Phytoplankton Ecophysiology and Biogeochemistry

Publications

• Borowitzka, M. A., Pueschel, C. M., Cornwall, C. E., Comeau, S., Kranz, S. A., Spindel, N., & McCoy, S. (submitted). Calcification in the Coralline Red Algae: A Synthesis. Journal of Experimental Botany. Manuscript submitted for publication, 34 pages.
• [38] Zhang, F., Wen, Z., Wang, S., Tang, W., Luo, Ya-Wei, Kranz, S. A., Hong, H., & Shi, D. (2022). Phosphorus limitation intensifies negative effects of ocean acidification on the nitrogen fixer Trichodesmium. Nature Communications (13), Article number: 6730
• [37] Yingling, N., Kelly, T., Shropshire, T., Landry, M., Selph, K., Knapp, A., Kranz, S. A., & Stukel, M. (2022). Taxon-Specific Phytoplankton Growth, Nutrient Utilization, and Light Limitation in the Oligotrophic Gulf of Mexico. Journal of Plankton Research, 48.
• [36] Elshall, A., Ye, M., Kranz, S. A., , Harrington, J., Yang, X., Wan, Y., & Maltrud, M. (2022). Application-specific optimal model weighting of global climate models: A red tide example. Climate Services, 28, 1-13. doi:https://doi.org/10.1016/j.cliser.2022.100334
• [35] BOOK CHAPTER: Rokitta, S., Kranz, S. A., & Rost, B. (2022). Inorganic carbon acquisition by aquatic primary producers. In S. Marbely and B. Gontero In: Blue Planet, Red and Green London, ISTE-Wiley, 55 p., ISBN: 9-781-78945-082-8 . (Ed.), Blue Planet, Red and Green Photosynthesis (pp. 55). Wiley.
• [34] Elshall, A., Ye, M., Kranz, S. A., Harrington, J., Yang, Z., & Wan, Y. (2022). Earth system models for regional environmental management: Prospects and limitations of the current generation of CMIP6 and next generation development. Environmental Earth Sciences, 29.
• [33] *Bercel, T. L., & Kranz, S. A. (2022). Effects of spectral light quality on the growth, productivity, and elemental ratios in differently pigmented marine phytoplankton species. Journal of Applied Phycology, 29.
• [32] Elshall, A. S., Ye, M., Kranz, S. A., Harrington, J., Yang, X., Wan, Y., & Maltrud, M. (2022). Prescreening-Based Subset Selection for Improving Predictions of Earth System Models With Application to Regional Prediction of Red Tide. Frontiers in Earth Science, 10, 19. doi:DOI: 10.3389/feart.2022.786223
• [31] Ingles, J., Aronson, R., Smith, C., Baco-Taylor, A., Bik, H., Blake, J., Brandt, A., Cape, M., Demaster, D., Dolan, E., Domack, E., Fire, S., Geisz, H., Gigliotti, M., Griffiths, H., Halanych, K., Havermans, C., Huettemann, F., Kranz, S. A., & and others. (2021). Antarctic Ecosystem Responses following Ice Shelf Collapse and Iceberg Calving: Science Review and Future Research. Frontiers in Marine Science.
• [30] Chissel, E., Kranz, S. A., & McCoy, S. (2021). Rhodolith holobionts are not sources of fixed nitrogen in a northeastern Gulf of Mexico patch reef. Bulletin of Marine Science, 22.
• [29] Kranz, S. A., Wang, S., Kelly, T., Stukel, M. R., Goerike, R., Landry, M., & Cassar, N. (2020). Lagrangian studies of marine production: a multi-method assessment of productivity relationships in the California Current Ecosystem upwelling region. Journal of Geophysical Research - Oceans, 43. doi:doi: 10.1029/2019JC015984
• [28] Wang, S., Kranz, S. A., Kelly, T., Song, H., Stukel, M., & Cassar, N. (2020). Lagrangian studies of net community production: assessing the effect of diel and multi-day non-steady state factors and vertical fluxes. Journal of Geophysical Research: Biogeosciences. doi:https://doi.org/10.1029/  
• [27] Bourassa, M. A., Meissner, T., Cerovecki, I., Chang, P., Xiaolong, D., De Chiara, G., Donlon, C., Dukhovskoy, D. S., Elya, J., Fewings, M. R., Foster, R. C., T Gille, S., Haus, B., Holbach, H. M., Jelenak, Z., Knaff, J., Kranz, S. A., Mazloff, M., Stukel, M., & and others (FEAS limits authors). (2019). Remotely Sensed Winds and Wind Stresses for Marine Forecasting and Ocean Modeling. Frontiers in Marine Science, 6, 1-28.
