Discrimination of stock origin of spawning population of ayu Plecoglossus altivelis altivelis at the Ota River, Hiroshima Prefecture

太田川下流域で採集したアユ産卵群の由来判別を外部形態および耳石Sr：Ca比分析で行った。太田川にて放流された人工種苗の耳石Sr：Ca比のチャートパターンは耳石中心から300μmで減少が認められ，耳石中心から400μm以遠で比が減少する天然型と異なっていた。耳石Sr：Ca 比のチャートパターンに基づくと，産卵群への人工種苗の混入率は28%と考えられた。採集した産卵群の側線上方横列鱗数は13～26枚（n=173）で，側線上方横列鱗数が17枚以下を人工種苗，18枚以上を天然アユと仮定すると，産卵群への人工種苗の混入率は31%と見積もられた。太田川産卵群では概ね3割が放流された人工種苗であると考えられた。Stock discrimination in the spawning population of ayu, Plecoglossus altivelis altivelis in the Ota River, western Japan was conducted using number of scales above the lateral line and otolith Sr:Ca ratio. Chart pattern in otolith Sr:Ca ratio of hatchery-stocked ayu was different in amphidromous form. Based on chart pattern of otolith Sr:Ca ratio, mixing ratio of hatchery-stocked ayu to the spawning population was estimated at 28%. Number of scales above the lateral line of spawning population marked from 13 to 26 (n=173). Based on number of scales above the lateral line (hatchery-stocked ayu ≦ 17; amphidromous ≧ 18), the mixing ratio of hatchery-stocked ayu was estimated 31%. Consequently, the contribution ratio of hatchery-stocked ayu to the spawning population was around 30% at the Ota River

De Novo Transcriptome Analysis Reveals Flowering-Related Genes That Potentially Contribute to Flowering-Time Control in the Japanese Cultivated Gentian Gentiana triflora

Japanese cultivated gentians are perennial plants that flower in early summer to late autumn in Japan, depending on the cultivar. Several flowering-related genes, including GtFT1 and GtTFL1, are known to be involved in regulating flowering time, but many such genes remain unidentified. In this study, we obtained transcriptome profiling data using the Gentiana triflora cultivar ‘Maciry’, which typically flowers in late July. We conducted deep RNA sequencing analysis using gentian plants grown under natural field conditions for three months before flowering. To investigate diurnal changes, the plants were sampled at 4 h intervals over 24 h. Using these transcriptome data, we determined the expression profiles of leaves based on homology searches against the Flowering-Interactive Database of Arabidopsis. In particular, we focused on transcription factor genes, belonging to the BBX and MADS-box families, and analyzed their developmental and diurnal variation. The expression levels of representative BBX genes were also analyzed under long- and short-day conditions using in-vitro-grown seedlings, and the expression patterns of some BBX genes differed. Clustering analysis revealed that the transcription factor genes were coexpressed with GtFT1. Overall, these expression profiles will facilitate further analysis of the molecular mechanisms underlying the control of flowering time in gentians