Leaf diaheliotropic movement can improve carbon gain and water use efficiency and not intensify photoinhibition in upland cotton (Gossypium hirsutum L.)

Y. -L. Zhang; H. -Z. Zhang; G. -Y. Feng; J. -S. Tian; W. -F. Zhang

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Leaf diaheliotropic movement can improve carbon gain and water use efficiency and not intensify photoinhibition in upland cotton (Gossypium hirsutum L.)

机译：叶片透液气运动可以提高陆地棉（陆地棉）的碳吸收和水分利用效率，而不会增强光抑制作用。

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Upland cotton (Gossypium hirsutum L.) can move leaves to track the sun throughout the day, so-called leaf diaheliotropic movement. This paper reports an experimental test of the hypothesis that leaf diaheliotropic movement in upland cotton can enhance carbon assimilation and not increase the risk of stress from high energy load. In this experiment, cotton leaves were divided into two groups: one was that leaves could track the sun freely; another was that leaves were retained to the horizontal position. The diaheliotropic leaves recorded higher incident irradiance than the restrained ones, especially in the morning and late afternoon. Compared with restrained leaves, diaheliotropic leaves were generally warmer throughout the day. As expected, diaheliotropic leaves had significantly higher diurnal time courses of net photosynthetic rate (P _N) than restrained leaves, except during 14:00–18:00 of the local time. Higher instantaneous water-use efficiency (WUE) was observed in diaheliotropic leaves in the early morning and late afternoon than in the restrained leaves. During the given day, diaheliotropic and restrained leaves had similar diurnal time courses of recovery of maximal quantum yield of PSII photochemistry (F_v/F_m). Diaheliotropic leaves recorded lower or similar photochemical quenching coefficient (q_p) than restrained leaves did throughout the day. These results suggest that cotton leaf diaheliotropic movement can improve carbon gain and water use efficiency and not intensify photoinhibition.

机译：陆地棉（Gossypium hirsutum L.）可以全天移动树叶以追踪太阳，这就是所谓的叶片透液运动。本文报道了关于以下假设的实验测试，该假设认为陆地棉上的叶片变透性运动可以增强碳同化作用，而不会增加高能量负荷带来的胁迫风险。在该实验中，棉叶被分为两组：一组是叶子可以自由跟踪太阳；另一组是叶子可以自由跟踪太阳。另一个是叶子被保留在水平位置。透液叶片的入射辐照度比约束叶片更高，尤其是在早晨和下午。与节制叶相比，透液叶通常全天较热。正如预期的那样，除了当地时间的14：00–18：00以外，透液叶片的净光合速率（P _{N ）的昼夜时间过程明显高于受限制的叶片。在清晨和午后，比起受约束的叶片，在透液叶片中观察到更高的瞬时用水效率（WUE）。在给定的一天中，促透析叶片和约束叶片的PSII光化学最大量子产率（F _{v / F _{m ）的昼夜恢复时间相似。整日促热叶片记录的光化学猝灭系数（q _{p ）低于抑制叶片。这些结果表明，棉叶的变热运动可以提高碳的吸收和水分利用效率，而不会增强光抑制作用。}}}}

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《Photosynthetica》 |2009年第4期|p.609-615|共7页
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Y. -L. Zhang; H. -Z. Zhang; G. -Y. Feng; J. -S. Tian; W. -F. Zhang;
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机译：棉PHYA 1 RNAi改善了广香的纤维品质根伸长和成熟度及产量潜力。

3. COTTON PHYA 1 RNAI IMPROVES FIBER QUALITY, ROOT ELONGATION, FLOWERING, MATURITY AND YIELD POTENTIAL IN GOSSYPIUM HIRSUTUM L. [P] . 外国专利： WO2013130470A1 . 2013-09-06

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Leaf diaheliotropic movement can improve carbon gain and water use efficiency and not intensify photoinhibition in upland cotton (Gossypium hirsutum L.)

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