首页|期刊导航|福建农业学报|稻草还田配施氮肥对烤烟碳氮代谢及烟叶品质的影响

稻草还田配施氮肥对烤烟碳氮代谢及烟叶品质的影响OA

Carbon-Nitrogen Metabolism and Leaf Quality of Flue-cured Tobacco Affected by Straw-returning and Nitrogen Fertilization

中文摘要英文摘要

[目的]解决烟稻轮作区稻草还田烤烟碳氮代谢失衡及品质下降问题.[方法]以'湘烟 7号'为材料,采用双因素裂区设计,研究不同稻草还田量(A1:0 t·hm-2、A2:2.8 t·hm-2、A3:5.6 t·hm-2)和施氮量(B1:150 kg·hm-2、B2:180 kg·hm-2、B3:210 kg·hm-2)对烤烟碳氮代谢及烤后烟叶品质的影响.[结果]在同一稻草还田水平下,提高施氮量有利于鲜烟叶总糖、总氮和烟碱积累,增强蔗糖转化酶(invertase,INV)、淀粉酶(α-amylase,AL)和硝酸还原酶(nitrate reductase,NR)活性,烤后烟叶总氮和烟碱含量增加,总糖、还原糖和氯含量降低,钾含量先升后降;碳代谢指标(总糖、淀粉)的提升主要源于施氮量增加激活了 INV与 AL的活性,促进了碳的固定与转化过程.在同一施氮水平下,增加还田量有利于增加鲜烟叶总糖、淀粉、总氮和烟碱含量,使 INV、AL和 NR活性及烤后烟叶总氮、烟碱、总糖、还原糖和钾含量均呈先升后降趋势,氯含量降低.适量稻草还田(A2)通过优化碳氮代谢关键酶(INV、AL、NR)活性,并与氮肥协同作用,增强了烟株整体碳氮代谢强度,促进了代谢产物的协调积累.烤后烟叶成分分析及相关性研究进一步证实,INV、AL与 NR活性与总氮、烟碱和钾含量呈正相关,与氯含量负相关.相关性分析显示,提高 INV、AL和 NR活性有助于提升烤后烟叶的总氮、烟碱和钾含量,降低氯含量.[结论]A2B2处理强化了烟叶前中期碳氮代谢强度,保障了后期代谢向碳积累方向的及时转化.而 B1处理因酶活性下降过早导致淀粉提前积累、叶片早衰;B3处理则出现贪青晚熟现象,碳氮代谢失衡.其中,A2B2处理下烤后烟叶的化学成分最为协调,该研究结果可为优质烟叶持续生产提供理论依据.

[Objective]Carbon-nitrogen metabolism imbalance resulted from returning spent rice straws on tobacco-rice rotation cultivation fields that ill-affected the leaf quality was investigated.[Methods]Xiangyan 7 was used in a two-factor split-plot experimentation that returned spent rice straws from crop of previous year into the soil at a rate of 0 t·hm-2(A1),2.8 t·hm-2(A2),or 5.6 t·hm-2(A3)along with nitrogen fertilization at a rate of 150 kg·hm-2(B1),180 kg·hm-2(B2),or 210 kg·hm-2(B3)to determine the effects on carbon-nitrogen metabolism and post-curing leaf quality of the tobacco plants.[Results]Increasing nitrogen in soil with a constant amount of returned straws significantly promoted the accumulation of total sugars,total nitrogen,and nicotine as well as the activities of invertase(INV),amylase(AL),and nitrate reductase(NR)in the leaves of tobacco plants grown on it.The tobacco leaves after flue-curing showed rising contents of total nitrogen and nicotine,declining total sugar,reducing sugar,and chloride,and an escalating followed by a falling content of potassium as nitrogen was increased.Primarily resulting from the increased nitrogen in soil that activated INV and AL and stimulated carbon fixation and conversion of the plants.On the other hand,increasing the quantity of returned straws under same nitrogen fertilization encouraged formation of sugars,starches,nitrogen,and nicotine in the leaves.As a result,the INV,AL,and NR activities in the leaves increased,and so were the total nitrogen,nicotine,total sugar,and reducing sugar,coupled with declined chlorine and firstly rising then lowering potassium as straw-returning increased,in the cured leaves.Synergized with nitrogen fertilization,the moderate straw returning of A2 optimized the activity of the key enzymes,INV,AL,and NR,to maximize the overall carbon-nitrogen metabolism and accumulation of metabolic products in the tobacco plant.It appeared that the INV,AL,and NR activities positively correlated to total nitrogen,nicotine,and potassium but negatively to chloride content in the leaves.And through the enhanced activities,the total nitrogen,nicotine,and potassium of the flue-cured tobacco leaves were heightened with a reduced content of chloride.[Conclusion]The A2B2 combination not only intensified the carbon-nitrogen metabolism of tobacco plants during the early and mid-stages but also ensured timely transition to carbon in the late stage.On the other hand,B1 instigated a decline in enzyme activity,which led to early starch accumulation and premature leaf senescence,while B3 caused excessive vegetative growth and delayed maturity that resulted in carbon-nitrogen metabolism imbalance.Therefore,by combining A2 and B2,high-quality flue-cured tobacco with desirable chemical composition could be obtained.

宋潇瑜;黄思菁;朱丹丹;文媛;盛雨晴;蔡玮昕;杨友才

湖南农业大学农学院,湖南 长沙 410128湖南农业大学农学院,湖南 长沙 410128湖南农业大学农学院,湖南 长沙 410128湖南农业大学农学院,湖南 长沙 410128湖南农业大学农学院,湖南 长沙 410128湖南农业大学农学院,湖南 长沙 410128湖南农业大学农学院,湖南 长沙 410128

农业科技

稻草还田施氮量碳氮代谢烤烟

straw-returningnitrogen applicationcarbon-nitrogen metabolismflue-cured tobacco

《福建农业学报》 2026 (2)

222-231,10

湖南省自然科学基金面上项目(2022JJ30303)、湖南中烟工业有限责任公司项目(KY2020JD0010、KY2023JD0001)

10.19303/j.issn.1008-0384.2026.02.009

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