干旱区研究

Arid Zone Research >

2015 , Vol. 32 >Issue 2: 279 - 285

DOI: https://doi.org/10.13866/j.azr.2015.02.10

Plant Resources

Effects of NaCl Treatments on Growth and Ecophysiological Characteristics of Populus euphratica

  • LU Yan ,
  • LEI Jia-qiang ,
  • ZENG Fan-jiang ,
  • XU Li-shuai ,
  • PENG Shou-lan ,
  • LIU Guo-jun
Expand
  • Cele National Station of Observation & Research for Desert-Grassland Ecosystem in Xinjiang, Xinjiang Institute of Ecology and Geography, Chinese Academy of Sciences, Urumqi 830011, Xinjiang, China

Received date: 2013-07-08

  Revised date: 2013-07-17

  Online published: 2015-04-16

Fold

Abstract

A pot experiment was conducted to study the effects of different NaCl concentrations (0, 50, 100, 200 mmol·L-1 and 400 mmol·L-1) on the growth, leaf hydrogen peroxide (H2O2), malonaldehyde (MDA) content, superoxide dismutases (SOD), catalases (CAT), peroxidase (POD), ascorbate peroxidase (APX) enzymes activity, water potential, soluble sugar and proline contents of Populus euphratica. The results showed that plant heights were significantly inhibited under 200 mmol·L-1 NaCl treatment compared with control; Basal stem diameter were significantly inhibited under 400 mmol·L-1 NaCl treatment compared with control; Crown area, leaf dry mass and branch dry mass decreased remarkably under NaCl concentration ≥100 mmol·L-1 compared with control level; Root dry mass decreased with the increasing in NaCl concentrations. Root shoot ratio decreased markedly under NaCl concentration ≥200 mmol·L-1 compared with control. H2O2 and MDA content increased with the increasing in NaCl concentrations. SOD, POD, CAT and APX activities in leaves of P. euphratica increased compared with control lever at low NaCl concentrations (50 mmol·L-1), whereas SOD, POD and APX activities began to descend under NaCl concentration ≥100 mmol·L-1 compared with control level. Water potential in leaves of P. euphratica reduced with the increasing in NaCl concentrations. Being treated for 90 d, soluble sugar decreased with the increasing in NaCl concentrations. Proline content in leaves of P. euphratica first increased and then decreased compare with control level.

Key words: Populus euphratica; salinity stress; MDA content; antioxidative enzyme system; osmotic regulation

Cite this article

LU Yan , LEI Jia-qiang , ZENG Fan-jiang , XU Li-shuai , PENG Shou-lan , LIU Guo-jun . Effects of NaCl Treatments on Growth and Ecophysiological Characteristics of Populus euphratica[J]. Arid Zone Research, 2015 , 32(2) : 279 -285 . DOI: 10.13866/j.azr.2015.02.10

