rollback. Earth and Planetary Science Letters. 2013. doi: 10.1016/j.epsl.2013.05.043
  7. Feakins SJ, Levin NE, Liddy HM, Sieracki A, Eglinton TI, Bonnefille R. Northeast African vegetation change over 12 m.y. Geology. 2013;41(3):295-8. doi: 10.1130/G33845.1
  8. Gualda GA, Ghiorso MS. Low-Pressure Origin of High-Silica Rhyolites and Granites. The Journal of Geology. 2013;121(5):537-45. doi: 10.1086/671395
  9. Kirkland CL, Smithies HR, Woodhouse AJ, Howard HM, Wingate MT, Belousova EA, et al. Constraints and deception in the isotopic record; the crustal evolution of the west Musgrave Province, central Australia. Gondwana Research. 2013;23(2):759-81. doi: 10.1016/j.gr.2012.06.001
  10. Lam PJ, Robinson LF, Blusztajn J, Li C, Cook MS, McManus JF, et al. Transient stratification as the cause of the North Pacific productivity spike during deglaciation. Nature Geoscience. 2013;6(8):622-6. doi: 10.1038/ngeo1873
  11. MacLeod CJ, Johan Lissenberg C, Bibby LE. “Moist MORB” axial magmatism in the Oman ophiolite: The evidence against a mid-ocean ridge origin. Geology. 2013;41(4):459-62. doi: 10.1130/G33904.1
  12. Pisias NG, Murray RW, Scudder RP. Multivariate statistical analysis and partitioning of sedimentary geochemical data sets: General principles and specific MATLAB scripts. Geochemistry, Geophysics, Geosystems. 2013;14(10). doi: 10.1002/ggge.20247
  13. Shervais JW, Evans JP, Toy V, Eichelberger J, Kirkpatrick J, Clarke A. Drilling Active Tectonics and Magmatism (Volcanics, Geoprisms, Fault Zones Post-SAFOD) Proceedings of a Workshop. Utah State University; 2013.
  14. Van Kranendonk MJ, Kirkland CL. Orogenic climax of Earth: The 1.2-1.1 Ga Grenvillian superevent. Geology. 2013. doi: 10.1130/G34243.1
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2012

  1. Bataille CP, Laffoon J, Bowen GJ. Mapping multiple source effects on the strontium isotopic signatures of ecosystems from the circum-Caribbean region. Ecosphere. 2012;3(12):art118. doi: 10.1890/ES12-00155.1
  2. Bataille CP, Bowen GJ. Mapping 87Sr/86Sr variations in bedrock and water for large scale provenance studies. Chemical Geology. 2012;304-305:39-52. doi: 10.1016/j.chemgeo.2012.01.028
  3. Chappell BW, Wyborn D. Origin of enclaves in S-type granites of the Lachlan Fold Belt. Lithos. 2012. doi: 10.1016/j.lithos.2012.07.012
  4. Clemens JD, Birch WD. Assembly of a zoned volcanic magma chamber from multiple magma batches: The Cerberean Cauldron, Marysville Igneous Complex, Australia. Lithos. 2012. doi: 10.1016/j.lithos.2012.09.007
  5. Hartmann J, Moosdorf N. The new global lithological map database GLiM: A representation of rock properties at the Earth surface. Geochemistry Geophysics Geosystems. 2012;13. doi: 10.1029/2012GC004370
  6. Keller BC, Schoene B. Statistical geochemistry reveals disruption in secular lithospheric evolution about 2.5 Gyr ago. Nature. 2012;485:490-3. doi: 10.1038/nature11024
  7. Kirkland CL, Smithies HR, Woodhouse AJ, Howard HM, Wingate MT, Belousova EA, et al. Constraints and deception in the isotopic record; the crustal evolution of the west Musgrave Province, central Australia. Gondwana Research. 2012. doi: 10.1016/j.gr.2012.06.001
  8. Larner F, Rehkamper M. Evaluation of Stable Isotope Tracing for ZnO Nanomaterials—New Constraints from High Precision Isotope Analyses and Modeling. Environmental Science & Technology. 2012;46:4149-58. doi: 10.1021/es204440d
  9. Olson JR, Hawkins CP. Predicting natural base-flow stream water chemistry in the western United States. Water Resour. Res.. 2012;48:W02504-. Abstract. doi: 10.1029/2011WR011088
  10. Porder S, Ramachandran S. The phosphorus concentration of common rocks—a potential driver of ecosystem P status. Plant and Soil. 2012:1-15. doi: 10.1007/s11104-012-1490-2

