Entries

Du, M.,  J. Wang, Y. Jin, J. Fan, S. Zan, and Z. Li. 2022. Response mechanism of microbial community during anaerobic biotransformation of marine toxin domoic acid. Environ. Res. 215: 114410.

Clark, S., K.A. Hubbard, D.K. Ralston, D.J. McGillicuddy, Jr., C. Stock, M.A. Alexander, and E. Curchitser. 2022. Projected effects of climate change on Pseudo-nitzschia bloom dynamics in the Gulf of Maine. J. Mar. Syst. 230: 103737. [discusses Pseudo-nitzschia australis]

Price, Chesney. 2022. Detecting potentially neurotoxic Pseudo-nitzschia species in the Grand Strand area. Bachelor of Arts Honors Thesis 441. Coastal Carolina University, South Carolina. [includes Pseudo-nitzschia delicatissima, P. pungens, P. simulans]

Liu, C., X. Zhang, and X. Wang. 2022. DNA metabarcoding data reveals harmful algal‑bloom species undescribed previously at the northern Antarctic Peninsula region. Polar Biol. 45: 1495-1512. [includes Pseudo-nitzschia sp.]

Vinayak, V., P.V. Bhaskar, L.K. Pandey, and M.J. Khan. 2022. Diatoms: the living jewels and their biodiversity, phycosphere and associated phenotypic plasticity: a lesson to learn from the current pandemic of Coronavirus, p. 385-429. In: Kaur, S., D. Batish, H. Singh, and R. Kohli [eds] Biodiversity in India: status, issues and challenges. Springer, Singapore. [includes Pseudo-nitzschia, domoic acid]

Aboualaalaa, H., M. L'Bachir El kbiach, B. Rijal Leblad, F. Hervé, A. Hormat-Allah, L. Baudy, I. Ennaskhi, I. Hammi, M. Ibghi, H. Elmortaji, E. Abadie, J.L. Rolland, Z. Amzil, and M. Laabir. 2022. Development of harmful algal blooms species responsible for lipophilic and amnesic shellfish poisoning intoxications in southwestern Mediterranean coastal waters. Toxicon 219: 106916. [includes Pseudo-nitzschia spp., domoic acid

Petroff, R.L., C. Williams, J.-L. Li, J.W. MacDonald, T.K. Bammler, T. Richards, C.N. English, A. Baldessari, S. Shum, J. Jing, N. Isoherranen, B. Crouthamel, N. McKain, K.S. Grant, T.M. Burbacher, and G.J. Harry. 2022. Prolonged, low-level exposure to the marine toxin, domoic acid, and measures of neurotoxicity in nonhuman primates. Environ. Health Perspect. 130: 097003.

Grattan, L.M. 2022. Invited perspective: the relevance of animal models of domoic acid neurotoxicity to human health. Environ. Health Perspect. 130: 91302.

Geng, Z. and H. Li. 2022. The impact of climate change on the bioavailability of environmental toxins and their toxicological effects. Highlights Sci. Engin. Technol. 6: 33-44. [includes Pseudo-nitzschia, domoic acid]

Zvereva, E.A., O.D. Hendrickson, O.N. Solopova, A.V. Zherdev, P.G. Sveshnikov, and B.B. Dzantiev. 2022. Triple immunochromatographic test system for detection of priority aquatic toxins in water and fish. Analyt. Bioanalyt. Chem. 414: 7553-7563. [includes domoic acid]