Calotomus

Abstract: Sexual patterns of the parrotfish,Calotomus japonicus, were studied using fifteen specimens collected in February and April, 1990, near Makurazaki, Kagoshima Prefecture. The males ranged from 265 to 345 mm SL, and were larger than the females on average. Most females ranged from 202 to 260 mm SL, but a female of 305 mm SL was obtained. Sexual dichromatism was conspicuous. Histological examination of the gonads and low values of gonado-somatic indices of both males and females indicated that they were not in spawning season. It was concluded that C.japonicus is a protogynous hermaphrodite, because all male specimens had secondary testes. It was pointed out that the present species has a weak size-sex relationship. Because the specimens examined did not include primary males, it is suggested that primary males are relatively rare, if they occur at all.

Abstract: We describe the isolation and characterization of 17 polymorphic microsatellite loci for the ember parrotfish Scarus rubrioviolaceus. In a Hawaiian sample of 69 fish, we found between three and 20 alleles per locus, and observed heterozygosity ranging from 0.283 to 0.896. Four of these loci consistently cross-amplified in the stareye parrotfish Calotomus carolinus, the spectacled parrotfish Chlorurus perspicillatus, the palenose parrotfish Scarus psittacus, and the bullethead parrotfish Chlorurus sordidus, but others gave mixed results. These loci will be useful for describing mating systems and population structure in marine species with broad dispersal potential that play key ecological roles in tropical environments.

Abstract: The complete mitochondrial genome sequence was determined for a specimen of Calotomus japonicus, a temperate parrotfish endemic to coastal East Asia. It was compared phylogenetically with previously published partial sequences from this species and other parrotfishes. The obtained tree indicated that the three cytb sequences of C. japonicus from a recent molecular study (LC068806-8) probably resulted from introgression through intergeneric hybridization, or possibly from sample confusion. Taking the presently obtained mitogenome as representative of C. japonicus, the species most closely related to this one among congeners is C. zonarchus, which is endemic to the Hawaiian islands.

Abstract: To date, 26 Kudoa spp. (Myxozoa: Myxosporea: Multivalvulida) have been recorded in edible marine fishes in Japan. In the future, it is likely that even more marine fish multivalvulid myxosporeans will be characterized morphologically and genetically, which will aid the precise understanding of their biodiversity and biology. We examined 60 individuals of six fish species collected from the Philippine Sea off Kochi or from the border between the Philippine Sea and East China Sea around Miyako Island, Okinawa, i.e., the southern part of Japan. Newly collected parasite species included Kudoa yasunagai from the brain of Japanese meagre (Argyrosomus japonicus) and Japanese parrotfish (Calotomus japonicus), Kudoa miyakoensis n. sp. and Kudoa thalassomi from the brain and trunk muscle, respectively, of bluespine unicornfish (Naso unicornis), and Kudoa igami from the trunk muscle of Carolines parrotfish (Calotomus carolinus), African coris (Coris gaimard), and Pastel ringwrasse (Hologymnosus doliatus). With the exception of Japanese parrotfish for K. yasunagai, all these fish are new host records for each kudoid species. Notable variation in the number of shell valves (SV) and polar capsules (PC) was observed for all four kudoid species. In particular, spores with seven or eight SV/PC were prominent in K. igami isolates, despite the original Japanese parrotfish-derived description characterizing it as having spores with six, or less commonly five, SV/PC. However, molecular genetic characterization based on the ribosomal RNA gene (rDNA) and mitochondrial DNA (cytochrome c oxidase subunit 1 and ribosomal RNA small and large subunits) found no significant differences in the nucleotide sequences of isolates with different phenotypical features as far as examined in the present study. A newly erected species, K. miyakoensis n. sp., was determined to be phylogenetically closest to brain-parasitizing species, such as K. chaetodoni, K. lemniscati, and K. yasunagai based on rDNA nucleotide sequences, but differed from them morphologically.