6个紫花苜蓿品种的耐盐性研究

doi:10.7668/hbnxb.2008.01.029

摘要/Abstract

摘要： 研究了6种紫花苜蓿在不同浓度盐土中的发芽率、游离脯氨酸含量和鲜草产量的变化规律。结果表明:不同紫花苜蓿品种(或同一品种)在不同盐浓度下的发芽率、游离脯氨酸含量和鲜草产量存在较大差异;盐浓度在0.40%~0.60%间6个品种的发芽率迅速降低;大部分品种的游离脯氨酸含量在盐浓度0.20%~0.30%和0.50%~0.60%时出现双峰;盐浓度为0.20%时大多数品种的产量最高,当盐浓度大于0.30%时不同品种间产量的差异迅速增大。结论认为:中苜1号的耐盐性最强,新疆大叶、爱乐高和甘农3号次之,陇东和甘农1号的耐盐性较差;0.4%为大多数苜蓿品种的耐盐临界值;研究苜蓿耐盐性时应采用多个指标进行综合评价,指标不同选用的盐浓度亦不同。

关键词: 苜蓿, 耐盐性, 发芽率, 游离脯氨酸, 产量

Abstract: Salt tolerance of 6 alfalfa varieties was studied by measuring the germination rate, free proline content andyield under the treatments with the different salt stress. The results showed that the germination rate, free proline contentand fresh weight of the studied varieties were significantly different in the different salt concentrations;The germinationrate of 6varieties fell rapidly under the treatments with 0?4% - 0?6% NaCl solution, while for most of varieties two peakvalues of the free proline content could be observed in a salt concentration of 0?2%- 0?3% and a salt concentration of0?5% - 0?6% separately. In addition, fresh weight of most varieties was the highest under 0?2% salt stress, and the dif -ferences of fresh weight among 6 varieties increased quickly with an increasing of salt concentrations from 0?3% to0?7%. In conclusion, salt tolerance of Zhongmu No?1 was the best among the studied varieties, and that of Longdong andGannong No?1 were the worst; On the other hand, a salt concentrations of 0?4% could be the critical point of salt toler -ance for most of alfalfa varieties.Furthermore, the salt tolerance of alfalfa varieties should be evaluated by measuring mu- lt- i indicaes, and moreover, each of indicaes used should be measured in the appropriate salt stress.

Key words: Alfalfa, Salt tolerance, Germination rate, Proline content, Yield

中图分类号:

S332.1

桂枝, 高建明, 袁庆华. 6个紫花苜蓿品种的耐盐性研究[J]. 华北农学报, 2008, 23(1): 133-137. doi: 10.7668/hbnxb.2008.01.029.

GUI Zhi, GAO Jian-ming, YUAN Qing-hua. The Study on Salt Tolerance of 6 Alfalfa Varieties[J]. ACTA AGRICULTURAE BOREALI-SINICA, 2008, 23(1): 133-137. doi: 10.7668/hbnxb.2008.01.029.

