Liste de référence - Aspects chimiques et dosage de l'acide domoïque
Kwok, J., S. Zhou, V. Xiong, and W. Wang. 2024. Predicting dangerous biotoxin levels along the coast of British Columbia: achieving food sovereignty and safety for coastal Indigenous communities. Report, University of British Columbia. ENVR 400, 58 p. [includes Pseudo-nitzschia spp., domoic acid]
Deschler, M., C. Boulangé-Lecomte, A. Duflot, A. Sauvey, C. Arcanjo, R. Coulaud, O. Jolly, N. Niquil, and J. Fauchot. 2024. First evidence of the induction of domoic acid production in Pseudo-nitzschia australis by the copepod Temora longicornis from the French coast. Harmful Algae 135: 102628.
Hala, E. and R. Bakiu. 2024. Adriatic Sea fishery product safety and prospectives in relation to climate change. Fishes 9: 160. [includes Pseudo-nitzschia, domoic acid]
Seuront, L., S. Henry, E. Breton, N. Spilmont, and F. Elias. 2024. Marine foams impede metabolic and behavioural traits in the rough periwinkle Littorina saxatilis. Mar. Environ. Res. 197: 106486. [includes domoic acid]
Ryderheim, F. and T. Kiørboe. 2024. Intraspecific genetic diversity and coexistence in phytoplankton populations. Limnol. Oceanogr. 9999: 1-14. [includes Pseudo-nitzschia multistrata, P. multistriata, P. seriata]
Chaturvedi, S., B. Chakraborty, L. Min, A. Kumar, B. Pathak, R. Kumar, and Z.-G. Yu. 2024. Exploring the dynamic microbial tapestry of South Asian rivers: insights from the Ganges and Yamuna ecosystems. Ecohydrology 2024;e2662. [includes Pseudo-nitzschia australis, domoic acid]
Lie, A.A.Y., A.G. Zimmer-Faust, R.E. Diner, E. Kunselman, Z. Daniel, K. Van Artsdalen, M.C. Salas Garcia, J.A. Gilbert, D. Shultz, J. Chokry, K. Langlois, and J. Smith. 2024. Understanding the risks of co-exposures in a changing world: a case study of dual monitoring of the biotoxin domoic acid and Vibrio spp. in Pacific oyster. Environ. Monit. Assess. 196: 447.
Moore, S.K., M. Broadwater, C. Cha, Q. Dortch, C.J. Harvey, K.C. Norman, J. Pearce, C. Pomeroy, and J.F. Samhouri. 2024. Exploring the human dimensions of harmful algal blooms through a well-being framework to increase resilience in a changing world. PLOS Clim 3: e0000411. [includes Pseudo-nitzschia, domoic acid]
Pope, E.K., L.J. Bigelow, and P.B. Bernard. 2024. Glutamatergic neurotransmission and toxicity: domoic acid and kainic acid (glutamic acid analogs), p. 91-128. In: K.N. Woodward and T. Marrs [eds]. Neurotransmitters and toxicology, Volume 48, Royal Society of Chemistry.
Williams, D.C., M. Haulena, S. Dennison, L. Waugh, T. Goldstein, F. Nutter, B. Van Bonn, V. Hoard, K.D. Laxer, P.S. Buckmaster, F.M. D. Gulland, and B. Tharp. 2023. Pinniped electroencephalography: methodology and findings in California sea lions (Zalophus californianus). Front. Vet. Sci. 10: 1040125. [discusses domoic acid]
Zhou, C.-Y., C.-G. Pan, F.-J. Peng, R.-G. Zhu, J.-J. Hu. and K. Yu. 2024. Simultaneous determination of trace marine lipophilic and hydrophilic phycotoxins in various environmental and biota matrices. Marine Pollution Bulletin 203 (2024) 116444. [includes domoic acid]
Chaturvedi, S., B. Chakraborty, L. Min, A. Kumar, B. Pathak, R. Kumar, and Z.-G. Yu. 2024. Exploring the dynamic microbial tapestry of South Asian rivers: insights from the Ganges and Yamuna ecosystems. Ecohydrology 2024: e2662. [includes Pseudo-nitzschia australis, domoic acid]
Seuront, L., S. Henry, E. Breton, N. Spilmont, and F. Elias. 2024. Marine foams impede metabolic and behavioural traits in the rough periwinkle Littorina saxatilis. Marine Environ. Res. 197: 106486. [includes domoic acid]
Li, Z., J. Wang, H. Yue, A. Rehman, M. Yousaf, M. Du, and X. Zhang. 2024. Applying metabolic modeling and multi-omics to elucidate the biotransformation mechanisms of marine algal toxin domoic acid (DA) in sediments. J. Hazard. Mat. 472: 134541.
You, S., L. Xing, M. Lesperance, Y. Pan, and X. Zhang. 2024. Temporal and spatial variation of domoic acid along Canada's coast. Sci. Total Environ. (in press). [includes Pseudo-nitzschia, domoic acid]
Williams, D.C., M. Haulena, S. Dennison, L. Waugh, T. Goldstein, F. Nutter, B. Van Bonn, V. Hoard, K.D. Laxer, P.S. Buckmaster, F.M.D. Gulland, and B. Tharp. 2023. Pinniped electroencephalography: methodology and findings in California sea lions (Zalophus californianus). Front. Vet. Sci. 10: 1040125. [discusses domoic acid]
Rosales, S.A., P.A. Díaz, P. Muñoz, and G. Álvarez. 2024. Modeling the dynamics of harmful algal bloom events in two bays from the northern Chilean upwelling system. Harmful Algae 132: 102583. [discusses Pseudo-nitzschia australis]
von Dassow, P.M. Mikhno, I. Percopo, V.R. Orellana, V. Aguilera, G. Álvarez, M. Araya, S. Cornejo-Guzmán, T. Llona, J.I. Mardones, L. Norambuena, V. Salas-Rojas, W.H.C.F. Kooistra, M. Montresor, and D. Sarno. 2023. Diversity and toxicity of the planktonic diatom genus Pseudo-nitzschia from coastal and offshore waters of the Southeast Pacific, including Pseudo-nitzschia dampieri sp. nov. Harmful Algae 130: 102520. [discusses Pseudo-nitzschia australis, P. bucculenta, P. cf. chiniana, P. cf. decipiens, P. fraudulenta, P. hasleana, P. multistriata, P. plurisecta, P. cf. sabit, P. dampieri sp. nov.; domoic acid]
García-Corona, J.L., H. Hegaret, M. Lassudrie, A. Derrien, A. Terre-Terrillon, T. Delaire, and C. Fabioux. 2024. Comparative study of domoic acid accumulation, isomer content and associated digestive subcellular processes in five marine invertebrate species. Aquat. Toxicol. 266: 106793.
Flores-Holguín, N., J.S. Salas-Leiva, E.J. Núñez-Vázquez, D. Tovar-Ramírez, and D. Glossman-Mitnik. 2023. Exploring marine toxins: comparative analysis of chemical reactivity properties and potential for drug discovery. Front. Chem. 11: 1286804. [includes domoic acid]
Thukral, Monica. 2023. The molecular and chemical ecology of phytoplankton blooms in coastal California. University of California, San Diego. Thesis. [includes Pseudo-nitzschia]
Wang, Y., Y. Zhang, J. Wang, W. Liu, H. Wang, M. Song, H. Zhang, and X. Wang. 2024. In situ monitoring of toxic effects of algal toxin on cells by a novel microfluidic flow cytometry instrument. Ecotoxicol. Environ. Safety 270: 115894. [discusses domoic acid]
Wang, Z., S. Xie, W. Zhang, H. Chen, Q. Ding, J. Xu, Q. Yu, and L. Zhang. 2024. Mechanochemical synthesis ionic covalent organic frameworks/cotton composites for pipette tip solid-phase extraction of domoic acid in seafood. Talanta 269: 125485.
Fu, X., J. Qin, C. Ding, Y. Wei, and J. Sun. 2024. Effect of increased pCO2 and temperature on the phytoplankton community in the coastal of Yellow Sea. Sci. Total Environ. 918: 170520. [includes Pseudo-nitzschia delicatissima]
Accoroni, S., M. Cangini, R. Angeletti, C. Losasso, S. Bacchiocchi, A. Costa, A. Di Taranto, L. Escalera, G. Fedrizzi, A. Garzia, F. Longo, A. Macaluso, N. Melchiorre, A. Milandri, S. Milandri, M. Montresor, F. Neri, A. Piersanti, S. Rubini, C. Suraci, F. Susini, M.R. Vadrucci, A.G. Mudadu, B. Vivaldi, B. Soro, C. Totti, and A. Zingone. 2024. Marine phycotoxin levels in shellfish - 14 years of data gathered along the Italian coast. Harmful Algae 131: 102560. [includes Pseudo-nitzschia australis, P. cf. delicatissima, P. cf. fraudulenta, P. cf. pseudodelicatissima, P. galaxiae, P. multiseries, P. multistriata, P. pungens, P. subpacifica; domoic acid]
Beltrán-Solís, K., E. García-Mendoza, S. Sánchez-Serrano, and L.M. López. 2023. Domoic acid affects brain morphology and causes behavioral alterations in two fish species. Sci. Rep. 13: 21729.
Xu, J.H., Y.P. Wu, S.-Y. Xie, H. Chen, Q.-Q. Ding, W.-M. Zhang, and L. Zhang. 2023. A solid phase extraction column based on SiO2@ZIF-8 for efficient analysis of domoic acid toxins in the seawater environment: experiments and DFT calculations on adsorption behaviour. Anal. Meth.15: 6590-6602.
Alrefaey, Ahmed Ibrahim Ibrahim. 2024. Development of molecular analytical methods for in situ detection of marine organisms using microfluidic biological sensor technologies. PhD Thesis, University of Southampton, 308 p. [discusses Pseudo-nitzschia multiseries]
Prigent, Léa. 2023. Spatio-temporal dynamics of Pseudo-nitzschia australis bloom in the Iroise Sea: a multi-disciplinary study combining gene expression, environment and hydrodynamics. PhD Thesis, l'Université de Bretagne Occidentale. École Doctorale N° 598, Sciences de la Mer et du Littoral, 348 p.
Zheng, G., H. Che, H. Wu, L. Cheng, Y. Deng, M. Guo, J. Peng, L. Liu, and Z. Tan. 2024. Risk characteristics of shellfish toxins in Mytilus unguiculatus around the Zhoushan Islands, East China Sea. Mar. Pollut. Bull. 199: 115955. [includes domoic acid]
Hopiavuori, A.R. and S.M.K. McKinnie. 2023. Algal kainoid synthases exhibit substrate-dependent hydroxylation and cyclization activities. ACS Chem. Biol. 18: 2457-2463. [discusses domoic acid biosynthesis]
Yao, Y., N. Luo, Y. Zong, M. Jia, Y. Rao, H. Huang, and H. Jiang. 2024. Recombinase polymerase amplification combined with lateral flow dipstick assay for the rapid and sensitive detection of Pseudo-nitzschia multiseries. Int. J. Mol. Sci. 25: 1350.
Lim, Y.K, K.-W. Lee, S.H. Hong, J.G. Park, and S.H. Baek. 2024. Differential impact of planktonic and periphytic diatoms on aggregation and sinking of microplastics in a simulated marine environment. Mar. Pollut. Bull. 199: 115961. [includes Pseudo-nitzschia pungens]
Li, Z., J. Wang, H. Yue, M. Du, Y. Jin, and J. Fan. 2023. Marine toxin domoic acid alters nitrogen cycling in sediments. Nat. Commun. 14 : 7873.
Wang, H. K. Liu, Z. He, Y. Chen, Z. Hu, W. Chen, C.P. Leaw, and N. Chen. 2024. Extensive intragenomic variations of the 18S rDNA V4 region in the toxigenic diatom species Pseudo-nitzschia multistriata revealed through high-throughput sequencing. Mar. Pollut. Bull. 201: 116198.
