Effects of rhizosphere soil nitrification on the compensatory growth of Italian ryegrass (Lolium multiflorum Lam) based on root-produced cytokinin

IF 1.1 4区 农林科学 Q3 AGRICULTURE, MULTIDISCIPLINARY
Ya-Dan Guo, Xiao-Ling Wang, Lin Qi, Jiang Shi, Yu-Hua Liu, Xue-Lin Li, Li-Xia Zhang, De-Hua Qin, Peng Song
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引用次数: 2

Abstract

Compensatory growth of forage grass can determine its optimal biomass, which is beneficial for increasing its production. The effect of rhizosphere soil nitrification on Italian ryegrass (Lolium multiflorum Lam) regrowth was investigated on the basis of root-produced cytokinin concentration in leaves to reveal the forage grass compensatory growth mechanism. The nitrification inhibitor 3,4-dimethylpyrazole phosphate was added to inhibit soil nitrification. Without soil nitrification being inhibited, compared with no clipping one defoliation cycle increased the leaf photosynthetic rate by 43.82%–53.79%, increased the leaf cytokinin content by 33.48%–34.73%, and increased the cytokinin transport from roots to leaves by 28.88%–39.47%. Nitrification inhibitor decreased soil nitrification rates by 23.33%–84.17% in the rhizosphere and by 42.71%–68.29% in the bulk soil during regrowth. In the rhizosphere micro-environment, nitrification increased soil nitrate concentration that played an important role in the transport of cytokinin from roots to leaves during regrowth, increasing the leaf cytokinin concentration. However, bulk soil nitrification rate and nitrate content had little influence on leaf cytokinin concentration during regrowth. An increase in leaf cytokinin improved the photosynthesis and the regrowth. Without soil nitrification being inhibited, total biomass at the end of regrowth period was 1.09 times higher in plants that were defoliated once than in non-clipped plants. However, soil nitrification inhibitor and two defoliation cycles decreased Italian ryegrass regrowth. Super compensatory growth occurred in the one defoliation cycle Italian ryegrasses without adding soil nitrification inhibitor. Compensatory growth occurred in once-defoliated Italian ryegrass with adding soil nitrification inhibitor and in twice-defoliated Italian ryegrass without adding soil nitrification inhibitor. In conclusion, rhizosphere soil nitrification is the key factor that regulates the compensatory growth of Italian ryegrass.

根际土壤硝化作用对意大利黑麦草(Lolium multiflorum Lam)根系细胞分裂素补偿生长的影响
牧草补偿生长可以确定其最优生物量,有利于提高产量。以根生细胞分裂素浓度为基础,研究根际土壤硝化对意大利黑麦草(Lolium multiflorum Lam)再生的影响,揭示牧草代偿生长机制。添加硝化抑制剂3,4-二甲基吡唑磷酸盐抑制土壤硝化作用。在不抑制土壤硝化作用的情况下,与不修剪相比,一次落叶循环使叶片光合速率提高了43.82% ~ 53.79%,使叶片细胞分裂素含量提高了33.48% ~ 34.73%,使细胞分裂素从根向叶的转运增加了28.88% ~ 39.47%。在再生过程中,硝化抑制剂使根际土壤硝化速率降低23.33% ~ 84.17%,使块状土壤硝化速率降低42.71% ~ 68.29%。在根际微环境中,硝化作用增加了土壤硝酸盐浓度,而硝酸盐在再生过程中对细胞分裂素从根向叶的转运起着重要作用,增加了叶片细胞分裂素的浓度。再生过程中,土壤总体硝化速率和硝态氮含量对叶片细胞分裂素浓度影响不大。叶片细胞分裂素的增加促进了光合作用和再生。在不抑制土壤硝化作用的情况下,1次落叶的植株再生末总生物量是未剪叶植株的1.09倍。然而,土壤硝化抑制剂和两次落叶循环抑制了意大利黑麦草的再生。在不添加土壤硝化抑制剂的情况下,意大利黑麦草在一次落叶循环中出现了超补偿生长。添加土壤硝化抑制剂后,一次落叶的黑麦草和未添加土壤硝化抑制剂的两次落叶的黑麦草出现了补偿性生长。综上所述,根际土壤硝化作用是调节黑麦草代偿生长的关键因素。
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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来源期刊
Grassland Science
Grassland Science Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
2.70
自引率
7.70%
发文量
38
审稿时长
>12 weeks
期刊介绍: Grassland Science is the official English language journal of the Japanese Society of Grassland Science. It publishes original research papers, review articles and short reports in all aspects of grassland science, with an aim of presenting and sharing knowledge, ideas and philosophies on better management and use of grasslands, forage crops and turf plants for both agricultural and non-agricultural purposes across the world. Contributions from anyone, non-members as well as members, are welcome in any of the following fields: grassland environment, landscape, ecology and systems analysis; pasture and lawn establishment, management and cultivation; grassland utilization, animal management, behavior, nutrition and production; forage conservation, processing, storage, utilization and nutritive value; physiology, morphology, pathology and entomology of plants; breeding and genetics; physicochemical property of soil, soil animals and microorganisms and plant nutrition; economics in grassland systems.
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