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1

Bicudo, Carlos Eduardo de Mattos. "Criptógamos do Parque Estadual das Fontes do Ipiranga, São Paulo, SP. Algas, 32: Dinophyceae (famílias Dinococcaceae, Gymnodiniaceae e Hemidiniaceae)." Hoehnea 38, no. 1 (2011): 97–108. http://dx.doi.org/10.1590/s2236-89062011000100008.

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Levantamento florístico dos representantes das famílias Dinococcaceae, Gymnodiniaceae e Hemidiniaceae (Dinophyceae) do Parque Estadual das Fontes do Ipiranga, São Paulo, Brasil. Cinco gêneros (Amphidinium, Dinococcus, Gymnodinium, Hemidinium e Katodinium) e 14 espécies (quatro de Amphidinium, quatro de Hemidinium, três de Gymnodinium, duas de Katodinium e uma de Dinococcus) e duas variedades que não são as típicas de suas respectivas espécies foram identificados. Amphidinium kesslitzii Schiller var. kesslitzii, Gymnodinium fuscum (Ehrenberg) Stein e Hemidinium brasiliense C. Bicudo & Skvor
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Shao, Peng, Yue-Qin Chen, Hui Zhou, et al. "Genetic variability in Gymnodiniaceae ITS regions: implications for species identification and phylogenetic analysis." Marine Biology 144, no. 2 (2004): 215–24. http://dx.doi.org/10.1007/s00227-003-1157-x.

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Lee, Joon-Baek, and Gyu-Beom Kim. "New Records of Five Unarmored Genera of the Family Gymnodiniaceae (Dinophyceae) in Korean Waters." Environmental Biology Research 35, no. 3 (2017): 273–88. http://dx.doi.org/10.11626/kjeb.2017.35.3.273.

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Kretschmann, Juliane, Natalia H. Filipowicz, Paweł M. Owsianny, Carmen Zinssmeister, and Marc Gottschling. "Taxonomic Clarification of the Unusual Dinophyte Gymnodinium limneticum W ołosz . (Gymnodiniaceae) from the Tatra Mountains." Protist 166, no. 6 (2015): 621–37. http://dx.doi.org/10.1016/j.protis.2015.09.002.

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Smith, Kirsty, Miguel de Salas, Janet Adamson, and Lesley Rhodes. "Rapid and Accurate Identification by Real-Time PCR of Biotoxin-Producing Dinoflagellates from the Family Gymnodiniaceae." Marine Drugs 12, no. 3 (2014): 1361–76. http://dx.doi.org/10.3390/md12031361.

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KRAKHMALNYI, МAXIM А., and ALEKSANDR F. KRAKHMALNYI. "Apicoporus haificum (Gymnodiniaceae), a new dinoflagellate species from sandy sediments of the Mediterranean Sea (Israel coast)." Phytotaxa 404, no. 7 (2019): 287. http://dx.doi.org/10.11646/phytotaxa.404.7.2.

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A new dinoflagellate species (Dinophyceae, Gymnodiniales)—Apicoporus haificum Krachmalny sp. nov. was described on a basis of thorough light microscopy studies. The species was found in sandy sediments (water-filled spaces between sand grains) on the eastern coast of the Mediterranean Sea (HaCarmel beach, Haifa, Israel). Apicoporus haificum possesses the following features: cells elongated (with length exceeding width by 3.1–3.8 times), lanceolate in dorsoventral projection, roundish in cross-section with slight dorsoventral compression, asymmetrical, slightly curved to the right, with antapic
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Gárate -Lizárraga, I. "PROLIFERATION OF Amphidinium carterae (GYMNODINIALES: GYMNODINIACEAE) IN BAHÍA DE LA PAZ, GULF OF CALIFORNIA." CICIMAR Oceánides 27, no. 2 (2012): 37. http://dx.doi.org/10.37543/oceanides.v27i2.115.

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During a sampling on 15 December 2011 in Bahía de La Paz, a bloom of the benthic dinoflagellate Amphidinium carterae was detected. Its abundance ranged from 28.2 to 64.8 × 103 cells L–1. Cells of A. carterae varied in length from 18 to 28 μm and 13 to 18 μm in wide (n = 30). The presence of A. carterae and benthic species of diatoms and dinoflagellates at the surface could be an indicator of upwelling water generated by northwestern winds. Seawater temperature during the bloom was 20 °C. Also, new records of dinoflagellates for the Mexican coast of the Pacific are here reported: Amphidiniopsis
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Gomes, Eli Ana Traversim, Viviane Severiano dos Santos, Denise Rivera Tenenbaum, and Maria Célia Villac. "Protozooplankton characterization of two contrasting sites in a tropical coastal ecosystem (Guanabara Bay, RJ)." Brazilian Journal of Oceanography 55, no. 1 (2007): 29–38. http://dx.doi.org/10.1590/s1679-87592007000100004.