References

〔1〕 杨劲松.中国盐渍土研究的发展历程与展望〔J〕.土壤学报,2008,45(5):837-845.〔Yang Jingsong.Development and prospect of the research on salt-affected soils in China〔J〕.Acta Pedologica Sinica,2008,45(5):837-845.〕
〔2〕 潘晓玲,张远东,初雨,等.塔里木河流域荒漠河岸林群落的多元分析与环境解析〔J〕.西北植物学报,2001,21(2):247-251.〔Pan Xiaoling,Zhang Yuandong,Chu Yu,et al.Multivariate analysis and environmental interpretation of desert bank forest plant communities in Tarim basin,Xinjiang〔J〕.Acta Botanica Boreali-Occidentalia Sinica,2001,21(2):247-251.〕
〔3〕 孙雪新,唐向阳.胡杨天然群体过氧化物酶同工酶遗传变异初探〔J〕.中国沙漠,1991,11(1):30-35.〔Sun Xuexin,Kang Xiangyang.A study on genetic variation of peroxidase isoenzyme in natural population of Populus divisifolied Schenk〔J〕.Journal of Desert Research,1991,11(1):30-35.〕
〔4〕 Wang S J.The statue,conservation and recovery of global resources of Populus euphratica〔J〕.World Forest,1996,6:37-43.
〔5〕 李菊艳,赵成义,闫英宇,等.盐分对胡杨幼苗生长及光合特性的影响〔J〕.中国沙漠,2010,30(1):80-86.〔Li Juyan,Zhao Chengyi,Yan Yingyu,et al.Effects of salt on the growth and photosynthetic characteristics of Populus euphratica seedlings〔J〕.Journal of Desert Research,2010,30(1):80-86.〕
〔6〕 何新林,陈书飞,王振华,等.咸水灌溉对沙土土壤盐分和胡杨生理生长的影响〔J〕.生态学报,2012,32(11):3 449-3 459.〔He Xinling,Chen Shufei,Wang Zhenghua,et al.Effect of saline water irrigation on soil salt and the physiology and growth of Populus euphratica Oliv.〔J〕.Acta Ecologica Sinica,2012,32(11):3 449-3 459.〕
〔7〕 贾丽娜,吴斌,丁国栋,等.宁夏盐池县3种常见沙生植物群落特征及阻沙能力〔J〕.东北林业大学学报,2009,37(11):56-63.〔Jia Lina,Wu Bin,Ding Guodong,et al.Community characters and sand trapping capability of three common species of psammophyte in Yanchi county,Ningxia〔J〕.Journal of Northeast Forest University,2009,37(11):56-63.〕
〔8〕 Sergiev I,Alexieva V,Karanov E.Effect of spermine,atrazine and combination between them on some endogenous protective systems and stress markers in plants〔J〕.Comptes Rendus de I’ Académie Bulgare Sciences,1997,51:121-124.
〔9〕 Kosugi H,Kikugawa K.Thiobarbituric acid reaction of aldehyes and oxidized lipids in glacial acetic acid〔J〕.Lipids,1985,20:915-920.
〔10〕 Beauchamp C,Fridovich I.Superoxide dismutase:Improved assays and an assay applicable to acrylamide gels〔J〕.Analytical Biochemistry,1971,44:276-287.
〔11〕 Chance B,Maehly A C.Assay of catalases and peroxidases〔C〕 // Colowick S P,Kaplan N O.Methods in Enzymology.New York:Academic Press,1955:764-775.
〔12〕 Aebi H.Catalase in vitro〔J〕.Methods in Enzymology,1984,105:121-126.
〔13〕 Nakano Y,Asada K.Hydrogen peroxide is scavenged by ascorbate-specific peroxidase in spinach chloroplasts〔J〕.Plant and Cell Physiology,1981,22:867-880.
〔14〕 张殿忠,汪沛洪,赵会贤.测定小麦叶片游离脯氨酸含量的方法〔J〕.植物生理学通讯,1990(4):62-65.〔Zhang Dianzhong,Wang Peihong,Zhao Huixian.Determination of the content of free praline in wheat leaves〔J〕.Plant Physiology Communications,1990(4):62-65.〕
〔15〕 李合生.植物生理生化实验原理和技术〔M〕.北京:高等教育出版社,2003.〔Li Hesheng.Principles and Techniques of Plant Physiology and Biochemistry Experiments〔M〕.Beijing:Higher Education Press,2003.〕
〔16〕 Levitt J.Response of Plants to Environmental Stress〔M〕.2nd ed.New York:Academic Press,1980.
〔17〕 陆海鹰,张元明.白梭梭幼苗生长和生物量分配对不同盐分类型和浓度的响应〔J〕.干旱区研究,2012,29(2):194-202.〔Lu Haiying,Zhang Yuanming.Response of growth and biomass allocation of Haloxylon persicum seedlings to different salt treatments〔J〕.Arid Zone Research,2012,29(2):194-202.〕
〔18〕 赵可夫.植物抗盐生理〔M〕.北京:中国科学技术出版社,1993.〔Zhao Kefu.Plant Salt Resistance Physiology〔M〕.Beijing:Press of University of Science and Technology of China,1993.〕
〔19〕 郑春芳,冀德伟,刘伟成,等.NaCl胁迫下高纬度移植桐花树幼苗的生理生态效应〔J〕.应用生态学报,2011,22(9):2 279-2 284.〔Zheng Chunfang,Ji Dewei,Liu Weicheng,et al.Eco-physiological responses of high-latitude transplanted Aegiceras corniculatum seedlings to NaCl stress〔J〕.Chinese Journal of Applied Ecology,2011,22(9):2 279-2 284.〕
〔20〕 武香,倪建伟,张华新,等.盐胁迫对3种白刺渗透调节物质的影响〔J〕.东北林业大学学报,2012,40(1):44-47.〔Wu Xiang,Ni Jianwei,Zhang Huaxin,et al.Effects of salt stress on osmotic adjustment substances in three species of Nitraria〔J〕.Journal of Northeast Forest University,2012,40(1):44-47.〕
〔21〕 Tarchoune I,Sgherri C,Izzo R,et al.Changes in the antioxidative systems of Ocimum basilicum L.(cv.Fine) under differet sodium salts〔J〕.Acta Physiologiae Plantarum,2012,34:1 873-1 881.
