日本語フィールド
著者:猪原哲,住吉幸志郎,大江和也 読み: イハラサトシ,スミヨシコウシロウ,オオエカズヤ題名:パルスパワーによる球根の発芽促進と休眠打破の効果発表情報:電気学会論文誌A,Vol. 135, No. 6 巻: 135 号: 6 ページ: 328-333キーワード:パルスパワー,球根,発芽,生長,グラジオラス概要:抄録:In this research effects of pulsed power applications to Gladiolus bulb on germination, growth and dormancy breaking were investigated. The peak voltage, pulse width and repetition rate were 20 kV, 300 ns and 2 pps, respectively. The deposited energy density to bulb is approximately 6.5 mJ/g for one pulse. From the experiments optimum number of application for germination was found to be 10 times, it corresponds to a total deposited energy density of 59 mJ/g. Even if no water incubation the germination was confirmed after application. It suggest that the pulsed power application results in expression of germination gene. The germination ratio in intensive applications into one place were compared with that in dispersive applications. Higher germination ratio was obtained at dispersive applications. The reason for that is damages of bulb was reduced due to the decrease of deposited energy density. From experiments using dormant bulbs it was found that the pulsed power application can break the dormancy.英語フィールド
Author:Satoshi Ihara, Koshiro Sumiyoshi, Kazuya OeTitle:Effects of Germination and Dormancy Breaking on Bulbs using Pulsed PowerAnnouncement information:IEEJ Trans., Vol.135, No.6 Vol: 135 Issue: 6 Page: 328-333Keyword:pulsed power, bulb, germination, growth, GladiolusAn abstract:In this research effects of pulsed power applications to Gladiolus bulb on germination, growth and dormancy breaking were investigated. The peak voltage, pulse width and repetition rate were 20 kV, 300 ns and 2 pps, respectively. The deposited energy density to bulb is approximately 6.5 mJ/g for one pulse. From the experiments optimum number of application for germination was found to be 10 times, it corresponds to a total deposited energy density of 59 mJ/g. Even if no water incubation the germination was confirmed after application. It suggest that the pulsed power application results in expression of germination gene. The germination ratio in intensive applications into one place were compared with that in dispersive applications. Higher germination ratio was obtained at dispersive applications. The reason for that is damages of bulb was reduced due to the decrease of deposited energy density. From experiments using dormant bulbs it was found that the pulsed power application can break the dormancy.