著者
Setiawan Eko Poerwanto Roedhy Fukuda Fumio Kubota Naohiro
出版者
岡山大学農学部
雑誌
岡山大学農学部学術報告 (ISSN:21867755)
巻号頁・発行日
no.101, pp.39-47, 2012-02-01

Productivity and quality of mangosteen fruit is markedly affected by tree age and sector (position in canopy). The objective of this study was to make clear seasonal changes in meteorological conditions of mangosteen orchard, and C-N ratio of leaves in relation to tree age and sector. The experiment was conducted using mangosteen trees grown in commercial orchard in Bogor, Indonesia during May to October 2010. Mangosteen trees of 3 different ages, young (20-year-old), middle (35-year-old), and old(50-year-old), each of five trees, were selected for study, and the canopy of each tree was divided into 9 sectors based on height (bottom, middle, top) and width (inner, center, outer). The light intensity on sunny days was higher in Sector 9, it was 8.1, 7.5, and 7.7 μmol・M(−2)・s(−1) in young, middle-aged and old trees, respectively, whereas in Sector 1 it was low, resulting 0.5, 0.4, and 0.5 μmol・M(−2)・s(−1) in young, middle-aged and old trees, respectively. Regardless of tree age, light intensity in outer position in canopy was higher than in the inner, and also it was higher in taller than in lower positions in canopy. In 2010, the phenological aspects of mangosteen orchard markedly changed because of irregular rainfall. In spite of tree age, SPAD value of leaves in upper parts such as Sectors 5-9 was high comparing with lower ones such as Sectors 1-4. In young trees, carbohydrate content of leaves was higher in top positions such as Sectors 7-9 than in bottom ones such as Sectors 1-3, whereas in middle-aged and old trees, no significant difference of carbohydrate content was observed among sectors. Regardless of month and tree age measured, nitrogen content of leaves was higher in lower positions in canopy such as Sectors 1-4 than in upper ones such as Sectors 5-9. Consequently, the C-N ratio of leaves was higher in the upper part of canopy compared to the lower. Based on the results, the relationships between meteorological status and C-N ratio of leaves and fruit productivity and quality of mangosteen are discussed inrelation to position in canopy and tree age.マンゴスチンの果実生産性や果実品質が樹冠部位や樹齢によって異なる点について,インドネシア西ジャワの商業的マンゴスチン園で照度と降雨量を調査するとともに,20,35および50年生樹を5個体ずつ選び,各個体樹冠の高さと幅から9つのセクター(樹冠部位)に分け,葉の葉色値(SPAD値),クロロフィル含量,炭水化物含量,窒素含量およびC-N率を比較した.晴天日の照度は,樹齢による差は小さくセクター9(各樹齢7.5~8.1μmol・M(-2)・S(-1))が最も高く,一方セクター1(各樹齢0.4~0.5μmol・M(-2)・S(-1))で最も低かった.樹冠外部の照度はいずれの樹齢も樹冠内部よりも高く,またセクター1,2,3のような下部よりも7,8,9のような上部で高かった.調査を行った2010年は雨季の開始が例年よりも2~3か月早く,このため樹体の生育相が例年とは大きく異なった.葉色値は樹齢に関係なくセクター1~4のような下部の葉よりもセクター5~9のような上部の葉で高かった.葉の炭水化物含量は,20年生樹ではセクター1~3の下部よりも7~9の上部で高かったが,35年生と50年生樹ではそれぞれ50.7~53.0%と51.3~52.6%で大差なかった.一方,葉の窒素含量は樹齢や測定時期に関係なくセクター5~9の上部よりもセクター1~4の下部で高かった.このため,葉のC-N率は樹冠の下部よりも上部で高かった.この結果をもとにマンゴスチンの果実生産性と品質および樹冠部位と樹齢との関係を考察した.
著者
Potjanapimon Chaiwat Fukuda Fumio Kubota Naohiro
出版者
岡山大学農学部
雑誌
岡山大学農学部学術報告 (ISSN:04740254)
巻号頁・発行日
vol.99, no.1, pp.35-42, 2010-02-01

The effects of temperature on budbreak of cuttings obtained at different stages of dormancy from 'Pione' grapevines (Vitis labrusca × V. vinifera) grown in open field were investigated. Cuttings were collected at monthly intervals from July to March. Judging from the number of days to initial and 60% budbreak after treatment, indicating promotion and the uniformity of budbreak, respectively, 30℃ was the most effective in budbreak, followed by 25 and 20℃ in that order in all treatment times. However, the effect of temperature on budbreak was markedly affected by treatment time. The number of days to initial budbreak (NDIB) increased gradually from July to October, peaked in December and thereafter decreased gradually towards March. The periods from July to September, from October to December, and from January to March were assumed to correspond to paradormancy, endodormancy, and ecodormancy of 'Pione' grapevines, respectively. Final percentage of budbreak was less than 100% until endodormancy for all temperatures. It was below 60% at 20℃ treatments of July to September. On the other hand, a uniform budbreak was observed in the treatments after the middle of endodormancy for all temperatures, resulting in almost 100% of final percentage of budbreak. There was a significant negative correlation between NDIB and cumulative chilling hour (CCH) of exposure to below 7.2℃ in the treatments after November, and also between NDIB and cumulative temperature (CT, ℃・h), a summation of temperature and hours of exposure to above 0°C from November 1 to each treatment time and hours of exposure to 20, 25, or 30℃ from start of treatmentto budbreak in each plot. The results suggest that besides CCH, CT can also be used to estimate the completion of dormancy in 'Pione' grapevine bud.露地栽培されているブドウ'ピオーネ'について,休眠の深さが異なる7月から翌年3月まで約1か月間隔で枝を採取し,1芽を有す挿し穂を調整した後,20,25および30℃に制御したインキュベーター(いずれも14時間日長)に入れ,経時的に発芽を調査した.発芽の早さを示す発芽所要日数と発芽の揃いを示す60%発芽所要日数から発芽に及ぼす温度の影響を評価した.実験期間中の温度を測定し,休眠完了と温度との関係を考察した.いずれの処理時期においても30℃の発芽が最も優れ,次いで25℃,20℃の順であった.しかし,発芽に及ぼす温度の影響は処理時期によって大きく異なった.すなわち,発芽所要日数は7月から10月までは徐々に増加し,11月に最大に達した後,3月に向けて少しずつ減少した.このことから,'ピオーネ'では7月から9月が条件的休眠期,10月から12月が自発休眠期,1月から3月が他発休眠期と推察された.自発休眠期までの最終発芽率はいずれの温度も100%未満であり,また7月~9月の20℃処理では60%未満の発芽率であった.一方,自発休眠期の中期以降の処理ではいずれの温度とも均一な発芽を示し,最終発芽率はほぼ100%であった.11月以降の処理において,発芽所要日数と7.2℃以下の温度に遭遇した時間数(CCH)との間に有意な負の相関があった.また,11月1日から各処理時期までの0℃以上の温度に遭遇した時間数と20,25または30℃で処理を始めた日から各処理区の発芽までの時間数との積算(CT, ℃・h)との間にも有意な負の相関が認められた.以上のことから,'ピオーネ'の芽の休眠完了の予測には低温遭遇量だけでなく,0℃以上の積算温度による方法も有効と考えられた.