2025
Goldmann, S., Michaud, J. A. S., Krummacker, T., Zhang, C., Holtz, F., Khudeir, A. A., Hamid, S., & El-Rus, M. A. (2025). Nb-Ta-Sn oxides as markers of magmatic fractionation and magmatic-hydrothermal evolution: The example of the Nuweibi granite intrusion, Eastern Desert, Egypt. Geochemistry, 85(2), Artikel 126215. https://doi.org/10.1016/j.chemer.2024.126215
Gonzalez, J. P., Kitajima, K., Blum, T. B., Shimizu, K., Almeev, R. R., Nachlas, W. O., Kamo, S. L., Sobolev, A. V., Holtz, F., Spicuzza, M. J., Bonamici, C., & Valley, J. W. (2025). The effects of experimental heating and alteration on melt inclusions in magmatic zircon. Chemical geology, 690, Artikel 122900. https://doi.org/10.1016/j.chemgeo.2025.122900
Hadlich, I. W., Bastos Neto, A. C., Pereira, V. P., Dill, H. G., & Botelho, N. F. (2025). The Diversity of Rare-Metal Pegmatites Associated with Albite-Enriched Granite in the World-Class Madeira Sn-Nb-Ta-Cryolite Deposit, Amazonas, Brazil: A Complex Magmatic-Hydrothermal Transition. Minerals, 15(6), Artikel 559. https://doi.org/10.3390/min15060559
Hohl, S. V., Bian, X., Viehmann, S., Yang, S.-C., Raad, R. J., Meister, P., & John, S. G. (2025). A novel biomarker for deep-time methanogenesis: perspectives from nickel isotope fractionation in modern microbialites. Earth and Planetary Science Letters, 666, Artikel 119492. https://doi.org/10.1016/j.epsl.2025.119492
Jin, Z., Hou, T., Zhu, M. H., Zhang, Y., & Namur, O. (2025). Late-stage microstructures in Chang' E-5 basalt and implications for the evolution of lunar ferrobasalt. American mineralogist, 110(4), 560-569. https://doi.org/10.2138/am-2024-9448
Kaufmann, A. B., Weyer, S., Viehmann, S., Marxer, F., Horn, I., Rudnick, R. L., Vymazalova, A., Kiefer, S., Majzlan, J., & Lazarov, M. (2025). The antimony isotope composition of Earth's mantle and crust. Chemical Geology, 692, Artikel 122959. https://doi.org/10.1016/j.chemgeo.2025.122959
Klamt, V., Kraemer, D., Fernandez, O., Horn, I., Hohl, S. V., Weyer, S., & Viehmann, S. (2025). The stable U-Mo-Fe isotope records of Middle Jurassic hydrogenetic ferromanganese deposits. Chemical Geology, 684, Artikel 122795. https://doi.org/10.1016/j.chemgeo.2025.122795
Koch, L., Almeev, R. R., Linsler, S. A., Marxer, F., & Holtz, F. (2025). The effect of H2O on the crystallization of orthopyroxene in a high-Mg andesitic melt. American mineralogist, 110(12), 2007–2016. https://doi.org/10.2138/am-2024-9593
Koepke, J., Feig, S. T., Berndt, J., & Almeev, R. R. (2025). Partial melting of hydrated harzburgite at shallow pressures: An option to produce melts with boninitic characteristics. LITHOS, 498-499, Artikel 107979. https://doi.org/10.1016/j.lithos.2025.107979
Krayer, J. K., Jodder, J., Hofmann, A., Weyer, S., Willbold, M., Schulz, T., Koeberl, C., & Viehmann, S. (2025). The influence of mafic and felsic crust on the seawater chemistry ca. 3.0 billion years ago: Evidence from Nd isotopes in banded iron formations from the Murchison Greenstone Belt. Precambrian research, 418, Artikel 107701. https://doi.org/10.1016/j.precamres.2025.107701
