首页 > 过刊浏览>2022年第41卷第6期 >160-168. DOI:10.13300/j.cnki.hnlkxb.2022.06.018
PDF HTML阅读 XML下载 导出引用 引用提醒
硅对植物抗逆性影响的研究进展
CSTR:
[cstr]
作者:
作者单位:

1.华中农业大学资源与环境学院/农业农村部长江中下游耕地保育重点实验室/ 华中农业大学微量元素研究中心,武汉 430070;2.湖北省烟草科学研究院,武汉 430030;3.华中农业大学双水双绿研究院,武汉 430070

作者简介:

苏素苗,E-mail: 1490545100@qq.com

通讯作者:

李小坤,E-mail: lixiaokun@mail.hzau.edu.cn

中图分类号:

S143.7+1

基金项目:

国家重点研发计划项目(2021YFD1901200);湖北省烟草公司科技项目(027Y2021-009)


Progress on effects of silicon on plant stress resistance
Author:
Affiliation:

1.College of Resources and Environment, Huazhong Agricultural University/ Key Laboratory of Arable Land Conservation (Middle and Lower Reaches of Yangtze River) in Ministry of Agriculture and Rural Affairs/Microelement Research Center, Huazhong Agricultural University, Wuhan 430070,China;2.Hubei Academy of Tobacoo Science, Wuhan 430030, China;3.Shuangshui Shuanglü Research Institute, Huazhong Agricultural University, Wuhan 430070, China

  • 摘要
    • |
  • 图/表
    • |
  • 访问统计
    • |
  • 参考文献 [66]
    • |
  • 相似文献 [20]
    • |
  • 引证文献
    • | |
  • 文章评论
    摘要:

    硅作为有益元素,具有促进植物生长、提高作物产量的作用,同时硅在增强植物抗逆性方面也发挥着重要作用。为进一步探究硅增强植物抗逆性的深层作用机制,本文综述了硅增强植物抵御生物胁迫(包括病原菌、害虫等)及非生物胁迫(干旱、盐害、重金属等)方面的研究进展,认为硅可通过改善植物形态、平衡养分吸收、调节激素代谢、改良土壤性状等多种作用机制缓解胁迫。针对硅的未来研究方向进行了展望,如硅抵抗各种胁迫的耦合机制,深入研究硅提高植物抗逆性的生物化学及分子机制以及加强新型硅肥及配套施用技术的研发。

    Abstract:

    Silicon is one of the most abundant elements in the earth’s crust, and also a beneficial element for plants. It has the effect of promoting plant growth and improving crop yield. Numerous studies have shown that silicon plays an important role in enhancing plant stress resistance as well. This article systematically reviewed the research progress of silicon enhancing plant resistance to biotic stress (including pathogens, pests, etc.) and abiotic stress (drought, salt damage, heavy metals, etc.) to further study the relevant mechanisms of silicon enhancing plant stress resistance. Studies existed have comprehensively shown that silicon can stabilize cell structure and improve plant morphology to enhance plant physical defense, and strengthen chemical defense by balancing nutrient absorption and regulating hormone metabolism. At the same time, it participates in gene expression regulation and improves plant molecular defense. And the future direction of studying silicon was prospected,such as the coupling mechanism of silicon resistance to various stresses, the in-depth study on the biochemical and molecular mechanisms of silicon improving plant stress resistance, and the development of new silicon fertilizers and supporting fertilizationtechnology.