García-Corona, L., C. Fabioux, J. Vanmaldergem, S. Petek, A. Derrien, A. Terre-Terrillon, L. Bressolier, F. Breton, and H. Hegaret. 2024. The amnesic shellfish poisoning toxin, domoic acid: the tattoo of the king scallop Pecten maximus. Harmful Algae 133: 102607. [includes Pseudo-nitzschia australis]
Ochi, N. and T. Suzuki. 2024. Determination of lipophilic marine biotoxins (azaspiracids, brevetoxins, and okadaic acid group) and domoic acid in mussels by solid-phase extraction and reversed-phase liquid chromatography with tandem mass spectrometry. J. Chromatogr A 1720: 464795.
Cevasco, M., A. Lawson, Z. Padgett, and E. Renshaw. 2024. Detecting the diatom HAB genus Pseudo-nitzschia in the public shellfish harvesting area of Huntington Beach State Park using a nanopore sequencing approach. J. South Carolina Water Resources 9: 84-91.
Ruggiero, M.V., M. Buffoli, K.K.E. Wolf, D. D’Alelio, V. Di Tuccio, E. Lombardi, F. Manfellotto, L. Vitale, F. Margiotta, D. Sarno, U. John, M.I. Ferrante, and M. Montresor. 2024. Multiannual patterns of genetic structure and mating type ratios highlight the complex bloom dynamics of a marine planktonic diatom. Sci. Rep. 14: 6028. [discusses Pseudo-nitzschia multistriata]
Niu, B., J. Pang, N. Lundholm, C. Liang, S.T. Teng, Q. Zheng, X. Guo, and Y. Li. 2024. A Pseudo-nitzschia metabarcoding approach with a calibrated ITS1 reference sequence database applied in the Taiwan Strait. Harmful Algae 133: 102602.
Huang, S.. X. Wang, B. Zhang, L. Xia, Y. Chen, and G. Li. 2024. Room-temperature fabrication of fluorinated covalent organic polymer @ attapulgite composite for in-syringe membrane solid-phase extraction and analysis of domoic acid in aquatic products. J. Chromatogr. A 1721: 464849.
Norambuena-Subiabre, L., P. Carbonell, P. Salgado, C. Zamora, and O. Espinoza-González. 2024. Sources and profiles of toxins in shellfish from the south-central coast of Chile (36°‒ 43° S). Harmful Algae 133: 102608. [includes domoic acid, Pseudo-nitzschia]
Tang, J., X. He, J. Chen, W. Cao, T. Han, Q. Xu, and C. Sun. 2024. Occurrence and distribution of phycotoxins in the Antarctic Ocean. Mar. Pollut. Bull. 201: 116250. [includes domoic acid]
Mafra, L.L., Jr., B.P. Escobar, and B. Fernanda Sobrinho. 2024. Harmful algae in the Paranaguá estuarine complex, Brazil: a spatio-temporal assessment. Ocean Coast. Res. 72(suppl 1): e24008. [includes Pseudo-nitzschia spp.]
Niu, B., J. Pang, N. Lundholm, C. Liang, S.T. Teng, Q. Zheng, X. Guo, and Y. Li. 2024. Pseudo-nitzschia metabarcoding approach with a calibrated ITS1 reference sequence database applied in the Taiwan Strait. Harmful Algae 133: 102602.
García-Corona, J.L., C. Fabioux, J. Vanmaldergem, S. Petek, A. Derrien, A. Terre-Terrillon, L. Bressolier, F. Breton, and H. Hegaret. 2024. The amnesic shellfish poisoning toxin, domoic acid: the tattoo of the king scallop Pecten maximus. Harmful Algae 133: 102607. [includes Pseudo-nitzschia australis]
Zhao, J., B. Zhao, N. Kong, M. Li, F. Li, J. Liu, L. Wang, and L. Song. 2024. Water stratification alters phytoplankton assemblages in scallop farming waters of the North Yellow Sea in China. Mar. Environ. Res. 196: 106399. [includes Pseudo-nitzschia]
Wang, H., K. Liu, Z. He, Y. Chen, Z. Hu, W. Chen, C.P. Leaw, and N. Chen. 2024. Extensive intragenomic variations of the 18S rDNA V4 region in the toxigenic diatom species Pseudo-nitzschia multistriata revealed through high-throughput sequencing. Mar. Pollut. Bull. 201: 116198.
Lefebvre, K.A. and R.A. Tasker. 2024. Chapter 34 - Domoic acid: experimental and clinical neurotoxicity in vivo, p. 779-797. In: M.R. de Oliveira [ed.]. Natural molecules in neuroprotection and neurotoxicity. Elsevier Academic Press, Cambridge, MA.
Zhang, S., T. Zheng, M. Zhou, B. Niu, and Y. Li. 2024. Exposure to the mixotrophic dinoflagellate Lepidodinium sp. and its cues increase toxin production of Pseudo-nitzschia multiseries. Sci. Total Environ. 914: 169812.
Guzmán, E.A., T.A. Peterson, P.L. Winder, K.T. Francis, M. McFarland, J.C. Roberts, J. Sandle, and A.E. Wright. 2023. An assessment of potential threats to human health from algae blooms in the Indian River Lagoon (USA) 2018–2021: unique patterns of cytotoxicity associated with toxins. Toxins 15: 664. [includes domoic acid]
He, Z., S. Liu, Z. Cui, Y. Zhao, and N. Chen. 2023. Metabarcoding analysis of the composition and spatial–temporal dynamics of Pseudo‑nitzschia species in Jiaozhou Bay, China. J. Appl. Phycol. (in press). [includes Pseudo-nitzschia delicatissima, P. fraudulenta, P. galaxiae, P. micropora, P. multistriata, P. pungens, and others]
Greenwald, K.M., C.M. Gibble, M.A. Miller, E. Donnelly-Greenan, and R.M. Kudela. 2023. Investigation of a mass stranding event reveals a novel pattern of cascading comorbidities in northern fulmars (Fulmarus glacialis). J. Wildl. Dis. (in press). [includes domoic acid]
Ryabushko, L., D. Balycheva, S. Kapranov, A. Shiroyan, A. Blaginina, and S. Barinova. 2023. Seasonal dynamics of microphytobenthos distribution in three ecotopes on a mussel farm (Black Sea). J. Mar. Sci. Eng. 11: 2100. [includes Pseudo-nitzschia calliantha, P. delicatissima, P. pungens, P. seriata, domoic acid]
Anderson, C., J. Smith, R. Kudela, T. Norris, A. Deming, L. Palmer, R. Dover, M. Berman-Kowalewski, and K. Lefebvre. 2023. Rapid response to a massive marine on automated plankton observations with domoic acid poisoning in central to southern California. Harmful Algae News, No. 73, p. 1-4.
Schmitt, T.L., J. St. Leger, B.A. Inglis, I. Michal, N. Stedman, H.H. Nollens, S. Dennison-Gibby, K. Herrick , E.O. Clarke, A. Mena, and P.F. Cook. 2023. Twenty years of managed epilepsy for a stranded male Guadalupe fur seal (Arctocephalus townsendi) secondary to suspect domoic acid toxicosis. J. Zool. Bot. Gard. 4: 665-679.
Lifanchuk, A.V., A.S. Mikaelyan, A.V. Sergeeva, and V.A. Silkin. 2023. Seasonal dynamics and ecology of the Pseudo-nitzschia delicatissima group in the Black Sea. Reg. Stud. Mar. Sci. 68: 103249.
Thukral, M., A.E. Allen, and D. Petras. 2023. Progress and challenges in exploring aquatic microbial communities using non-targeted metabolomics. The ISME Journal (in press). [includes Pseudo-nitzschia multistriata, domoic acid]
Bosch-Orea, C., C.R. Kleemann, C.T.P. Deolindo, L. Molognoni, A. Dallegrave, H. Daguer, A.C.O. Costa, and R.B. Hof. 2023. Integrated analysis of marine biotoxins and contaminants of emerging concern in bivalve mollusks from Santa Catarina, Brazil. Sci. Total Environ. 905: 167254. [includes domoic acid]
Songa, F., Z. Zhang, X. Xu, and X. Lin. 2023. Online highly selective recognition of domoic acid by an aptamer@MOFs affinity monolithic column coupled with HPLC for shellfish safety monitoring. RSC Adv. 13: 30876.
McClain, A.M., C.L. Field, T.A. Norris, B. Borremans, P.J. Duignan, S.P. Johnson, S.T. Whoriskey, L. Thompson-Barbosa, and F.M.D. Gulland. 2023. The symptomatology and diagnosis of domoic acid toxicosis in stranded California sea lions (Zalophus californianus): a review and evaluation of 20 years of cases to guide prognosis. Front. Vet. Sci. 10: 1245864.
Gianella, F., M.T. Burrows, and K. Davidson. 2023. The relationship between salmon (Salmo salar) farming and cell abundance of harmful algal taxa. Harmful Algae 129: 102512, [discusses Pseudo-nitzschia spp.]
Stonik, I.V., R.S. Popov, A.P. Tsurpalo, P.S. Dmitrenok, M.Y. Shchelkanov, and T.Y. Orlova. 2023. Domoic acid in cultures of the diatom genus Pseudo-nitzschia H. Peragallo in H. Peragallo & M. Peragallo, 1900 and in bivalve samples from the Russian waters of the Sea of Japan and the Pacific waters of Kamchatka. Biologiya Morya 49: 313-318. (in Russian) [discusses domoic acid production by Pseudo-nitzschia pungens and P. delicatissima]
Lewis, N.I., R. Yu, C. Rafuse, and M.A. Quilliam. 2023. Seasonal occurrence of toxic phytoplankton and phycotoxins at a mussel aquaculture site in Nova Scotia, Canada. Harmful Algae 129: 102528. [discusses Pseudo-nitzschia seriata, P. cf. delicatissima, domoic acid]
Moreno, A.R., C. Anderson, R.M. Kudela, M. Sutula, C. Edwards, and D. Bianchi. 2022. Development, calibration, and evaluation of a model of Pseudo-nitzschia and domoic acid production for regional ocean modeling studies. Harmful Algae 118: 102296.
Yu, Z., Y. Tang, and C.J. Gobler. 2023. Harmful algal blooms in China: history, recent expansion, current status, and future prospects. Harmful Algae 129: 102499. [includes Pseudo-nitzschia cuspidata, P. decipiens, P. fraudulenta, P. fukuyoi, P. pseudodelicatissima, P. sabit, P. inflatula, and two new species Pseudo-nitzschia simulans and P. nanaoensis]
Perry, R.A., N. Nemcek, M. Hennekes, A. Sastri, A.R.S. Ross, H. Shannon, and R.B. Shartau. 2023. Domoic acid in Canadian Pacific waters, from 2016 to 2021, and relationships with physical and chemical conditions. Harmful Algae 129: 102530. [discusses Pseudo-nitzschia cf. australis, domoic acid]
Gilliland, Raquel Cuca Marie. 2023. Utilizing cooperative fisheries research to monitor and understand harmful algal blooms along the Oregon coast. Master of Science in Marine Resource Management, Thesis, Oregon State University, 152 p. [discusses Pseudo-nitzschia spp., domoic acid]
Cembella, K. Klemm, U. John, B. Karlson, L. Arneborg, D.Clarke, T. Yamanaka, C. Cusack, L. Naustvoll, E. Bresnan, L. Supraha, and N. Lundholm. 2023. Emerging phylogeographic perspective on the toxigenic diatom genus Pseudo-nitzschia in coastal northern European waters and gateways to eastern Arctic seas: causes, ecological consequences and socio-economic impacts. Harmful Algae 129: 102496. [discusses numerous species of Pseudo-nitzschia, domoic acid]
Trapp, A., K. Hayashi, J. Fiechter, and R.M. Kudela. 2023. What happens in the shadows - Influence of seasonal and non-seasonal dynamics on domoic acid monitoring in the Monterey Bay upwelling shadow. Harmful Algae 129: 102522. [includes Pseudo-nitzschia australis, P. multiseries]
McQuillan, J.S., A. Alrefaey, A.D. Turner, N. Morrell, O. Stoner, R. Brown, S. Kay, S. Cooke, and T. Bage. 2023. Quantitative Polymerase Chain Reaction for the estimation of toxigenic microalgae abundance in shellfish production waters. Harmful Algae 128: 102497. [includes Pseudo-nitzschia spp.]
