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Cryptic speciation in Protoceratium reticulatum (Dinophyceae): evidence from morphological, molecular and ecophysiological data
Wang, N.; Mertens, K.N.; Krock, B.; Luo, Z.; Derrien, A.; Pospelova, V.; Liang, Y.; Bilien, G.; Smith, K.F.; De Schepper, S.; Wietkamp, S.; Tillmann, U.; Gu, H. (2019). Cryptic speciation in Protoceratium reticulatum (Dinophyceae): evidence from morphological, molecular and ecophysiological data. Harmful Algae 88: 101610. https://dx.doi.org/10.1016/j.hal.2019.05.003
In: Harmful Algae. Elsevier: Tokyo; Oxford; New York; London; Amsterdam; Shannon; Paris. ISSN 1568-9883; e-ISSN 1878-1470, more
Peer reviewed article  

Available in  Authors 

Keywords
    Protoceratium reticulatum (Claparède & Lachmann) Bütschli, 1885 [WoRMS]
    Marine/Coastal
Author keywords
    Biogeography; Intraspecific variability; Cysts; Growth; ITS rDNA sequences; Ribotype; Yessotoxin

Authors  Top 
  • Wang, N.
  • Mertens, K.N., more
  • Krock, B.
  • Luo, Z.
  • Derrien, A.
  • Pospelova, V.
  • Liang, Y.
  • Bilien, G.
  • Smith, K.F.
  • De Schepper, S., more
  • Wietkamp, S.
  • Tillmann, U.
  • Gu, H.

Abstract
    The cosmopolitan, potentially toxic dinoflagellate Protoceratium reticulatum possesses a fossilizable cyst stage which is an important paleoenvironmental indicator. Slight differences in the internal transcribed spacer ribosomal DNA (ITS rDNA) sequences of P. reticulatum have been reported, and both the motile stage and cyst morphology of P. reticulatum display phenotypic plasticity, but how these morpho-molecular variations are related with ecophysiological preferences is unknown. Here, 55 single cysts or cells were isolated from localities in the Northern (Arctic to subtropics) and Southern Hemispheres (Chile and New Zealand), and in total 34 strains were established. Cysts and/or cells were examined with light microscopy and/or scanning electron microscopy. Large subunit ribosomal DNA (LSU rDNA) and/or ITS rDNA sequences were obtained for all strains/isolates. All strains/isolates of P. reticulatum shared identical LSU sequences except for one strain from the Mediterranean Sea that differs in one position, however ITS rDNA sequences displayed differences at eight positions. Molecular phylogeny was inferred using maximum likelihood and Bayesian inference based on ITS rDNA sequences. The results showed that P. reticulatum comprises at least three ribotypes (designated as A, B, and C). Ribotype A included strains from the Arctic and temperate areas, ribotype B included strains from temperate regions only, and ribotype C included strains from the subtropical and temperate areas. The average ratios of process length to cyst diameter of P. reticulatum ranged from 15% in ribotype A, 22% in ribotype B and 17% in ribotype C but cyst size could overlap. Theca morphology was indistinguishable among ribotypes. The ITS-2 secondary structures of ribotype A displayed one CBC (compensatory change on two sides of a helix pairing) compared to ribotypes B and C. Growth response of one strain from each ribotype to various temperatures was examined. The strains of ribotypes A, B and C exhibited optimum growth at 15 °C, 20 °C and 20–25 °C, respectively, thus corresponding to cold, moderate and warm ecotypes. The profiles of yessotoxins (YTXs) were examined for 25 strains using liquid chromatography coupled with tandem mass spectrometry (LC–MS/MS). The parent compound yessotoxin (YTX) was produced by strains of ribotypes A and B, but not by ribotype C strains, which only produced the structural variant homoyessotoxin (homoYTX). Our results support the notion that there is significant intra-specific variability in Protoceratium reticulatum and the biogeography of the different ribotypes is consistent with specific ecological preferences.

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