〔22〕 Sekmen A H,Turkan I,Tanyolac Z O,et al.Different antioxidant defense responses to salt stress during germination and vegetative stages of endemic halophyte Gypsophila oblanceolata Bark〔J〕.Environmental and Experimental Botany,2012,77:63-76.
〔23〕 Tommasino E,Griffa S,Grunberg K,et al.Malondialdehyde content as a potential biochemical indicator of tolerance Cenchrus ciliaris L.genotypes under heat stress treatment〔J〕.Grass and Forage Science,2012,67:456-459.
〔24〕 Castelli S L,Grunberg K,Muoz N,et al.Oxidative damage and antioxidant defenses as potential indicators of salt-tolerant Cenchrus ciliaris L.genotypes〔J〕.Flora,2010,205:622-626.
〔25〕 Yang Y L,Shi R X,Wei X L,et al.Effect of salinity on antioxidant enzymes in calli of the halophyte Nitraria tangutorum Bobr〔J〕.Plant Cell Tissue and Organ Culture,2010,102:387-395.
〔26〕 Hu L X,Li H Y,Pang H C,et al.Responses of antioxidant gene,protein and enzymes to salinity stress in two genotypes of perennial ryegrass (Lolium perenne) differing in salt tolerance〔J〕.Journal of Plant Physiology,2012,169:146-156.
〔27〕 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,2003,160:1 157-1 164.
〔28〕 庄伟伟,李进,曹满航,等.盐、旱及其交叉胁迫对银沙槐幼苗保护酶活性的影响〔J〕.干旱区研究,2010,27(5):760-765.〔Zhuang Weiwei,Liu Jin,Cao Manhang,et al.Effects of salinity,drought and salinity-drought mixed stresses on protective enzyme activity in leaves of Ammodendron argenteum(Pall.) Kuntze seedlings〔J〕.Arid Zone Research,2010,27(5):760-765.〕
〔29〕 Blokhina O,Virolainen E,Fagerstedt K V.Antioxidants,oxidative damage and oxygen deprivation stress:A review〔J〕.Annals of Botany,2003,91:179-194.
〔30〕 Dehghan G,Amjad L,Nosrati H.Responses of Alfalfa leaves and roots under different salinity levels〔J〕.Acta Biologica Hungarica,2013,64:207-217.〕
〔31〕 Mishra P,Bhoomika K,Dubey R S.Differential responses of antioxidative defense system to prolonged salinity stress in salt-tolerant and salt-sensitive Indica rice (Oryza sativa L.) seedlings〔J〕.Protoplasma,2013,250:3-19.
〔32〕 Seckin B,Turkan I,Sekmen A H,et al.The role of antioxidant defense systems at differential salt tolerance of Hordeum marinum Huds.(sea barleygrass) and Hordeum vulgare L.(cultivated barley)〔J〕.Environmental and Experimental Botany,2010,69:76-85.
〔33〕 Arndt S K,Arampatsis C,Foetzki A,et al.Contrasting patterns of leaf solute accumulation and salt adaptation in four phreatophytic desert plants in a hyperarid desert with saline groundwater〔J〕.Journal of Arid Environment,2004,59:259-270.
〔34〕 曾杰,曾凡江,郭海峰,等.策勒绿洲外围2种植物幼苗对NaCl的生理响应〔J〕.干旱区研究,2008,25(5):673-678.〔Zeng Jie,Zeng Fanjiang,Guo Haifeng,et al.Physiological response of the seedlings of two plant species to NaCl in a periphery region of the Qira oasis〔J〕.Arid Zone Research,2008,25(5):673-678.〕
〔35〕 Mii D,iler B,ivkovi J N,et al.Contribution of inorganic cations and organic compounds to osmotic adjustment in root cultures of two Centaurium species differing in tolerance to salt stress〔J〕.Plant Cell Tissue and Organ Culture,2012,108:389-400.
〔36〕 王新英,史军辉,刘茂秀,等.四翅滨藜主要渗透调节物质对NaCl胁迫积累的响应〔J〕.干旱区研究,2012,29(4):621-627.〔Wang Xinying,Shi Junhui,Liu Maoxiu,et al.Response of main osmotic adjustment substances to NaCl stress accumulation in Atriplex canescens〔J〕.Arid Zone Research,2012,29(4):621-627.〕
〔37〕 Metha S K,Gaur J P.Heavy-metal-induced proline accumulation and its role in ameliorating metal toxicity in Chlorella vulgaris〔J〕.New Phytologist,1999,143:253-257.
〔38〕 Matysik J,Bhalu B,Mohanty P.Molecular mechanism of quenching of reactive oxygen species by proline under stress in plants〔J〕.Current Science,2002,82:525-532.
〔39〕 Kskerolu S,Tuna A L.The investigation on accumulation levels of proline and stress parameters of the maize (Zea mays L.) plants under salt and water stress〔J〕.Acta Physiologiae Plantarum,2010,32:541-549.
〔40〕 Niknam V,Meratan A A,Ghaffari S M.The effect of salt stress on lipid peroxidation and antioxidative enzymes in callus of two Acanthophyllum species〔J〕.In Vitro Cellular & Development Biology-Plant,2011,47:297-308.
〔41〕 李合生.现代植物生理学〔M〕.北京:高等教育出版社,2001:630-436.〔Li Hesheng.Modern Plant Physiology〔M〕.Beijing:Higher Education Press,2001:630-436.〕
Options
Outlines

/