Abdul Manaff, H.N.A., K.S. Hii, Z. Luo, M. Liu, I.K. Law, S.T. Teng, M.F. Akhir, H. Gu, C.P. Leaw, and P.T. Lim. 2023. Mapping harmful microalgal species by eDNA monitoring: a large-scale survey across the southwestern South China Sea. Harmful Algae 129: 102515. [includes Pseudo-nitzschia australis, P. fraudulenta, P. micropora, P. pungens]
Setta, S.P., S. Lerch, B.D. Jenkins, S.T. Dyhrman, and T.A. Rynearson. 2023. Oligotrophic waters of the Northwest Atlantic support taxonomically diverse diatom communities that are distinct from coastal waters. [includes Pseudo-nitzschia]
Pierce, E., O. Torano, Y. Lin, A. Schnetzer, and A. Marchetti. 2023. Comparison of advanced methodologies for diatom identification within dynamic coastal communities. Limnol. Oceanogr. Methods (in press) [includes Pseudo-nitzschia]
Oller-Ruiz, A., N. Alcaraz-Oliver, G. Férez, and J. Gilabert. 2023. Measuring marine biotoxins in a hypersaline coastal lagoon. Toxins 15: 526. [includes domoic acid, Pseudo-nitzschia]
McQuillan, J., A. Alrefaey, A.D. Turner, N. Morrell, O. Stoner, R. Brown, S. Kay, S. Cooke, and T. Bage. 2023. Quantitative Polymerase Chain Reaction for the estimation of toxigenic microalgae abundance in shellfish production waters. Harmful Algae 128: 102497. [includes Pseudo-nitzschia spp.]
Ambrosino, L., M. Miralto, L. Barra, A. Sardo, M.L. Chiusano, R. Cozza, M. Ferrari, and S. Greco. 2023. Stress response in toxic diatoms: the effects of abiotic factors on growth and RNA content in Pseudo-nitzschia calliantha and in Pseudo-nitzschia multistriata. J. Mar. Sci. Eng. 11: 1743.
Díaz, P.A. and R.I. Figueroa. 2023. Toxic algal bloom recurrence in the era of global change: lLessons from the Chilean Patagonian fjords. Microorganisms 11: 1874. [includes Pseudo-nitzschia spp.]
Moreira-González, A.R., C. Domit, K.M.S. Rosa, and L.L. Mafra, Jr. 2023. Occurrence of potentially toxic microalgae and diarrhetic shellfish toxins in the digestive tracts of green sea turtles (Chelonia mydas) from southern Brazil. Harmful Algae 128: 102498. [includes Pseudo-nitzschia sp.]
Oller-Ruiz, A., N. Alcaraz-Oliver, G. Férez, and J. Gilabert. 2023. Measuring marine biotoxins in a hypersaline coastal lagoon. Toxins 15: 526. [includes Pseudo-nitzschia, domoic acid]
Amzil, Z., A. Derrien, A. Terre Terrillon, V. Savar, T. Bertin, M. Peyrat, A. Duval, K. Lhaute, N. Arnich, V. Hort, and M. Nicolas. 2023. Five years monitoring the emergence of unregulated toxins in shellfish in France (EMERGTOX 2018–2022). Mar. Drugs 21: 435. [includes domoic acid]
Whyte, C., S.C. Swan, A.D. Turner, R.G. Hatfield, E. Mitchell, S. Lafferty, N. Morrell, S. Rowland-Pilgrim, and K. Davidson. 2023. The presence of Pseudo-nitzschia australis in North Atlantic aquaculture sites, implications for monitoring amnesic shellfish toxins. Toxins 15: 554. [includes domoic acid]
Ogura, Y., M. Fukuyama, M. Kasuya, K. Shigemura, S.A. Eremin, M, Tokeshi, and A. Hibara. 2023. Rapid determination of domoic acid in seafood by fuorescence polarization immunoassay using a portable analyzer. Analyt. Sci. (in press)
Thibodeau, P.S. and J. Kim. 2023. Visualizing oceanographic data to depict long-term changes in phytoplankton. J. Vis. Exp. 197: e65571. [includes Pseudo-nitzschia spp.]
Mouriño, H., C. Cusack, M.T. Moita, and J. Silke. 2023. The zero-inflated negative binomial regression model: describing Pseudo-nitzschia spp. in the southwest coast of Ireland, p. 474-482. In: I.R. Ruiz and G.R. Garcia [eds]. Proceedings of International Work-conference on Time Series (ITISE-2014).
Ajani, P., M. Dove, H. Farrell, W. O'Connor, M. Tesoriero, A. Verma, A. Zammit, B. Hughes, and S. Murray. 2023. Transforming Australian shellfish production: Wonboyn Lake A Harvest Area, Wonboyn River. Report on Stage 1, February 2018-February 2021. University of Technology Sydney, Australia, 47 p. [includes Pseudo-nitzschia delicatissima complex, P. fraudulenta/australis]
Li, Z., J. Wang, J. Fan, H. Yue, and X. Zhang. 2023. Marine toxin domoic acid alters protistan community structure and assembly process in sediments. Mar. Environ. Res. 191: 106131. [includes Pseudo-nitzschia americana]
Gianella, Maria de Fatima. 2023. Assessing the risk to aquaculture from Harmful Algal Blooms (HABs). PhD Thesis, University of the Highlands and Islands, Scotland, 271 p. [includes Pseudo-nitzschia spp., domoic acid]
Mafra, L.L., Jr., de Souza, D.A., M. Menezes, M.A. Schramm, and R. Hoff. 2023. Marine biotoxins: latest advances and challenges towards seafood safety, using Brazil as a case study. Curr. Opin. Food Sci. (in press) 101078. [includes domoic acid]
Medhioub, W., R. Challouf, M. Laabir, Y. Limayem, S. Bchira, W. Slimeni, D. El Amri, A. Hamza, M. Mahfoudhi, B.R. Leblad, M.N. Medhioub, E. Abadie, J.-L. Rolland, and M.S. Azaza. 2023. Potential to produce brown mussel integrated to a net-cage fish farm in a Mediterranean bay. Aquacult. Rep. 31: 101674. [includes Pseudo-nitzschia sp.]
Motwani, G., R. Rajan, M. Raman, and H. Solanki. 2023. Potential domoic acid (neurotoxin) producing phytoplankton Pseudonitzschia in Indian coastal water - Do we need to care? Internat. J. Multidiscip. Res. 5: May-June 2023. [includes Pseudo-nitzschia australis, P. delicatissima, P. granii, P. lineola, P. multiserae, P. pungens, P. seriata, P. subcurvata, P. turgidula, P. calcaravis] [note that species are shown as spelled in this article; the latter species is unknown]
Díaz, P.A., G. Álvarez, R.I. Figueroa, R. Garreaud, I. Pérez-Santos, C. Schwerter, M. Díaz, L. López, M. Pinto-Torres, and B. Krock. 2023. From lipophilic to hydrophilic toxin producers: phytoplankton succession driven by an atmospheric river in western Patagonia. Mar. Pollut. Bull. 193: 115214. [includes Pseudo-nitzschia calliantha, domoic acid]
Díaz, P.A. and R.I. Figueroa. 2023. Toxic algal bloom recurrence in the era of global change: lessons from the Chilean Patagonian Fjords. Microorganisms 11: 1874. [includes Pseudo-nitzschia]
Arapov, J., T. Tomašević, T. Bonačić, M. Pejković, M. Bužančić, I. Bušelić, I. Lepen Pleić, S. Casabianca, A. Penna, S. Skejić, and Ž. Ninčević Gladan. 2023. A new insight into the taxonomy of Pseudo-nitzschia genus from the Adriatic Sea: description of P. brasiliana, P. galaxiae, P. hasleana, and P. linea. J. Mar. Sci. Eng. 11: 1370.
Shartau, R.B., L.D.M. Turcotte, J.C. Bradshaw, A.R.S. Ross, B.D. Surridge, N. Nemcek, and S.C. Johnson. 2023. Dissolved algal toxins along the southern coast of British Columbia Canada. Toxins 15: 395. [includes domoic acid]
McCabe, R.M., B.M. Hickey, and V.L. Trainer. 2023. The Pacific Northwest Harmful Algal Blooms Bulletin. Harmful Algae 127: 102480. [includes Pseudo-nitzschia, domoic acid]
Iriarte, J.L., G. Pizarro, and M. Frangopulos. 2023. Harmful algal blooms in Patagonian fjords and channels systems: recent advances, gaps, and priorities in a changing ocean. Prog. Oceanogr. 217: 103087. [includes Pseudo-nitzschia]
Winnacott, Natasha Hope Ficzycz. 2023. Inferring exposure to harmful Pseudo-nitzschia blooms from ocean-to-estuary gradients in domoic acid concentrations in Humboldt Bay bivalves. Master’s Thesis, California State Polytechnic University, Humboldt, 121 p.
Markina, Zh.V. and A. Yu. Popik. 2023. Interactions of diatom algae Pseudo-nitzschia hasleana and Thalassiosira pseudonana in mixed culture. Mar. Biol. J. 8: (in press)
Medhioub, W., R. Challouf, M. Laabir, Y. Limayem, S. Bchira, W. Slimeni, D. El Amri, A. Hamza, M. Mahfoudhi, B.R. Leblad, M.N. Medhioub, E. Abadie, J.-L. Rolland, and M.S. Azaza. 2023. Potential to produce brown mussel integrated to a net-cage fish farm in a Mediterranean bay. Aquacult. Rep. 31: 101674. [includes Pseudo-nitzschia sp.]
Motwani, G., R. Rajan, M. Raman, and H. Solanki. 2023. Potential domoic acid (neurotoxin) producing phytoplankton Pseudonitzschia in Indian coastal water - Do we need to care? Internat. J. Multidiscip. Res. 5: May-June 2023. [includes Pseudo-nitzschia australis, P. delicatissima, P. granii, P. lineola, P. multiserae, P. pungens, P. seriata, P. subcurvata, P. turgidula, P. calcaravis] [note that species are shown as spelled in this article; the latter species is unknown]
Niu, B., Q. Zheng, Y. Liu, N. Lundholm, S.T. Teng, X. Lu, R. Ran, L. Zhang, and Y. Li. 2023. Morphology, molecular phylogeny and biogeography revealed two new Pseudo-nitzschia (Bacillariophyceae) species in Chinese waters. J. Syst. Evol. (in press). [discusses Pseudo-nitzschia punctionis sp. nov. (toxic), P. polymorpha sp. nov., domoic acid]
Pease, S.K.D., T.A. Egerton, K.S. Reece, M.P. Sanderson, M.D. Onofrio, E. Yeargan, A. Wood, A. Roach, I.-S.W. Huang, G.P. Scott, A.R. Place, A.M. Hayes, and J.L. Smith. 2023. Co-occurrence of marine and freshwater phycotoxins in oysters, and analysis of possible predictors for management. Toxicon:X 19: 100166. [includes domoic acid]
Winnacott, Natasha Hope Ficzycz. 2023. Inferring exposure to harmful Pseudo-nitzschia blooms from ocean-to-estuary gradients in domoic acid concentrations in Humboldt Bay bivalves. Master’s Thesis, California State Polytechnic University, Humboldt, 121 p.
Pease, S.K.D., T.A. Egerton, K.S. Reece, M.P. Sanderson, M.D. Onofrio, E. Yeargan, A. Wood, A. Roach, I.-S.W. Huang, G.P. Scott, A.R. Place, A.M. Hayes, and J.L. Smith. 2023. Co-occurrence of marine and freshwater phycotoxins in oysters, and analysis of possible predictors for management. Toxicon X (in press) [includes domoic acid, Pseudo-nitzschia spp.]
Pućko, M., W. Rourke, R. Hussherr, P. Archambault, J. Eert, A.R. Majewski, A. Niemi, J. Reist, and C. Michel. 2023. Phycotoxins in bivalves from the western Canadian Arctic: the first evidence of toxigenicity. Harmful Algae 127: 102474. [includes domoic acid, Pseudo-nitzschia delicatissima group, P. obtusa]
Kelly, K.J., A. Mansour, C. Liang, A.M. Kim, L.A. Mancini, M.J. Bertin, B.D. Jenkins, D.A. Hutchins, and F.-X. Fu. 2023. Simulated upwelling and marine heatwave events promote similar growth rates but differential domoic acid toxicity in Pseudo-nitzschia australis. Harmful Algae 127: 102467.
