Publication

Publications

Citation number (as of November 2025): 304

  1. Sugiyama, I., & Halevy, I. (TBD). Interaction of transition metals with carbonate green rust: Environmental applications and insights into ancient oceans. Chemical Geology (accepted with revisions; manuscript available on request). 

  2. Sugiyama, I., & Halevy, I. (2025). Interaction of metal oxyions and phosphate with carbonate green rust: Insights into Earth’s modern and ancient environments. Geochimica et Cosmochimica Acta, 397, 96-112.

  3. Lara-Gutiérrez, J., Nguyen, J., McIlvin, M.R., Sugiyama, I., Landry, Z., Alcolombri, U., Keegstra, J.M., Pontrelli, S., Jiménez-Martínez, J., Sauer, U. and Hwa, T., 2025. Growth in Low Carbon Conditions Reveals Amino-Acid-Coupled Iron Uptake. bioRxiv, pp.2025-01 (accepted at PNAS with revisions).

  4. Fakhraee, M., Crockford, P.W., Bauer, K.W., Pasquier, V., Sugiyama, I., Katsev, S., Raven, M.R., Gomes, M., Philippot, P., Crowe, S.A. and Tarhan, L.G., 2025. The history of Earth’s sulfur cycle. Nature Reviews Earth & Environment, 6(2), pp.106-125.

  5. Sugiyama, I. and Halevy, I., 2024. Long-term interaction of metals and phosphate with ferrihydrite in artificial seawater and implications for past and present environments. Chemical Geology, 670, p.122448.

  6. Kell, R.M., Chmiel, R.J., Rao, D., Moran, D.M., McIlvin, M.R., Horner, T.J., Schanke, N.L., Sugiyama, I., Dunbar, R.B., DiTullio, G.R. and Saito, M.A., 2024. High metabolic zinc demand within native Amundsen and Ross sea phytoplankton communities determined by stable isotope uptake rate measurements. Biogeosciences, 21(24), pp.5685-5706.

  7. Sugiyama, I., 2022. Exploring the effects of ferrihydrite and green rust on metal and phosphate budgets in modern and

    ancient environments. Weizmann Institute of Science.

  8. Sanz-Robinson, J., Sugiyama, I. and Williams-Jones, A.E., 2020. The solubility of palladium (Pd) in crude oil at 150, 200 and 250 C and its application to ore genesis. Chemical Geology, 531, p.119320.

  9. Crede, L.S., Evans, K.A., Rempel, K.U., Grice, K. and Sugiyama, I., 2019. Gold partitioning between 1-dodecanethiol and brine at elevated temperatures: Implications of Au transport in hydrocarbons for oil-brine ore systems. Chemical Geology, 504, pp.28-37.

  10. Sugiyama, I. and Williams-Jones, A.E., 2018. An approach to determining nickel, vanadium and other metal concentrations in crude oil. Analytica chimica acta, 1002, pp.18-25.

  11. Migdisov, A.A., Guo, X., Xu, H., Williams-Jones, A.E., Sun, C.J., Vasyukova, O., Sugiyama, I., Fuchs, S., Pearce, K. and Roback, R., 2017. Hydrocarbons as ore fluids.

  12. Crockford, P.W., Cowie, B.R., Johnston, D.T., Hoffman, P.F., Sugiyama, I., Pellerin, A., Bui, T.H., Hayles, J., Halverson, G.P., Macdonald, F.A. and Wing, B.A., 2016. Triple oxygen and multiple sulfur isotope constraints on the evolution of the post-Marinoan sulfur cycle. Earth and Planetary Science Letters, 435, pp.74-83.

  13. Sugiyama, I., 2016. Metal transport by oil: application to ore genesis. McGill University (Canada).

Submitted

  1. Sugiyama, I., & Halevy, I. (TBD). Interaction of transition metals with carbonate green rust: Environmental applications and insights into ancient oceans. Chemical Geology (accepted with revisions; manuscript available on request). 

  2. Lara-Gutiérrez, J., Nguyen, J., McIlvin, M.R., Sugiyama, I., Landry, Z., Alcolombri, U., Keegstra, J.M., Pontrelli, S., Jiménez-Martínez, J., Sauer, U. and Hwa, T., 2025. Growth in Low Carbon Conditions Reveals Amino-Acid-Coupled Iron Uptake. bioRxiv, pp.2025-01 (accepted at PNAS with revisions).

  3. Crockford, P., Sugiyama, I., Kipp, M., Hao, J., and Fakhraee, M. How great was Earth’s great oxidation. Nature Communica-

    tions Earth and Environment (under review; COMMSENV-24-4189).

In preparation

  1. Sugiyama, I., Gregoire, D., Brady, A., and Rizo, H. Global biogeochemical cycle of tungsten – Past, present and future. Global Biogeochemical Cycles (invited by BGC).

  2. Sugiyama, I., Lopez, P., McIlvin, M., Zakem, E., Santoro, A., Horner, T.H., and Saito, M. Microbial copper demand in the mesopelagic and its effect on residence time (planned submission to Nature).

  3. Sugiyama, I., Santoro, A., Horner, T.H., and Saito, M. Controls on distributions of iron, nickel, copper, zinc, and cadmium in the Eastern Tropical Pacific along CliOMZ transect AT50-10 (TBD).

  4. Sugiyama, I., Lopez, P., McIlvin, M., Zakem, E., Santoro, A., Horner, T.H., and Saito, M. Microbial metal demand in the Eastern Tropical Pacific assessed using iron and copper isotopes (planned submission to EGU Biogeosciences).

  5. Sugiyama, I., Exploring the role of ferrihydrite and carbonate green rust in controlling metal and nutrient budgets in Precambrian oceans (TBD).

  6. Sugiyama, I., Elkassas, S., McIlvin, M., Huber, J., and Saito, M. The first metalloproteome of an alkaliphilic and methanogenic archaeon (TBD).

  7. Saito, M., Steck, V., and Sugiyama, I., Metal Specificity and Cambialism: Metal Substitution in Metalloenzymes and the Biochemical, Biogeochemical, and Ecological Contexts (invited by Metallomics).

  8. Zhao, R., Sugiyama, I., Saito, M., Babbin, A., Biological cycling in Antarctic lakes (TBD).

  9. Sugiyama, I., Zhao, R., Saito, M., Babbin, A., Trace metal cycling in Antarctic lakes (TBD).