Leaf movement of bush bean: a biometeorological perspective.

Raeini Sarjaz M; Barthakur NN; Arnold NP

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Leaf movement of bush bean: a biometeorological perspective.

机译：矮生豆的叶片运动：生物气象学观点。

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Leaf movements of bush bean (Phaseolus vulgaris cv. Provider) plants were studied at the relatively low photon flux density of 0.2 mmol/m2 per s, and air temperatures of 25 and 35deg C in a growth chamber. A beta-ray gauge system was used to monitor continuously pulvinus water status and bending. Leaf angles were below the horizontal and were linearly related to the soil water content (R >=-0;91 at 25degree C and R >=-0.93 at 35degree C). The beta-ray transmission maxima coincided with the stem temperature minima indarkness and vice versa when brightness prevailed as the growth chamber temperature varied with the photoperiod. Leaf angle increased linearly with increased beta-ray transmission. The Q10 temperature coefficient, a measure of the metabolic energy requirement for leaf movement between 25 and 35degree C was estimated at 1.8, and the corresponding mean Arrhenius constant at 423 kJ/mol for bush bean.

机译：在相对低的光子通量密度为0.2 mmol / m2 / s，生长室中的空气温度为25和35摄氏度的条件下，研究了矮生菜豆（菜豆）的叶片运动。使用β射线规系统连续监测肺水状态和弯曲情况。叶角在水平以下，并且与土壤含水量线性相关（25摄氏度时R> =-0; 91; 35摄氏度时R> =-0.93）。当生长室的温度随光周期的变化而变化时，当亮度占优势时，β射线透射最大值与茎部温度的最低浓度相吻合，反之亦然。叶角随着β射线透射的增加而线性增加。 Q10温度系数（衡量25至35摄氏度之间叶片运动所需的代谢能的量度）估计为1.8，而矮小豆的相应平均阿累尼乌斯常数为423 kJ / mol。

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《International Journal of Biometeorology: Journal of the International Society of Biometeorology》 |1997年第2期|共5页
作者
Raeini Sarjaz M; Barthakur NN; Arnold NP;
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正文语种 eng
中图分类物候学;
关键词
temperature; soil water content; leaf angle; tropisms; heliotropism; leaves; nastic movements;

机译：温度;土壤含水量;叶片角;向性性;向热性;叶片;鼻运动;

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1. Leaf movement of bush bean: a biometeorological perspective. [J] . Raeini Sarjaz M, Barthakur NN, Arnold NP International Journal of Biometeorology: Journal of the International Society of Biometeorology . 1997,第2期

机译：矮生豆的叶片运动：生物气象学观点。
2. Pulvinus activity, leaf movement and leaf water-use efficiency of bush bean (Phaseplus vulgaris L.) in a hot environment. [J] . Raeini-Sarjaz M, Chalavi V International Journal of Biometeorology: Journal of the International Society of Biometeorology . 2008,第8期

机译：高温环境下矮生豆（Phaseplus vulgaris L.）的活力，叶片运动和叶片水分利用效率。
3. Pulvinus activity, leaf movement and leaf water-use efficiency of bush bean (Phaseplus vulgaris L.) in a hot environment [J] . Mahmoud Raeini-Sarjaz, Vida Chalavi International Journal of Biometeorology . 2008,第8期

机译：高温环境下矮小豆（Phaseplus vulgaris L.）的叶片活性，叶片运动和叶片水分利用效率
4. NEW BUSH BEAN CULTIVARS FOR MIAMI-DADE COUNTY [C] . Teresa Olczyk, Ruben Regalado, Waldemar Klassen, Annual Meeting of the Florida State Horticultural Society . 2005

机译：迈阿密戴德县的新灌木豆品种
5. The influences of environmental diversity on water-use efficiency, carbon isotope discrimination, leaf movements and nutrition of bush bean. [D] . Raeini Sarjaz, Mahmoud. 1997

机译：环境多样性对小豆的水分利用效率，碳同位素歧视，叶片运动和营养的影响。
6. Effect of Vanadate on Bean Leaf Movement Stomatal Conductance Barley Leaf Unrolling Respiration and Phosphatase Activity [O] . Henrik Saxe, Ranganatha Rajagopal 1981

机译：钒酸盐对豆叶片运动气孔导度大麦叶片展开呼吸和磷酸酶活性的影响
7. Paraheliotropic Leaf Movement of Bush Bean in Response to Water Availability and Air Temperature [O] . M. Raeini-Sarjaz, N.N. Barthakur 1995

机译：灌木豆叶的叶子运动响应水供应和空气温度

Leaf movement of bush bean: a biometeorological perspective.

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