[1]范成五,柴冠群,刘桂华,等.叶面喷施硅对辣椒镉阻控效果[J].北方园艺,2021,(23):57-63.[doi:10.11937/bfyy.20211173]
 FAN Chengwu,CHAI Guanqun,LIU Guihua,et al.Effect of Foliar Spraying of Silicon Fertilizer on Cadmium Content Reduction in Pepper[J].Northern Horticulture,2021,(23):57-63.[doi:10.11937/bfyy.20211173]
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叶面喷施硅对辣椒镉阻控效果

《北方园艺》[ISSN:1001-0009/CN:23-1247/S] 卷: 期数: 2021年23 页码: 57-63 栏目: 出版日期: 2021-12-15
Title:
Effect of Foliar Spraying of Silicon Fertilizer on Cadmium Content Reduction in Pepper
作者:
范成五1柴冠群1刘桂华1罗沐欣键1隋岩峰2杨帆2
(1.贵州省农业科学院 土壤肥料研究所,贵州 贵阳 550006;2.中低品位磷矿及其共伴生资源高效利用国家重点实验室,贵州 贵阳 550002)
Author(s):
FAN Chengwu1CHAI Guanqun1LIU Guihua1LUO Muxinjian1SUI Yanfeng2YANG Fan2
(1.Institute of Soil and Fertilizer,Guizhou Academy of Agricultural Science,Guiyang,Guizhou 550006;2.State Key Laboratory of Efficient Utilization for Low Grade Phosphate Rock and Its Associated Resources,Guiyang,Guizhou 550002)
关键词:
辣椒外观品质镉含量硅含量叶面喷施
Keywords:
pepperexterior qualitycadmium contentsilicon contentfoliar spraying
DOI:
10.11937/bfyy.20211173
文献标志码:
A
摘要:
以绥阳小米辣为试材,采用水培试验的方法,研究了在50 mg·L-1 Cd胁迫条件下,喷施不同浓度Na2SiO3溶液(0、1、2、3、4 mmol·L-1)对辣椒产量与Cd累积的影响,以期为贵州辣椒绿色安全生产提供参考依据。结果表明:叶面喷施Na2SiO3溶液能够促进辣椒果实发育和产量形成,增加辣椒硅含量,减少Cd的吸收及向地上部转移。与对照(LSi0)相比,叶面喷施4 mmol·L-1Na2SiO3处理(LSi4)辣椒结果率、产量、单果质量与果形指数增幅效果最明显(P<005),增幅分别为5455%、7862%、3077%与3030%;辣椒不同部位Cd含量顺序表现为根>叶>茎>果实,叶面喷施Na2SiO3溶液,各部位硅含量显著增加,Cd含量显著降低,根部Cd含量降低效率最快,叶面喷施Na2SiO3主要作用为通过茎部向下转运Na2SiO3抑制根部吸收Cd,降低各部位Cd含量,LSi4处理辣椒果实Cd含量降幅最明显,为2918%。综合试验结果,叶面喷施Na2SiO3溶液有利于辣椒果实发育、产量形成和Cd含量降低,以4 mmol·L-1的喷施效果最明显。
Abstract:
Taking Suiyang millet pepper as test material,the effects of spraying different concentrations (0,1,2,3,4 mmol·L-1) of Na2SiO3 on the yield and Cd content of pepper were studied by hydroponics,in order to provide technical reference for the green and safe production of pepper in Guizhou.The results showed that spraying a suitable concentration of Na2SiO3 promoted the growth,quality and yield of pepper fruits,increased the Si content of pepper,reduced the absorption of Cd.Compared with the control (LSi0),spraying 4 mmol·L-1 Na2SiO3 (LSi4) had the most significant effect on increasing fruit yield,yield,single fruit weight and fruit shape index (P<005) than other treatments,which were 5455%,7862%,3077% and 3030%,respectively.The order of Cd content in different parts of pepper was as follows,root>leaf>steam>fruit.When Na2SiO3 solution was sprayed on the leaves,the Si content in each part of pepper increased significantly,while the Cd content decreased significantly,and the Cd content in the root decreased the fastest than other parts of pepper.The main effect of spraying Na2SiO3 on leaves of pepper was to inhibit the absorption of Cd in roots and reduce the Cd content in various parts by transporting Na2SiO3 from the stem to the root.The Cd content of pepper fruits treated by LSi4 decreased obviously,which was 2918%.According to the comprehensive test results,spraying Na2SiO3 on pepper leaves were beneficial to the formation of pepper quality and yield,and the spraying treatment of 4 mmol·L-1 had the best effect.