Vaccaro, E., V. Ciccotelli, P. Oliveri, R. Battistini, C. Capelli, S. Lottici, N. Melchiorre, E. Smirnova, M. Ferro, E. Costa, B. Betti, B. Vivaldi, C. Masotti, L. Serracca, F. Iacona, M. Orlandi, and C. Ercolini. 2023. Shellfish sanitation monitoring in La Spezia gulf: chemometric evaluation of data from 2015 to 2021. Heliyon 9: e17032. [includes domoic acid, Pseudo-nitzschia spp.]
Reñé, A., N. Timoneda, D. Sarno, R. Piredda, G. Zampicinini, A. Zingone, M. Montresor, and E. Garcés. 2023. Vertical and temporal distribution of chytrids infecting diatoms in the Gulf of Naples (Italy, Mediterranean Sea). Mar. Ecol. e12726. [includes Pseudo-nitzschia multistriata]
Zingone, A., C. Tortora, D. D′Alelio, F. Margiotta, and D. Sarno. 2023. Assembly rules vary seasonally in stable phytoplankton associations of the Gulf of Naples (Mediterranean Sea). Mar. Ecol. 44: e1273. [includes Pseudo-nitzschia allochrona, P. galaxiae, P. multistriata, P. cf. pseudodelicatissima]
Fujiyoshi, S., K. Yarimizu, G. Fuenzalida, M. Campos, J.-I. Rilling, J.J. Acuña, P.C. Miranda, E.-K. Cascales, I. Perera, O. Espinoza-González, L. Guzmán, M.A. Jorquera, and F. Maruyam. 2023. Monitoring bacterial composition and assemblage in the Gulf of Corcovado, southern Chile: bacteria associated with harmful algae. Curr. Res. Microb. Scie. 4: 100194. [includes Pseudo-nitzschia spp.]
Ferrante, M.I., A. Broccoli, and M. Montresor. 2023. The pennate diatom Pseudo-nitzschia multistriata as a model for diatom life cycles, from the laboratory to the sea. J. Phycol. 59: 637-643.
Franco, A.O.E., M.P. Ashworth, and C. Odebrecht. 2023. Comparison between p-distance and single-locus species delimitation models for delineating reproductively tested strains of pennate diatoms (Bacillariophyceae) using cox1, rbcL and ITS. J. Eukaryot. Microbiol. (in press) [includes Pseudo-nitzschia arenysensis, P. calliantha, P. delicatissima, P. dolorosa, P. mannii, P. pseudodelicatissima]
Ghosh, Gautam. 2023. Identification of candidate protein biomarkers associated with domoic acid toxicosis in cerebrospinal fluid of California sea lions (Zalophus californianus). Master’s Thesis, University of Charleston, South Carolina at the College of Charleston.
Vanmaldergem, J., J.L. García-Corona, M. Deléglise, C. Fabioux, and H. Hegaret. 2023. Effect of the antioxidant N-acetylcysteine on the depuration of the amnesic shellfish poisoning toxin, domoic acid, in the digestive gland of the king scallop Pecten maximus. Aquat. Living Resour. 36: 14.
Stonik, I.V. and A.A. Zinov. 2023. Changes in the composition of bloom-forming toxic Pseudo-nitzschia diatoms in surface waters in Ussuri Bay, northwestern Sea of Japan, during the autumn seasons of 2017–2022. J. Mar. Sci. Eng. 11: 1024. [discusses Pseudo-nitzschia calliantha, P. hasleana, P. multistriata, P. pungens]
Schreiber, S., M.D. Hanisak, C.S. Perricone, A.C. Fonnegra, J. Sullivan, and M. McFarland. 2023. Pseudo-nitzschia species, toxicity, and dynamics in the southern Indian River Lagoon, FL. Harmful Algae 126: 102437. [includes Pseudo-nitzschia brasiliana, P. calliantha, P. fraudulenta, P. micropora, P. pseudodelicatissima, P. pungens; first report of P. micropora producing domoic acid]
Wang, Z., F. Wang, C. Wang, C. Xie, T. Tang, J. Chen, S. Ji, S. Zhang, Y. Zhang, and T. Jiang. 2023. Annual variation in domoic acid in phytoplankton and shellfish samples from Daya Bay of the South China Sea. Harmful Algae 127: 102438. [includes Pseudo-nitzschia spp.]
Muhamad, F.N., H.M. Zuki, , M. Ariffin, and A. Ahmad. 2023. Molecularly imprinted polymers for domoic acid detection in selected shellfish tissue. Malaysian J. Anal. Sci. 27: 353-367.
Hendrix, Alicia M. 2023. Emerging domoic acid concerns: Arctic food web contamination, age-associated susceptibility, and pathologies following chronic, low-level exposure. PhD Thesis, University of Washington. [discusses domoic acid in seals, mice]
Cochlan, W.P., B.D. Bill, A.B. Cailipan, and V.L. Trainer. 2023. Domoic acid production by Pseudo-nitzschia australis: re-evaluating the role of macronutrient limitation on toxigenicity. Harmful Algae (in press).
Sandoval-Belmar, M., J. Smith, A.R. Moreno, C. Anderson, R.M. Kudela, M. Sutula, F. Kessouri, D.A. Caron, F.P. Chavez, and D. Bianchi. 2023. A cross-regional examination of patterns and environmental drivers of Pseudo-nitzschia harmful algal blooms along the California coast. Harmful Algae (in press) [discusses Pseudo-nitzschia spp., domoic acid]
De la Paz, J.F., N.O. Zambrano, F.C. Ortiz, and A. Llanos-Rivera. 2023. A new bioassay for the detection of paralytic and amnesic biotoxins based on motor behavior impairments of zebrafish larvae. Int. J. Mol. Sci. 24: 7466. [discusses domoic acid]
Vianna, L.F.N., R.V. de Souza, M.A. Schramm, and T.P. Alves. 2023. Using climate reanalysis and remote sensing-derived data to create the basis for predicting the occurrence of algal blooms, harmful algal blooms and toxic events in Santa Catarina, Brazil. Sci. Total Environ. 880: 163086. [includes Pseudo-nitzschia spp.]
Rath, A.R., S. Mitbavkar, and A.C. Anil. 2023. Phytoplankton community structure in the Kandla port ecosystem situated in a creek in the Gulf of Kutch, India. Environ. Monit. Assess. 195: 537. [includes Pseudo-nitzschia spp.]
Williams, D.C., M. Haulena, S. Dennison, L. Waugh, T. Goldstein, F. Nutter, B. Van Bonn, V. Hoard, K.D. Laxer, P.S. Buckmaster, F.M.D. Gulland, and B. Tharp. 2023. Pinniped electroencephalography: methodology and findings in California sea lions (Zalophus californianus). Front. Vet. Sci. 10: 1040125. [discusses domoic acid]
Hendrix, A.M., K.A. Lefebvre, E.K. Bowers, R. Stuppard, T. Burbacher, and D.J. Marcinek. 2023. Age and sex as determinants of acute domoic acid toxicity in a mouse model. Toxins 15: 259.
Ferrari, M., L. Barra, L. Ruffolo, A. Muto, C. Galasso, I. Percopo, S. Greco, and R. Cozza. 2023. Identification of Pseudo-nitzschia cryptic species collected in the Gulf of Naples using whole-cell fluorescent in situ hybridization: from cultured sample to field test. Diversity 15: 521. [discusses P. allochrona, P. arenysensis, P. calliantha, P. delicatissima, P. dolorosa, P. fraudulenta, P. galaxiae, P. multistriata, P. pseudodelicatissima]
Long, M., A. Lelong, E. Bucciarelli, F. Le Grand, H. Hégaret, and P. Soudant. 2023. Physiological adaptation of the diatom Pseudo-nitzschia delicatissima under copper starvation. Mar. Environ. Res. (in press)
Vianna, L.F.N., R.V. de Souza, M.A. Schramm, and T.P. Alves. 2023. Using climate reanalysis and remote sensing-derived data to create the basis for predicting the occurrence of algal blooms, harmful algal blooms and toxic events in Santa Catarina, Brazil. Sci. Total Environ. (in press) [includes Pseudo-nitzschia spp.]
FAO, IOC and IAEA. 2023. Joint FAO-IOC-IAEA technical guidance for the implementation of early warning systems for harmful algal blooms. In: Garrido Gamarro, E. and K. Englander [eds]. Fisheries and Aquaculture Technical Paper No. 690. Rome, FAO, 202 p. [includes numerous Pseudo-nitzschia spp.]
Dermastia, T.T., I. Vascotto, J. Francé, D. Stanković, and P. Mozetič. 2023. Evaluation of the rbcL marker for metabarcoding of marine diatoms and inference of population structure of selected genera. Front. Microbiol. 14: 1071379. [includes Pseudo-nitzschia calliantha, P. delicatissima, P. fraudulenta, P. galaxiae, P. linea, P. mannii, P. subfraudulenta]
Hubbard, K.A., M.C. Villac, C. Chadwick, A.A. DeSmidt, L. Flewelling, A. Granholm, M. Joseph, T. Wood, E. Fachon, M.L. Brosnahan, M. Richlen, M. Pathare, D. Stockwell, P. Lin, J.N. Bouchard, R. Pickart, and D.M. Anderson. 2023. Spatiotemporal transitions in Pseudo-nitzschia species assemblages and domoic acid along the Alaska coast. PLoS ONE 18: e0282794. [discusses Pseudo-nitzschia arctica, P. delicatissima, P. granii, P. obtusa, P. pungens, P. seriata, domoic acid]
Torres, R., B. Reid, G. Pizarro, M. Frangópulos, E. Alarcón, M. Márquez, F. Díaz, E. Menschel, H.E. González, P. Moreno-Meynard, P. Montero, H. Pacheco, M. Pinto-Torres, C. Alarcón, R. Ibañez, and J. Hawkings. 2023. Iron and silicic acid addition effects on early spring macronutrient drawdown and biogenic silica production of Patagonia estuarine waters. Prog. Oceanogr. (in press). [discusses Pseudo-nitzschia var seriata, P. var delicatissima]
Alarcona, J., L. Wardb, K. Panb, E. Gonsoroskic, C.K. Uejioc, L. Beitschd, M.Y. Lichtvelde, E.W. Harvilleb, and S. Sherchan. 2023. HABs Karenia brevis and Pseudo-nitzschia pre- and post-Hurricane Michael. J. Water Health (in press). [species of Pseudo-nitzschia not indicated]
Tsui, T.-K.V. and H.-K. Kong. 2023. Acidification on the toxicity of harmful microalgae: a review of the literature. AppliedChem 3: 169-195. [includes Pseudo-nitzschia australis, P. fraudulenta, P. multiseries]
Vaulot, D., G. Bilcke, P. Chaerle, A. Falciatore, P. Gourvil, M.W. Lomas, I.Probert, and W. Vyverman. 2023. Culturing diatoms. In: Goessling, J., J. Lavaud, and J. Serôdio [eds]. Diatom photosynthesis: from primary production to high value molecules. Wiley-Scrivener. (in press). [mentions Pseudo-nitzschia arenysensis, P. multistriata]
Chen, J., J. Yang, X. He, J. Wang, L. Pan, M. Xin, F. Chen, S. Liang, and B. Wang. 2023. Prevalence of the neurotoxin domoic acid in the aquatic environments of the Bohai and Northern Yellow seas in China. Sci. Total Environ. 876: 162732. [includes Pseudo-nitzschia pungens]
Houliez, E., F.G. Schmitt, E. Breton, D.-I. Skouroliakou, and U. Christaki. 2023. On the conditions promoting Pseudo-nitzschia spp. blooms in the eastern English Channel and southern North Sea. Harmful Algae (in press). [discusses Pseudo-nitzschia seriata complex, Pseudo-nitzschia delicatissima complex]
Ueno, Y., M. Takano, T. Katano, K. Yoshino, N. Miyazaki‑Horimoto, S. Yasui‑Tamura, C. Sukigara, I. Hamana, F. Hashihama, J. Kanda, and T. Ishimaru. 2023. Succession of three dominant diatoms, Skeletonema, Thalassiosira, and Pseudo‑nitzschia in the inner area of Tokyo Bay from 2003 to 2017. J. Oceanogr. (in press). [species of Pseudo-nitzschia not indicated]
Trainer, V.L. and T.L. King. 2023. SoundToxins: a research and monitoring partnership for harmful phytoplankton in Washington State. Toxins 15: 189. [includes Pseudo-nitzschia australis, P. cuspidata, P. delicatissima, P. fraudulenta, P. heimii, P. multiseries, P. pseudodelicatissima, P. pungens]
Shevchenkoa, O.G. and K.O. Tevs. 2022. Spatial distribution of phytoplankton in the coastal waters off Russkii Island (Peter the Great Bay, Sea of Japan). Oceanology 62: 794-805. [mentions Pseudo-nitzschia delicatissima, P. pungens]
Krucik, D.D.R., P. Cook, M. Cathey, J.M. Meegan, F.M. Gomez, W. Van Bonn, and C. Le-Bert. 2023. Adult-onset epilepsy and hippocampal pathology in a California sea lion (Zalophus californianus): a case study of suspected in utero exposure to domoic acid. Neurotoxicology 96: 13-18.
