These provided the highest growth rates and the

largest r

These provided the highest growth rates and the

largest removal of ammonium. Growth increased with concentration of the supplement to an optimum at 0.12 M Na-acetate. This carbon source was consumed completely within 10 d of incubation. Higher concentrations inhibited the growth of C. vulgaris. The microalgal populations under heterotrophic growth conditions were one level of magnitude higher than that under autotrophic growth conditions that served as a comparison. No growth occurred in the dark in the absence of a carbon source. Na-acetate was superior to d-glucose. In municipal wastewater, when Na-acetate or d-glucose was added, C. vulgaris significantly enhanced ammonium removal under heterotrophic conditions, and its capacity was equal to ammonium removal under autotrophic growth conditions. This study ABT263 showed that sterilized wastewater can be treated by C. vulgaris under heterotrophic conditions if supplemented with the appropriate organic carbon source for the microalgae. “
“In the current post-genomics world, a relevant question on the minds of many phycologists might be: do we really need more algal genomes or, should we stop and LEE011 focus on the hard job of developing genetic tools and other resources for already sequenced taxa? This question has, in our opinion, a clear answer: we need to do both. Here we focus on the genome sequencing side and discuss the following

reasons why we think algal (and related heterotrophic protist) genome sequencing should remain a focus of phycological research: 1) transcriptomes that aim to create gene inventories or study gene expression differences (primarily Illumina RNAseq data), although cheap to produce and relatively easy to analyze, may not be sufficient for in-depth study of genomes, 2) much of natural biodiversity is still unstudied, necessitating MCE approaches such as single cell genomics (SCG) that, although

still challenging when applied to algae, can sample taxa isolated directly from the environment, 3) horizontal gene transfer (HGT) in algae is no longer controversial, but rather a major contributor to the evolution of photosynthetic lineages, and its study benefits greatly from completed (or draft) genomes, and 4) epigenetics and genome evolution among populations are best studied using assembled genome data. This article is protected by copyright. All rights reserved. “
“The formation of archeospores is characteristic of Porphyra yezoensis Ueda and is important for Porphyra aquaculture. Recently, it has been regarded as a valuable seed source for propagation of thalli in mariculture. Cell wall composition changes are associated with archeospore formation in P. yezoensis. Here, we report changes of cell walls of P. yezoensis during archeospore formation. The surfaces of vegetative cells that were originally smooth became rougher and more protuberant as archeosporangia were formed.

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