农艺管控方式对烟叶氯离子含量的影响研究

doi:10.11924/j.issn.1000-6850.casb2025-0581

中国农学通报 ›› 2025, Vol. 41 ›› Issue (28): 26-33.doi: 10.11924/j.issn.1000-6850.casb2025-0581

农艺管控方式对烟叶氯离子含量的影响研究

丁海¹(), 王胜利¹, 张燕¹, 张宝¹, 马尚毅¹, 刘东¹, 崔瑞斌¹, 陈彬¹, 于涛¹, 张若男², 董建飞², 邢朔³, 王兆宝³(), 张怀宝³()

¹ 内蒙古昆明卷烟有限责任公司，呼和浩特 010020
² 内蒙古自治区烟草公司赤峰市公司烟叶分公司，内蒙古赤峰 737399
³ 中国农业科学院烟草研究所，山东青岛 266101

收稿日期:2025-07-14 修回日期:2025-09-23 出版日期:2025-10-05 发布日期:2025-10-10
通讯作者:
张怀宝，男，1966年出生，山东潍坊人，研究员，硕士，主要从事烟草品质化学及烟草功能成分综合利用研究。通信地址：266101 山东省青岛市崂山区科苑经四路11号中国农业科学院烟草研究所，Tel：0532-88702053，E-mail：zhanghuaibao@caas.cn。
王兆宝，男，1987年出生，山东潍坊人，副教授，博士，主要从事微生物功能菌剂开发研究。通信地址：266101 山东省青岛市崂山区科苑经四路11号中国农业科学院烟草研究所，Tel：0532-88702053，E-mail：wangzhaobao123@126.com。
作者简介:
丁海，男，1989年出生，内蒙古赤峰人，助理工程师，本科，研究方向为烟叶原料研究，烟叶质量评价。通信地址：010000 内蒙古自治区呼和浩特市赛罕区达尔登北路19号内蒙古昆明卷烟有限责任公司，Tel：0471-5191493，E-mail：8248779128@163.com。
基金资助:
内蒙古昆明卷烟有限责任公司科技项目“赤峰烟叶氯离子管控研究”(202315010534-JS-061); 内蒙古昆明卷烟有限责任公司科技项目“‘冬虫夏草’品牌原料保障体系中应用研究”(202315010534-JS-062)

Study on Effects of Agronomic Management Methods on Chloride Ion Content in Tobacco Leaves

DING Hai¹(), WANG Shengli¹, ZHANG Yan¹, ZHANG Bao¹, MA Shangyi¹, LIU Dong¹, CUI Ruibin¹, CHEN Bin¹, YU Tao¹, ZHANG Ruonan², DONG Jianfei², XING Shuo³, WANG Zhaobao³(), ZHANG Huaibao³()

¹ Inner Mongolia Kunming Cigarette Co., Ltd., Hohhot 010020
² Tobacco Leaf Branch of Chifeng Company, Inner Mongolia Autonomous Region Tobacco Company, Chifeng, Inner Mongolia 737399
³ Tobacco Research Institute, Chinese Academy of Agricultural Sciences, Qingdao, Shandong 266101

