Nitrogen source effects on the growth and toxicity of two strains of the ciguatera-causing dinoflagellate Gambierdiscus toxicus

J. Lartigue, T.A. Villareal (University of Texas at Austin, USA), Edward L.E. Jester, R.W. Dickey (Gulf Coast Seafood Laboratory, USA)

(Artículo original)

Abstract: Two Caribbean strains (1651 and 1655) of the ciguatera-causing dinoflagellate Gambierdiscus toxicus were grown in xenic, batch culture under defined, measured nutrient conditions with nitrate, ammonium, urea, a mix of free amino acids (FAA), or putrescine as the nitrogen source. Cultures were maintained at 27 8C, salinity 35, 110 mmol m2 s1 (12 h:12 h light:dark cycle) on L2 medium at an initial nitrogen concentration of 50 mM N. Toxicity was determined using a ouabain/veratridinedependent cytotoxicity assay (N2A assay) standardized to a ciguatoxin standard. Nitrate, ammonium, FAA, and putrescine supported growth, but urea did not. The appearance of ammonium in the organic nitrogen cultures indicated that G. toxicus and/or associated bacteria remineralized the available organic nitrogen. Both strains were exposed to nitrogen-limiting conditions as evidenced by chlorophyll a content per cell, nitrogen content, and nitrogen (N) to phosphorus (P) (N:P) ratio significantly declining once nitrogen was no longer available in the medium and cells entered stationary phase. Strain 1651 grew significantly faster than strain 1655 when nitrate, FAA, and putrescine was the nitrogen source, but not ammonium. Nitrogen source had no effect on growth rate (0.14 d1) in strain 1651. The growth rate of strain 1655 (0.10–0.13 d1) was significantly faster on ammonium than the other nitrogen sources. Strain 1655 was significantly more toxic (10-fold) than strain 1651 except when growing on ammonium at exponential phase. Toxicity ranged from 1.3 to 8.7 fg C-CTX1-Eq cell1 in strain 1651 and from 30.7 to 54.3 fg C-CTX1-Eq cell1 in strain 1655. Nitrogen source had no significant affect on toxicity. Toxicity was greater in stationary versus exponential phase cells for strain 1651 when grown on nitrate and strain 1655 regardless of nitrogen source. The difference in toxicity between growth phases may result from an increase in ciguatoxin and/or maitotoxin. Our results suggest that some strains of G. toxicus when associated with bacteria are able to take advantage of organic as well as inorganic nitrogen sources on short time scales to support future growth. The uncoupling of total nitrogen and phosphorus pools from conditions in the water column suggest that instantaneous growth rates can be supported by nutrients acquired hours to days earlier.

Keywords: ciguatoxin, Gambierdiscus toxicus, Nitrogen, Strain 1651, Strain 1655, toxicity

https://www.researchgate.net/profile/Tracy-Villareal/publication/263372879_Growth_and_toxicity_of_the_dinoflagellate_Gambierdiscus_toxicus_under_nitrogen_and_phosphorus_limitation/links/616f06eec891c4663aa2c971/Growth-and-toxicity-of-the-dinoflagellate-Gambierdiscus-toxicus-under-nitrogen-and-phosphorus-limitation.pdf