Publications

1. C. Shopen Gochev, D. Demory, A. Lopes dos Santos, M. C. G. Carlson, A. Gutiérrez-Rodríguez, J. S. Weitz, D. Lindell. Cold surface waters of the Sub-Antarctic Pacific Ocean support high cyanophage abundances and infection levels. Environmental Microbiology. 27: e70031. http://doi.org/10.1111/1462-2920.70031

2. S. J. Beckett, D. Demory, A. R. Coenen, J. R. Casey, C. L. Follet, M. Dugenne, P. Connell, M. C. G. Carlson, S. K. Hu, S. T. Wilson, D. Muratore, A. K. Boysen, E. Luo, R. Rodriguez, S. Peng, K. W. Becker, D. R. Mende, A. E. Ingalls, B. A. S. Van Mooy, J. P. Zehr, E. V. Armbrust, E. F. DeLong, D. A. Caron, D. Lindell, M. J. Follows, A. E. White, F. Ribalet, and J. S. Weitz (2024). Disentangling top-down drivers of mortality underlying diel population dynamics of Prochlorococcus in the North Pacific Subtropical Gyre. Nature Communications. 15: 2105. doi:10.1038/s41467-024-46165-3

3. J. Park, B. P. Durham, R. S. Key, R. D. Groussman, P. Pinedo-Gonzalez, N. J. Hawco, S. G. John, M. C. G. Carlson, D. Lindell, L. Juranek, S. Ferron, F. Ribalet, E. V. Armbrust, and R. M. Bundy (2023). Siderophore production and utilization by microbes in the North Pacific Ocean. Limnology and Oceanography. 68, 1636-1653. doi: 10.1002/lno.12373

4. N. Baran*, M. C. G. Carlson*, G. Sabehi, M. Peleg, K. Kondratyeva, I. Pekarski, and D. Lindell. (2022) Widespread yet persistent low abundance of TIM5-like cyanophages in the oceans. Environmental Microbiology. doi:10.1111/1462-2920.16210. *Authors contributed equally.

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5. M. C. G. Carlson, F. Ribalet, I. Maidanik, B. P. Durham, Y. Hulata, N. Baran, N. Shamir, S. Ferron, B. B. Cael, S. Goldin, D. M. Karl, A. E. White, E. V. Armbrust, D. Lindell. (2022) Viruses affect picocyanobacterial abundance and biogeography in the North Pacific Ocean. Nature Microbiology. 7: 570-580. doi:10.1038/s41564-022-01088-x.

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6. I. Maidanik, S. Kirzner, I. Pekarski, L. Arsenieff, R. Tahan, M. C. G. Carlson, D. Shitrit, N. Baran, S. Goldin, J. S. Weitz, and D. Lindell. (2022) Cyanophages from a less virulent clade dominate over their sister clade in global oceans. The ISME Journal. doi:10.1038/s41396-022-01259-y.

7. D. Shitrit, T. Hackl, R. Laurenceau, N. Raho, M. C. G. Carlson, G. Sabehi, D. A. Schwartz, S. W. Chisholm, and D. Lindell. (2022) Genetic engineering of marine cyanophages reveals integration but not lysogeny in T7-like cyanophages. The ISME Journal. 16: 488-499. doi:10.1038/s41396-021-01085-8.

8. N. Baran*, M. C. G. Carlson*, G. Sabehi, M. Peleg, K. Kondratyeva, I. Pekarski, and D. Lindell. (2022) Widespread yet persistent low abundance of TIM5-like cyanophages in the oceans. Environmental Microbiology. doi:10.1111/1462-2920.16210. *Authors contributed equally.

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9. M. C. G. Carlson, F. Ribalet, I. Maidanik, B. P. Durham, Y. Hulata, N. Baran, N. Shamir, S. Ferron, B. B. Cael, S. Goldin, D. M. Karl, A. E. White, E. V. Armbrust, D. Lindell. (2022) Viruses affect picocyanobacterial abundance and biogeography in the North Pacific Ocean. Nature Microbiology. 7: 570-580. doi:10.1038/s41564-022-01088-x.

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10. I. Maidanik, S. Kirzner, I. Pekarski, L. Arsenieff, R. Tahan, M. C. G. Carlson, D. Shitrit, N. Baran, S. Goldin, J. S. Weitz, and D. Lindell. (2022) Cyanophages from a less virulent clade dominate over their sister clade in global oceans. The ISME Journal. doi:10.1038/s41396-022-01259-y.

11. D. Shitrit, T. Hackl, R. Laurenceau, N. Raho, M. C. G. Carlson, G. Sabehi, D. A. Schwartz, S. W. Chisholm, and D. Lindell. (2022) Genetic engineering of marine cyanophages reveals integration but not lysogeny in T7-like cyanophages. The ISME Journal. 16: 488-499. doi:10.1038/s41396-021-01085-8.

12. N. Mruwat*, M. C. G. Carlson*, S. Goldin, F. Ribalet, S. Kirzner, Y. Hulata, S. Beckett, D. Shitrit, J. Weitz, E. V. Armbrust, and D. Lindell. (2021) A single-cell polony method reveals low levels of infected Prochlorococcus in oligotrophic waters despite high cyanophage abundances. The ISME Journal. 15: 41-54. doi:10.1038/s41396-020-00752-6. *Authors contributed equally

13. C. A. Fuchsman*, M. C. G. Carlson*, D. Garcia-Prieto, M. D. Hays, and G. Rocap. (2020) Cyanophage host-derived genes reflect contrasting selective pressures in the oxic/anoxic water column of the Eastern Tropical North Pacific. Environmental Microbiology. 23: 2782-2800. doi: 10.1111/1462-2920.15219. *Authors contributed equally

14. F. Ribalet, C. T. Berthiaume, A. Hynes, J. Swalwell, M. Carlson, S. Clayton, G. Hennon, C. Poirier, E. Shimabukuro, A. White, and E. V. Armbrust. (2019) SeaFlow data 1.0, high resolution abundance, size and biomass of small phytoplankton in the North Pacific. Scientific Data 6: 277. doi:10.1038/s41597-019-0292-2.

15. C. A. Fuchsman, H. I. Palevsky, B. Widner, M. Duffy, M. C. G. Carlson, J. A. Neibauer, M. R. Mulholland, R. G. Keil, A. H. Devol, and G. Rocap. (2019) Cyanobacteria and cyanophage contributions to carbon and nitrogen cycling in an oligotrophic oxygen-deficient zone. The ISME Journal. 13: 2714-2726. doi:10.1038/s41396-019-0452-6.

16. B. B. Cael, M. C. G. Carlson, C. L. Follett, and M. J. Follows. (2018) Marine virus-like particles and microbes: A linear interpretation. Frontiers in Microbiology. 9: 358. doi: 10.3389/fmicb.2018.00358.

17. M. C. Carlson, N. D. McCary, T. S. Leach, G. and Rocap. (2016) Pseudo-nitzschia challenged with co-occurring viral communities display diverse infection phenotypes. Frontiers in Microbiology 7: 527. doi:10.3389/fmicb.2016.00527.