Transition between seed reserve use and photosynthetic supply during development of maize seedlings

Plant Science Letters Pub Date : 1984-11-01 DOI:10.1016/0304-4211(84)90199-8

E. Deleens , N. Gregory , R. Bourdu

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引用次数: 49

Abstract

Using the carbon isotope ratio $^{13} C^{12} C$ we have determined the relative importance of carbon flow from the seed reserves and the carbon provided by leaf photosynthetic fixation during the course of development of maize seedlings. The transition from the heterotrophic stage to the autotrophic one corresponds to a growth crisis which occurs on the 10th day in our conditions. During the first 7 days after germination δ ¹³C in leaves and roots is the same as that of the reserve tissues, then a rapid isotropic dilution by incorporation of photosynthetic carbon is observed. The balance between heterotropic and autotrophic carbon is obtained on the 10th day in the leaves but only on the 13th or 14th day in the roots. No autotropic carbon occurs in the roots before the 10th day. It seems that the growth crisis would be due or corresponds, at least partially, to the setting up of translocative function of products from the leaves to the roots.

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玉米幼苗发育过程中种子储备利用与光合供给的过渡

利用碳同位素13C12C测定了玉米幼苗发育过程中种子储备碳流与叶片光合固定碳流的相对重要性。在我们的条件下，从异养阶段到自养阶段的过渡对应于第10天发生的生长危机。在萌发后的前7天，叶片和根系的δ 13C与储备组织的δ 13C相同，然后观察到光合碳的快速各向同性稀释。异养碳和自养碳在第10天在叶片中达到平衡，而在第13或14天在根中达到平衡。在第10天之前，根系中没有自激碳。看来，生长危机将是由于或至少部分地与产品从叶到根的易位功能的建立相对应。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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