25 research outputs found
Correction to: Detection of the phycotoxin pectenotoxin-2 in waters around King George Island, Antarctica
A correction to this paper has been published: https://doi.org/10.1007/s00300-021-02834-3</jats:p
Morphological, molecular, and toxin analysis of field populations of Alexandrium genus from the Argentine Sea
In the Argentine Sea, blooms of toxigenic dinoflagellates of the Alexandrium tamarense species complex have led to fish and bird mortalities and human deaths as a consequence of paralytic shellfish poisoning (PSP). Yet little is known about the occurrence of other toxigenic species of the genus Alexandrium, or of their toxin composition beyond coastal waters. The distribution of Alexandrium species and related toxins in the Argentine Sea was determined by sampling surface waters on an oceanographic expedition during austral spring from ~39°S to 48°S. Light microscope and SEM analysis for species identification and enumeration was supplemented by confirmatory PCR analysis from field samples. The most frequent Alexandrium taxon identified by microscopy corresponded to the classical description of A. tamarense. Only weak signals of Group I from the A. tamarense species complex were detected by PCR of bulk field samples, but phylogenetic reconstruction of rDNA sequences from single cells from one station assigned them to ribotype Group I (Alexandrium catenella). PCR probes for Alexandrium minutum and Alexandrium ostenfeldii yielded a positive signal, although A. minutum morphology did not completely match the classical description. Analysis of PSP toxin composition of plankton samples revealed toxin profiles dominated by gonyautoxins (GTX1/4). The main toxic cyclic imine detected was 13-desMe-spirolide C and this supported the association with A. ostenfeldii in the field. This study represents the first integrated molecular, morphological and toxinological analysis of field populations of the genus Alexandrium in the Argentine Sea
Quantitative comparison of taxa and taxon concepts in the diatom genus Fragilariopsis: a case study on using slide scanning, multi‐expert image annotation and image analysis in taxonomy
Semi‐automated methods for microscopic image acquisition, image analysis and taxonomic identification have repeatedly received attention in diatom analysis. Less well studied is the question whether and how such methods might prove useful for clarifying the delimitation of species that are difficult to separate for human taxonomists. To try to answer this question, three very similar Fragilariopsis species endemic to the Southern Ocean were targeted in this study: F. obliquecostata, F. ritscheri, and F. sublinearis. A set of 501 extended focus depth specimen images were obtained using a standardized, semi‐automated microscopic procedure. Twelve diatomists independently identified these specimen images in order to reconcile taxonomic opinions and agree upon a taxonomic gold standard. Using image analyses, we then extracted morphometric features representing taxonomic characters of the target taxa. The discriminating ability of individual morphometric features was tested visually and statistically, and multivariate classification experiments were performed to test the agreement of the quantitatively‐defined taxa assignments with expert consensus opinion. Beyond an updated differential diagnosis of the studied taxa, our study also shows that automated imaging and image analysis procedures for diatoms are coming close to reaching a broad applicability for routine use
Field observations of the dinoflagellate genus Azadinium and azaspiracid toxins in the south-west Atlantic Ocean
Some dinoflagellate species of the genera Azadinium and Amphidoma (Amphidomataceae) produce
azaspiracids (AZA), a group of toxins responsible for gastrointestinal disorders in humans following the consumption
of contaminated shellfish. In this study, we investigated the diversity, distribution and abundance of Azadinium and AZA
from field plankton samples collected during four oceanographic expeditions that covered an extended area of the
Argentine Sea during different seasons. Scanning electron microscopy analyses indicated the presence of five Azadinium
species: Az. dexteroporum, Az. luciferelloides, Az. obesum, Az. asperum and Az. cf. poporum. Azadinium-like cells were
frequently found and were even an abundant component of plankton assemblages, showing a wide latitudinal distribution,
from,38 to,55.58S, and occurring in a wide temperature and salinity range. High cell densities (up to 154 000 cells L
-1) occurred in northern slope and external shelf waters during spring. AZA-2 was detected in net samples from the 20- to
200-mm fractions by tandem mass spectrometry–liquid chromatography analysis, suggesting a transfer of AZA through
the food web. Our results contribute to the knowledge of the worldwide occurrence of Azadinium species and AZA, and
highlight the importance of amphidomatacean species as a potential source of AZA shellfish poisoning in the south-west
Atlantic Ocean
Protoceratium reticulatum (Dinophyceae) in the austral Southwestern Atlantic and the first report on YTX-production in shelf waters of Argentina