Cabrera, J., S. Puntarulo, and P.M. González. 2023. Domoic acid oxidative effects on the microalgae Phaeodactylum tricornutum. Life 13: 676.
Bampouris, V., E. Houliez, F.G. Schmitt, M. Crouvoiser, K. Kormas, and U. Christaki. 2023. Growth and chain formations of diatoms (Pseudo-nitzschia) under different turbulent conditions: a laboratory analysis. EGU General Assembly 2023, Vienna, Austria, 24–28 Apr 2023, EGU23-12895. (Abstract only) [discusses Pseudo-nitzschia fraudulenta, P. multiseries]
Tardivo Kubis, J.A., F. Rodríguez, A.E. Rossignoli, P. Riobó, E.A. Sar, and I. Sunesen. 2023. Morphological, phylogenetic and toxinological characterization of potentially harmful algal species from the marine coastal waters of Buenos Aires province (Argentina). Phycology 3: 79-105. [includes Pseudo-nitzschia americana, P. multiseries, P. pungens, domoic acid, isomers]
Rossi, S., D. Carecci, and E. Ficara. 2023. Thermal response analysis and compilation of cardinal temperatures for 424 strains of microalgae, cyanobacteria, diatoms and other species. Sci. Total Environ. 873: 162275. [includes Pseudo-nitzschia americana, P. granii, P. multiseries, P. turgiduloides]
Rocha, J.P., R. Torre, M. Castro-Freitas, E. Costa-Rama, H.P.A. Nouws, and C. Delerue-Matos. 2023. Electrochemical (bio)sensors for toxins control in the marine environment, p. 1-27. In: The Handbook of Environmental Chemistry. Springer, Berlin, Heidelberg. [includes domoic acid]
Panlilio, J.M., K.M. Hammar, N. Aluru, and M.E. Hahn. 2023. Developmental exposure to domoic acid targets reticulospinal neurons and leads to aberrant myelination in the spinal cord. Sci. Rep. 13: 2587.
Pires, E., P.C. Lana, and L.L. Mafra, Jr. 2023. Phycotoxins and marine annelids – A global review. Harmful Algae 122: 102373. [includes Pseudo-nitzschia, domoic acid]
Kim, J.H., P.A. Ajani, S.A. Murray, S.-M. Kang, S.-H. Kim, H.C. Lim, S.T. Teng, P.T. Lim, and B.S. Park. 2023. Abiotic and biotic factors controlling sexual reproduction in populations of Pseudo-nitzschia pungens (Bacillariophyceae). Harmful Algae 123: 102392.
Agarwal, V., J. Chávez-Casillas, and C.B. Mouw. 2023. Sub-monthly prediction of harmful algal blooms based on automated cell imaging. Harmful Algae 122: 102386. [includes Pseudo-nitzschia spp.]
Clarke, D., E. Bresnan, P. Andersen, D. Anderson, K. Andree, M. Campás, A. Cembella, K. Davidson, M. De Rijke, W. Eikrem, L. Fernández, M. Fernández-Tejedor, E. Garces, A. Goncalves, S. Jacobsen, B. Karlson, Justyna Kobos, A. Kremp, D. Kulis, M. Lemoine, A. Lewis, L. Marnan, Hanna Mazur-Marzec, C. McKenzie, A. McKinney, P. Miller, L.J. Naustvoll, Y. Pazos, M. Poelman, P. Provoost, R. Siano, S. Sildever, A. Silva, S. Suikkanen, S. Swann, D. Vaiciute, M. Vila, and H. Enevoldsen. 2022. Regional changes in harmful algal events in the North Atlantic area from 2010-2019. Symposium on decadal variability of the North Atlantic and its marine ecosystems: 2010-2019, 2022, 20-06-2022 - 22-06-2022, Bergen, Norwegia. (in press). [includes Pseudo-nitzschia, domoic acid]
Hamid, T., N. Shoaib, and P.J.A. Siddiqui. 2023. Abundance and diversity of diatom communities in Gadani (Baluchistan coast) and Sandspit (Sindh coast). Pak. J. Bot. 55: DOI: http://dx.doi.org/10.30848/PJB2023-4(17). [includes Pseudo-nitzschia australis, P. delicatissima, P. fraudulenta, P. granii, P. heimii, P. lineola, P. multiseries, P. prolongatoides, P. pseudodelicatissima, P. pungens, P. seriata, P. subcurvata, P. subpacifica, P. turgidula]
Nishizawa, S., H. Ouchi, H. Suzuki, T. Ohnishi, S. Sasaki, Y. Oyagi, M. Kanakogi, Y. Matsumura, S. Nakagawa, T. Asakawa, M. Egi, M. Inai, F. Yoshimura, R. Takita, and T. Kan. 2023. Total synthesis of (−)-domoic acid, a potent ionotropic glutamate receptor agonist and the key compound in oceanic harmful algal blooms. Org. Biomol. Chem. 21: 1653-1656.
Xu, D., G. Zheng, G. Brennan, Z. Wang, T. Jiang, K. Sun, X. Fan, C. Bowler, X. Zhang, Y. Zhang, W. Wang, Y. Wang, Y. Li, H. Wu, Y. Li, F.-X. Fu, D.A. Hutchins, Z. Tan, and N. Ye. 2023. Plastic responses lead to increased neurotoxin production in the diatom Pseudo-nitzschia under ocean warming and acidification. ISME J. 17: 525–536. [discusses Pseudo-nitzschia multiseries, domoic acid]
Sinno-Tellier, S., E. Abadie, S. Guillotin, A. Bossée, M. Nicolas, and N. Delcourt. 2023. Human shellfish poisoning: implementation of a national surveillance program in France. Front. Mar. Sci. 9: 1089585. [includes domoic acid, amnesic shellfish poisoning]
Chen, Y., L. Wang, Z. Liu, D. Su, Y. Wang, and Y. Qi. 2023. Biodiversity and interannual variation of harmful algal bloom species in the coastal Sea of Qinhuangdao, China. Life 13: 192. [includes Pseudo-nitzschia delicatissima, P. pungens]
Davidovich, N.A. and O.I. Davidovich. 2022. Reproductive biology of diatoms. N.A. Davidovich [ed.] PP «ARIAL» LLC, Simferopol, 196 p. [includes Pseudo-nitzschia arenysensis, P. australis, P. brasiliana, P. calliantha, P. cuspidata, P. delicatissima, P. dolorosa, P. fradulenta, P. mannii, P. multiseries, P. multistriata, P. pseudodelicatissima, P. pungens, P. seriata, P. subcurvata]
Pinto-Torres, M., G. Pizarro, R. York, C. Alves-de-Souza, N. Lundholm, J. Mardones, M.J. Nariño, and J.L. Iriarte. 2023. Unveiling species diversity within the toxic diatom genus Pseudo-nitzschia from the fjords and channels of Magallanes (48°- 51°S), Chile. Prog. Oceanogr. 211: 102957. [discusses Pseudo-nitzschia australis, P. calliantha, P. cf. delicatissima, P. fraudulenta, P. heimii, P. pungens]
Li, X.-Y., R.-C. Yu, A.J. Richardson, C. Sun, R. Eriksen, F.-Z. Kong, Z.-X. Zhou, H.-X. Geng, Q.-C. Zhang, and M.-J. Zhou. 2023. Marked shifts of harmful algal blooms in the Bohai Sea linked with combined impacts of environmental changes. Harmful Algae 121: 102370. [includes Pseudo-nitzschia delicatissima, P. pungens]
Lojuyo, G.S.G., J.W. Doinsing, and J. Ransangan. 2022. Immune responses of bivalves to environmental pollution and abiotic stress. Egypt. J. Aquat. Biol. Fish. 26: 911-957. [includes domoic acid]
Qiu, J., J. Zhang, and A. Li. 2023. Cytotoxicity and intestinal permeability of phycotoxins assessed by the human Caco-2 cell model. Ecotoxicol. Environ. Saf. 249: 114447. [includes domoic acid]
Ushimaru, R. and I. Abe. 2023. Unusual dioxygen-dependent reactions catalyzed by nonheme iron enzymes in natural product biosynthesis. ACS Catal. 13: 1045-1076. [includes domoic acid]
Reñé, A., N. Timoneda, D. Sarno, R. Piredda, G. Zampicinini, A. Zingone, M. Montresor, and E. Garcés. 2022. Vertical and temporal distribution of chytrids infecting diatoms in the Gulf of Naples (Italy, Mediterranean Sea). Mar. Ecol. (in press) [includes Pseudo-nitzschia multistriata]
Quinlan, Z.A., I. Koester, A.T. Aron, D. Petras, L.I. Aluwihare, P.C. Dorrestein, C.E. Nelson, and L. Wegley Kelly. 2022. ConCISE: consensus annotation propagation of ion features in untargeted tandem mass spectrometry combining molecular networking and in silico metabolite structure prediction. Metabolites 12: 1275. [includes Pseudo-nitzschia delicatissima, P. galaxiae, P. hasliana, P. multiseries, P. subpacifica]
Zheng, G., H. Wu, H. Che, X. Li, Z. Zhang, J. Peng, M. Guo, and Z. Tan. 2022. Residue analysis and assessment of the risk of dietary exposure to domoic acid in shellfish from the coastal areas of China. Toxins 14: 862.
Juneja, S., B. Zhang, N. Nujhat, and A.X. Wang. 2022. Quantitative sensing of domoic acid from shellfish using biological photonic crystal enhanced SERS substrates. Molecules 27: 8364.
Marotta, P., C. Borgonuovo, A. Santin, M.T. Russo, F. Manfellotto, M. Montresor, P. De Luca, and M.I. Ferrante. 2022. Mate perception and gene networks regulating the early phase of sex in Pseudo-nitzschia multistriata. J. Mar. Sci. Eng. 10: 1941.
Sauvey, A., P. Claquin, B. Le Roy, O. Jolly, and J. Fauchot. 2023. Physiological conditions favorable to domoic acid production by three Pseudo-nitzschia species. J. Exp. Mar. Biol. Ecol. 559: 151851. [discusses Pseudo-nitzschia australis, P. fraudulenta, P. pungens]
Tarchi, M., N. Zaaboub, M. Alsubih, B. Brik, M.V.A. Martins, L. Aleya, and L. Trabelsi. 2022. Microalgae colonization and trace element accumulation on the plastisphere of marine plastic debris in Monastir Bay (Eastern Tunisia). Environ. Sci. Pollut. Res. 30: 32427–32451. [includes Pseudo-nitzschia]
Borges, F.O., V.M. Lopes, C. Frazão Santos, P.R. Costa, and R. Rosa. 2022. Impacts of climate change impacts on the biogeography of three amnesic shellfish toxin-producing diatom species. Research Square (pre-print, not yet peer reviewed). [discusses domoic acid, Pseudo-nitzschia australis, P. fraudulenta, P. seriata)
Costa, L.G., G. Giordano, and M. Aschner. 2014. Domoic acid, p. 1016-1017. In: Aminoff, M.J. and R.B. Daroff [eds] Encyclopedia of the neurological sciences (Second Edition). Elsevier B.V.
