著者
飯塚 一郎
出版者
日本農業気象学会
雑誌
農業気象 (ISSN:00218588)
巻号頁・発行日
vol.17, no.1, pp.30-32, 1961
被引用文献数
1

This study was made to investigate the pulling strengths between fruits and their stalks, and the resistance of fruits to wind in various fruits.<br>Among the pulling strengths between the shoots and the fruit stalks which were pulled towards different directions, the strength pulled towards basal direction was weahest, and followed, in order, by tangential, apical and radical direction. And also the pulling strengths among the various fruits were weak in following order: Japanese pear, apple, peach, fig, but in the case of the Unshu and persimmon fruits, the pulling strength could not be measured because their stalks had been broken in the middle by pulling. The pulling strength between the fruits and their stalks was weakest in the peach fruits, but strongest in the fig fruits.<br>The resistance of the various fruits to wind had tendency to increase in proportion to the cross sectional area of fruits, and increased slowly and proportionally with increasing wind velocity, moreover increased very rapidly when wind velocity reached more than 16 meters per second. The resistance of Japanese pear fruits bagged with news paper bags was five to eight times stronger than unbagged fruits.<br>If the wind velocity at which wind drops the bagged Japanese pear fruits is estimated from the data measured, these fruits will drop when the wind velocity rises over 17m/s.<br>If the velocity of fruits themselves, when blown by the wind and cut off stalks, shoots colliding with each other, is estimated, this velocity will be 0.45m/s for peach fruits, 0.31 for apple, and 5.5 for persimmon, respectively.
著者
飯塚 一郎
出版者
山形大学
雑誌
山形大學紀要. 農學 (ISSN:05134676)
巻号頁・発行日
vol.5, no.4, pp.795-801, 1969-03-20

冬季の温州みかんの落葉防止として葉面散水を行なうため,先ず葉の吸水について水温および界面活性剤添加との関係を調査した.実験結果の要約されたものは次のようである.1.温州みかんの切葉は乾湿いずれも浸水後10分間では急激に吸水を行ない,乾いた葉は湿った葉より急速に吸水を行なった.2.葉の上下面にワゼリンが塗布されたとき,葉の全面よりの吸水が最も高く,下面よりの吸水量は全面よりの吸水量と上面よりのそれの中間に位した.3.O℃~5℃の水温に浸された葉の吸水は殆んど行なわれなかったが,10℃~20℃の水温の吸水はかなり行なわれ,25℃で最高に達し,30℃ではかえって低下した.界面活性剤を添加された水は添加しない水より著しく吸収され,また温度上昇に伴って増加の傾向を示した.4.界面活性剤を添加された水は0.1%の濃度で最も早く吸収され,その吸水量は20℃で浸水後1時間で添加されない水の吸水量の約5倍であった.