• [26] Zhang, F., Hong, H., Kranz, S. A., Shen, R., Lin, W., & Shi, D. (2019). Proteomic responses to ocean acidification of the marine diazotroph Trichodesmium under iron-replete and iron-limited conditions. Photosynthesis Research, 142, 17–34.
• [25] Luo, Ya-Wei, Shi, D., Kranz, S. A., Hopkinson, B. M., Hong, H., Shen, R., & Zhang, F. (2019). Reduced nitrogenase efficiency dominates the response of the globally important nitrogen fixer Trichodesmium to ocean acidification. Nature Communications, 10:1521, 1-12.
• [24] *Bercel, T. L., & Kranz, S. A. (2019). Insights into carbon acquisition and photosynthesis in Karenia brevis under a range of CO2 concentrations. Progress in Oceanography, 172, 65-76.
• [23] Van de Waal, Dedmer B., Brandenburg, K. M., Keuskamp, J., Trimborn, S., Rokitta, S., Kranz, S. A., & Rost, B. (2019). Highest plasticity of carbon‐concentrating mechanisms in earliest evolved phytoplankton. Limnology and Oceanography Letters, 4, 37-43.
• [22] Shi, D., Shen, R., Kranz, S. A., Morel, F., & Hong, H. (2017). Response to Comment on "The complex effects of ocean acidification on the prominent N2-fixing cyanobacterium Trichodesmium". Science, 357(6356), 1-2.
• [21] Hong, H., Shen, R., Zhang, F., Wen, Z., Chang, S., Lin, W., Kranz, S. A., Luo, Ya-Wei, Kao, Shuh-Ji, Morel, F., & Shi, D. (2017). The complex effects of ocean acidification on the dominant N2-fixing cyanobacterium Trichodesmium. Science, 356(6337), 527-531.
• [20] Petrou, K., Kranz, S. A., Trimborn, S., Hassler, C. S., Blanco Ameijeiras, S., Sackett, O., Ralph, P. J., & Davidson, A. T. (2016). Southern Ocean phytoplankton physiology in a changing climate. Journal of Plant Physiology, 203, 135-150.
• [19] Young, J. N., Kranz, S. A., Goldman, J. A. L., Tortell, P. D., & Morel, F. M. M. (2015). Antarctic phytoplankton down-regulate their carbon concentrating mechanisms under high CO2 with no change in growth rates. Marine Ecology Progress Series, 532, 13-28.
• [18] Mackey, K. R. M., Morris, J. J., Morel, F. M. M., & Kranz, S. A. (2015). Response of photosynthesis to ocean acidification. Oceanography, 28(2), 74–91.
• [17] Eichner, M., Thoms, S., Kranz, S. A., & Rost, B. (2015). Cellular inorganic carbon fluxes in Trichodesmium: a combined approach using measurements and modelling. Journal of Experimental Botany, 66(3), 749-759.
• [16] Goldman, J. A. L., Kranz, S. A., Young, J. N., Tortell, P. D., Stanley, R. H. R., Bender, M. L., & Morel, F. M. M. (2015). Gross and net production during the spring bloom along the Western Antarctic Peninsula. New Phytologist, 205(1), 182-191.
• [15] Kranz, S. A., Young, J. N., Hopkinson, B. M., Goldman, J. A. L., Tortell, P. D., & Morel, F. M. M. (2015). Low temperature reduces the energetic requirement for the CO2 concentrating mechanism in diatoms. New Phytologist, 205(1), 192-201.
• [14] Young, J. N., Goldman, J. A. L., Kranz, S. A., Tortell, P. D., & Morel, F. M. M. (2015). Slow carboxylation of Rubisco constrains the rate of carbon fixation during Antarctic phytoplankton blooms. New Phytologist, 205(1), 172-181.  