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Much time and resources have been invested in understanding plankton dynamics in Guanabara Bay (Brazil), but no attention has been devoted to the protozooplankton. To fulfill this lacuna, abundance and composition of protozooplankton were investigated from January to December - 2000 in fortnightly surface water samplings at two distinct water quality sites (Urca - closer to the bay entrance, more saline and cleaner waters; Ramos - inner reaches, hypereutrophic waters). The density at Urca (10³ - 10(5) cell.l-1) was one to three orders of magnitude lower than at Ramos (10(4) - 10(5) cell.l-1).
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Wijayanti, Hendry, and Andy Darmawan. "Comparative Study on Phytoplankton Community in Two Newly Dug Ponds in Institut Teknologi Sumatera." Jurnal Biodjati 5, no. 1 (2020): 63–69. http://dx.doi.org/10.15575/biodjati.v5i1.7996.

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Phytoplankton community plays an important ecological role in the aquatic ecosystems as the primary producers and forms the fundament of the aquatic food chain for supporting the water community. Thus, the phytoplankton community structure is a good indicator of water quality due to its sensitiveness to environmental stresses. Two newly dug ponds in Institut Teknologi Sumatera may give an opportunity to study the early colonizing stages of various freshwater communities including phytoplankton. The study attempted to determine the composition and abundance of phytoplankton. Samples were collec
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Kubiszyn, A. M., and J. M. Wiktor. "The Gymnodinium and Gyrodinium (Dinoflagellata: Gymnodiniaceae) of the West Spitsbergen waters (1999–2010): biodiversity and morphological description of unidentified species." Polar Biology 39, no. 10 (2015): 1739–47. http://dx.doi.org/10.1007/s00300-015-1764-2.

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Romeikat, Corinna, Johanna Knechtel, and Marc Gottschling. "Clarifying the taxonomy of Gymnodinium fuscum var. rubrum from Bavaria (Germany) and placing it in a molecular phylogeny of the Gymnodiniaceae (Dinophyceae)." Systematics and Biodiversity 18, no. 2 (2019): 102–15. http://dx.doi.org/10.1080/14772000.2019.1699197.

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Holzer, Victoria J. C., Juliane Kretschmann, Johanna Knechtel, Paweł M. Owsianny, and Marc Gottschling. "Morphological and molecular variability of Peridinium volzii Lemmerm. (Peridiniaceae, Dinophyceae) and its relevance for infraspecific taxonomy." Organisms Diversity & Evolution 22, no. 1 (2021): 1–15. https://doi.org/10.1007/s13127-021-00514-y.

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Holzer, Victoria J. C., Kretschmann, Juliane, Knechtel, Johanna, Owsianny, Paweł M., Gottschling, Marc (2022): Morphological and molecular variability of Peridinium volzii Lemmerm. (Peridiniaceae, Dinophyceae) and its relevance for infraspecific taxonomy. Organisms Diversity & Evolution 22 (1): 1-15, DOI: 10.1007/s13127-021-00514-y, URL: http://dx.doi.org/10.1007/s13127-021-00514-y
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Borchhardt, Nadine, Nicolas Chomérat, Gwenael Bilien, et al. "Morphology and molecular phylogeny of Bindiferia gen. nov. (Dinophyceae), a new marine, sand-dwelling dinoflagellate genus formerly classified within Amphidinium." Phycologia 60, no. 6 (2021): 631–43. https://doi.org/10.1080/00318884.2021.1978040.

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Borchhardt, Nadine, Chomérat, Nicolas, Bilien, Gwenael, Zentz, Frédéric, Rhodes, Lesley, Murray, Shauna A., Hoppenrath, Mona (2021): Morphology and molecular phylogeny of Bindiferia gen. nov. (Dinophyceae), a new marine, sand-dwelling dinoflagellate genus formerly classified within Amphidinium. Phycologia 60 (6): 631-643, DOI: 10.1080/00318884.2021.1978040, URL: https://doi.org/10.1080/00318884.2021.1978040
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Efendi, Umar, Agung Pamuji Rahayu, Fuquh Rahmat Shaleh, Norma Aprilia Fanni, and Muntalim Muntalim. "Produktivitas Primer Perairan Waduk Di Desa Kedungsoko Kecamatan Mantup Kabupaten Lamongan." Grouper 13, no. 1 (2022): 82–93. http://dx.doi.org/10.30736/grouper.v13i1.110.

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Produktivitas primer waduk meliputi plankton, oksigen terlarut, karbon dioksida, dll. Produktivitas primer merupakan energi utama yang menjadi dasar struktur tropis ekosistem perairan, dan merupakan respon terhadap kondisi fisik dan kimia yang ada. Penelitian ini bertujuan untuk menganalisis parameter fisika, kimia dan biologi serta tingkat produktivitas primer perairan Waduk Desa Kedungsoko Kecamatan Mantup Kabupaten Lamongan. Penelitian telah dilaksanakan pada Tanggal 27 Januari – 31 Maret 2021, di Waduk Desa Kedungsoko Kecamatan Mantup Kabupaten Lamongan. Metode yang digunakan pada peneli
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Kodama, Taketoshi, Tsuyoshi Watanabe, Yukiko Taniuchi, Akira Kuwata, and Daisuke Hasegawa. "Micro-size plankton abundance and assemblages in the western North Pacific Subtropical Gyre under microscopic observation." PLOS ONE 16, no. 4 (2021): e0250604. http://dx.doi.org/10.1371/journal.pone.0250604.