2011

  1. Box MR, Krom MD, Cliff RA, Bar-Matthews M, Almogi-Labin A, Ayalon A, et al. Response of the Nile and its catchment to millennial-scale climatic change since the LGM from Sr isotopes and major elements of East Mediterranean sediments. Quaternary Science Reviews. 2011;30:431-42. doi: 10.1016/j.quascirev.2010.12.005
  2. Conrad CP, Bianco TA, Smith EI, Wessel P. Patterns of intraplate volcanism controlled by asthenospheric shear. Nature Geosci. 2011;4:317-21. doi: 10.1038/ngeo1111
  3. Hein A, Kilikoglou V. Prototype of a web-based relational database for archaeological ceramics. Archaeometry. 2011. doi: 10.1111/j.1475-4754.2011.00618.x
  4. Moore J, White WM, Paul D, Duncan RA, Abouchami W, Galer SJ. Evolution of shield-building and rejuvenescent volcanism of Mauritius. Journal of Volcanology and Geothermal Research. 2011;207:47-66. Abstract. doi: 10.1016/j.jvolgeores.2011.07.005
  5. Rauch JN. Global distributions of Fe, Al, Cu, and Zn contained in Earth’s derma layers. Journal of Geochemical Exploration. 2011;110:193-201. Abstract. doi: 10.1016/j.gexplo.2011.05.008
  6. Rodrigues C, Máguas C, Prohaska T. Strontium and oxygen isotope fingerprinting of green coffee beans and its potential to proof authenticity of coffee. European Food Research and Technology. 2011:1-13. doi: 10.1007/s00217-010-1362-z
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  8. Vervoort JD, Plank T, Prytulak J. The Hf-Nd isotopic composition of marine sediments. Geochimica et Cosmochimica Acta. 2011;75:5903-26. Abstract. doi: 10.1016/j.gca.2011.07.046

2010

  1. Sedransk N, Young LJ, Kelner KL, Moffitt RA, Thakar A, Raddick J, et al. Make Research Data Public? Not Always so Simple: A Dialogue for Statisticians and Science Editors. Statistical Science. 2010;25:41-50.
  2. Tomkins AG. Windows of metamorphic sulfur liberation in the crust: Implications for gold deposit genesis. Geochimica et Cosmochimica Acta. 2010;74:3246-59. doi: 10.1016/j.gca.2010.03.003
  3. Yager DB, Hofstra AH, Fifarek K, Webbers A. Development of an igneous rock database with geologic functions: Application to Neogene bimodal igneous rocks and mineral resources in the Great Basin. Geosphere. 2010;6 (5):691-730. doi: 10.1130/GES00516.1

2009

  1. Clemens JD, Darbyshire DP, Flinders J. Sources of post-orogenic calcalkaline magmas: The Arrochar and Garabal Hill–Glen Fyne complexes, Scotland. Lithos. 2009;112:524-42. Abstract. doi: 10.1016/j.lithos.2009.03.026
  2. Farmer GL, Walker JD, Ash J, Glazner A. Online Access to Western North American Igneous Rock Geochemical Data. Eos, Transactions, American Geophysical Union (EOS). 2009;90. doi: 10.1029/2009EO010002
  3. Renne PR, Deino AL, Hames WE, Heizler MT, Hemming SR, Hodges KV, et al. Data reporting norms for 40Ar/39Ar geochronology. Quaternary Geochronology. 2009;4:346-52. doi: 10.1016/j.quageo.2009.06.005
  4. VanLaningham S, Pisias NG, Duncan RA, Clift PD. Glacial-interglacial sediment transport to the Meiji Drift, northwest Pacific Ocean: Evidence for timing of Beringian outwashing. Earth and Planetary Science Letters. 2009;277:64-72. Abstract. doi: 10.1016/j.epsl.2008.09.033