• [13] Eichner, M., Kranz, S. A., & Rost, B. (2014). Combined effects of different CO2 levels and N sources on the diazotrophic cyanobacterium Trichodesmium. Physiologia Plantarum, 152(2), 316-330.
• [12] Eichner, M., Rost, B., & Kranz, S. A. (2014). Diversity of ocean acidification effects on marine N-2 fixers. Journal of Experimental Marine Biology and Ecology, 457, 199-207.
• [11] Tortell, P. D., Asher, E. C., Dicklow, H. W., Goldman, J. A. L., Dacey, J. W. H., Grzymski, J. J., Young, J. N., Kranz, S. A., Bernard, K. S., & Morel, F. M. M. (2014). Metabolic balance of coastal Antarctic waters revealed by autonomous pCO2 and Delta O2/Ar measurements. Geophysical Research Letters, 41(19), 6803-6810.
• [10] Trimborn, S., Thoms, S., Petrou, K., Kranz, S. A., & Rost, B. (2014). Photophysiological responses of Southern Ocean phytoplankton to changes in CO2 concentrations: Short-term versus acclimation effects. Journal of Experimental Marine Biology and Ecology, 451, 44-54.
• [9] Shi, D. L., Kranz, S. A., Kim, J.-M., & Morel, F. M. M. (2012). Ocean acidification slows nitrogen fixation and growth in the dominant diazotroph Trichodesmium under low-iron conditions. Proceedings of the National Academy of Sciences of the United States of America, 109(45), E3094-E3100. doi:10.1073/Pnas.1216012109
• [8] Petrou, K., Kranz, S. A., Doblin, M. A., & Ralph, P. J. (2012). Photophysiological Responses of Fragilariopsis Cylindrus (Bacillariophyceae) to Nitrogen Depletion at Two Temperatures. Journal of Phycology, 48(1), 127-136. doi:10.1111/J.1529-8817.2011.01107.X
• [7] Kranz, S. A., Eichner, M., & Rost, B. (2011). Interactions between CCM and N2 fixation in Trichodesmium. Photosynthesis Research, 109(1-3), 73-84. doi:10.1007/S11120-010-9611-3
• [6] Kranz, S. A., Wolf-Gladrow, D., Nehrke, G., Langer, G., & Rost, B. (2010). Calcium carbonate precipitation induced by the growth of the marine cyanobacterium Trichodesmium. Limnology and Oceanography, 55(6), 2563-2569.
• [5] Levitan, O., Kranz, S. A., Spungin, D., Prasil, O., Rost, B., & Berman-Frank, I. (2010). Combined effects of CO2 and light on the N2-fixing cyanobacterium Trichodesmium IMS101: A Mechanistic View. Plant Physiology, 154(1), 346-356. doi:10.1104/pp.110.159285
• [4] Kranz, S. A., Levitan, O., Richter, K.-U., Prasil, O., Berman-Frank, I., & Rost, B. (2010). Combined effects of CO2 and light on the N2-fixing cyanobacterium Trichodesmium IMS101: Physiological responses. Plant Physiology, 154(1), 334-345. doi:10.1104/pp.110.159145
• [3] BOOK-CHAPTER: Ralph, P. J., Wilhelm, C., Lavaud, J., Jakob, T., Petrou, K., & Kranz, S. A. (2010). Fluorescence as a Tool to Understand Changes in Photosynthetic Electron Flow Regulation. In David J. Sugget, Ondrej Prasil, & Michael A. Borowitzka (Eds.), Chlorophyll a Fluorescence in Aquatic Science: Methods and Applications (pp. 75-89). Chlorophyll a Fluorescence in Aquatic Sciences: Methods and Applications. Springer
• [2] Kranz, S. A., Sültemeyer, D., Richter, K. -U., & Rost, B. (2009). Carbon acquisition in Trichodesmium: the effect of pCO2 and diurnal changes. Limnology and Oceanography, 54(3), 548-559.
• [1] Rost, B., Kranz, S. A., Richter, K.-U., & Tortell, P. D. (2007). Isotope disequilibrium and mass spectrometric studies of inorganic carbon acquisition by phytoplankton. Limnology and Oceanography Methods, 5, 328-337.