    图1 硅缓解植物生物及非生物胁迫的内在作用机制及外在表征(改自文献[33])Fig.1 Internal mechanism and external characterization of silicon alleviating biotic and abiotic stresses in plants (modified from the reference [33])
    参考文献
    [1] 秦曼丽,胡绪峰,刘德麒,等.硅对盐胁迫下黄瓜生长和多胺代谢的影响[J].植物生理学报,2022,58(6):1077-1091.QIN M L,HU X F,LIU D Q,et al.Effects of silicon on growth and polyamine metabolism in cucumber under salt stress[J].Plant physiology journal,2022,58(6):1077-1091(in Chinese with English abstract).
    [2] 张楠,闫国超,叶木军,等.野生型水稻及其低硅突变体中植硅体和植硅体碳的含量与分布特征[J].植物营养与肥料学报,2019,25(1):45-54.ZHANG N,YAN G C,YE M J,et al.The contents and distributions of phytolith and phytolith-occluded carbon in different rice genotypes[J].Journal of plant nutrition and fertilizers,2019,25(1):45-54(in Chinese with English abstract).
    [3] 张万洋,李小坤.水稻硅营养及硅肥高效施用技术研究进展[J].中国土壤与肥料,2020(4):231-239.ZHANG W Y,LI X K.Research progress on silicon nutrition and efficient application of silicon fertilizer in rice[J].Soil and fertilizer sciences in China,2020(4):231-239(in Chinese with English abstract).
    [4] 徐呈祥,刘兆普,刘友良.硅在植物中的生理功能[J].植物生理学通讯,2004,40(6):753-757.XU C X,LIU Z P,LIU Y L.The physiological function of silicon in plants[J].Plant physiology communications,2004,40(6):753-757(in Chinese).
    [5] CUONG T X,ULLAH H,DATTA A,et al.Effects of silicon-based fertilizer on growth,yield and nutrient uptake of rice in tropical zone of vietnam[J].Rice science,2017,24(5):283-290.
    [6] 龚金龙,张洪程,龙厚元,等.水稻中硅的营养功能及生理机制的研究进展[J].植物生理学报,2012,48(1):1-10.GONG J L,ZHANG H C,LONG H Y,et al.Progress in research of nutrition functions and physiological mechanisms of silicon in rice[J].Plant physiology journal,2012,48(1):1-10(in Chinese with English abstract).
    [7] LAVINSKY A O,DETMANN K C,REIS J V,et al.Silicon improves rice grain yield and photosynthesis specifically when supplied during the reproductive growth stage[J].Journal of plant physiology,2016,206:125-132.
    [8] 蒋雄英,陈桂芬,尹辉,等.硅肥对甘蔗的生长、产量和品质的影响[J].西南农业学报,2014,27(6):2460-2464.JIANG X Y,CHEN G F,YIN H,et al.Effects of silicon fertilization on growth,yield and quality of sugarcane[J].Southwest China journal of agricultural sciences,2014,27(6):2460-2464(in Chinese with English abstract).
    [9] 林兆里,张华,罗俊,等.施用硅肥对甘蔗抗条螟性及其产量的影响[J].热带作物学报,2021,42(4):1071-1079.LIN Z L,ZHANG H,LUO J,et al.Effect of silicon fertilizer on sugarcane production and its resistance to stalk borer[J].Chinese journal of tropical crops,2021,42(4):1071-1079(in Chinese with English abstract).
    [10] 刘春成,李中阳,胡超,等.逆境条件下硅肥调控效应研究进展[J].中国土壤与肥料,2021(4):337-346.LIU C C,LI Z Y,HU C,et al.Advances in the regulation effects of silicon fertilizer under adversity stress[J].Soil and fertilizer sciences in China, 2021(4):337-346(in Chinese with English abstract).
    [11] 刘月,刘海河,张彦萍,等.外源硅对厚皮甜瓜果实品质及相关酶活性的影响[J].中国瓜菜,2021,34(12):28-32.LIU Y,LIU H H,ZHANG Y P,et al.Effects of exogenous silicon on fruit quality and related enzyme activities of muskmelon[J].China cucurbits and vegetables,2021,34(12):28-32(in Chinese with English abstract).
    [12] 王露,杨帅,陈玉子,等.不同供氮水平下加硅对香蕉生长与氮营养的影响[J].热带作物学报,2019,40(4):664-669.WANG L,YANG S,CHEN Y Z,et al.Effect of silicate on banana growth and nitrogen nutrition with different nitrogen supply level[J].Chinese journal of tropical crops,2019,40(4):664-669(in Chinese with English abstract).
    [13] 张大伟,魏鑫,徐海江,等.滴施硅肥对棉花生长发育和产量品质的影响[J].新疆农业科学,2020,57(11):1998-2003.ZHANG D W,WEI X,XU H J,et al.Effects of silicon fertilizer on cotton growth,yield and quality[J].Xinjiang agricultural sciences,2020,57(11):1998-2003(in Chinese with English abstract).