Protoceratium reticulatum is a dinoflagellate with a life cycle that includes a motile planktonic stage and a resting cyst stage in benthic habitat, both with a wide geographical distribution, including southern South America. P. reticulatum produces yessotoxins (YTX) – these can be accumulated in shellfish and show potent cytotoxicity, posing a risk to human health if contaminated shellfish is consumed. YTX have been reported from coastal shellfish of many localities, but until now it was unknown if they were present in the austral Southwestern Atlantic and also if local populations of P. reticulatum have the ability to produce these toxins. In this study we report the presence of YTX in plankton samples and its production in culture by two P. reticulatum strains isolated from the San Jorge Gulf (SJG). In addition, we describe the geographical distribution and seasonal abundance of this species based on data collected over the past two decades. The YTX cell quotas calculated from net hauls (∼10 pg cell−1) are in the same range as the toxin cell quotas observed in these two isolates. The phylogenetic analysis of sequences of the hypervariable region of the large subunit (LSU) 28S rDNA showed that the two clonal strains from the SJG were part of a monophyletic clade that subdivides P. reticulatum into two well-supported, divergent sub-clades. The sequences of the two strains of P. reticulatum from the SJG fell in the same clade as the majority of sequences of P. reticulatum, which belong to a geographically widely distributed evolutionary clade. P. reticulatum was occasionally observed from about 35° S in Uruguayan shelf waters up to 53° S on the Patagonian shelf and north of Tierra del Fuego, and it was present from coastal areas up to the shelf break zone. We recorded P. reticulatum in plankton samples during spring, summer and autumn but invariably in low abundance (maximum: 560 cells L−1). Viable cysts of the species in surface sediments also showed a wide geographical distribution. Together, the high total abundances and high relative numerical contribution to planktonic dinoflagellate assemblages near frontal areas, emphasize the necessity to pay attention to the dynamics of this species in areas of potential risk of harmful algal bloom development
Co-occurrence of Dinophysis tripos and pectenotoxins in Argentinean shelf waters
The species Dinophysis tripos is a widely distributed marine dinoflagellate associated with diarrheic
shellfish poisoning (DSP) events, which has been recently identified as a pectenotoxin (PTX) producer. In
two sampling expeditions carried out during austral autumns 2012 and 2013 along the Argentine Sea
(�38–568 S), lipophilic phycotoxins were measured by tandem mass spectrometry coupled to liquid
chromatography (LC–MS/MS) in size-fractionated plankton samples together with microscopic analyses
of potentially toxic phytoplankton. PTX-2, PTX-11 and PTX-2sa were recurrently detected in the 50–
200 mm fractions, in association to D. tripos. PTX-2 was also widely distributed among the 20–50 mm
fractions, mostly related to Dinophysis acuminata. Okadaic acid or its analogs were not detected in any
sample. This is the first report of D. tripos related to PTX in the Argentine Sea and the first record of PTX-
11 and PTX-2sa for this area. The morphological variability of D. tripos, including the presence of
intermediate, small and dimorphic cells, is described. Also, the micro- and mesoplanktonic potential
grazers of Dinophysis spp. were explored
Azadinium poporum from the Argentine Continental Shelf, Southwestern Atlantic, produces azaspiracid-2 and azaspiracid-2 phosphate
The marine dinophycean genus Azadinium has been identified as the primary source of azaspiracids
(AZA), a group of lipophilic phycotoxins known to accumulate in shellfish. Blooms of Azadinium in the
southern Atlantic off Argentina have been described from the 1990s, but due to a lack of cultures, the
diversity of South-Atlantic Azadinium has not yet been fully explored and their toxin production
potential is completely unknown. During a spring 2010 research cruise covering the El Rinco´n (ER)
estuarine system (North Patagonian coast, Argentina, Southwestern Atlantic) a search was conducted for
the presence of Azadinium. Although neither Azadinium cells nor AZA in field plankton samples were
detected, 10 clonal strains of Azadinium poporum were successfuly established by incubation of sediment
samples. Argentinean A. poporum were more variable in size and shape than the type description but
conformed to it by the presence of multiple pyrenoids with starch sheath, in plate pattern and
arrangement, and in the position of the ventral pore located on the left side of the pore plate. In contrast
to all previous description of A. poporum, isolates of the Argentinean A. poporum possessed a distinct field
of pores on the second antapical plate. Conspecificity of the Argentinean isolates with A. poporum was
confirmed by molecular phylogeny of concatenated ITS and LSU rDNA sequences, where all Argentinean
isolates together with some Chinese A. poporum strains formed a well-supported ribotype clade within A.
poporum. All isolates produced AZA with the same profile, consisting of AZA-2 as the major compound
and, to a lesser extent, its phosphated form. This is the first report of a phosphated marine algal toxin.
This first confirmation of the presence of AZA producing Azadinium in the Argentinean coastal area
underlines the risk of AZA shellfish contamination episodes in the Southwestern Atlantic region