Received:2025-07-14 Revised:2025-09-23 Published:2025-10-05 Online:2025-10-10

摘要/Abstract

摘要： 本研究聚焦赤峰烟区土壤氯离子分布规律及其对烟叶品质的影响机制，旨在构建科学的氯离子精准管控体系。通过对赤峰敖汉旗、喀喇沁旗、宁城、松山区80份植烟土壤样品进行氯离子普查，结合松山区多因素田间试验，采用硝酸银滴定法与近红外光谱技术分别测定土壤及烟叶氯离子含量与常规化学成分。结果表明，赤峰烟区土壤氯离子空间异质性显著，受前茬作物影响显著。敖汉旗（前茬玉米）多数土样氯含量小于45 mg/kg（最适宜区），喀喇沁旗、宁城（前茬烟草）75%土样大于50 mg/kg（次适宜区），松山区（前茬玉米）土样氯含量大多为30~50 mg/kg（次适宜区）。大田试验显示，低氯高钾三元复合肥可降低烟叶氯离子含量0.03~0.16个百分点（下部叶效果最显著），大三元一体肥平均降低0.13个百分点；氯化钾类肥料显著提高烟叶氯含量，平均增加0.11~0.13个百分点。氯化钾作为追肥对下部叶氯含量影响最大（增加0.28个百分点），而基肥用氯化钾+追肥用硫酸钾可降低中部叶氯含量（0.11个百分点）。灌溉水净化使上、中、下部叶氯含量分别降低0.44、0.50、0.59个百分点，且处理后烟叶的氯离子含量均小于0.80%。本研究系统揭示了赤峰烟区氯离子分布规律及多维度调控效应，为建立基于区域特性的氯离子精准管理策略提供了理论依据与技术路径。

关键词: 氯离子, 烟草, 肥料, 施肥方式, 灌溉水, 前茬作物, 钾氯比, 烟叶质量

Abstract:

This study aimed to clarify the distribution characteristics of soil chloride ions in major tobacco-growing areas of Chifeng, explore the regulatory effects of fertilizer types, fertilization methods, and irrigation water purification on chloride ion content in tobacco leaves, and provide theoretical basis and technical support for precise management of chloride ions in tobacco areas. A survey was conducted on chloride ion contents in 80 tobacco-planting soil samples from Aohan Banner, Harqin Banner, Ningcheng County, and Songshan District of Chifeng. Combined with field experiments (different compound fertilizers, fertilization methods, and irrigation water treatments), chloride ion contents were determined by silver nitrate titration, and conventional chemical components in tobacco leaves were analyzed by near-infrared spectroscopy. Significant regional differences were observed in soil chloride ion contents in Chifeng tobacco areas, which were significantly affected by previous crops. In Aohan Banner (previous crop: maize), most soil samples had chloride contents <45 mg/kg (optimum range). In Harqin Banner and Ningcheng County (previous crop: tobacco), 75% of soil samples had chloride contents >50 mg/kg (suboptimal range). In Songshan District (previous crop: maize), soil chloride contents ranged from 30 to 50 mg/kg (suboptimal range). Field experiments showed that low-chloride and high-potassium ternary compound fertilizers reduced chloride content in tobacco leaves by 0.03-0.16 percentage points (most significant effect on lower leaves), while the ‘big ternary’ integrated fertilizer achieved an average reduction of 0.13%. Potassium chloride-based fertilizers significantly increased leaf chloride content (average increase of 0.11-0.13 percentage points). Among fertilization methods, applying potassium chloride as topdressing had the greatest impact on lower leaves ( chloride increase by 0.28%), whereas using potassium chloride as base fertilizer combined with potassium sulfate as topdressing reduced chloride content in middle leaves by 0.11%. Irrigation water purification decreased chloride contents in upper, middle, and lower leaves by 0.44, 0.50, and 0.59 percentage points respectively, with all treated leaves showing chloride contents <0.80%. This study revealed the distribution pattern of chloride ions and multi-dimensional management technologies in Chifeng tobacco areas, providing scientific support for improving tobacco leaf quality.

Key words: chloride ion, tobacco, fertilizer, fertilization method, irrigation water, previous crop, potassium-chlorine ratio, tobacco leaf quality

丁海, 王胜利, 张燕, 张宝, 马尚毅, 刘东, 崔瑞斌, 陈彬, 于涛, 张若男, 董建飞, 邢朔, 王兆宝, 张怀宝. 农艺管控方式对烟叶氯离子含量的影响研究[J]. 中国农学通报, 2025, 41(28): 26-33.

DING Hai, WANG Shengli, ZHANG Yan, ZHANG Bao, MA Shangyi, LIU Dong, CUI Ruibin, CHEN Bin, YU Tao, ZHANG Ruonan, DONG Jianfei, XING Shuo, WANG Zhaobao, ZHANG Huaibao. Study on Effects of Agronomic Management Methods on Chloride Ion Content in Tobacco Leaves[J]. Chinese Agricultural Science Bulletin, 2025, 41(28): 26-33.

