Stable dominance of parasitic dinoflagellates in Antarctic sponges by Marileyxis R. López-Rodríguez, Catherine Gérikas Ribeiro, Susana Rodríguez-Marconi, Génesis Parada-Pozo, Maria Manrique-de-la-Cuba, Nicole Trefault

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Common Freshwater Fish Parasites Pictorial Guide: Dinoflagellates, Coccidia, Microsporidians, & Myxozoans by Deborah B. Pouder, Eric W. Curtis, Roy P. Yanong

“…FA-110/FA110: Common Freshwater Fish Parasites Pictorial Guide: Dinoflagellates, Coccidia, Microsporidians, & Myxozoans (ufl.edu) …”
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Diel vertical migration rates of the dinoflagellate species Margalefidinium polykrikoides in a lower Chesapeake Bay tributary by Sophie Clayton, Sophie Clayton, Jacqueline B. Chrabot, Michael Echevarria, Leah Gibala-Smith, Kathryn Mogatas, Peter Bernhardt, Margaret R. Mulholland

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Ocean acidification enhances the tolerance of dinoflagellate Prorocentrum donghaiense to nanoplastic-induced oxidative stress by modulating photosynthetic performance by Yue Zhu, Yue Zhu, Qingming Lin, Qingming Lin, Yao Yang, Yanmei Xia, Yanmei Xia, Huidi Cai, Huidi Cai, Xucong Feng, Xucong Feng, Rodrigo J. Gonçalves, Rodrigo J. Gonçalves, Wanchun Guan, Wanchun Guan

“…However, the combined effects of OA and NPs on the HAB species are poorly understood.MethodsIn this study, dinoflagellate Prorocentrum donghaiense, a typical HAB species, was exposed to varying concentrations of NPs (108.15 ± 8.52 nm) (0, 5, 10, and 15 mg L−1) and CO2 (low CO2: 417 ppm, pH: 8.00 and high CO2: 1045 ppm, pH: 7.73) for seven days to investigate the combined effects of OA and NPs.Results and discussionThe findings revealed that NPs inhibited the growth of P. donghaiense by inducing oxidative stress, as indicated by elevated malondialdehyde (MDA) content and decreased carotenoid/chlorophyll-a ratio, even though photochemical efficiency (φP0, ψ0, and φE0), rETRmax and α were enhanced in response to NPs stress. …”
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Inter-seasonal phytoplankton dynamics in the UAE coastal waters by Nadia Solovieva, Nadia Solovieva, Dunya Medhat, Fatin Samara, Fatin Samara, Maria Saburova

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Nonspecific response of Lake Baikal phytoplankton to anthropogenic impact by A. A. Nikonova, S. S. Vorobyeva

“…By the end of the first decade of May, the percentage of dinoflagellates decreased and that of cryptophytes increased. …”
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Ciguatera by Jorge R. Rey

“…Rey, describes this form of food poisoning caused by ingestion of saltwater fish and invertebrates that have accumulated in their tissues a certain amount of the toxins produced by dinoflagellates. Includes references. Published by the UF Department of Entomology and Nematology, October 2007. …”
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La Ciguatera by Jorge R. Rey

“…It describes this form of food poisoning caused by ingestion of saltwater fish and invertebrates that have accumulated in their tissues a certain amount of the toxins produced by dinoflagellates. Includes references. Published by the UF Department of Entomology and Nematology, November 2007.  …”
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La Ciguatera by Jorge R. Rey

“…It describes this form of food poisoning caused by ingestion of saltwater fish and invertebrates that have accumulated in their tissues a certain amount of the toxins produced by dinoflagellates. Includes references. Published by the UF Department of Entomology and Nematology, November 2007.  …”
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A stakeholder driven engagement strategy to support the development of harmful algal bloom control technologies: A case study with DinoSHIELD by Alexandria G. Hounshell, Madison Horgan, Christopher L. Cummings, Elizabeth Staugler, Lynn E. Wilking, Alan J. Kennedy, Yanfei Wang, Kathryn J. Coyne, Kaytee L. Pokrzywinski

“…DinoSHIELD is a novel biological harmful algal bloom (HAB) control strategy that targets toxic dinoflagellates (e.g., Karenia brevis) through controlled release of a naturally-produced algicide from bacteria immobilized in non-toxic hydrogel. …”
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Geochemical characteristic of different-lithofacies source rocks and its implications for ultradeep hydrocarbon exploration in the lower cambrian Yuertus formation, Tarim basin by Qianghao Zeng, Taohua He, Ya Zhao, Ke Zhang, Zhigang Wen, Yaohui Xu, Jiayi He, Weichao Tian, Shuangfang Lu, Wangming Cheng, Zhou Xie, Kaiwen Xue, Changjun Ji

“…Stable biomarkers including triaromatic steroids (TAS), triaromatic dinoflagellate steroids (TDSI), and aryl isoprenoids (1-alkyl-2,3,6-trimethylbenzenes, ATMBs) reveal significant differences among the three lithological types of source rocks: Calcareous mudstones exhibit biomarker distribution patterns similar to those of classical Ordovician source rocks (C26R + C27S TAS < C28S TAS, TDSI < 0.6), while simultaneously containing high abundances of ATMBs characteristic of the Є1y. …”
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