盐胁迫对黄花苜蓿发芽及幼苗生长的影响

摘要/Abstract

摘要： 为了选择适宜松嫩地区轻度盐碱化草地种植的牧草,解决饲草蛋白质含量低的问题,发展耐盐碱的优质豆科牧草是关键。种子发芽和幼苗生长是植物生活史最关键的阶段,决定着植株的后续生长。本实验研究了盐对黄花苜蓿种子发芽和幼苗生长的影响,与紫花苜蓿CW₄₀₀和紫花苜蓿公农2号对比,在0,20,40,60,80,100,120,140,160,180,200mmol/L浓度NaCl胁迫条件下,研究了3种材料的种子发芽率、发芽指数(Gi),胚根、胚轴生长状况及脯氨酸含量。结果表明,随着盐浓度的升高3种苜蓿的发芽率、发芽指数(Gi)都受到不同程度的抑制,盐浓度越高,抑制作用越明显。与紫花苜蓿CW₄₀₀及公农2号相比,黄花苜蓿在发芽百分数和发芽指数上显著降低,但是胚根生长不受盐浓度的影响,各处理与对照间没有显著差异。复萌实验结果显示3种苜蓿种子在盐溶液中能够保持活力。紫花苜蓿CW₄₀₀,黄花苜蓿均在60mmol/LNaCl中达到最大总发芽率100%,但只有黄花苜蓿在所有盐浓度下总发芽率全部达到90%以上,各盐处理间复萌率无显著差异,复萌率最高。脯氨酸作为渗透调节剂在幼苗中能够迅速积累,黄花苜蓿、紫花苜蓿CW₄₀₀和紫花苜蓿公农2号在100mmol/LNaCl中的脯氨酸量分别是对照的3.1,2.3和1.4倍。黄花苜蓿耐盐性较紫花苜蓿CW₄₀₀和紫花苜蓿公农2号强,更适合在松嫩草地上种植。

Abstract: Developing high quality legumes with saline and alkaline tolerance is a key to improving the low protein content of forage and to select forage adapted to the low salinization and alkalinization habitats of the Songnen region. Seed germination and seedling growth are crucial stages in the life history of a plant and determine its subsequent growth potential. The effects of salt stress on germination and seedling growth of Medicago falcata, were compared in two cultivars of M. sativa (CW₄₀₀ and Gongnong No.2). Seeds were germinated under conditions of 0, 20, 40, 60, 80, 100, 120, 140, 160, 180, and 200 mmol/L NaCl and percentage seed germination, germination index, seedling growth, and proline, Na⁺, and K⁺ contents of three materials were measured. Germination percentage and index of all three materials were suppressed to different extents as salt concentration increased with the suppression more obvious in higher salt concentrations. By comparison with two cultivars of CW₄₀₀ and Gongnong No.2, M. falcata had significantly lower germination percentage and index, but growth of the radicle was not affected by the salt solution and there were no significant differences between the treatments and the control. The recovery test showed that seeds of the three materials could remain viabile in salt solutions. The total germination of M. falcata and CW₄₀₀ reached 100% in 60 mmol/L NaCl, but only the total germination of M. falcata reached above 90% in all the solutions and it had the highest recovery percentage although there were no significant differences between treatments. As an osmotic regulator, proline quickly accumulated in M. falcata seedlings. The proline content of M. falcate, M. sativa CW₄₀₀ and Gongnong No.2, in 100 mmol/L were 3.1, 2.3 and 1.4 times respectively that of the control. In conclusion salt tolerance of M. falcata was stronger than that of M. sativa, and M. falcate and it is thus more applicable for growth in Songnen grasslands.

中图分类号:

秦峰梅,张红香,武祎,周道玮. 盐胁迫对黄花苜蓿发芽及幼苗生长的影响[J]. 草业学报, 2010, 19(4): 71-78.

QIN Feng-mei, ZHANG Hong-xiang, WU Yi, ZHOU Dao-wei. Effects of salt stress on germination and seedling growth of Medicago falcata[J]. Acta Prataculturae Sinica, 2010, 19(4): 71-78.