图/表 7

图1. 敖汉旗植烟土样氯离子含量

图2. 喀喇沁旗植烟土样氯离子含量

图3. 宁城植烟土样氯离子含量

图4. 松山区植烟土样氯离子含量

图5. 复合肥种类对烟叶氯离子含量及钾氯比的影响

图6. 施肥方式对烟叶氯离子含量及钾氯比的影响

图7. 净化水滴灌降氯效果

参考文献 33

[1]	RAVEN J A. Chloride: Essential micronutrient and multifunctional beneficial ion[J]. Journal of experimental botany, 2016, 68(3):359-367.
[2]	COLMENERO-FLORES J M, FRANCO-NAVARRO J D, CUBERO-FONT P, et al. Chloride as a beneficial macronutrient in higher plants: New roles and regulation[J]. International journal of molecular sciences, 2019, 20(19):4686.
[3]	BLATT M R. Electrical characteristics of stomatal guard cells: The ionic basis of the membrane potential and the consequence of potassium chloride leakage from microelectrodes [Vicia faba, Commelina communis][J]. Planta, 1987, 170(3):272-287.
[4]	DING H, WANG S, ZHANG Y, et al. Investigation into the impact of chloride ion uptake inhibitors on tobacco plants[J]. Frontiers in soil science, 2025,5:1506548.
[5]	殷红慧, 余小芬, 赵兴能, 等. 施氯对贫氯红壤烤烟生长发育及烟叶产质量的影响[J]. 中国农学通报, 2024, 40(35):76-81. doi: 10.11924/j.issn.1000-6850.casb2024-0498
[6]	FRANCO-NAVARRO J D, ROSALES M A, CUBERO-FONT P, et al. Chloride as a macronutrient increases water-use efficiency by anatomically driven reduced stomatal conductance and increased mesophyll diffusion to CO₂[J]. The plant journal, 2019, 99(5):815-831.
[7]	GECHEV T, GADJEV I, BREUSEGEM F V, et al. Hydrogen peroxide protects tobacco from oxidative stress by inducing a set of antioxidant enzymes[J]. Cellular and molecular life sciences, 2002, 59(4):708-714. doi: 10.1007/s00018-002-8459-x pmid: 12022476
[8]	FRANCO-NAVARRO J D, JAVIER B, ROSALES M A, et al. Chloride regulates leaf cell size and water relations in tobacco plants[J]. Journal of experimental botany, 2016, 67(3):873-891.
[9]	YUNJIE W, JIALING L, DONGXU W, et al. Physiological and transcriptomic profiles of tobacco seedling leaves in response to high chloride accumulation[J]. Journal of plant interactions, 2024, 19(1):2406881.
[10]	ISHIZAKI H, AKIYA T. Effects of chlorine on growth and quality of tobacco[J]. Japan agricultural research quarterly, 1978, 12(3):153-157.
[11]	唐树梅, 漆智平, 黎成厚, 等. 贵州主要土壤类型氯的背景值[J]. 耕作与栽培, 1991,5:54-55.
[12]	MANSINHOS I, GONALVES S, ROMANO A. How climate change-related abiotic factors affect the production of industrial valuable compounds in Lamiaceae plant species: A review[J]. Frontiers in plant science, 2024,15.
[13]	BRONDI S H G, MACEDO A N D, VICENTE G H L, et al. Evaluation of the QuEChERS method and gas chromatography-mass spectrometry for the analysis pesticide residues in water and sediment[J]. Bulletin of environmental contamination and toxicology, 2011, 86(1):18-22. doi: 10.1007/s00128-010-0176-9 pmid: 21165598