Du, X., R. Campbell, and S. Kibler. 2023. Seasonal changes of microphytoplankton community in Prince William Sound, Alaska in 2019. Estuaries Coasts 46: 388–403. [includes Pseudo-nitzschia]
Barría, C., P. Vásquez-Calderón, C. Lizama, P. Herrera, A. Canto, P. Conejeros, O. Beltrami, B.A. Suárez-Isla, D. Carrasco, I. Rubilar, L. Guzmán, L.R. Durán, and D. Oliva. 2022. Spatial temporal expansion of harmful algal blooms in Chile: A review of 65 years records. J. Mar. Sci. Eng. 10: 1868. [includes domoic acid, Pseudo-nitzschia]
Guzmán, L., O. Espinoza-González, and P. Carbonell. 2015. Micro-phytoplankton and harmful species distribution and abundance in fjords of Southern Chile, p. 262-265. In: MacKenzie, A.L. [ed.]. Marine and Freshwater Harmful Algae. Proceedings of the 16th International Conference on Harmful Algae, Wellington, New Zealand 27th-31st October 2014. Cawthron Institute, Nelson, New Zealand and International Society for the Study of Harmful Algae (ISSHA). [includes Pseudo-nitzschia cf. australis, P. cf. pseudodelicatissima]
Trapp, A., K. Hayashi, and R.M. Kudela. 2022. A decade of domoic acid in Monterey Bay -SPATT observations give new insight on toxin variability, p. 213-219. In: Band-Schmidt, C.J. and C.F. Rodríguez-Gómez [eds]. Proceedings of the 19th International Conference on Harmful Algae, La Paz, B.C.S., Mexico. International Society for the Study of Harmful Algal Blooms. [includes Pseudo-nitzschia spp.]
Moestrup, Ø. 2015. On identification of harmful algae and the species concepts, p. 14-18. In: MacKenzie, A.L. [ed.]. Marine and Freshwater Harmful Algae. Proceedings of the 16th International Conference on Harmful Algae, Wellington, New Zealand 27th-31st October 2014. Cawthron Institute, Nelson, New Zealand and International Society for the Study of Harmful Algae (ISSHA). [includes Pseudo-nitzschia]
Accoroni, S., M. Cangini, R. Angeletti, G. Arcangeli, S. Bacchiocchi, N. Barile, L. Contiero, A. Costa, A. Di Taranto, L. Escalera, G. Fedrizzi, A. Garzia, F. Longo, A. Macaluso, N. Melchiorre, A. Milandri, S. Milandri, M. Montresor, B. Neri, F. Neri, P. Gallo, A. Piersanti, S. Rubini, G. Scortichini, C. Suraci, F. Susini, M.R. Vadrucci, D. Verniani, S. Virgilio, B. Vivaldi, B. Vodret, C. Totti, and A. Zingone. 2022. Toxic marine microalgae and associated phycotoxins in shellfish: 14 years of data from the Italian coasts, p. 271-276. In: Band-Schmidt, C.J. and C.F. Rodríguez-Gómez [eds]. Proceedings of the 19th International Conference on Harmful Algae, La Paz, B.C.S., Mexico. International Society for the Study of Harmful Algal Blooms. [includes Pseudo-nitzschia australis, P. cf. delicatissima, P. cf. fraudulenta, P. cf. pseudodelicatissima, P. galaxiae, P. multiseries, P. multistriata, P. pungens, P. subpacifica]
McGaraghan, A., K. Hayashi, P. Daniel, and R.M. Kudela. 2022. Development and comparison of Imaging FlowCytobot classifiers in coastal California, p. 220-224. In: Band-Schmidt, C.J. and C.F. Rodríguez-Gómez [eds]. Proceedings of the 19th International Conference on Harmful Algae, La Paz, B.C.S., Mexico. International Society for the Study of Harmful Algal Blooms. [includes Pseudo-nitzschia spp.]
Farrell, H., S. Brett, G. Webster, P. Baker, and A. Zammit. 2015. A summary of harmful algal bloom monitoring and risk assessment within shellfish harvest areas in New South Wales, Australia, p. 254-257. In: MacKenzie, A.L. [ed.]. Marine and Freshwater Harmful Algae. Proceedings of the 16th International Conference on Harmful Algae, Wellington, New Zealand 27th-31st October 2014. Cawthron Institute, Nelson, New Zealand and International Society for the Study of Harmful Algae (ISSHA). [includes Pseudo-nitzschia cuspidata]
Jiang, T., H. Pan, L. Steeves, Z. Jiang, R. Filgueira, Ø. Strand, T. Strohmeier, P.J. Cranford, and Z. Cui. 2022. Effect of Mytilus coruscus selective filtration on phytoplankton assemblages. Front. Mar. Sci. 9: 1070737. [includes Pseudo-nitzschia sp.]
Gracia Villalobos, L.L., N.H. Santinelli, A.V. Sastre, N.M. Uyua, S. Díaz Ovejero, E.A. Crippa, and B. Krock. 2022. Toxigenic microalgae and co-occurrence of toxins in Patagonian Gulfs of Argentina, p. 289-293. In: Band-Schmidt, C.J. and C.F. Rodríguez-Gómez [eds]. Proceedings of the 19th International Conference on Harmful Algae, La Paz, B.C.S., Mexico. International Society for the Study of Harmful Algal Blooms. [includes Pseudo-nitzschia pungens, P. fraudulenta, P. calliantha]
Suárez-Isla, B.A., F. Barrera, J. Calbuyahue, D. Carrasco, A. López-Rivera, I. Rubilar, and C. Tamayo. 2022. A multi-year study on the detection and distribution of domoic acid contamination of shellfish in production areas from Los Lagos Region, Chile (2000-2021), p. 260-265. In: Band-Schmidt, C.J. and C.F. Rodríguez-Gómez [eds]. Proceedings of the 19th International Conference on Harmful Algae, La Paz, B.C.S., Mexico. International Society for the Study of Harmful Algal Blooms. [includes Pseudo-nitzschia spp.]
Chivers, S.J. and J.V. Greenman. 2022. Marine mammal stranding patterns provide clues for identifying anomalies along the coastline of California’s Santa Barbara and Ventura counties. U.S. Department of Commerce, NOAA Technical Memorandum NMFS-SWFSC-673. [includes domoic acid, Pseudo-nitzschia sp.]
Ajani, P., M. Dove, H. Farrell, W. O’Connor, M. Tesoriero, M. Verma, A. Zammit, B. Hughes, and S. Murray. 2022. Transforming Australian Shellfish Production: Goodnight Island Harvest Area, Shoalhaven and Crookhaven Rivers. Report on Stage 1, December 2017-March 2021. University of Technology Sydney. [includes Pseudo-nitzschia australis & multiseries, P. cf. cuspidata, P. pseudodelicatissima complex Clade 1)
Zhao, L., H. Guo, H. Chen, B. Zou, C. Yang, X. Zhang, Y. Gao, M. Sun, and L. Wang. 2022. A rapid and sensitive aptamer-based biosensor for amnesic shellfish toxin domoic acid. Bioengineering 9: 684.
Balci, M. and N. Balki. 2017. Assessment of phytoplankton and environmental variables for water quality and trophic state classification in the Gemlik Gulf, Marmara Sea (Turkey). Mar. Pollut. Bull. 115: 172-189. [mentions Pseudo-nitzschia delicatissima, P. pseudodelicatissima, P. pungens]
Yan, T. 2022. The “harmful algae and algal toxins in coastal waters of China: investigation and database” project. J. Oceanol. Limnol. 40: 2081–2093. [mentions 23 species of Pseudo-nitzschia in Chinese waters]
Rattner, B.A., C.E. Wazniak, J.S. Lankton, P.C. McGowan, S.V. Drovetski, and T.A. Egerton. 2022. Review of harmful algal bloom effects on birds with implications for avian wildlife in the Chesapeake Bay region. Harmful Algae 120: 102319. [includes Pseudo-nitzschia, domoic acid]
Stone, H.B., N.S. Banas, P. MacCready, V.L. Trainer, D.L. Ayres, and M.V. Hunter. 2022. Assessing a model of Pacific Northwest harmful algal bloom transport as a decision-support tool. Harmful Algae 119: 102334. [discusses Pseudo-nitzschia]
Costas‑Selas, C., S. Martínez‑García, R. Logares, M. Hernández‑Ruiz, and E. Teira. 2022. Role of bacterial community composition as a driver of the small‑sized phytoplankton community structure in a productive coastal system. Microb. Ecol. (in press). [includes Pseudo-nitzschia sp.]
Dodrill, T.N., Y. Pan, and T.D. Peterson. 2023. River discharge mediates extent of phytoplankton and harmful algal bloom habitat in the Columbia River estuary (USA) during North Pacific marine heat waves. Estuaries Coasts 46: 166–181. [includes Pseudo-nitzschia c.f. australis/fraudulenta, P. c.f. pungens/multiseries, P. c.f. pseudodelicatissima/delicatissima]
Arapov, J., M., Buzancic, A. Penna, S. Casabianca, S. Capellacci, F. Andreoni, S. Skejic, A. Bakrac, M. Straka, and J.G.Z. Mandic. 2020. High proliferation of Pseudo-nitzschia cf. arenysensis in the Adriatic Sea: ecological and morphological characterization. Mediterr. Mar. Sci. 21: 759-774. [also includes P. lundholmiae, P. multistriata, P. fraudulenta, P. subfraudulenta]
Zheng, G., H. Wu, M. Guo, J. Peng, Y. Zhai, and Z. Tan. 2022. First observation of domoic acid and its isomers in shellfish samples from Shandong Province, China. J. Oceanol. Limnol. 40: 2231–2241.
Edwards, M.L., A.M. Schaefer, M. McFarland, S. Fire, C.R. Perkins, and M.J. Ajemian. 2023. Detection of numerous phycotoxins in young bull sharks (Carcharhinus leucas) collected from an estuary of national significance. Sci. Total Environ. 857: 159602. [includes domoic acid]
Simeone, C.A., J.P. Andrews, S.P. Johnson, M. Casalia, R. Kochanski, E.F. Chang, D. Cameron, S. Dennison, B. Inglis, G. Scott, K. Kruse-Elliott, F.F. Okonski, E. Calvo, K. Goulet, D. Robles, A. Griffin-Stence, E. Kuiper, L. Krasovec, C.L. Field, V.F. Hoard, and S.C. Baraban. 2022. Xenotransplantation of porcine progenitor cells in an epileptic California sea lion (Zalophus californianus): illustrative case. J Neurosurg. Case Lessons 3: CASE21417. [discusses domoic acid]
Goya, A.G., D. Baqer, R.P. Alexander, P. Stubbs, K. Dean, A.M. Lewis, L. Coates, B.H. Maskrey, and A.D. Turner. 2022. Marine biotoxins in whole and processed scallops from the Argentine Sea. Mar. Drugs 20: 634. [includes domoic acid, Pseudo-nitzschia]
Sterling, A.R., R.D. Kirk, M.J. Bertin, T.A. Rynearson, D.G. Borkman, M.C. Caponi, J. Carney, K.A. Hubbard, M.A. King, L. Maranda, E.J. McDermith, N.R. Santos, J.P. Strock, E.M. Tully, S.B. Vaverka, P.D. Wilson, and B.D. Jenkins. 2022. Emerging harmful algal blooms caused by distinct seasonal assemblages of a toxic diatom. Limnol. Oceanogr. 67: 2341-2359. [discusses Pseudo-nitzschia americana, P. calliantha, P. cuspidata, P. multiseries, P. pungens var. pungens, P. subpacifica, and several others; domoic acid]
Koester, I., Z.A. Quinlan, L.-F. Nothias, M.E. White, A. Rabines, D. Petras, J.K. Brunson, K. Dührkop, M. Ludwig, S. Böcker, F. Azam, A.E. Allen, P.C. Dorrestein, and L.I. Aluwihare. 2022. Illuminating the dark metabolome of Pseudo-nitzschia-microbiome associations. Environ. Microbiol. 24: 5408-5424.