    [14] HAN Y Q,WEN J H,PENG Z P,et al.Effects of silicon amendment on the occurrence of rice insect pests and diseases in a field test[J].Journal of integrative agriculture,2018,17(10):2172-2181.
    [15] 宁东峰,梁永超.硅调节植物抗病性的机理:进展与展望[J].植物营养与肥料学报,2014,20(5):1280-1287.NING D F,LIANG Y C.Silicon-mediated plant disease resistance:advance and perspectives[J].Journal of plant nutrition and fertilizer,2014,20(5):1280-1287(in Chinese with English abstract).
    [16] 易晓璇,马肖,刘木兰,等.硅对植物逆境胁迫耐受能力的影响及其机理研究进展[J].作物研究,2020,34(4):398-404.YI X X,MA X,LIU M L,et al.Research progress on effect of silicon on plant stress tolerance and its mechanism[J].Crop research,2020,34(4):398-404(in Chinese with English abstract).
    [17] CAI K Z,GAO D,LUO S M,et al.Physiological and cytological mechanisms of silicon-induced resistance in rice against blast disease[J].Physiologia plantarum,2008,134(2):324-333.
    [18] NG L C,HAFIZ E S,SARIAM O,et al.The effect of calcium silicate as foliar application on aerobic rice blast disease development[J].European journal of plant pathology,2019,153(2):533-543.
    [19] CARNEIRO-CARVALHO A,PINTO T,FERREIRA H,et al.Effect of silicon fertilization on the tolerance of Castanea sativa Mill.seedlings against Cryphonectria parasitica Barr[J].Journal of plant diseases and protection,2020,127(2):197-210.
    [20] RODRIGUES F á,JURICK W M I I,DATNOFF L E,et al.Silicon influences cytological and molecular events in compatible and incompatible rice-Magnaporthe grisea interactions[J].Physiological and molecular plant pathology,2005,66(4):144-159.
    [21] KAUSS H,SEEHAUS K,FRANKE R,et al.Silica deposition by a strongly cationic proline-rich protein from systemically resistant cucumber plants[J].The plant journal,2003,33(1):87-95.
    [22] 沈彦辉,周新刚,吴凤芝.不同施硅方式对土壤化学性状及土壤酶活性的影响[J].中国蔬菜,2015(11):34-39.SHEN Y H,ZHOU X G,WU F Z.Effects of different silicon fertilization patterns on soil chemical property and soil enzyme activity[J].China vegetables,2015(11):34-39(in Chinese with English abstract).
    [23] 韩永强,弓少龙,文礼章,等.水稻施用硅肥对稻纵卷叶螟幼虫取食和成虫产卵选择性的影响[J].生态学报,2017,37(5):1623-1629.HAN Y Q,GONG S L,WEN L Z,et al.Effect of silicon addition to rice plants on Cnaphalocrocis medinalis feeding and oviposition preference[J].Acta ecologica sinica,2017,37(5):1623-1629(in Chinese with English abstract).
    [24] 王小珊.牛角花齿蓟马(Odontothrips loti)为害对苜蓿叶片次生代谢物质含量的影响[D].兰州:甘肃农业大学,2014.WANG X S.Effect of Odontothrips loti feeding on the secondary metabolites content in alfalfa leaf[D].Lanzhou:Gansu Agricultural University,2014(in Chinese with English abstract).
    [25] HAN Y Q,LEI W B,WEN L Z,et al.Silicon-mediated resistance in a susceptible rice variety to the rice leaf folder,Cnaphalocrocis medinalis Guenée (Lepidoptera:Pyralidae)[J/OL].PLoS One,2015,10(3):e0120557[2022-05-09].http://doi.org/10.1371/journal.pone.0120557.
    [26] 洪鼎剀,卞润恬,库木克努尔,等.施硅玉米对草地贪夜蛾的影响[J].南方农业学报,2021,52(3):589-595.HONG D K,BIAN R T,KUMUKENUER,et al.Effects of silicon application in corn on Spodotera frugiperda (J.E.Smith)[J].Journal of southern agriculture,2021,52(3):589-595(in Chinese with English abstract).
    [27] 狄浩,赵伊英,褚贵新,等.硅对叶螨危害后棉花防御酶活性的调控作用及其与抗虫性的关系[J].石河子大学学报(自然科学版),2013,31(6):661-668.DI H,ZHAO Y Y,CHU G X,et al.Silicon-mediated defense enzyme activities in cotton attacked by Tetranychus turkestani and its insect resistance[J].Journal of Shihezi University (natural science),2013,31(6):661-668(in Chinese with English abstract).
