双鞭毛藻、過鞭毛藻
- 関
- dinoflagellate、Dinoflagellida、Gonyaulax、Gymnodinium、red tide
WordNet
- chiefly marine protozoa having two flagella; a chief constituent of plankton
- of or relating to or caused by a toxin or poison; "suffering from exposure to toxic substances"
PrepTutorEJDIC
- 毒性の,有毒な / 毒による
Wikipedia preview
出典(authority):フリー百科事典『ウィキペディア(Wikipedia)』「2013/05/12 22:15:20」(JST)
[Wiki en表示]
| Gambierdiscus toxicus |
| Scientific classification |
| Domain: |
Eukaryota |
| Kingdom: |
Chromalveolata |
| Superphylum: |
Alveolata |
| Phylum: |
Dinoflagellata |
| Class: |
Dinophyceae |
| Order: |
Gonyaulacales |
| Family: |
Goniodomataceae |
| Genus: |
Gambierdiscus |
| Species: |
Gambierdiscus toxicus |
Gambierdiscus toxicus is a species of Dinoflagellates. It is an agent for ciguatera.[1] It produces maitotoxin.
Notes [edit]
- ^ "Cook Islands Biodiversity : Gambierdiscus toxicus - Ciguatera Dinoflagellate". Cookislands.bishopmuseum.org. Retrieved 2012-06-08.
External links [edit]
- Gambierdiscus toxicus at the Encyclopedia of Life
UpToDate Contents
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English Journal
- Population model for Amyloodinium ocellatum infecting the spotted seatrout Cynoscion nebulosus and the red snapper Lutjanus campechanus.
- Masson I, Lotz JM, Blaylock RB.Author information Gulf Coast Research Laboratory, The University of Southern Mississippi, Ocean Springs, Mississippi 39564, USA.AbstractThe dinoflagellate Amyloodinium ocellatum, a major pathogen in warm water mariculture, has a trophont, a tomont and a dinospore life history stage. This paper presents a population model for A. ocellatum infecting spotted seatrout Cynoscion nebulosus and red snapper Lutjanus campechanus and evaluates the relative effect of each vital rate on the A. ocellatum population growth rate. The vital rates were estimated by incubating trophonts in vitro and tracking their development through the successive life history stages at 25°C and 33 ppt. The A. ocellatum population growth rate was 1.90 d-1 for spotted seatrout and 1.92 d-1 for red snapper. Highest elasticity values (0.24 and 0.23 in spotted seatrout and red snapper, respectively) corresponded to transitions from the dinospore to the trophont stage, the trophont stage to the tomont stage and the tomont stage back to the dinospore stage in both host species (self-loops not included). A 50% change in vital rates showed that the mean number of dinospores produced by a tomont had the largest effect on the A. ocellatum population growth rate (15%), followed by the dinospore infection rate (14%), the tomont sporulation rate (12%) and the dinospore mortality rate (10%) in both host species. A comparison of modeled and experimental vital rate threshold values revealed a 2.5- (spotted seatrout) or a 2.6-fold (red snapper) difference in the values for dinospore mortality, which is the smallest difference among all the modeled and experimental vital rates. Therefore, measures that increase dinospore mortality have a greater likelihood of influencing the outcome of an epidemic.
- Diseases of aquatic organisms.Dis Aquat Organ.2013 Oct 11;106(2):139-48. doi: 10.3354/dao02637.
- The dinoflagellate Amyloodinium ocellatum, a major pathogen in warm water mariculture, has a trophont, a tomont and a dinospore life history stage. This paper presents a population model for A. ocellatum infecting spotted seatrout Cynoscion nebulosus and red snapper Lutjanus campechanus and evaluate
- PMID 24113247
- [Health impact of unicellular algae of the Ostreopsis genus blooms in Algeria during summer 2009].
- Iddir-Ihaddaden W, Abdellah KO, Merbout G, Abtroun R, Alamir B, de Haro L.
- Presse médicale (Paris, France : 1983).Presse Med.2013 Sep;42(9 Pt 1):1281-3. doi: 10.1016/j.lpm.2012.10.020. Epub 2013 Feb 28.
- PMID 23453506
- Transcriptome deep-sequencing and clustering of expressed isoforms from Favia corals.