Dzhembekova, N., S. Moncheva, N. Slabakova, I. Zlateva, S. Nagai, S. Wietkamp, M. Wellkamp, U. Tillmann, and B. Krock. 2022. New knowledge on distribution and abundance of toxic microalgal species and related toxins in the northwestern Black Sea. Toxins 14: 685. [includes Pseudo-nitzschia calliantha, P. delicatissima, P. pungens, domoic acid]
Andrew, S., T. Wilson, S. Smith, A. Marchetti, and A.N. Septer. 2022. A tripartite model system for Southern Ocean diatom-bacterial interactions reveals the coexistence of competing symbiotic strategies. ISME Commun. 2: 97. [discusses Pseudo-nitzschia subcurvata]
Hendrickson, O.D., E.A. Zvereva, O.N. Solopova, A.V. Zherdev, P.G. Sveshnikov, S.A. Eremin, and B.B. Dzantiev. 2022. Double immunochromatographic test system for sensitive detection of phycotoxins domoic acid and okadaic acid in seawater and seafood. Micromachines 13: 1506.
Hidayat, A., K. Lefebvre, J. MacDonald, T. Bammler, and N. Aluru. 2022. Symptomatic and asymptomatic domoic acid exposure in zebrafish (Danio rerio) revealed distinct non-overlapping gene expression patterns in the brain. Aquat. Toxicol. 252: 106310.
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]
Polyakova, S.L., N.A. Davidovich, I.V. Stonik, N.A. Martynenko, Yu.A. Podunay, T.Yu. Orlova, and M.S. Kulikovsky. 2022. Reproductive compatibility and toxicogenic activity of the diatom Pseudo-nitzschia calliantha Lundholm, Moestrup & Hasle from three geographically remote populations. Russ. J. Plant Physiol. 69: 89.
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.
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]
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]
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.]
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.
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]
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.]
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]
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.]
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]
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]
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.
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]
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)
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.]
Sildever, S., N. Nishi, N. Inaba, T. Asakura, J. Kikuchi, Y. Asano, T. Kobayashi, T. Gojobori, and S. Nagai. 2022. Monitoring harmful microalgal species and their appearance in Tokyo Bay, Japan, using metabarcoding. Metabarcoding Metagenom. 6: 261-280. [includes Pseudo-nitzschia spp.]
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.
Tanković, M.S., A. Baričević, M. Gerić, A.-M. Domijan, D.M. Pfannkuchen, N. Kužat, I. Ujević, M. Kuralić, M. Rožman, K. Matković, M. Novak, B. Žegura, M. Pfannkuchen, and G. Gajski. 2022. Characterisation and toxicological activity of three different Pseudo-nitzschia species from the northern Adriatic Sea (Croatia). Environ. Res. 214: 114108. [discusses Pseudo-nitzschia calliantha, P. delicatissima, P. pseudodelicatissima; all species produced domoic acid]
Du, M., Y. Jin, J. Fan, S. Zan, C. Gu, and J. Wang. 2022. A new pathway for anaerobic biotransformation of marine toxin domoic acid. Environ. Sci. Pollut. Res. Int. (in press)
Moreno, A.R., C. Anderson, R.M. Kudela, M. Sutula, C. Edwards, and D. Bianchi. 2022. Development, calibration, and evaluation of a model of Pseudo-nitzschia and domoic acid production for regional ocean modeling studies. Harmful Algae 118: 102296.
Bowen, L., S. Knowles, K. Lefebvre, M. St. Martin, M. Murray, K. Kloecker, D. Monson, B. Weitzman, B. Ballachey, H. Coletti, S. Waters, and C. Cummings. 2022. Divergent gene expression profiles in Alaskan sea otters: an indicator of chronic domoic acid exposure? Oceans 3: 401-418.
Wang, Z., L. Liu, Y. Tang, A. Li, C. Liu, C. Xie, L. Xiao, and S. Lu. 2022. Phytoplankton community and HAB species in the South China Sea detected by morphological and metabarcoding approaches. Harmful Algae 118: 102297. [includes Pseudo-nitzschia cuspidata, P. pseudodelicatissima]
Mills, C., M.J. Dillon, P.K. Kulabhusan, D. Senovilla-Herrero, and K. Campbell. 2022. Multiplex lateral flow assay and the sample preparation method for the simultaneous detection of three marine toxins. Environ. Sci. Technol. 56: 12210–12217.
Edwards, M., G. Beaugrand, L. Kléparski, P. Hélaouët, and P.C. Reid. 2022. Climate variability and multi-decadal diatom abundance in the Northeast Atlantic. Commun. Earth Environ. 3: 162. [includes Pseudo-nitzschia seriata complex]
Percopo, I., M.V. Ruggiero, D. Sarno, L. Longobardi, R. Rossi, R. Piredda, and A. Zingone. 2022. Phenological segregation suggests speciation by time in the planktonic diatom Pseudo-nitzschia allochrona sp. nov. Ecol. Evol. 12: e9155. [also includes Pseudo-nitzschia arenysensis, P. delicatissima, P. dolorosa; discusses sexual reproduction; no domoic acid detected]
Richlen, M.L., M.C. Curran, C. Chadwick, and K.A. Hubbard. 2022. Slicing the pie: interpreting harmful algal blooms one pie chart at a time. Sci. Act. 59: 180-190. [includes Pseudo-nitzschia]
Karasiewicz, S. and A. Lefebvre. 2022. Environmental impact on harmful species Pseudo-nitzschia spp. and Phaeocystis globose phenology and niche. J. Mar. Sci. Eng. 10: 174.
Yusof, A., F.K. Sahrani, A. Ahmad, G. Usup, and H. Bunawan. 2022. Serinicoccus kebangsaanensis sp. nov, a new bacterium isolated from the toxic diatom, Nitzschia navis-varingica. New Microbes New Infect. 48: 10100. [includes domoic acid]
Ryabushko, L., А. Begun, S. Barinova, and D. Lishaev. 2022. The pennate benthic diatoms of the sand beach of Kruglaya Bay (the Black Sea). Transylv. Rev. Syst. Ecol. Res. 24: 19-44. [includes Pseudo-nitzschia pseudodelicatissima]
Unaldi Coral, M.N. and A. Yildirim. 2014. Effect of domoic acid on growth and heavy metal tolerance of some marine bacteria isolated from Samandag Shore and Iskenderun Bay. J. Pure Appl. Microbiol. 8: 1597-1602.
Kittel, Lena. 2022. Method improvement for phycotoxin extraction of marine mammals´ tissues and body fluids. B.Sc. Thesis. Hochschule Coburg Bioanalytik and Alfred Wegener Institute, Germany, 55 p. [includes domoic acid, Pseudo-nitzschia seriata complex, P. delicatissima complex]
Sharma, D., H. Biswas, S. Silori, D. Bandyopadhyay, and A.U.R. Shaik. 2022. Phytoplankton growth and community shift over a short‑term high‑CO2 simulation experiment from the southwestern shelf of India, Eastern Arabian Sea (summer monsoon). Environ. Monit. Assess. 194: 581. [includes Pseudo-nitzschia spp.]
Ayaz, F., M. Konucu, and E.E. Develi. 2019. Immunostimulatory and immunomodulatory effects of Nitzschia navis-varingica, Heterocapsa pygmaea and Chrysochromulina alifera whole cell extracts on mammalian macrophage cells. Internat. J. Nat. Engineer. Sci. 4: 237-246.
Anderson, Madeline Mary. 2022. Co-occurrence of freshwater and marine phycotoxins: a record of microcystin and domoic Acid in Bogue Sound, North Carolina (2015 to 2020). Master’s Thesis, Graduate Faculty of North Carolina State University, Raleigh, North Carolina, 47 p. [includes Pseudo-nitzschia spp.]
Möller, K., M. Pinto-Torres, J.I. Mardones, and B. Krock. 2022. Distribution of phycotoxins in Última Esperanza Province during the PROFAN expedition 2019. Progr. Oceanogr. 206: 102851. [includes domoic acid, Pseudo-nitzschia seriata complex, P. delicatissima complex]
Develi, E.E., M. Konucu, and D. Tekdal. 2020. Analysis of domoic acid within Nitzschia navis-varingia and other three Pseudo-nitzschia species isolated from the northeastern Mediterranean Sea, p. 799-806. In: Z. Selamoğlu and M. Sevindik [eds] International Eurasian Conference on Biotechnology and Biochemistry, December 16-18, 2020 Ankara, Turkey. [also includes P. delicatissima/P. arenysensis, P. brasiliana, P. galaxiae]
Puilingi, C., S.N. Tan, Y. Maeno, C.P. Leaw, P.T. Lim, M. Yotsu-Yamashita, R. Terada, and Y. Kotaki. 2022. First record of the diatom Nitzschia navis-varingica (Bacillariophyceae) producing amnesic shellfish poisoning-toxins from Papua New Guinea. Toxin 216: 65-72.
Fröhlich, L., V. Siebert, Q. Huang, J. Thébault, K.P. Jochum, and B.R. Schöne. 2022. Deciphering the potential of Ba/Ca, Mo/Ca and Li/Ca profiles in the bivalve shell Pecten maximus as proxies for the reconstruction of phytoplankton dynamics. Ecol. Indic. 141: 109121. [includes domoic acid, Pseudo-nitzschia]
Elias, E., T.U. Høgsbro, and K. Thomas. 2022. Evolution of toxins as a public good in phytoplankton. Proc. R. Soc. B. 289 : 2022039320220393. [mentions Pseudo-nitzschia spp.]
Rodríguez-Gómez, C.F., G. Vázquez, V. Papiol, I. Mariño-Tapia, and C. Enriquez. 2022. Phytoplankton distribution and its ecological and hydrographic controls in two contrasting areas of a stratified oligotrophic system. Hydrobiologia [includes Pseudo-nitzschia spp.]
Heller, S.K.R. 2022. Validation program for the use of 'Rapid Test Kits' to safeguard and grow the WA Shellfish Industry. A single-laboratory validation study. Fisheries Research and Development Corporation Project No 2018-107, Perth, Australia. CC BY 3.0, 67 p. [discusses domoic acid]
Ajani, P., M. Dove, H. Farrell, W. O’Connor, M. Tesoriero, A. Verma, A. Zimmit, B. Huges, and S. Murray. 2022. Transforming Australian shellfish production: lower Honeymoon Bay harvest area, Wagonga Inlet. Report on Stage 1, December 2017-March 2021. University of Technology Sydney, Sydney, Australia, 54 p. [includes Pseudo-nitzschia cf. cuspidata, P. fraudulenta, P. hasleana, P. multiseries]
Maeda, Y. and T. Tanaka. 2022. Molecular insights into lipoxygenases in diatoms based on structure prediction: a pioneering study on lipoxygenases found in Pseudo-nitzschia arenysensis and Fragilariopsis cylindrus. Mar. Biotechnol. 24: 468-479.
Chiovitti, A., R.E. Harper, A. Willis, A. Bacic, P. Mulvaney, and R. Wetherbee. 2005. Variations in the substituted 3-linked mannans closely associated with the silicified walls of diatoms. J. Phycol. 41: 1154-1161. [includes Nitzschia navis-varingica]
Wang, L., L. Wen, Y. Chen, F. Wang, and C. Li. 2022. Construction of ratiometric fluorescence sensor and test strip with smartphone based on molecularly imprinted dual-emission quantum dots for the selective and sensitive detection of domoic acid. Chemosphere 304: 135405.
Eker-Develi, E. and A.E. Kideyş. 2022. First record of Nitzschia navis-varingica in the Sea of Marmara. Mar. Sci. Technol. Bull. 11: 231-235.
