李剑峰, 张淑卿, 霍平慧, 师尚礼. 苜蓿内生根瘤菌分布部位与数量变化动态[J]. 中国生态农业学报(中英文), 2009, 17(6): 1200-1205. DOI: 10.3724/SP.J.1011.2009.01200
引用本文: 李剑峰, 张淑卿, 霍平慧, 师尚礼. 苜蓿内生根瘤菌分布部位与数量变化动态[J]. 中国生态农业学报(中英文), 2009, 17(6): 1200-1205. DOI: 10.3724/SP.J.1011.2009.01200
LI Jian-Feng, ZHANG Shu-Qing, SHI Shang-Li, HUO Ping-Hui. Position and quantity of endogensis rhizobia in alfalfa plant[J]. Chinese Journal of Eco-Agriculture, 2009, 17(6): 1200-1205. DOI: 10.3724/SP.J.1011.2009.01200
Citation: LI Jian-Feng, ZHANG Shu-Qing, SHI Shang-Li, HUO Ping-Hui. Position and quantity of endogensis rhizobia in alfalfa plant[J]. Chinese Journal of Eco-Agriculture, 2009, 17(6): 1200-1205. DOI: 10.3724/SP.J.1011.2009.01200

苜蓿内生根瘤菌分布部位与数量变化动态

Position and quantity of endogensis rhizobia in alfalfa plant

  • 摘要: 为探明根瘤菌在苜蓿植株及其种子内的分布规律, 对苜蓿植株及种子各部位在不同生育期内生根瘤菌的分布和数量变化进行了研究。结果表明: 苜蓿植株内根瘤菌的分布和数量在空间和时间上都具有很大异质性。空间分布上, 不同部位组织的内生根瘤菌数量随植株光合产物源-库的运输方向呈逐渐增大的趋势, 绝大部分内生根瘤菌分布于植株的根系, 并主要分布于毛根, 在主根内主要存在于表皮和皮层, 中柱分布较少; 在植株地上部分, 内生根瘤菌主要在营养期末分布于花芽8.6~9.6×103cfu·g-1(FW), 在蕾期和花期分布 于雌蕊子房的子房壁, 在结荚期分布于荚果果皮(1.07×103cfu·pod-1), 在种子成熟期则主要存在于新生的种子中; 茎内的根瘤菌数量在营养期和结荚期不足2×102cfu·g-1(FW), 而在蕾期和花期完全绝迹; 叶片内则始终不存在根瘤菌。在时间上, 结荚期根、荚果皮内的根瘤菌数量明显高于其他时期; 花内各器官(不包括花梗)在授粉后根瘤菌数量迅速增加; 由子房向荚果发育的过程中, 子房壁和胚珠内的根瘤菌数量随时间呈对数增长; 胚珠在受精后即存在有内生根瘤菌, 并且幼嫩种子内生根瘤菌数量远高于受精胚珠, 证明内生根瘤菌能被转运并定殖在发育早期的种子中。两个苜蓿品种成熟种子在收获120 d后, 根瘤菌数量比刚收获时分别增加131.46倍(“陇东”)和11.76倍(“游客”), 说明根瘤菌进入种子后, 仍然有一个继续繁殖增长的过程。

     

    Abstract: To determine the distribution characteristics of rhizobium in alfalfa plants and seeds, the distribution and abundance of endogenous rhizobium in different parts and seed of alfalfa at different growth stages were analyzed. The result indicates significant spatial and temporal heterogeneity in endogenous rhizobium abundance in alfalfa plant. For the spatial distribution, rhizobium abundance gradually increases with source-sink transportation trend of plant photosynthate. Most endogenous rhizobia are distributed in alfalfa root, mainly in the hair roots. In main root, more endogenous rhizobia exist in the epidermis and cortex areas compared with stele. Regarding the above-ground plant parts, endogenous rhizobia are mainly distributed in flower buds at vegetative stage 8.6~9.6×103cfu·g-1(FW), and in ovary walls of pistils at budding and floral stage. For pod-bearing stage, endogenous rhizobia are mainly in the pericarp of legumes (1.07×103cfu·pod-1), and in newborn seeds at mature stage. Rhizobium abundance in stalk is less than 2×102cfu·g-1(FW) at vegetative and pod-bearing stages, which vanishes at budding and floral stages. Rhizobia are not found in leaves. Temporally, rhizobium abundance in root and pericarp is obviously higher at pod-bearing stage than any other growth stage. Rhizobium abundance in various floral organs (except pedicle) rapidly increases after pollination. During ovary-to-legume germinative process, rhizobium abundance in ovary wall and ovule increases logarithmically. Endogenous rhizobia are found in ovule only after fertilization, and rhizobium abundance in young seeds is higher than in fertilized ovule. This implies that endogenous rhizobia can be transported and colonized in early germinated seedlings. Rhizobium abundance in mature seeds of the two alfalfa varieties stored for 120 d after harvest are 131.46 (“Longdong”) and 11.76 (“Eureka”) times higher than in newly harvested seeds. This suggests continuous proliferation of rhizobia after seeds are infested.

     

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