    [28] 王明飞,戚秀秀,王中华,等.施硅降低麦长管蚜对小麦寄主选择偏好的化学机理[J].植物营养与肥料学报,2022,28(3):555-565.WANG M F,QI X X,WANG Z H,et al.Silicon application decreases host selection preference of Sitobion avenae(Fabricius)[J].Journal of plant nutrition and fertilizers,2022,28(3):555-565(in Chinese with English abstract).
    [29] 贾路瑶,刘丹丹,侯茂林.水稻施硅对白背飞虱刺吸和寄主选择行为的影响[J].昆虫学报,2020,63(2):199-206.JIA L Y,LIU D D,HOU M L.Effects of silicon amendment to rice on piercing and host selection behaviors of the white-backed planthopper,Sogatella furcifera (Hemiptera:Delphacidae)[J].Acta entomologica sinica,2020,63(2):199-206(in Chinese with English abstract).
    [30] WANG Y W,ZHANG B B,JIANG D X,et al.Silicon improves photosynthetic performance by optimizing thylakoid membrane protein components in rice under drought stress[J].Environmental and experimental botany,2019,158:117-124.
    [31] BESHARAT S,BAR?O L,CRUZ C.New strategies to overcome water limitation in cultivated maize:results from sub-surface irrigation and silicon fertilization[J/OL].Journal of environmental management,2020,263:110398[2022-05-09].http://doi.org/10.1016/j.jenvman.2020.110398.
    [32] ALSAEEDI A,EL-RAMADY H,ALSHAAL T,et al.Silica nanoparticles boost growth and productivity of cucumber under water deficit and salinity stresses by balancing nutrients uptake[J].Plant physiology and biochemistry,2019,139:1-10.
    [33] ETESAMI H,JEONG B R.Silicon (Si):review and future prospects on the action mechanisms in alleviating biotic and abiotic stresses in plants[J].Ecotoxicology and environmental safety,2018,147:881-896.
    [34] WANG M,WANG R R,MUR L A J,et al.Functions of silicon in plant drought stress responses[J/OL].Horticulture research,2021,8:254[2022-05-09].https://doi.org/10.1038/s41438-021-00681-1.
    [35] PATEL M,FATNANI D,PARIDA A K.Silicon-induced mitigation of drought stress in peanut genotypes (Arachis hypogaea L.) through ion homeostasis,modulations of antioxidative defense system,and metabolic regulations[J].Plant physiology and biochemistry,2021,166:290-313.
    [36] CAO B L,MA Q,ZHAO Q,et al.Effects of silicon on absorbed light allocation,antioxidant enzymes and ultrastructure of chloroplasts in tomato leaves under simulated drought stress[J].Scientia horticulturae,2015,194:53-62.
    [37] 曾瑞儿,王鑫悦,侯雪蓥,等.硅对干旱胁迫下花生幼苗生长和生理特性的影响[J].花生学报,2018,47(4):13-18.ZENG R E,WANG X Y,HOU X Y,et al.Effects of silicon on growth and physiological characteristics of peanut seedling under drought stress[J].Journal of peanut science,2018,47(4):13-18(in Chinese with English abstract).
    [38] 郑世英,郑晓彤,耿建芬,等.硅对干旱胁迫下野生大豆幼苗生长和生理特性的影响[J].大豆科学,2018,37(2):263-267.ZHENG S Y,ZHENG X T,GENG J F,et al.Effects of silicon on growth and physiological characteristics of wild soybean seedlings under drought stress[J].Soybean science,2018,37(2):263-267(in Chinese with English abstract).
    [39] CHEN W,YAO X Q,CAI K Z,et al.Silicon alleviates drought stress of rice plants by improving plant water status,photosynthesis and mineral nutrient absorption[J].Biological trace element research,2011,142(1):67-76.
    [40] PEI Z F,MING D F,LIU D,et al.Silicon improves the tolerance to water-deficit stress induced by polyethylene glycol in wheat (Triticum aestivum L.) seedlings[J].Journal of plant growth regulation,2010,29(1):106-115.
    [41] 赵海燕,魏宁,孙聪聪,等.NaCl胁迫对银杏幼树组织解剖结构和光合作用的影响[J].北京林业大学学报,2018,40(11):28-41.ZHAO H Y,WEI N,SUN C C,et al.Effects of salt stress on anatomic structure of tissue and photosynthesis in Ginkgo biloba seedlings[J].Journal of Beijing Forestry University,2018,40(11):28-41(in Chinese with English abstract).