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While primary productivity in the oligotrophic North Pacific Subtropical Gyre (NPSG) is changing, the micro-size plankton community has not been evaluated in the last 4 decades, prompting a re-evaluation. We collected samples over three years (2016–2018) from depths of 10 to 200 m (n = 127), and the micro-size plankton were identified and counted to understand the heterogeneity of micro-size plankton community structure. The assemblages were consistent to the those of 4 decades ago. Dinophyceae (dinoflagellates) were the most numerically abundant, followed by Cryptophyceae and Bacillariophycea
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Nur Inda Sari, S., and Nita Rukminasari. "The abundance and species assemblages of dinoflagellate cysts at sediments in the three estuaries of the Southern part of South Sulawesi." IOP Conference Series: Earth and Environmental Science 1119, no. 1 (2022): 012011. http://dx.doi.org/10.1088/1755-1315/1119/1/012011.

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Abstract Harmful algal blooms (HAB) are a phenomenon of drastically increasing phytoplankton populations, which can cause problems in aquatic ecosystems. Dinoflagellate cysts are a type of phytoplankton that are the main source of causing the HAB phenomenon; this occurs due to unfavorable environmental conditions. The Southern Estuary of South Sulawesi has high fishery resources and high primary productivity. The coastal areas around these waters are widely used for anthropogenic activities that trigger nutrient increases. There are no studies on HAB, especially the abundance and community str
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Kumar, A. "New palynological evidence for the age of the Beda Formation, Sirte Basin, Libya." Palaeontologia Electronica 4, no. 3 (2016): 1–14. https://doi.org/10.26879/639.

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Lewis, Jane, Joe D. Taylor, Klaire Neale, and Suzanne A.G. Leroy. "Expanding known dinoflagellate distributions: investigations of slurry cultures from Caspian Sea sediment." Botanica Marina 61, no. 1 (2017): 21–31. https://doi.org/10.1515/bot-2017-0041.

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Lewis, Jane, Taylor, Joe D., Neale, Klaire, Leroy, Suzanne A.G. (2018): Expanding known dinoflagellate distributions: investigations of slurry cultures from Caspian Sea sediment. Botanica Marina (Warsaw, Poland) 61 (1): 21-31, DOI: 10.1515/bot-2017-0041, URL: http://dx.doi.org/10.1515/bot-2017-0041
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Watanabe, Tsuyoshi, Satoshi Nagai, Yoko Kawakami, et al. "18S rRNA gene sequences of leptocephalus gut contents, particulate organic matter, and biological oceanographic conditions in the western North Pacific." Scientific Reports 11, no. 1 (2021). http://dx.doi.org/10.1038/s41598-021-84532-y.

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AbstractEel larvae apparently feed on marine snow, but many aspects of their feeding ecology remain unknown. The eukaryotic 18S rRNA gene sequence compositions in the gut contents of four taxa of anguilliform eel larvae were compared with the sequence compositions of vertically sampled seawater particulate organic matter (POM) in the oligotrophic western North Pacific Ocean. Both gut contents and POM were mainly composed of dinoflagellates as well as other phytoplankton (cryptophytes and diatoms) and zooplankton (ciliophoran and copepod) sequences. Gut contents also contained cryptophyte and c
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Escarcega Bata, Alexis de Jesús, María Luisa Núñez Resendiz, Mary Carmen Ruiz-de la Torre, Kurt M. Dreckmann, María Eugenia Zamudio-Resendiz, and Abel Sentíes. "Diversidad de dinoflagelados atecados del orden Gymnodiniales (Dinophyceae), con énfasis en aquellos formadores de florecimientos algales nocivos en las costas del Pacífico Mexicano." Acta Botanica Mexicana, no. 130 (January 18, 2023). http://dx.doi.org/10.21829/abm130.2023.2126.

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Antecedentes y Objetivos: El orden Gymnodiniales está compuesto por 11 familias, 63 géneros y 641 especies taxonómicamente válidas. Estos dinoflagelados se caracterizan por presentar una pared celular muy frágil. Además, algunas especies pueden llegar a producir potentes toxinas e incluso tienen la capacidad para formar grandes florecimientos. Los estudios enfocados en conocer la diversidad de este grupo, en el caso de las costas del Pacífico Mexicano, siguen siendo limitados, a pesar de la importancia económica, social y ecológica de estos microorganismos. Por lo tanto, el objetivo de este es
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