参考文献/References:

[1]GRANT C A,CLARKE J M,DUGUID S,et al.Selection and breeding of plant cultivars to minimize cadmium accumulation[J].Science of the Total Environment,2008,390(2):301-310.[2]环境保护部,国土资源部.全国土壤污染状况调查公报[R/OL].http://www.zhb.gov.cn/gkml/hbb/qt/201404/t20140417_270670.htm.(2018-06-02)[2021-01-20].[3]LIU H Y,PROBST A,LIAO B H.Metal contamination of soils and crops affected by the Chenzhou lead/zinc mine spill (Hunan,China)[J].Science of the Total Environment,2005,339(1):153-166.[4]XIN J,HUANG B,DAI H,et al.Characterization of cadmium uptake,translocation,and distribution in young seedlings of two hot pepper cultivars that differ in fruit cadmium concentration[J].Environmental Science and Pollution Research,2014,21(12):7449-7456.[5]张建,杨瑞东,陈蓉,等.贵州喀斯特地区土壤-辣椒体系重金属元素的生物迁移积累特征[J].食品科学,2017,38(21):175-181.[6]李桃.不同品种辣椒镉胁迫耐受机制研究[D].重庆:西南大学,2019.[7]柴冠群,杨娇娇,范成五,等.镉高地质背景区设施栽培对土壤与蔬菜镉积累的影响[J].土壤通报,2020,51(6):1489-1495.[8]张建,杨瑞东,陈蓉,等.贵州遵义辣椒矿质元素含量与其品质相关性分析[J].食品科学,2018,39(10):215-221.[9]章明奎,倪中应,沈倩.农作物重金属污染的生理阻控研究进展[J].环境污染与防治,2017,39(1):96-101.[10]卢红玲,肖光辉,刘青山,等.土壤镉污染现状及其治理措施研究进展[J].南方农业学报,2014,45(11):1986-1993.[11]ADREES M,ALI S,RIZWAN M,et al.Mechanisms of silicon-mediated alleviation of heavy metal toxicity in plants:A review[J].Ecotoxicology and Environmental Safety,2015,119:186-197.[12]陈喆,铁柏清,雷鸣,等.施硅方式对稻米镉阻隔潜力研究[J].环境科学,2014,35(7):2762-2770.[13]张宇鹏,谭笑潇,陈晓远,等.无机硅叶面肥及土壤调理剂对水稻铅、镉吸收的影响[J].生态环境学报,2020,29(2):388-393.[14]KLOTZBCHER T,MARXEN A,VETTERLEIN D,et al.Plant-available silicon in paddy soils as a key factor for sustainable rice production in Southeast Asia[J].Basic and Applied Ecology,2015,16(8):665-673.[15]隋岩峰,刘松林,杨帆.氟硅酸铵氨化制备纳米二氧化硅的实验研究[J].无机盐工业,2018,50(2):33-36.[16]隋岩峰,刘松林,秦红.氟化铵溶解含氟硅渣制备氟硅酸铵的实验研究[J].无机盐工业,2020,52(1):76-78.[17]李磊,尹显慧,龙友华,等.叶面喷施硒对辣椒果实品质及微量元素的影响[J].北方园艺,2019(16):1-6.[18]华海霞,于慧国,刘德君.硅钼蓝比色法测定植株中的硅[J].现代农业科技,2013(24):173-174.[19]GAO M,ZHOU J,LIU H,et al.Foliar spraying with silicon and selenium reduces cadmium uptake and mitigates cadmium toxicity in rice[J].Science of the Total Environment,2018,631:1100-1108.[20]王怀鹏,张翼飞,杨克军,等.硅肥不同喷施浓度对玉米抗倒伏性能及产量构成的调控效应[J].玉米科学,2020,28(3):111-118.[21]赵鑫,姚棋,张毅,等.叶面喷施外源硅铁对番茄果实品质的影响[J].山东农业科学,2020,52(9):78-84.[22]KIM Y H,KHAN A L,KIM D H,et al.Silicon mitigates heavy metal stress by regulating P-type heavy metal ATPases,Oryza sativa low silicon genes,and endogenous phytohormones[J].BMC Plant Biology,2014,14(1):1-13.[23]王学华,戴力.作物根系镉滞留作用及其生理生化机制[J].中国农业科学,2016,49(22):4323-4341.

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备注/Memo

第一作者简介:范成五(1977-),男,本科,副研究员,现主要从事农业资源利用与环境等研究工作。E-mail:18985581415@189.cn.责任作者:隋岩峰(1981-),男,硕士,高级工程师,现主要从事氟硅化工等研究工作。E-mail:1223260229@qq.com.基金项目:中低品位磷矿及其共伴生资源高效利用国家重点实验室开放课题基金资助项目(WFKF2020-07);贵州省科技支撑计划资助项目(黔科合支撑[2018]2338)。收稿日期:2021-03-19

更新日期/Last Update: 2022-03-15