Chiovitti, A., R.E. Harper, A. Willis, A. Bacic, P. Mulvaney, and R. Wetherbee. 2005. Variations in the substituted 3-linked mannans closely associated with the silicified walls of diatoms. J. Phycol. 41: 1154-1161. [includes Nitzschia navis-varingica]
Nie, Z.Y., X.P. Long, N.E.H. Bouroubi, H.C. Liu, S.T. Cao, Y.X. Chen, X.F. Zheng, and J.L. Xia. 2022. Biosynthesis and detection of domoic acid from diatom Pseudo-nitzschia: a review. Curr. Pharm. Biotechnol. (in press)
Pradhan, B., H. Kim, S. Abassi, and J.-S. Ki. 2022. Toxic effects and tumor promotion activity of marine phytoplankton toxins: a review. Toxins 14: 397. [includes Pseudo-nitzschia, domoic acid]
Ljubešić, Z., S. Bosak, D. Viličić, K.K. Borojević, D. Marić, J. Godrijan, I. Ujević, P. Peharec, and T. Đakovac. 2011. Ecology and taxonomy of potentially toxic Pseudo-nitzschia species in Lim Bay (north-eastern Adriatic Sea). Harmful Algae 10: 713-722. [includes Pseudo-nitzschia calliantha, P. fraudulenta, P. manii, P. pseudodelicatissima, P. pungens]
Hendrickson, O.C., E.A. Zvereva, O.N. Solopova, N.E. Varlamov, O.B. Shemchukova, A.V. Zherdev, P.G. Sveshnikov, and B.B. Dzantiev. 2022. Rapid detection of phycotoxin domoic acid in seawater and seafood based on the developed lateral flow immunoassay. Anal. Methods 14: 2446-2452.
Garcellano, R.C., L.S. Japson, and S.I. Wy. 2022. Water quality of Puerto Princesa Bay in relation to the presence of informal settlers in its coastal areas. Palawan Sci. 14: 84-99. [includes Pseudo-nitzschia spp.]
Mohebbi-Nozar, S.S., M.S. Mortazavi, F. Seraji, and P. Bahreini. 2022. Health risk assessment of okadaic acid and domoic acid in some edible bivalves from Hormozgan Province in the north of Persian Gulf. Pollution 8: 934-947.
Twining, B.S. and S.B. Baines. 2022. Luxury iron uptake and storage in pennate diatoms from the equatorial Pacific Ocean. Metallomics 14: mfac035. [discusses Pseudo-nitzschia]
García-Corona, J.L., H. Hégaret, M. Deléglise, A. Marzari, C. Rodríguez-Jaramillo, V. Foulon, and C. Fabioux. 2022. First subcellular localization of the amnesic shellfish toxin, domoic acid, in bivalve tissues: deciphering the physiological mechanisms involved in its long-retention in the king scallop Pecten maximus. Harmful Algae 116: 102251. [includes Pseudo-nitzschia australis]
Wang, X., S. Yang, and Q. Zhang. 2022. Coupling effect of phytoplankton community structure and environmental factors in the Bohai Sea of China. Mar. Pollut. Bull. 179: 113707. [includes Pseudo-nitzschia delicatissima, P. pungens]
Rolton, A., L. Rhodes, K.S. Hutson, L. Biessy, T. Bui, L. MacKenzie , J.E. Symonds, and K.F. Smith. 2022. Effects of harmful algal blooms on fish and shellfish species: a case study of New Zealand in a changing environment. Toxins 14: 341. [includes Pseudo-nitzschia australis, P. delicatissima, P. fraudulenta, P. heimii, P. multiseries, P. multistriata, P. pseudodelicatissima, P. pungens]
Church, I. and B.D. Jenkins. 2022. Temporal and spatial comparison of Pseudo-nitzschia species composition and domoic acid in Narragansett Bay, Rhode Island and the Northeast U.S. shelf. Senior Honors Projects. Paper 934.
Graff van Creveld, S., A. Mizrachi, and A. Vardi. 2022. An ocean of signals: intracellular and extracellular signaling in diatoms, p. 641-678. In: Falciatore, A. and T. Mock [eds] The molecular life of diatoms. Springer, Cham. [includes domoic acid]
Bilcke, G., M.I. Ferrante, M. Montresor, S. De Decker, L. De Veylder, and W. Vyverman. 2022. Life cycle regulation, p. 205-228. In: Falciatore, A. and T. Mock [eds] The molecular life of diatoms. Springer, Cham. [includes Pseudo-nitzschia]
Wang, X., S. Yang, and Q. Zhang. 2022. Coupling effect of phytoplankton community structure and environmental factors in the Bohai Sea of China. Mar. Pollut. Bull. 179: 113707. [includes Pseudo-nitzschia delicatissima]
De Girolamo, A., V. Lippolis, and M. Pascale. 2022. Overview of recent liquid chromatography mass spectrometry-based methods for natural toxins detection in food products. Toxins 14: 328. [includes domoic acid]
Yu, S., X. Zhou, P. Hu, H. Chen, F. Shen, C. Yu, H. Meng, Y. Zhang, and Y. Wu. 2022. Inhalable particle-bound marine biotoxins in a coastal atmosphere: concentration levels, influencing factors and health risks. J. Hazard. Mater. 434: 128925. [includes domoic acid]
Cipolletta, F., A. Ademy Russo, D. D’alelio, F. Margiotta, D. Sarno, A. Zingone, and M. Montresor. 2022. Vertical distribution of Pseudo-nitzschia in the Gulf of Naples across the seasons. Mediterr. Mar. Sci. 23: 525–535. [discusses Pseudo-nitzschia allochrona, P. galaxiae, P. multistriata, P. cf. pseudodelicatissima]
Ligorini, V., N. Malet, M. Garrido, V. Derolez, M. Amand, B. Bec, P. Cecchi, and V. Pasqualini. 2022. Phytoplankton dynamics and bloom events in oligotrophic Mediterranean lagoons: seasonal patterns but hazardous trends. Hydrobiologia 849: 2353–2375. [includes Pseudo-nitzschia spp.]
Olesen, A.J., F. Ryderheim, B. Krock, N. Lundholm, and T. Kiørboe. 2022. Costs and benefits of predator-induced defence in a toxic diatom. Proc. Royal Soc. London B 289: 2021273. [includes Pseudo-nitzschia seriata]
Elorriaga-Verplancken, F.R., C.J. Hernández-Camacho, L. Álvarez-Santamaría, A. Paniagua-Mendoza, R. Robles-Hernández, F. Rebolledo-Villa, H. Rosales-Nanduca, A. Ramos-Rodríguez, and K. Acevedo-Whitehouse. 2022. Largest mortality event to date of California sea lions in Mexico might be linked to a harmful algal bloom. Aquat. Mamm. 48: 59-67.
Chasapis, C.T., M. Peana, and V. Bekiari. 2022. Structural identification of metalloproteomes in marine diatoms, an efficient algae model in toxic metals bioremediation. Molecules 27: 378. [Includes Pseudo-nitzschia multistriata]
Karasiewicz, S. and A. Lefebvre. 2022. Environmental impact on harmful species Pseudo-nitzschia spp. and Phaeocystis globosa phenology and niche. J. Mar. Sci. Eng. 10: 174.
Jiang, T., G. Wu, P. Niu, Z. Cui, X. Bian, Y. Xie, H. Shi, X. Xu, and K. Qu. 2022. Short-term changes in algal blooms and phytoplankton community after the passage of Super Typhoon Lekima in a temperate and inner sea (Bohai Sea) in China. Ecotoxicol. Environmen. Saf. 232: 113223. [Includes Pseudo-nitzschia sp.]
Popik, A., E. Gamayunov, S. Voznesenskiy, Z. Markina, and T. Orlova. 2022. The study of fluorescence features of microalgae from the genus Pseudo-nitzschia and the possibility of their detection in water. Algal Res. 64: 102662. [discusses Pseudo-nitzschia calliantha, P. delicatissima, P. hasleana, P. multistriata, P. pungens]
Simeone, C.A., J.P. Andrews, S.P. Johnson, M. Casalia, R. Kochanski, E.F. Chang, D. Cameron, S. Dennison, B. Inglis, G. Scott, K. Kruse-Elliott, F.F. Okonski, E. Calvo, K. Goulet, D. Robles, A. Griffin-Stence, E. Kuiper, L. Krasovec, C.L. Field, V.F. Hoard, and S.C. Baraban. 2022. Xenotransplantation of porcine progenitor cells in an epileptic California sea lion (Zalophus californianus): illustrative case. J. Neurosurg. Case Lessons 3: CASE21417. [discusses domoic acid]
Sahraoui, I., S. Melliti Ben Garali, Z. Chakroun, C. Gonzalez, O. Pringault, and A. Sakka Hlaili. 2022. Monoculture and co-culture tests of the toxicity of four typical herbicides on growth, photosynthesis and oxidative stress responses of the marine diatoms Pseudo-nitzschia mannii and Chaetoceros decipiens. Ecotoxicology 31: 700-713.
Free, C.M., S.K. Moore, and V.L. Trainer. 2022. The value of monitoring in efficiently and adaptively managing biotoxin contamination in marine fisheries. Harmful Algae 114: 102226. [discusses domoic acid]
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. [includes Pseudo-nitzschia australis, P. plurisecta, P. seriata]
Gulland, F.M.D., J.D. Baker, M. Howe, E. LaBrecque, L. Leach, S.E. Moore, R.R. Reeves, and P.O. Thomas. 2022. A review of climate change effects on marine mammals in United States waters: past predictions, observed impacts, current research and conservation imperatives. Climate Change Ecol. 3: 100054. [includes domoic acid]
Madunić, J., Hercog, K., Gerić, M., Domijan, A.-M., Žegura, B., and Gajski, G. 2022. Marine toxin domoic acid induces moderate toxicological response in non-target HepG2 cells. Toxicology 470: 153157.
Kudela, R.M., C. Anderson, and H. Ruhl. 2022. The California Harmful Algal Bloom Monitoring and Alert Program: a success story for coordinated ocean observing, p. 84-85. In: E.S. Kappel, S.K. Juniper, S. Seeyave, E. Smith, and M. Visbeck [eds] Frontiers in ocean observing: documenting ecosystems, understanding environmental changes, forecasting hazards. A Supplement to Oceanography 34. [includes Pseudo-nitzschia]
Polyakova, S.L., N.A. Davidovich, I.V. Stonik, and T.Yu. Orlova. 2022. Life cycle of two toxicogenic species of Bacillariophyta: Pseudo-nitzschia calliantha Lundholm, Moestrup et Hasle and P. pungens (Grunow ex PT Cleve) Hasle. Russ. J. Plant Physiol. 69: 17.
Wang, L., L. Wen, L. Zhao, J. Chao, F. Tao, F. Wang, and C. Li. 2022. Development of fluorescence sensor and test paper based on molecularly imprinted carbon quantum dots for spiked detection of domoic acid in shellfish and lake water. Analyt. Chim. Acta 1197: 339515.
Ramya, E.M., G.P. Kumar, Y. Chandrasekhar, and K.R. Anilakumar. 2022. Adaptogenic potential of ginsenosides against domoic acid-induced toxicity by regulating neuronal stress and kinate receptors: ex vivo and in silico studies. J. Food Biochem. 46: e14089
Brunson, John. 2021. The genetic basis for domoic acid biosynthesis. PhD Thesis, University of California, San Diego.
Rachman, A. and H. Thoha. 2021. Characterization and identification of Pseudo-nitzschia species in Lampung Bay, Indonesia. Mar. Res. Indonesia 46: 31-38. [discusses Pseudo-nitzschia pungens]
Steele, T.S., J.K. Brunson, Y. Maeno, R. Terada, A.E. Allen, M. Yotsu-Yamashita, J.R. Chekan, and B.S. Moore. 2022. Domoic acid biosynthesis in the red alga Chondria armata suggests a complex evolutionary history for toxin production. Proc. Natl. Acad. Sci. USA 119: e2117407119.
Adamski, M. and A. Kaminski. 2022. Effect of microcystin-LR, nodularin, anatoxin-a, β-N-methylamino-L-alanine and domoic acid on antioxidant properties of glutathione. Life 12: 227.
Mohd-Din, M., K.S. Hii, M.F. Abdul-Wahab, S.E. Mohamad, H. Gu, C.P. Leaw, and P.T. Lim. 2022. Spatial-temporal variability of microphytoplankton assemblages including harmful microalgae in a tropical semi-enclosed strait (Johor Strait, Malaysia). Mar. Environ. Res. 175: 105589. [includes Pseudo-nitzschia]
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