    [42] LIANG Y C,CHEN Q,LIU Q,et al.Exogenous silicon (Si) increases antioxidant enzyme activity and reduces lipid peroxidation in roots of salt-stressed barley (Hordeum vulgare L.)[J].Journal of plant physiology,2003,160(10):1157-1164.
    [43] 解植彩,罗栋,张文晋,等.硅对盐胁迫下甘草叶片显微结构的影响[J].中药材,2016,39(12):2698-2701.XIE Z C,LUO D,ZHANG W J,et al.Effect of silicon on microstructure of glycyrrhiza uralensis leaves under salt stress[J].Journal of Chinese medicinal materials,2016,39(12):2698-2701(in Chinese).
    [44] 房江育,王贺,张福锁.硅对盐胁迫烟草悬浮细胞的影响[J].作物学报,2003,29(4):610-614.FANG J Y,WANG H,ZHANG F S.Effect of silicon on tobacco suspension cells under salt stress and related mechanism[J].Acta agronomica sinica,2003,29(4):610-614(in Chinese with English abstract).
    [45] 王建寰,解植彩,王强,等.不同程度盐胁迫下甘草叶片超微结构对外源硅的响应[J].时珍国医国药,2019,30(6):1464-1468.WANG J H,XIE Z C,WANG Q,et al.Response of ultrastructure in leaves of Glycyrrhiza uralensis under different levels of salinity[J].Lishizhen medicine and materia medica research,2019,30(6):1464-1468(in Chinese with English abstract).
    [46] 闫国超,樊小平,谭礼,等.盐胁迫下添加外源硅提高水稻抗氧化酶活性与钠钾平衡相关基因表达[J].植物营养与肥料学报,2020,26(11):1935-1943.YAN G C,FAN X P,TAN L,et al.Exogenous silicon effectively enhances salt stress resistance of rice by upregulating antioxidant enzymes activities and expression of genes related to Na/K homeostasis[J].Journal of plant nutrition and fertilizers,2020,26(11):1935-1943(in Chinese with English abstract).
    [47] ALI M,AFZAL S,PARVEEN A,et al.Silicon mediated improvement in the growth and ion homeostasis by decreasing Na+ uptake in maize (Zea mays L.) cultivars exposed to salinity stress[J].Plant physiology and biochemistry,2021,158:208-218.
    [48] XIE Z M,SONG R,SHAO H B,et al.Silicon improves maize photosynthesis in saline-alkaline soils[J/OL].The scientific world journal,2015,2015:245072[2022-05-09].http://dx.doi.org/10.1155/2015/245072.
    [49] AL-HUQAIL A A,ALQARAWI A A,HASHEM A,et al.Silicon supplementation modulates antioxidant system and osmolyte accumulation to balance salt stress in Acacia gerrardii Benth[J].Saudi journal of biological sciences,2019,26(7):1856-1864.
    [50] 王会方,於朝广,王涛,等.硅缓解植物重金属毒害机理的研究进展[J].云南农业大学学报(自然科学版),2016,31(3):528-535.WANG H F,YU C G,WANG T,et al.The research progresses on mitigative mechanism of silicon on heavy metal toxicity in plant[J].Journal of Yunnan Agricultural University (natural science edition),2016,31(3):528-535(in Chinese with English abstract).
    [51] 王怡璇,刘杰,唐云舒,等.硅对水稻镉转运的抑制效应研究[J].生态环境学报,2016,25(11):1822-1827.WANG Y X,LIU J,TANG Y S,et al.Inhibitory effect of silicon on cadmium accumulation and transportation in rice[J].Ecology and environmental sciences,2016,25(11):1822-1827(in Chinese with English abstract).
    [52] 彭华,田发祥,魏维,等.不同生育期施用硅肥对水稻吸收积累镉硅的影响[J].农业环境科学学报,2017,36(6):1027-1033.PENG H,TIAN F X,WEI W,et al.Effects of silicon fertilizer application on the cadmium and silicon content of rice at different growth stages[J].Journal of agro-environment science,2017,36(6):1027-1033(in Chinese with English abstract).
    [53] WANG S H,WANG F Y,GAO S C.Foliar application with nano-silicon alleviates Cd toxicity in rice seedlings[J].Environmental science and pollution research international,2015,22(4):2837-2845.
