ABSTRACT. This study investigated the process of zooxanthellae degradation in hermatypic corals.The number of degraded zooxanthellae in corals taken fmm rllfferent light conditions amounted to 1 to 6 % a day, which was similar to the number of dividing amxanthellae. Zooxanthellae degradation takes place only at night in the connecting sheet and tentacle but both at night and during the day in the gastroderm of the mesenteries. Zooxanthellae degradation continues for about 6 h. DNA staining with DAPI (4'6-diamidino-2-phenylindole) and light, UV and electron microscopic examinations showed that zooxanthellae under degradation lost DNA, protein of pyrenoids and lipid drops. The degraded zooxanthellae particles contained 'accumulat~on bodies', unpacked thylakoids, starch grains and a pyrenoid starch envelope. Under starvation experirnenls the number of degraded zooxanthellae in Stylophora pistillata increased in the tissue, as did thefi ~e l e a s e .It is concluded that hermatypic corals are capable of regulating their zooxanthellae p o p u l a t i a by digestion and extrusion of zooxanthellae remnants.
We have conducted the first phylogenetic study to our knowledge of Zoanthus in the northern hemisphere by sequencing and analysing the mitochondrial cytochrome oxidase subunit 1 (COI) gene. Various unidentified Zoanthus specimens and samples of what have been assumed to be four discrete species (Z. pacificus, Z. sansibaricus, Z. gnophodes, Z. erythrochloros) were collected from four field sites in Kagoshima Prefecture, Japan. Based on our obtained COI gene sequences, all but one of our collected Zoanthus samples appear to be conspecific, with nearly 100.00% base pair matching. Genetic results are further backed up by collected polyp diameter, tentacle count, and mesentary count data. These results indicate a need to reconsider and re-analyze current Zoanthus classification and identification. Possible reasons for the large morphological variation in the same genotype in Zoanthus are also discussed.
No clear method of identifying species in the zoanthid genus Zoanthus has been established, due in part to the morphological plasticity of this genus (e.g., in polyp and colony form, oral disk color, tentacle number). Previous research utilizing the mitochondrial cytochrome oxidase I gene (COI) as a phylogenetic marker indicated that Zoanthus spp. in Japan may consist of only one or two species, despite a bewildering variety of observed morphotypes. Here we have utilized not only COI but also mitochondrial 16S ribosomal DNA (mt 16S rDNA) in order to clarify the extent of Zoanthus species diversity in southern Japan. Our molecular genetic results clearly show the presence of three monophyletic Zoanthus species groups with varying levels of morphological plasticity, including the new species Z. gigantus n. sp. and Z. kuroshio n. sp. We describe all three species found in this study, and identify potential morphological characters (coenenchyme and polyp structure as well as polyp external surface pigmentation patterns) useful in Zoanthus species identification. A morphological dichotomous key is provided to assist in field species identification.
We sequenced the internal transcribed spacer of ribosomal DNA (ITS-rDNA) of Symbiodinium spp. (Freudenthal) from conspecific Zoanthus sansibaricus (Carlgren) colonies along a latitudinal gradient in Japan. Phylogenetic analysis reveals that Zoanthus in the two northern sites of Kokubu and Sakurajima harbor exclusively Symbiodinium subclade C1, whereas Yakushima Zoanthus harbors Symbiodinium subclades C1 and C15, and southernmost Amami Zoanthus Symbiodinium subclades A1 and C1, indicating holobiont flexibility. Individual Zoanthus colonies associated exclusively with one single subclade, but unexpectedly there was small variation between Symbiodinium ITS-rDNA clone sequences obtained from within individual Zoanthus colonies. There was also a large deletion in the ITS-2/28S rDNA boundary region in one clone sequence, and another large deletion in the 5.8S rDNA region in another clone. Our intracolony sequence heterogeneity might be a result of the presence of multiple copies of the ITS-rDNA region within individual Symbiodinium genomes, or result from the possible presence of closely related Symbiodinium genotypes in the host.
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