15NO3 assimilation by the field Pea Pisum sativum L.

Agronomie Pub Date : 2004-03-01 DOI:10.1051/AGRO:2004003

S. Atta, S. Maltese, P. Marget, R. Cousin

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引用次数: 11

Abstract

The objectives of this study were to determine the effect of low mineral supply on plant growth and the uptake and redistribution of mineral N by different plant organs according to the period of uptake. A glasshouse study was conducted on two pea genotypes, L833 and cv. Frisson, fed without or with 4 mM NO 3 . Plants fed with 4 mM N were labelled for 5 days with 15 N at three stages: 7 leaf stage, beginning of flowering, and beginning of seed filling. Plants were harvested at day 6 and at later stages. The results indicated for the two genotypes that supplying 4 mM N to the plants significantly increased their total dry weight up to the beginning of seed filling, whereas nodule dry weight was reduced. Genotype differences in N uptake and redistribution among plant organs were minor. When plants were labelled with 15 N at early stages of growth, about 60% of total plant 15 N was located in leaves. At maturity the proportion of 15 N recovered in seeds was about 60% for both genotypes. When plants were labelled at the beginning of seed filling, 15 N was mainly located in young organs such as upper leaves, pods and seeds. During seed fill the remobilisation of 15 N to seeds occurred from all organs of the plant. At physiological maturity about 70% of 15 N was located in seeds.

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田间豌豆对15NO3的同化作用。

本研究的目的是确定低矿物质供应对植物生长的影响，以及不同植物器官对矿物质氮的吸收和再分配。对L833和cv两个豌豆基因型进行了温室试验。弗里松，不加或加4毫米NO . 3。饲喂4 mM N的植株，在7叶期、开花期和灌浆期3个阶段用15 N标记5 d。在第6天和后期收获植株。结果表明:补给量为4mm N的2个基因型植株灌浆前总干重显著增加，而根瘤干重显著降低;植物各器官间氮素吸收和再分配的基因型差异较小。当植株在生长早期施用15n时，植株总15n的约60%分布在叶片中。成熟时，两种基因型籽粒中15n的回收率均在60%左右。在灌种初期对植株进行标记时，15n主要分布在上部叶片、豆荚和种子等幼嫩器官中。在补种过程中，植株各器官向种子再输送15n。生理成熟时，约70%的15n分布在种子中。

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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Agronomie

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