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S. Japonicus (s + japonicu)

Distribution by Scientific Domains
Life Sciences75%

Selected Abstracts

Revision of the genus Stichillus Enderlein of Japan (Diptera: Phoridae)

ENTOMOLOGICAL SCIENCE, Issue 1 2004
Hiroto NAKAYAMA
Abstract The genus Stichillus in Japan is revised. Three species are recognized: S. japonicus (Matsumura), S. spinosus Liu and Chou and S. cylindratus sp. nov. Stichillus brunneicornis Beyer is excluded from the Japanese fauna. These Japanese species are described and keyed. The male genitalia and the female terminalia are illustrated. Some unique characters of the male genitalia in the genus are reported, and morphology of the male genitalia and the female terminalia is discussed. [source]

Bark borer Semanotus japonicus (Col., Cerambycidae) utilization of Japanese cedar Cryptomeria japonica: a delicate balance between a primary and secondary insect

JOURNAL OF APPLIED ENTOMOLOGY, Issue 7-8 2000
E. Shibata
To understand how S. japonicus is affected by host nutrition and resin flow, newly hatched larvae were introduced into stressed cedar trees. Stress was induced by either heavy pruning, stem cutting (i.e. removing the side branches and top of tree), or girdling. Larval mortality due to resin flow in the ,heavy pruning treatment' and the ,stem cutting treatment' tended to be lower than that in the untreated control cedar trees where all larvae were drowned by resin flow. Parasitism to the larval stage was observed in the stem-cutting trees, not in living trees, suggesting that S. japonicus may avoid parasitism in living cedar trees because few volatiles are produced. In the ,stem-girdling treatment', although more than 90% of the introduced larvae died due to poor nutrition below the girdle, 7.8% of the larvae above the girdle reached the adult stage. The live body weight of the adults collected from above the girdle was similar to those taken from naturally infested cedar trees. These results suggest that S. japonicus requires adequate host nutrition but that larvae are defenceless against high resin flow. Thus, S. japonicus seems to be in a transition state between being primary or secondary with respect to its attack behavior on living cedar trees. [source]

Microsatellite DNA markers for population-genetic studies of blue mackerel (Scomber australasicus) and cross-specific amplification in S. japonicus

MOLECULAR ECOLOGY RESOURCES, Issue 3 2009
C. Y. TANG
Abstract Blue mackerel (Scomber australasicus) is targeted by large-scale purse-seiners in the western North Pacific, and its stock structure is still contentious. Herein, we described 10 polymorphic microsatellite loci for blue mackerel. The number of alleles among 32 individuals surveyed ranged from five to 27 (average of 16.2 alleles per locus). Departures from Hardy,Weinberg expectation were observed at two loci. Cross-specific amplification in the congener, S. japonicus, was successful, except for one locus, revealed to be diagnostic for these congeners. These microsatellite loci will be useful tools to address queries in population genetic structure, fishery management unit and taxonomic species status in the genus Scomber. [source]

Population genetic structure of sea cucumber, Stichopus japonicus in Korea using microsatellite markers

AQUACULTURE RESEARCH, Issue 10 2008
Mi-Jung Kim
Abstract Sea cucumber (Stichopus japonicus) is a commercially valuable species in Korea. We examined the genetic characteristics of sea cucumber populations in Korea using microsatellite markers. A total of 144 sea cucumbers from five populations were typed for nine polymorphic microsatellite loci. A total of 139 different alleles were found over all loci and many alleles were unique. The average number of allele per locus ranged from 6 to 18.4. The average observed and expected heterozygosities ranged from 0.532 to 0.626 and from 0.719 to 0.789 respectively. All populations showed significant departure from Hardy,Weinberg equilibrium at almost all loci except one (Psj2409). This deviation was in the direction of heterozygote deficit. A phylogenetic tree revealed two distinct clusters. One cluster was formed by the eastern sea population. A second cluster consisted of the subpopulations of the western and southern sea populations. The eastern sea population showed genetic differences such as a larger number of alleles per locus, a larger number of unique alleles and a smaller number of the most common alleles, suggesting a higher genetic diversity in this population. These results provide basic information on natural population genetic structure of S. japonicus in Korea. [source]