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刈割后再生期间初始有机氮储备和残余叶面积对苜蓿(紫花苜蓿)生长、氮吸收、氮分配和氮储存的影响。

Influence of initial organic N reserves and residual leaf area on growth, N uptake, N partitioning and N storage in alfalfa (Medicago sativa) during post-cutting regrowth.

作者信息

Meuriot F, Avice J-C, Simon J-C, Laine P, Decau M-L, Ourry A

机构信息

UMR INRA/UCBN, Ecophysiologie Végétale, Agronomie & Nutritions N, C, S. Institut de Biologie Fondamentale et Appliquée, Université, 14032 Caen Cedex, France. avice@

出版信息

Ann Bot. 2004 Aug;94(2):311-21. doi: 10.1093/aob/mch144.

Abstract

BACKGROUND AND AIMS

The influence of initial residual leaf area and initial N reserves on N uptake, final N distribution, and yield in alfalfa regrowing after cutting, were studied.

METHODS

The effects of two levels of initial residual leaf area (plants cut to 15 cm, with (L+) or without (L-) their leaves) and two initial levels of N status [high N (HN) or low N (LN)] on growth, N uptake and N partitioning, allocation and storage after 29 d of post-cutting regrowth were analysed.

KEY RESULTS

During most of the regrowth period (8-29 d after the initial harvest), HN and L+ plants had higher net N uptake rates than LN and L- plants, respectively, resulting in a greater final mineral N uptake for these treatments. However, the final partitioning of exogenous N to the regrowing shoots was the same for all treatments (67 % of total exogenous N on average). Final shoot growth, total plant N content, and N allocation to the different taproot N pools were significantly lower in plants with reduced initial leaf area and initial N reserve status.

CONCLUSIONS

Although both initial residual leaf area and initial N reserves influenced alfalfa regrowth, the residual leaf area had a greater effect on final forage production and N composition in the taproot, whereas the N uptake rate and final total N content in plant were more affected by the initial N reserve status than by the residual leaf area. Moreover, N storage as proteins (especially as vegetative storage proteins, rather than nitrate or amino acids) in the taproot allowed nitrate uptake to occur at significant rates. This suggests that protein storage is not only a means of sequestering N in a tissue for further mobilization, utilization for growth or tissue maintenance, but may also indirectly influence both N acquisition and reduction capacities.

摘要

背景与目的

研究了刈割后再生苜蓿的初始残余叶面积和初始氮储备对氮吸收、最终氮分配及产量的影响。

方法

分析了两种初始残余叶面积水平(植株刈割至15厘米,保留叶片(L+)或去除叶片(L-))和两种初始氮状态水平[高氮(HN)或低氮(LN)]对刈割后29天再生过程中生长、氮吸收及氮分配、配置和储存的影响。

关键结果

在大部分再生期(初次收获后8 - 29天),HN和L+植株的净氮吸收率分别高于LN和L-植株,导致这些处理的最终矿质氮吸收量更大。然而,所有处理中外源氮向再生枝条的最终分配相同(平均占总外源氮的67%)。初始叶面积和初始氮储备状态降低的植株,其最终枝条生长、植株总氮含量以及向不同主根氮库的氮分配均显著降低。

结论

虽然初始残余叶面积和初始氮储备均影响苜蓿再生,但残余叶面积对最终牧草产量和主根氮组成的影响更大,而植株的氮吸收速率和最终总氮含量受初始氮储备状态的影响大于残余叶面积。此外,主根中以蛋白质形式(尤其是以营养储存蛋白,而非硝酸盐或氨基酸形式)储存的氮使得硝酸盐能够以显著速率被吸收。这表明蛋白质储存不仅是一种将氮隔离在组织中以便进一步调动、用于生长或维持组织的方式,还可能间接影响氮的获取和还原能力。

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本文引用的文献

2
Nitrate Assimilation during Vegetative Regrowth of Alfalfa.
Plant Physiol. 1981 Nov;68(5):1052-7. doi: 10.1104/pp.68.5.1052.
5
Nitrogen and Carbon Flows Estimated by 15N and 13C Pulse-Chase Labeling during Regrowth of Alfalfa.
Plant Physiol. 1996 Sep;112(1):281-290. doi: 10.1104/pp.112.1.281.
6
Local and long-range signaling pathways regulating plant responses to nitrate.
Annu Rev Plant Biol. 2002;53:203-24. doi: 10.1146/annurev.arplant.53.100301.135256.
8
Expression of beta-amylase from alfalfa taproots.
Plant Physiol. 1998 Dec;118(4):1495-506. doi: 10.1104/pp.118.4.1495.
9
Determination of total protein.
Methods Enzymol. 1983;91:95-119. doi: 10.1016/s0076-6879(83)91014-5.

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