    [54] 张翠翠,常介田,高素玲,等.硅处理对镉锌胁迫下水稻产量及植株生理特性的影响[J].核农学报,2012,26(6):936-941.ZHANG C C,CHANG J T,GAO S L,et al.Effects of silicon on yield and physiological characteristics of rice plants under cadmium and zinc stress[J].Journal of nuclear agricultural sciences,2012,26(6):936-941(in Chinese with English abstract).
    [55] MA J F,TAMAI K,YAMAJI N,et al.A silicon transporter in rice[J].Nature,2006,440(7084):688-691.
    [56] MA J F,YAMAJI N,MITANI N,et al.An efflux transporter of silicon in rice[J].Nature,2007,448(7150):209-212.
    [57] 史高玲,周东美,余向阳,等.水稻和小麦累积镉和砷的机制与阻控对策[J].江苏农业学报,2021,37(5):1333-1343.SHI G L,ZHOU D M,YU X Y,et al.Mechanisms of cadmium and arsenic accumulation in rice and wheat and related mitigation strategies[J].Jiangsu journal of agricultural sciences,2021,37(5):1333-1343(in Chinese with English abstract).
    [58] 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/OL].BMC plant biology,2014,14:13[2022-05-09].https://doi.org/10.1186/1471-2229-14-13.
    [59] 佘恒志,聂蛟,李英双,等.施硅量对甜荞倒伏及产量的影响[J].中国农业科学,2018,51(14):2664-2674.SHE H Z,NIE J,LI Y S,et al.Effects of silicon application rate on common buckwheat lodging and yield[J].Scientia agricultura sinica,2018,51(14):2664-2674(in Chinese with English abstract).
    [60] 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.WANG H P,ZHANG Y F,YANG K J,et al.Regulating effects of different silicon fertilizer concentrations for foliar application on maize lodging resistance and yield components[J].Journal of maize sciences,2020,28(3):111-118(in Chinese with English abstract).
    [61] DORAIRAJ D,ISMAIL M R,SINNIAH U R,et al.Influence of silicon on growth,yield,and lodging resistance of MR219,a lowland rice of Malaysia[J].Journal of plant nutrition,2017,40(8):1111-1124.
    [62] 刘红芳,宋阿琳,范分良,等.高供氮水平下不同硅肥对水稻茎秆特征的影响[J].植物营养与肥料学报,2018,24(3):758-768.LIU H F,SONG A L,FAN F L,et al.Characteristics of rice stem in response to different silicon fertilizers under high nitrogen supply level[J].Journal of plant nutrition and fertilizers,2018,24(3):758-768(in Chinese with English abstract).
    [63] 吴晨阳.高温胁迫下外源硅对杂交水稻结实、生理影响及施用技术研究[D].荆州:长江大学,2013.WU C Y.Effects of exogenous silicon on seed fertility and heat-stress physiology of hybrid rice under heat stress and its application[D].Jingzhou:Yangtze University,2013(in Chinese with English abstract).
    [64] 吴晨阳,姚仪敏,邵平,等.外源硅减轻高温引起的杂交水稻结实降低[J].中国水稻科学,2014,28(1):71-77.WU C Y,YAO Y M,SHAO P,et al.Exogenous silicon alleviates spikelet fertility reduction of hybrid rice induced by high temperature under field conditions[J].Chinese journal of rice science,2014,28(1):71-77(in Chinese with English abstract).
    [65] 李文彬,王贺,张福锁.高温胁迫条件下硅对水稻花药开裂及授粉量的影响[J].作物学报,2005,31(1):134-136.LI W B,WANG H,ZHANG F S.Effects of silicon on anther dehiscence and pollen shedding in rice under high temperature stress[J].Acta agronomica sinica,2005,31(1):134-136(in Chinese with English abstract).
    [66] 陈海燕.外源硅对低温胁迫下苗期水稻生理生化特性的影响[D].哈尔滨:东北农业大学,2018.CHEN H Y.Effects of exogenous silicon on physiological and biochemical characteristics of rice under low temperature stress at seedling stage[D].Harbin:Northeast Agricultural University,2018(in Chinese with English abstract).
    网友评论
    网友评论
    分享到微博
    发 布
引用本文

苏素苗,杨春雷,饶雄飞,李小坤.硅对植物抗逆性影响的研究进展[J].华中农业大学学报,2022,41(6):160-168

复制
分享
文章指标
  • 点击次数:795
  • 下载次数: 3467
  • HTML阅读次数: 151
  • 引用次数: 0
历史
  • 收稿日期:2022-05-09
  • 在线发布日期: 2022-12-09
文章二维码

联系我们

电话: 027-87287437,027-87287364
邮政编码: 430070
E-mail:hnlkxb@mail.hzau.edu.cn
地址: 武汉市洪山区狮子山街1号

期刊订阅 Email Alert 国际标准刊号:ISSN 1000-2421 国外邮发代号:BM 3816 国内刊号:CN 42-1181/S 国内发行代号:38-120

华中农业大学学报(自然科学版) ® 2025 版权所有   技术支持:北京勤云科技发展有限公司