Ourry A., Kim T. H., Boucaud J.
Laboratoire de Physiologie et de Biochimie Vegetales, Institut National de la Recherche Agronomique, Institu de Recherche en Biologie Appliquee, Universite, 14032 Caen Cedex, France.
Plant Physiol. 1994 Jul;105(3):831-837. doi: 10.1104/pp.105.3.831.
An experiment was designed to study the role of N and C reserves on regrowth of the shoots following defoliation of forage species. Starch and N accumulation in root and crown tissue of nonnodulated Medicago sativa L. were modified during regrowth by applying different levels of N and different cutting heights. Plants were obtained with similar crown and root dry weights, but having either low starch and high tissue N or high starch and low tissue N. The plants were then submitted to a second defoliation and supplied with optimal N nutrition, and N flow from reserve was quantified using pulse-chase 15N labeling. Maximum yields following the second regrowth were obtained from those plants having a high tissue N, despite their low level of nonstructural carbohydrate. When N in the roots and crown exceeded 5 mg N plant-1 at the beginning of regrowth, about 68% was translocated to regrowing shoots. Highly significant correlations were also found between the amounts of N available in roots and crown at the beginning of regrowth and (a) the amount of N that was mobilized to new tissues, (b) the amount of N taken up during the regrowth period, and (c) the final shoot yield after 24 d of regrowth. No similar correlations were found for plants that varied in their initial starch content of roots and crown. It is suggested that N reserves were used mainly during the first 10 d after defoliation, and that the resulting aerial growth during this period should be sufficient to restore N2 fixation and/or N uptake to levels equal to those prior to defoliation. These data emphasize (a) the importance of root N reserves in initiating and sustaining new shoot growth, and (b) the need for a re-evaluation of the contribution of C reserves to shoot regrowth.
设计了一项实验来研究氮和碳储备对饲料作物去叶后枝条再生长的作用。通过施加不同水平的氮和不同的刈割高度,在苜蓿再生长过程中改变了非结瘤紫花苜蓿根和冠组织中淀粉和氮的积累。获得了具有相似冠部和根部干重,但淀粉含量低而组织氮含量高或淀粉含量高而组织氮含量低的植株。然后对这些植株进行第二次去叶处理,并提供最佳氮营养,使用脉冲追踪15N标记对储备氮的流动进行定量。尽管其非结构性碳水化合物水平较低,但第二次再生长后最高产量来自那些组织氮含量高的植株。再生长开始时,根和冠中的氮超过5毫克/株时,约68%的氮被转运到再生长的枝条中。再生长开始时根和冠中可利用氮的量与(a)转运到新组织中的氮量、(b)再生长期间吸收的氮量以及(c)再生长24天后的最终枝条产量之间也发现了高度显著的相关性。对于根和冠初始淀粉含量不同的植株,未发现类似的相关性。研究表明,氮储备主要在去叶后的前10天被利用,在此期间产生的地上部生长应足以将固氮和/或氮吸收恢复到去叶前的水平。这些数据强调了(a)根氮储备在启动和维持新梢生长中的重要性,以及(b)需要重新评估碳储备对枝条再生长的贡献。