[14]	CORPAS-IGLESIAS F A. Treatment of soil contaminated by mining activities to prevent contamination by encapsulation in ceramic construction materials[J]. Materials, 2021, 14(21):6683.
[15]	LEI Y, XIAO Y, LI L, et al. Impact of tillage practices on soil bacterial diversity and composition under the tobacco-rice rotation in China[J]. Journal of microbiology, 2017, 55(5):349-356. doi: 10.1007/s12275-017-6242-9 pmid: 28251545
[16]	BEN S A M, HAMROUNI B, BOUGUECHA S. Silica removal using ion-exchange resins[J]. Desalination, 2004,167:273-279.
[17]	李永福, 段友构. 电位滴定法测定烟草中氯含量分析条件的探讨[J]. 科技信息, 2009,15:26-27.
[18]	王超, 李朋成, 杨凯, 等. 近红外光谱烟叶质量等级快速检测与等级特征分析[J]. 光谱学与光谱分析, 2021, 41(3):943-947.
[19]	ZBIGNIEW B, RENATA K, AGNIESZKA S, et al. Role of chloride ions in the promotion of auxin-induced growth of maize coleoptile segments[J]. Annals of botany, 2014, 114(1):31-52.
[20]	高巍, 尚忠林. 细胞内离子在气孔运动中的作用[J]. 植物学报, 2010, 45(5):632-639.
[21]	ZHAO Y. Research on the optimal water and fertilizer scheme for maize in a typical hydrological year based on the DSSAT model[J]. Agronomy, 2025, 15(1):25.
[22]	SITKO R. Parent material effect on soil organic carbon concentration under primeval European beech forests at a regional scale[J]. Forests, 2021, 12(11):1565.
[23]	FAYYAZ F A, AZIZ I, ANSAR M, et al. Long-term impact of different prevalent cropping systems on soil physico-chemical characteristics under subtropical climate conditions of Punjab, Pakistan[J]. Scientific reports, 2025, 15(1):3874.
[24]	孙松. 烟草田土壤氯离子时空动态变化规律及影响因素研究[J]. 植物学研究, 2024, 13(3):258-267.
[25]	YANG X, ZHANG K, SHAGHALEH H, et al. Continuous cropping alters soil hydraulic and physicochemical properties in the karst region of southwestern China[J]. Agronomy, 2023, 13(12):3048.
[26]	HUSSEIN R N. Effect of continuous cultivation and soil texture on some soil properties[J]. GSC Advanced research and reviews, 2022, 13(1):77-84.
[27]	WANG J, TAO M, WANG D, et al. Quality of flue-cured tobacco in different flavors[J]. Agricultural science & technology, 2016, 17(12):2807-2810.
[28]	陈思昂, 张环纬, 陈彪, 等. 不同部位烤烟挥发性有机酸含量与烟叶品质的关系分析[J]. 河南农业科学, 2019, 48(2):54-62.
[29]	LU Y, YU M, JIA Y, et al. Structural basis for the activity regulation of a potassium channel AKT1 from Arabidopsis[J]. Nature communications, 2022, 13(1):5682.
[30]	周顺, 朱栋梁, 佘世科, 等. 钾盐对烟草燃烧热解特性的作用机制[J]. 烟草科技, 2016, 49(12):9-16.
[31]	张龙, 张忠启, 何轶, 等. 毕节烟区土壤氯离子含量状况与烟叶氯素风险评价[J]. 土壤通报, 2022, 53(1):97-105.
[32]	TAKAHASHI H. Sulfate transport systems in plants: functional diversity and molecular mechanisms underlying regulatory coordination[J]. Journal of experimental botany, 2019, 70(15):4075-4087.
[33]	LANDEIRA-FERNANDEZ A M, COSTA M S, DE MEIS L. Modulation of maize roots H⁺-ATPase by sulfated polysaccharides[J]. Bioscience reports, 1996, 16(6):439-451.

