Abstract
The order Parmales (Heterokontophyta) is a group of small-sized unicellular marine phytoplankton, which is distributed widely from tropical to polar waters. The cells of Parmales are surrounded by a distinctive cell wall, which consists of several siliceous plates fitting edge to edge. Phylogenetic and morphological analyses suggest that Parmales is one of the key organisms for elucidating the evolutionary origin of Bacillariophyceae (diatoms), the most successful heterokontophyta. The effects of silicon-limitation on growth and morphogenesis of plates were studied using a strain of Triparma laevis NIES-2565, which was cultured for the first time in artificial sea water. The cells of T. laevis were surrounded by eight plates when grown with sufficient silicon. However, plate formation became incomplete when cells were cultured in a medium containing low silicate (ca. <10 µM). Cells finally lost almost all plates in a medium containing silicate concentrations lower than ca. 1 µM. However, silicon-limitation did not affect growth rate; cells continued to divide without changing their growth rate, even after all plates were lost. Loss of plates was reversible; when cells without plates were transferred to a medium containing sufficient silicate, regeneration of shield and ventral plates was followed by the formation of girdle and triradiate plates. The results indicate that the response to silicon-limitation of T. laevis is different from that of diatoms, where cell division becomes inhibited under such conditions.
Highlights
The order Parmales (Heterokontophyta) is a group of smallsized (2–5 mm in diameter) unicellular marine phytoplankton, which is distributed widely from tropical to polar waters [1,2]
About 0.5 ml of cell suspension was inoculated into test tubes containing about 15 ml of artificial sea water medium, and incubated under the same light and temperature conditions used for maintenance of cultures in f/2 medium
There was no cell with only girdle and/or triradiate plate(s); shield and ventral plates regeneration always preceded girdle and triradiate plate formation. This is the first study to show the effect of silicon-limitation on physiological and morphological properties of a Parmales species, Triparma laevis NIES-2565
Summary
The order Parmales (Heterokontophyta) is a group of smallsized (2–5 mm in diameter) unicellular marine phytoplankton, which is distributed widely from tropical to polar waters [1,2]. Earlier morphological studies using a scanning electron microscope (SEM) suggested that they were resting cysts of siliceous loricate choanoflagellates [3]. Later, they were found to be photosynthetically active vegetative cells and not cysts, because they had a large chloroplast and only a small amount of storage material [4]. Based on the morphological properties observed with natural samples, Booth and Marchant (1987) established a new order Parmales containing three genera, Pentalamina, Tetraparma and Triparma, within the class Chrysophyceae [1]. The first culture of Parmales was successfully established by Ichinomiya and his coworkers (Triparma laevis NIES-2565) [5]. Bolidophycean algae are small, naked flagellates that have been recognized as the closest sister group of diatoms (Bacillariophyceae) [6,7]
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