参考文献

[1] 李建东, 郑慧莹. 松嫩平原盐碱化草地改良治理的研究[J]. 东北师范大学学报(自然科学版), 1995, 1(1): 110-114.
[2] 岳中辉, 王博文, 王洪峰, 等. 松嫩平原西部盐碱草地土壤多酚氧化酶活性及其与主要肥力因子的关系[J]. 草业学报, 2009, 18(4): 251-255.
[3] 祝廷成. 羊草生物生态学[M]. 长春: 吉林科技出版社, 2004.
[4] 周道玮. 草地放牧的牛羊需要吃饱也需要吃好[J]. 草食动物, 2004, 106(9): 16-20.
[5] 田丰, 史兴山, 姜旭德, 等. 松嫩草地的盐渍化是改良的主攻方向[J]. 黑龙江畜牧兽医, 1998, 8: 11-12.
[6] 李取生, 宋玉祥, 赵春生. 吉林西部草地盐碱化治理对策研究[J]. 农业系统科学与综合研究, 2001, 17(4): 304-309.
[7] 杨青川, 孙彦, 苏加楷. 紫花苜蓿耐盐育种及耐盐遗传基础的研究进展[J]. 中国草地, 2001, 23: 59-62.
[8] 陈水红, 杨厚安, 张剑云, 等. NaCl胁迫对紫花苜蓿种子萌发及幼苗生长的影响[J]. 塔里木大学学报, 2009, 21(1): 23-26.
[9] 岳秀泉, 周道玮.黄花苜蓿的优良特性与开发利用[J]. 吉林畜牧兽医, 2004, (8): 26-28.
[10] 王俊杰, 云锦凤, 吕世杰. 苜蓿种质的优良特性与利用价值[J]. 内蒙古农业大学学报, 2009, 29(1): 215-219.
[11] 王榕楷, 丁小球, 胡玉佳. 三种草坪草的耐寒性及其与超氧化物歧化酶作用关系初步研究[J]. 中国草地, 2001, 23(1): 46-50.
[12] Alkhatib M, Ncneilly T, Collins J C. The potential of selection and breeding for improved salt tolerance in lucerne[J]. Ephytica, 1993, 65: 43-51.
[13] Song J, Feng G, Tian C Y, et al. Strategies for adaptation of suaeda physophora, haloxylon ammodendron and haloxylon persicum to a saline environment during seed germination Stage[J]. Annals of Botany, 2005, 96: 399-405.
[14] 沈禹颖, 王锁民, 陈亚明. 盐胁迫对牧草种子萌发及其恢复的影响[J]. 草业学报, 1999, 8(3): 54-60.
[15] 卢纹岱. SPSS for Windows 统计分析(第二版)[M]. 北京: 电子工业出版社, 2002: 9, 150-161, 181-184.
[16] Bajji M, Kinet J M, Lutts S. Osmotic and ionic effects of NaCl on germination, early seedling growth, and ion content of Atriplex halimus (Chenopodiaceae)[J]. Canadian Journal of Botany, 2002, 80: 297-304.
[17] Pujol J A, Calvo J F, Ramirez D L. Recovery of germination from different osmotic conditions by four halophytes from Southeastern Spain[J]. Annals of Botany, 2000, 85: 279-286.
[18] Khan M A, Ungar I A. Seed polymorphism and germination responses to salinity stress in Atriplex triangularis Willd[J]. Botanical Gazette, 1984, 145: 487-494.
[19] Khan M A, Weber D J. Factors influencing seed germination in Salicornia pacifica var. utahensis[J]. American Journal of Botany, 1986, 73: 1163-1167.
[20] Khan M A, Ungar I A. Influence of salinity and temperature on the germination of Haloxylon recurvum Bunge ex. Boiss[J]. Annals of Botany, 1996, 78: 547-551.
[21] Khan M A, Bilquees Gul, Weber D J. Germination responses of Salicornia rubra to temperature and salinity[J]. Journal of Arid Environments, 2000, 45: 207-214.
[22] Ungar I A. Halophyte seed germination[J]. Botanical Review, 1978, 44: 233-264.
[23] 李海燕, 丁雪梅, 周禅. 盐胁迫对三种盐生禾草种子萌发及其胚生长的影响[J]. 草地学报, 2004, 12(1): 45-50.
[24] 赵可夫. 中国盐生植物资源[M]. 北京: 科学出版社, 2001: 35-37.
[25] 陈翠霞, 于元杰, 王洪刚, 等. 棉花耐盐突变体的RAPD分析及抗盐生理研究[J]. 作物学报, 1999, 25(5): 643-646.
[26] 孙金月, 赵玉田, 常汝镇, 等. 小麦细胞壁糖蛋白的耐盐性保护作用于机制研究[J]. 中国农业科学, 1997, 30(4): 9-15.
[27] 黄健, 唐学玺, 付萌. 盐胁迫海滨香豌豆切片三种物质含量的影响[J]. 青岛海洋大学学报, 1997, 27(4): 209-214.
[28] 张永峰, 殷波. 混合盐碱胁迫对苗期紫花苜蓿抗氧化酶活性及丙二醛含量的影响[J]. 草业学报, 2009, 18(1): 46-50.
[29] 苏桐, 龙瑞军, 魏小红, 等. 外源NO对NaCl胁迫下燕麦幼苗氧化损伤的保护作用[J]. 草业学报, 2008, 17(5): 48-53.