农艺管控方式对烟叶氯离子含量的影响研究

Study on Effects of Agronomic Management Methods on Chloride Ion Content in Tobacco Leaves

RichHTML

PDF (PC)

可视化

摘要/Abstract

引用本文

使用本文

图/表 7

参考文献 33

相关文章 15

编辑推荐

Metrics

本文评价

关于本刊

作者中心

审者中心

在线期刊

联系我们

[1]	刘湃, 赵东保, 魏义长, 肖练. 顾及水分敏感性的模型预测控制灌溉决策[J]. 中国农学通报, 2025, 41(7): 128-137.
[2]	边巴卓玛, 宋国英, 刘国一. 有机肥替代部分化学氮肥、磷肥对春青稞干物质、养分积累分配的影响[J]. 中国农学通报, 2025, 41(5): 69-76.
[3]	马倩倩, 彭莞云, 黄涛, 谢正伟, 李世银. 硅肥施用方式和浓度对青脆李果实品质的影响[J]. 中国农学通报, 2025, 41(4): 39-43.
[4]	张钰婧, 张庆奥, 贺宇欣, 谭霄, 谭博. 模拟深地封闭环境中本氏烟草环境敏感期动态演变与适应性调控规律[J]. 中国农学通报, 2025, 41(27): 135-141.
[5]	梁辰, 刘少霞, 梁代荣, 陈子凡, 尤雪, 陈正洪. 鄂西北2023年秋季低温连阴雨特征及其对烤烟质量的影响[J]. 中国农学通报, 2025, 41(25): 108-116.
[6]	杨清松, 吴阔, 李玲, 杨玉玲, 王灿, 陶永宏. 小黄姜与烟轮作对土壤微生物群落多样性的影响[J]. 中国农学通报, 2025, 41(25): 67-74.
[7]	高斯曼, 刘光亮, 段武丽, 杨娜, 董杏梅, 陈爱国. 烟草智慧育苗潮汐参数优化研究[J]. 中国农学通报, 2025, 41(23): 38-44.
[8]	王行, 王松峰, 刘兰, 姚远华, 王爱华, 王晓宾. 密集烘烤变黄程度与定色升温速度对沙泥田烟叶质量的影响[J]. 中国农学通报, 2025, 41(22): 141-147.
[9]	韩成卫, 郝福庭, 付贵林, 薛法新, 张岩, 宋春林, 吴秋平, 蒋飞. 不同施肥方式对糯玉米产量品质、土壤肥力及经济效益的影响[J]. 中国农学通报, 2025, 41(22): 7-12.
[10]	游宇, 林显凤, 江云, 张良, 张云梅, 唐冬梅, 余洪洁, 熊忠伟. 四川盐源玉米种植肥料利用率与经济效益分析[J]. 中国农学通报, 2025, 41(2): 17-22.
[11]	耿少武, 丁以纾, 扶艳艳, 布云虹, 柴云霞, 王跃金, 王文伦, 汪华国, 胡杨, 张盛瑜, 鲁耀. 楚雄‘K326’烟叶钾、氯含量及钾氯比稳定性与区划的研究[J]. 中国农学通报, 2025, 41(19): 20-29.
[12]	卢雨欣, 徐倩, 毛蕊, 陈太春, 冯志珍. 凹凸棒石生物肥料对连作草莓生长及土壤环境的调控效应[J]. 中国农学通报, 2025, 41(18): 80-89.
[13]	匡家灵, 陈月舞, 徐若, 李洪姝, 陈旭, 吴圣楠. 不同增效型DAP在新疆土壤中对玉米生长的影响[J]. 中国农学通报, 2025, 41(17): 72-77.
[14]	隆凯迪, 徐磊, 王昕, 侯翔皓, 张俊鹏. 滴灌对农田碳排放影响的研究现状与展望[J]. 中国农学通报, 2025, 41(16): 119-124.
[15]	沈会芳, 杨祁云, 张景欣, 蒲小明, 孙大元, 刘平平, 林壁润. 贝莱斯芽孢杆菌GDND-2对烟草的促生作用[J]. 中国农学通报, 2025, 41(16): 14-20.