Entries

Dudek, K.L., B.N. Cruz, B. Polidoro, and S. Neuer. 2020. Microbial colonization of microplastics in the Caribbean Sea. Limnol. Oceanogr. Lett. 5: 5-17. [includes Pseudo-nitzschia sp.]

Shams El‑Din, N.G., M.M. El‑Sheekh, H.Y. El‑Kassas, D.I. Essa, and B.A. El‑Sherbiny. 2022. Biological indicators as tools for monitoring water quality of a hot spot area on the Egyptian Mediterranean coast. Arabian J. Geosci. 15: 1485. [includes Pseudo-nitzschia sp.]

Ramírez, F.J., V.A. Guinder, C. Ferronato, and B. Krock. 2022. Increase in records of toxic phytoplankton and associated toxins in water samples in the Patagonian Shelf (Argentina) over 40 years of field surveys. Harmful Algae 118: 102317. [includes Pseudo-nitzschia australis, P. calliantha, P. fraudulenta, P. multiseries, P. pseudodelicatissima, P. pungens, P. turdigula, domoic acid]

Kenkel, C.D., J. Smith, K.A. Hubbard, C. Chadwick, N. Lorenzen, A.O. Tatters, and D.A. Caron. 2022. Reduced representation sequencing accurately quantifies relative abundance and reveals population-level variation in Pseudo-nitzschia spp. Harmful Algae 118: 102314.

Kourantidou, M., D. Jin, and E.J. Schumacker. 2022. Socioeconomic disruptions of harmful algal blooms in indigenous communities: the case of Quinault Indian nation. Harmful Algae 118: 102316 [discusses Pseudo-nitzschia, domoic acid]

Fukuyo, Y., M. Kodama, T. Omura, K. Furuya, E.F. Furio, M. Cayme, P.T. Lim, V.H. Dao, Y. Kotaki, K. Matsuoka, M. Iwataki, R. Sriwoon, and T. Lirdwitayaprasit. 2011. Ecology and oceanography of harmful marine microalgae (Project-2), p. 000-000.  S. Nishida, M.D. Fortes, and N. Miyazaki [eds] Coastal Marine Science in Southeast Asia —Synthesis Report of the Core University Program of the Japan Society for the Promotion of Science: Coastal Marine Science (2001–2010). Terrapub. [review of domoic acid and Pseudo-nitzschia in Southeast Asia]

Wang, Q.F., L.J. Liang, J.B. Sun, and J. Zhou. 2022. Application of a reversed-phase ionic liquid dispersive liquid-liquid microextraction method for the extraction and preconcentration of domoic acid from urine samples. Heliyon 8: e10152.

Wang, Q.F., L.J. Liang, J.B. Sun,  and J. Zhou. 2022. Application of a reversed-phase ionic liquid dispersive liquid-liquid microextraction method for the extraction and preconcentration of domoic acid from urine samples. Heliyon 8: e10152.

Kolody, B.C., S.R. Smith, L.Z. Allen, J.P. McCrow, A. Moustafa, D. Shi, B.M. Hopkinson, F.M.M. Morel, B.B. Ward, and A.E. Allen. 2022. Nitrogen and iron availability drive metabolic remodeling and natural selection of diverse phytoplankton during experimental upwelling. Environ. Microbiol. 7: e00729-22. [includes Pseudo-nitzschia spp.]

Sharma, D., H. Biswas, M. Chowdhury, S. Silori, M. Pandey and D. Ray. 2022. Phytoplankton community shift in response to experimental Cu addition at the elevated CO₂ levels (Arabian Sea, winter monsoon). Environ. Sci. Pollut. Res. [includes Pseudo-nitzschia sp.] (in press)