- Pooyaei Mehr SF, DeSalle R, Kao HT, Narechania A, Han Z, Tchernov D, Pieribone V, Gruber DF.Author information The Graduate Center, Molecular, Cellular and Developmental Biology, City University of New York, New York, NY 10065, USA. fpooyaei-mehr@amnh.orgAbstractBACKGROUND: Genomic and transcriptomic sequence data are essential tools for tackling ecological problems. Using an approach that combines next-generation sequencing, de novo transcriptome assembly, gene annotation and synthetic gene construction, we identify and cluster the protein families from Favia corals from the northern Red Sea.
- BMC genomics.BMC Genomics.2013 Aug 12;14:546. doi: 10.1186/1471-2164-14-546.
- BACKGROUND: Genomic and transcriptomic sequence data are essential tools for tackling ecological problems. Using an approach that combines next-generation sequencing, de novo transcriptome assembly, gene annotation and synthetic gene construction, we identify and cluster the protein families from Fa
- PMID 23937070
Japanese Journal
- 日本海若狭湾西部において見出された底生渦鞭毛藻 Gambierdiscus 属
- 畑山 裕城,石川 輝,夏池 真史,武市 有未,鰺坂 哲朗,澤山 茂樹,今井 一郎,Hatayama Yuki,Ishikawa Akira,Natsuike Masafumi,Takeichi Yumi,Ajisaka Tetsuro,Sawayama Shigeki,Imai Ichiro
- 日本水産学会誌 77(4), 685-687, 2011-07-15
- … シガテラの主要毒素は,底生性渦鞭毛藻 Gambierdiscus 属が生成すると考えられている。 … シガテラが散発する本州太平洋岸においては,有毒種 Gambierdiscus toxicus の出現が 1980 年代から確認されている。 … 一方,日本海沿岸ではシガテラの発生報告がなく,Gambierdiscus 属の生息も報告されていない。 …
- NAID 120005228762
- 日本海若狭湾西部において見出された底生渦鞭毛藻 Gambierdiscus 属
- 畑山 裕城,石川 輝,夏池 真史 [他],武市 有未,鰺坂 哲朗,澤山 茂樹,今井 一郎
- 日本水産學會誌 = Bulletin of the Japanese Society of Scientific Fisheries 77(4), 685-687, 2011-07-15
- … シガテラの主要毒素は,底生性渦鞭毛藻 Gambierdiscus 属が生成すると考えられている。 … シガテラが散発する本州太平洋岸においては,有毒種 Gambierdiscus toxicus の出現が 1980 年代から確認されている。 … 一方,日本海沿岸ではシガテラの発生報告がなく,Gambierdiscus 属の生息も報告されていない。 …
- NAID 10029125243
- 英虞湾における底生性有毒渦鞭毛藻 Gambierdiscus toxicus の出現
- 石川 輝,倉島 彰
- 水産海洋研究 74(1), 13-19, 2010-02-01
- … Gambierdiscus toxicus Adachi et Fukuyoはシガトキシンとマイトトキシンを生産する熱帯・亜熱帯性の底生性有毒渦鞭毛藻である。 …
- NAID 10026218930
Related Links
- Résultats pour "Gambierdiscus Toxicus" sur Internet, dans les universités et dans les œuvres littéraires cyclopaedia.net ... Gambierdiscus toxicus est une micro-algue dinoflagellée colonisant les coraux morts. Elle produit une phycotoxine ...
- Gambierdiscus toxicus (Adachi & Fukuyo) Chinain, Faust, Holmes, Litaker, Tester Gambierdiscus toxicus Adachi et Fukuyo 1979 was discovered from the Gambier Islands in Frencholynesia by a collaboration between Japanese and ...
★リンクテーブル★
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ギムノジニウム、ムノジニウム属、Gymnodinium属
- 関
- dinoflagellate、Dinoflagellida、Gambierdiscus toxicus、Gonyaulax、red tide
[★]
- ラ
- Gambierdiscus toxicus
- 関
- 渦鞭毛藻類、ゴニオウラクス属、ギムノジニウム属、双鞭毛藻、赤潮、渦鞭毛虫目
[★]
ゴニオウラクス属、Gonyaulax属
- 関
- dinoflagellate、Dinoflagellida、Gambierdiscus toxicus、Gymnodinium、red tide
[★]
渦鞭毛藻類
- 関
- Dinoflagellida、Gambierdiscus toxicus、Gonyaulax、Gymnodinium、red tide
[★]
渦鞭毛虫目
- 関
- dinoflagellate、Gambierdiscus toxicus、Gonyaulax、Gymnodinium、red tide
[★]
- 関
- intoxicated、poisonous、toxicity、venomous、virulence、virulent