不同季秸秆全量还田对小麦根系分泌物的影响

Effects of all straw return on root secretions of wheat in different seasons

  • 摘要: 根系分泌物在植物与土壤进行物质交换和信息交流中发挥重要作用。为探明淮北平原砂姜黑土区不同季秸秆全量还田对于小麦根系分泌物的影响, 采用非靶向代谢组学结合液相色谱-质谱联用技术(LC-MS), 运用多元变量统计分析方法, 对小麦单季秸秆全量粉碎覆盖还田(T1)、小麦秸秆全量粉碎覆盖还田+玉米秸秆全量粉碎翻埋还田(T2)、玉米单季秸秆全量粉碎翻埋还田(T3)、小麦玉米秸秆不还田(CK)的小麦根系分泌物进行系统性分析。研究表明T1处理增加了越冬期小麦根长与根干重, 提高了根系活力; T1、T2、T3较CK分别检测到330、110、89种差异代谢物, T1较CK的根系分泌物中水苏糖、毛蕊花糖等部分棉子糖系列寡糖相对含量增加, 对半乳糖代谢、糖酵解途径影响较大; 脯氨酸、缬氨酸、异亮氨酸、谷氨酸、谷氨酰胺等相对含量增加, 对精氨酸和脯氨酸代谢、D-谷氨酰胺和 D-谷氨酸代谢两条通路影响较大; 3-羟基癸二酸、磷酸肌酸、3-异丙烯基戊二酸、4-庚酸、肉桂酸等相对含量上升。由此可见, 小麦单季秸秆全量粉碎覆盖还田改变了作物根系分泌物特征, 通过增加部分糖类、氨基酸类、有机酸类物质相对含量, 促进了小麦根长与干重的增加, 并在秸秆还田条件下维持较高的根系活力。

     

    Abstract: Root exudates play an important role in the exchange of substances and chemicals between plants and soil. Different straw returning modes change the growth environment of wheat roots, and wheat root exudates have different response characteristics to different straw returning modes. Screening for a suitable straw returning mode is a key issue for sustainable and high-quality development of wheat production. Metabolomics of root exudates can potentially help us to better understand the chemical interaction between roots, soils, and organisms in the rhizosphere. In this study, to investigate the effects of all straw return in different seasons of winter wheat-summer maize rotation system on wheat root exudates in the lime concretion black soil area in Huaibei Plain, four straw returning modes were developed, they included all wheat straw smashed mulching in summer maize season (T1), all wheat straw smashed mulching in summer maize season + all maize straw crushed burying in winter wheat season (T2), all maize straw crushed burying in winter wheat season (T3) and no straw returned to field (CK). The metabolomics of wheat root exudates collected under different straw returning modes was investigated based on non-targeted metabolomics combined with liquid chromatography-mass spectrometry. Multivariate statistical analysis methods were used to quantify the differences in metabolomics among different straw returning modes. The results showed that T1 treatment increased the root length and root dry weight of wheat during the overwintering period and resulted in higher root vigor compared to other treatments. T1, T2, and T3 detected 330, 110, and 89 differential metabolites compared with CK, respectively. Compared with CK, the relative contents of some oligosaccharides, such as stachyose and verbascose, in the root exudates of T1 increased, and the galactose metabolism and glycolytic pathways were greatly affected. The relative contents of proline, valine, isoleucine, glutamic acid, and glutamine of T1 increased, and the metabolism of arginine and proline, and D-glutamine and D-glutamate metabolism were affected greatly. The relative contents of 3-hydroxysebanoic acid, creatine phosphate, 3-isopropenylglutaric acid, 4-heptanoic acid, and cinnamic acid of T1 increased. The results indicated that all wheat straw smashed mulching changed the characteristics of wheat root exudates; increased the root length and dry weight of wheat by increasing the relative content of some sugars, amino acids, and organic acids; and maintained high root vitality under the condition of straw return. Metabolomic analysis of root exudates based on non-targeted metabolomics combined with liquid chromatography-mass spectrometry could provide an important theoretical basis for the study of the efficient utilization of straw resources and high yield, high quality, and high-efficiency development of wheat production in the lime concretion black soil area in Huaibei Plain.

     

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