2008

  1. Blard PH, Farley KA. The influence of radiogenic 4He on cosmogenic 3He determinations in volcanic olivine and pyroxene. Earth and Planetary Science Letters. 2008;276:20-9. doi: 10.1016/j.epsl.2008.09.003
  2. Olsen PE, Kent DV, Geissman JW. CPCP: Colorado Plateau Coring Project–100 Million Years of Early Mesozoic Climatic, Tectonic, and Biotic Evolution of an Epicontinental Basin Complex. Scientific Drilling. 2008. doi: 10.2204/iodp.sd.6.12.2008

2007

  1. Mysen BO. The solution behavior of H2O in peralkaline aluminosilicate melts at high pressure with implications for properties of hydrous melts. Geochimica et Cosmochimica Acta. 2007;71:1820-34. doi: 10.1016/j.gca.2007.01.007
  2. Takeuchi A, Larson PB, Suzuki K. Influence of paleorelief on the Mid-Miocene climate variation in southeastern Washington, northeastern Oregon, and western Idaho, USA. Palaeogeography, Palaeoclimatology, Palaeoecology. 2007;254:462-76. Abstract. doi: 10.1016/j.palaeo.2007.06.023

2006

  1. Ito G, Mahoney JJ. Melting a high 3He/4He source in a heterogeneous mantle. Geochemistry, Geophysics, Geosystems. 2006;7:Q05010. doi: 10.1029/2005GC001158
  2. Khan SD, Flower MF, Sultan MI, Sandvol E. Introduction to TETHYS–an interdisciplinary GIS database for studying continental collisions. Journal of Asian Earth Sciences. 2006;26:613-25. doi: 10.1016/j.jseaes.2004.12.001
  3. Mysen BO. Redox equilibria of iron and silicate melt structure: Implications for olivine/melt element partitioning. Geochimica et cosmochimica Acta. 2006;70:3121-38. doi: 10.1016/j.gca.2006.03.014
  4. Siddoway C, Ricci CA. Scientific Frontiers and Future Research Directions in Antarctic Geosciences. Terra Antartica Reports. 2006;12:1-7.
  5. Tikoff B, Van der Pluijm B, Hibbard J, Keller GR, Mogk D, Selverstone J, et al. An Integrated Geologic Framework for EarthScope’s USArray. EOS. 2006;87(23):221,224. doi: 10.1029/2006EO230001
  6. Walker JD, Bowers TD, Black RA, Glazner AF, Lang Farmer G, Carlson RW. A geochemical database for western North American volcanic and intrusive rocks (NAVDAT). Geoinformatics: Data to Knowledge. 2006;397:61-71.
  7. Wen L. A compositional anomaly at the Earth’s core–mantle boundary as an anchor to the relatively slowly moving surface hotspots and as source to the DUPAL anomaly. Earth and Planetary Science Letters. 2006;246:138-48. doi: 10.1016/j.epsl.2006.04.024

2005

  1. Jochum KP, Nohl U, Herwig K, Lammel E, Stoll B, Hofmann AW. GeoReM: a new geochemical database for reference materials and isotopic standards. Geostandards and Geoanalytical Research. 2005;29:333-8. doi: 10.1111/j.1751-908X.2005.tb00904.x

2004

  1. Cervato C, Goldstein SL, Grossman EL, Lehnert KA, McArthur JM. Joint discussion of sedimentary geochemistry data management systems that cross the waterline. Eos Trans. AGU. 2004;85. Abstract. doi: 10.1029/2004EO440004
  2. Wagener T, Sivapalan M, McDonnell J, Hooper R, Lakshmi V, Liang X, et al. Predictions in Ungauged Basins As a Catalyst for Multidisciplinary Hydrology. Eos, Transactions, American Geophysical Union (EOS). 2004;85. doi: 10.1029/2004EO440003