yezoensis × P tenera and cultivated P tenera, respectively) are

yezoensis × P. tenera and cultivated P. tenera, respectively) are heterozygous and possess both genotypes of P. tenera and P. yezoensis in the conchocelis phase. Furthermore, gametophytic blades of two pure lines, HG-TY1 and HG-TY2 (F1 strains of MT-1 and 90-02, respectively), were also heterozygous, and six chromosomes per single cell could be observed Sirolimus supplier in each blade of the two pure lines. These results demonstrate that allopolyploidy occurs in Porphyra

strains derived from both natural and cultivated populations, even though ITS genotypes of these strains showed homogenization toward one parental ITS. “
“The class Cryptophyceae (Division Cryptophyta) contains ecologically relevant species, which are widespread in aquatic environments. However, classification, identification, and enumeration of cryptophytes

are challenged by a morphology that must be usually examined with EM to permit species identification. The quantitative importance of this group has been revealed by HPLC data. But ecological information assessing the occurrence or seasonality of cryptophytes in the marine environment is still scarce. Molecular techniques allow for a refined assessment of taxonomically challenging taxa, such as the cryptophytes. In our laboratory, a Phylochip was developed to facilitate and refine the assessment of cryptophyte microalgae. Here, we present the results of an environmental

study Bortezomib chemical structure that took advantage of the Phylochip. The study was designed to elucidate the seasonality and contribution of cryptophytes to phytoplankton structure in the German Bight. The occurrence of cryptophytes in total plankton versus the picoplankton fraction was assessed with the Phylochip between the years 2004 and 2006. Our data indicate that cryptophytes are an important and constant contributor to phytoplankton structure of the German Bight, especially in the picoplankton fraction. “
“The natural abundance of carbon stable isotopes (δ13C) of marine macrophytes has been measured in previous studies medchemexpress and used to analyze differences in Ci assimilation among the three macroalgal phyla, Chlorophyta, Ochrophyta, and Rhodophyta, and seagrasses, distinguishing diffusive CO2 entry from the operation of a CO2-concentrating mechanisms (CCM). The work reported here further resolves the patterns of δ13C variation in aquatic macrophytes related to their taxonomy, geographic location (and consequently climatic conditions), and vertical zonation. Analyses of δ13C for 87 species are reported, including eight that have not been previously examined, belonging to taxa in the three macroalgal phyla, plus two species of seagrasses, collected at different latitudes. For one species of each phylum, analyses were also conducted through a vertical depth gradient.

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