Crops ›› 2017, Vol. 33 ›› Issue (4): 143-149.doi: 10.16035/j.issn.1001-7283.2017.04.024

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Response to NaCl Stress and Salinity Threshold by Two Species of Elaeagnus from the Same Provenance

Zheng Xiuling,Lin Jing,Xin Jian,Li Lingxiao,Qi Yan,Chen Min   

  1. College of Life Sciences/Key Laboratory of Plant Stress Research of Shandong Province,Shandong Normal University,Jinan 250014,Shandong,China
  • Received:2017-04-04 Revised:2017-06-15 Online:2017-08-15 Published:2018-08-26
  • Contact: Min Chen

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Abstract:

Using Elaeagnus angustifolia L. and Elaeagnus moorcroftii Wall. Ex Schlecht collected from Minqin region, Gansu Province as materials, their response to NaCl stress and their salinity threshold were investigated. The seedlings were cultured in plastic pots filled with sand containing 0, 0.3%, 0.6%, 0.9%, 1.2%, and 1.5% NaCl Hoagland solution. After 28 days, the plant height, fresh weight, dry weight, water content,and contents of Na +and K + of different parts of the plants were measured. The results showed that the plant height, fresh weight and dry weight of two species declined with the increasing of NaCl concentration, and the E.angustifolia declined more than the E.moorcroftii under the same NaCl concentration. The water content of two species of Elaeagnus declined with increasing of NaCl concentration and the water content in shoots of two species of Elaeagnus had no significant difference under the same NaCl concentration, but the water content in roots of E.moorcroftii was significantly higher than that of E.angustifolia. The contents of Na + in shoots and roots of two species of Elaeagnus significantly increased with increasing NaCl concentration. Most of Na + was accumulated in roots, followed in mature leaves. The content of ions of E.moorcroftii was lower than that of E.angustifolia under the same NaCl concentration. It was concluded that the mechanism of salt tolerance of two species of Elaeagnus were the same. The salinity threshold of E.angustifolia was 0.96% (about 165mmol/L). The salinity threshold of E.moorcroftii was 1.30% (about 225mmol/L). The results showed the Elaeagnus had a better salt tolerance and the salt-tolerant mechanism was salt exclusion.

Key words: Elaeagnus angustifolia, Elaeagnus moorcroftii, NaCl stress, Salinity threshold

Fig.1

Effects of NaCl stress on the plant height of seedlings of two species of Elaeagnus Data is mean±SD, n=3; Different letters mean significant difference(P < 0.05).EA: Elaeagnus angustifolia L.; EM: Elaeagnus moorcroftii Wall. ex Schlecht.The same below"

Fig.2

Effects of NaCl stress on the fresh weight, dry weight and water content of shoots (A, C, E) and roots (B, D, F) of seedling of two species of Elaeagnus"

Fig.3

Effects of NaCl stress on the content of Na+ (A) , K+ (B) and Na+/K+ (C) of different parts of two species seedling of Elaeagnus"

Fig.4

Determination of the salinity threshold of Elaeagnus angustifolia L. seedling"

Fig.5

Determination of the salinity threshold of Elaeagnus moorcroftii Wall.ex Schlecht seedling"

[1] 王遵亲, 祝寿泉, 俞仁培 , 等. 中国盐渍土.北京: 北京科学出版社, 1993.
[2] 胡一, 韩霁昌, 张扬 . 盐碱地改良技术研究综述. 陕西农业科学, 2015,61(2):67-71.
doi: 10.3969/j.issn.0488-5368.2015.02.023
[3] 刘正祥, 张华新, 杨秀艳 , 等. 林木耐盐相关基因与基因工程研究进展. 世界林业研究, 2012,25(5):11-17.
[4] 董合忠 . 盐碱地棉花栽培学.北京: 北京科学出版社, 2010.
[5] 代莉慧 . 盐地碱蓬种子萌发过程中耐盐生理指标测定及基因表达分析. 包头:内蒙古科技大学, 2013.
[6] 刘正祥, 张华新, 杨秀艳 , 等. NaCl胁迫下沙枣幼苗生长和阳离子吸收、运输与分配特性. 生态学报, 2014,34(2):326-336.
doi: 10.5846/stxb201303270530
[7] 孙西红, 赵凌平, 王占彬 . Na2CO3胁迫对高洋茅种子萌发的影响. 草业科学, 2014,31(4):677-682.
[8] 王利军 . 不同种源沙枣对水分和盐分胁迫生长的响应. 北京:北京林业大学, 2010.
[9] Handique L, Parkash V . Nodular micro-endosymbiontic and endomycorrhizal colonization in Elaeagnus latifolia L.:A noble host of symbiotic actinorhizal and endomycorrhizal ssociation. International Journal of Science and Research, 2012.
[10] 王殿, 袁芳, 王宝山 , 等. 能源植物杂交狼尾草对NaCl胁迫的响应及其耐盐阈值. 植物生态学报, 2012,36(6):572-577.
doi: 10.3724/SP.J.1258.2012.00572
[11] 裴怀弟 . 盐胁迫对油葵种子萌发和幼苗生理生化特性的影响. 兰州:甘肃农业大学, 2008.
doi: 10.7666/d.y1333316
[12] 于玮玮, 阎国荣 . 沙枣的资源及研究现状. 天津农学院学报, 2009,16(2):46-48.
doi: 10.3969/j.issn.1008-5394.2009.02.014
[13] 王宝山, 赵可夫, 邹琦 . 作物耐盐机理研究进展及提高作物抗盐性的对策. 植物学通报, 1997,14(S):25-30.
[14] Ding M, Hou P, Shen X , et al. Salt-induced expression of genes related to Na +/K + and ROS homeostasis in leaves of salt-resistant and salt-sensitive poplar species . Plant Molecular Biology, 2010,73(3):251-269.
doi: 10.1007/s11103-010-9612-9
[15] 周琦, 圣倩倩, 祝遵凌 . 欧洲鹅耳栎幼苗对盐胁迫的生长及生理响应. 水土保持通报, 2015,35(3):88-100.
[16] 刘一明, 程凤枝, 王齐 , 等. 四种暖季型草坪植物的盐胁迫反应及其耐盐阈值. 草业学报, 2009,18(3):192-199.
doi: 10.11686/cyxb20090327
[17] 李瑞利 . 两种典型盐生植物耐盐机理及应用耐盐植物改良盐渍土研究. 天津:南开大学, 2010.
doi: 10.7666/d.y1849312
[18] 赵勐 . 不同盐类对盐生植物和非盐生植物的影响. 济南:山东师范大学, 2008.
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