http://www.hbnxb.net/CN/Y2008/V23/I1/133

参考文献

[1] 李小峰, 王静, 刘亚丽. 浅层地下咸水的有效利用是根治天津市土地盐渍化的有效途径[J]. 海河水利,2001(增):6-9.
[2] 赵可夫, 李法曾. 中国盐生植物[M]. 北京:科学出版社, 1999:2-3.
[3] 郑必昭. 山西省盐碱地改良利用探讨[J]. 土壤通报,2000, 31(3):102-103.
[4] 邢军武. 盐碱环境与盐碱农业[J]. 地球科学进展,2001, 16(2):257-259.
[5] 岳常彦, 郭金龙, 王洪水. 种植牧草改良盐碱地和油污地[J]. 山东畜牧兽医, 2001(6):49-50.
[6] 张少华, 张敦新, 张银会, 等. 论陇东紫花苜蓿的产业化
[J]. 草业科学, 2000, 17(2):19-22.
[7] 阎旭东, 翟玉柱, 朱志明, 等. 八个苜蓿品种的耐盐性分析[C] 刘小京, 刘孟雨. 盐生植物利用与区域农业可持续发展. 北京:气象出版社, 2002:275-277.
[8] ?A-l Khatib-M, Ncneilly T, Collins J C. Between and with inculture variability in salt tolerance in Lucerne[J]. GeneticResources and Crop Evaluation, 1994, 41:159-164.
[9] Ben Chanbane A. Salt tolerance variability ofwild alfalfa dur-ing germination[J]. Investigation Agraria, Production Protec-tion Vegetables, 1993, 8(1):29-35.
[10] 耿华珠. 苜蓿耐盐鉴定初报[J]. 中国草地, 1990(2):67-69.
[11] 程云辉, 周卫星, 王永霞, 等. 沿海滩涂盐渍化地上几种耐盐牧草的筛选试验[J]. 江苏农业科学, 2003(3):61-63.
[12] 萧冰. 五种豆科牧草耐盐临界值、极限值的研究
[J]. 草业科学, 1994, 11(3):70-72.
[13] 周丽霞. 盐分含量对不同秋眠性苜蓿出苗与生长的影响[J]. 草业科学, 1998, 15(2):55-59, 61.
[14] 韩清芳, 李崇巍, 贾志宽. 不同苜蓿品种种子萌发期耐盐性的研究[J]. 西北植物学报, 2003, 23(4):597-602.
[15] 刘春华. 六十九个母性品种耐盐性及其两个耐盐生理指标的研究[J]. 牧草与饲料, 1992(4):1-6.
[16] ?黄学林, 陈润改. 种子生理实验手册[M]. 北京:中国农业出版社, 1985:83-87.
[17] 张治安, 张美善, 蔚荣海. 植物生理学实验指导[M].北京:中国农业科学技术出版社, 2004:140-143.
[18] 王瑞, 桂枝, 陈艳勇. 五个紫花苜蓿品种的引种试验研究[J]. 天津农学院学报, 2005, 12(1):24-27.
[19] 全国牧草品种审定委员会. 中国牧草登记品种集
[M]. 北京:中国农业大学出版社, 1999:120-121.
[20] 王征宏, 杨?起, 张亚冰. 盐胁迫下紫花苜蓿种子的萌发特性[J]. 河南科技大学学报(自然科学版), 2006, 27(1):67-69.
[21] Folwers T J. Improving crop salt tolerance[J]. Journal of Ex-perimental Botany, 2004, 55(396):307-319.
[22] ?梁云娟, 李?燕, 多立安. 不同盐分胁迫对苜蓿种子萌发的影响[J]. 草业科学, 1998, 15(6):21-25.
[23] 马春平, 崔国文. 10 个紫花苜蓿品种耐盐性的比较研究[J]. 种子, 2006, 25(7):50-53.
[24] Mccoy T J. Tissue culture evaluation of NaCl tolerance inMedicago species[J]. Plant Cell Reports, 1987, 8(3):31-34.
[25] 沈振荣, 杨万仁, 徐秀梅. 不同盐分胁迫对苜蓿种子萌发的影响[J]. 种子, 2006, 25(4):34-37.
[26] ?Delauney A J, Verma D P S. Proline biosynthesis and os-moregulation in Plants[J]. Plant J, 1993, 4:215-223.
[27] ?McCue K F, Hanson A D. Drought and salt tolerance:to-wards understanding and application [J]. Trends Biotech,1990, 8:358-362.
[28] ?Kishor P B K, Hong Z, Miao G H, et al. Verexpression ofD1-pyrroling-5-carboxylate synthetase increase praline prod-ucts and confers osmotolerance in transgenic plants [J].Plant Physiol, 1995, 108:1387-1394.
[29] Igarash Y, Yoshiba Y, Sanada Y, et al. Characterization ofthe gene for D1-pyrroline-5-carboxylate synthetase and cor-relation between the expression of the gene and salt toler-ance in Oryza sativa L[J]. Plant Mol Biol, 1997, 33:857-865.
[30] Moftab A E, Michel B E. The effect of sodium chloride onsolute potential and proline accumulation in soybean leaves
[J]. Plant Physiol, 1987, 83:238-240.
[31] 王伟, 陈亮, 崔红. 盐度对铺地黍叶片中脯氨酸积累的影响[J]. 厦门大学学报(自然科学版), 2001, 40(1):116-121.
[32] Liu Jingping, Zhu Jingkang. Proline accumulation and saltstress induced gene expression in a salt hypersensitive mu-tant of Arabidopsis[J]. Plant Physiol, 1997, 114:591-596.

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