植物学报
植物學報
식물학보
ACTA BOTANICA SINICA
2002年
6期
725-730
,共6页
朱桂杰%蒋高明%郝乃斌%刘合芹%孔正红%杜维广%满为群
硃桂傑%蔣高明%郝迺斌%劉閤芹%孔正紅%杜維廣%滿為群
주계걸%장고명%학내빈%류합근%공정홍%두유엄%만위군
大豆%生理生态特性%光合速率%气孔导度%水势
大豆%生理生態特性%光閤速率%氣孔導度%水勢
대두%생리생태특성%광합속솔%기공도도%수세
soybean%ecophysiological characteristics%photosynthetic rate%stomatal conductance%water potential
比较研究了1970s、1980s和1990s期间不同大豆 ( Glycine max (L.) Merr.)品种的生理生态特性:光合作用、蒸腾作用、气孔导度、水分利用效率、胞间CO2浓度和叶片水势,分析了各生理生态特性之间以及与产量在不同生育期的关系.研究表明光合速率和产量之间存在显著的相关关系,高产大豆同时具有高的气孔导度和水势,胞间CO2浓度则很低,特别是在鼓粒期关系更为显著.高产大豆的光合作用在鼓粒期达到最高值,光合作用日变化呈双峰曲线.在鼓粒期高产大豆的光合产物大量运往籽粒中,对于高产品种和高光效-"源"固然重要,而"流"-光合产物的合理运转和分配对产量则更为重要.
比較研究瞭1970s、1980s和1990s期間不同大豆 ( Glycine max (L.) Merr.)品種的生理生態特性:光閤作用、蒸騰作用、氣孔導度、水分利用效率、胞間CO2濃度和葉片水勢,分析瞭各生理生態特性之間以及與產量在不同生育期的關繫.研究錶明光閤速率和產量之間存在顯著的相關關繫,高產大豆同時具有高的氣孔導度和水勢,胞間CO2濃度則很低,特彆是在鼓粒期關繫更為顯著.高產大豆的光閤作用在鼓粒期達到最高值,光閤作用日變化呈雙峰麯線.在鼓粒期高產大豆的光閤產物大量運往籽粒中,對于高產品種和高光效-"源"固然重要,而"流"-光閤產物的閤理運轉和分配對產量則更為重要.
비교연구료1970s、1980s화1990s기간불동대두 ( Glycine max (L.) Merr.)품충적생리생태특성:광합작용、증등작용、기공도도、수분이용효솔、포간CO2농도화협편수세,분석료각생리생태특성지간이급여산량재불동생육기적관계.연구표명광합속솔화산량지간존재현저적상관관계,고산대두동시구유고적기공도도화수세,포간CO2농도칙흔저,특별시재고립기관계경위현저.고산대두적광합작용재고립기체도최고치,광합작용일변화정쌍봉곡선.재고립기고산대두적광합산물대량운왕자립중,대우고산품충화고광효-"원"고연중요,이"류"-광합산물적합리운전화분배대산량칙경위중요.
Photosynthetic rate ( Pn ),transpiration rate ( E ),stomatal conductance ( gs ),water use efficiency ( WUE ),intercellular CO2 ( Ci ) and leaf water potential ( Ψ ) in varieties of soybean ( Glycine max (L.) Merr.) measured in the past three decades (1970s,1980s and 1990s) and their inter-relationships were analyzed.These parameters of soybean changed with development stages.It is shown that there was a strongly positive relationship between the yield of soybean and its net photosynthetic rate.Soybean varieties with high yield potential had higher Pn ,gs and Ψ than those with low yield potential.Their values of Ci were remarkably lower.Such relationship was especially remarkable at the critical stage of pod-bearing.Pn of soybean of high yield was obviously higher than that of low yield.Of the different stages,the highest Pn was found in the pod-bearing stage and other values were higher,too.Pn and Ψ of modern soybean varieties were higher and such was continuing.Increased partitioning of carbon to seed and the size of sink may also be important for yield formation when Pn values were remarkably higher in the pod-bearing stage.