José J. Bustillos-Guzmán scite author profile

Between March 1992 and April 1993, a n intensive sampllng p r q g a m was carried out at a coastal station in the Northwestern Mediterranean Sea to study the relations9:p between phytoplankton distributions, as evaluated by taxonomic pigments, and the hydrographx structures of the water column. The study period covered the range of hydrographlc conditions whlct prevail in the Mediterranean Sea. The 0 to 75 m integrated chlorophyll a concent]-ation averaged 23 3 m g m 2 , with the highest values (above 45 mg m-') restricted to semi-mixed penods. The major ph floplankton signature and water column structure r e l a t~o n s h~p s were: (1) phytoplankton~c prokaryotes (ryanobacteria and prochlorophytes] appear sensitive to water column mixing with prochlorophylc~ being the most sensitive group a s strong stratification is associated with the highest biomass found mainly in deeper waters; (2) prymnesiophytes and chrysophytes (19'-BF and 19'-HF) appear the most abundant under a variety of conditions and therefore seem able to adapt to various water column structures; (3) diatoms bloom in semi-mixed conditions, but while these conditions are necessary, they are not sufficient for bloom formation; and (4) green chlorophyll b-containing flagellates appear to requlre sI.jsng mixing. During the stratification period, 2 noticeable wlnd-induced mixing events occurred, arc while the first d~d not have any marked influence on the phytoplankton community, the second was i-~llowed by a subsurface development of green flagellates and diatoms. This second wind-mixlng e v e 3 #also altered the vertlcal prokaryote distribution, but 1 wk after this perturbation vert~cal segregatitm of prochlorophytes and cyanobacteria was reestablished. The results suggest that, while different ~h~r~l p l a n k t o n taxa are generally adapted to speciflc water column structures, this is not always the case l r p e c~a l l y at small scales where specific lighthutrient requirements may have to be met.

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Ecological and Physiological Studies of Gymnodinium catenatum in the Mexican Pacific: A Review

Band‐Schmidt

Bustillos-Guzmán

López-Cortés

et al. 2010

Marine Drugs

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This review presents a detailed analysis of the state of knowledge of studies done in Mexico related to the dinoflagellate Gymnodinium catenatum, a paralytic toxin producer. This species was first reported in the Gulf of California in 1939; since then most studies in Mexico have focused on local blooms and seasonal variations. G. catenatum is most abundant during March and April, usually associated with water temperatures between 18 and 25 ºC and an increase in nutrients. In vitro studies of G. catenatum strains from different bays along the Pacific coast of Mexico show that this species can grow in wide ranges of salinities, temperatures, and N:P ratios. Latitudinal differences are observed in the toxicity and toxin profile, but the presence of dcSTX, dcGTX2-3, C1, and C2 are usual components. A common characteristic of the toxin profile found in shellfish, when G. catenatum is present in the coastal environment, is the detection of dcGTX2-3, dcSTX, C1, and C2. Few bioassay studies have reported effects in mollusks and lethal effects in mice, and shrimp; however no adverse effects have been observed in the copepod Acartia clausi. Interestingly, genetic sequencing of D1-D2 LSU rDNA revealed that it differs only in one base pair, compared with strains from other regions.

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Paralytic shellfish toxin profile in strains of the dinoflagellate Gymnodinium catenatum Graham and the scallop Argopecten ventricosus G.B. Sowerby II from Bahı́a Concepción, Gulf of California, Mexico

Band‐Schmidt¹,

Bustillos-Guzmán²,

Gárate-Lizárraga³

et al. 2005

Harmful Algae

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