[1] Fan J C, Liu Y X, Zhu F H. Exploitation and cultivation of Trifolium fragiferum . Special Economic Animal and Plant, 2003, 6(3): 29. [2] Li Z, Peng Y, Su X Y. Physiological responses of white clover by different leaf types associated with anti-oxidative enzyme protection and osmotic adjustment under drought stress. Acta Prataculturae Sinica, 2013, 22(2): 257-263. [3] Wu N, Wang F, Tian Z G, et al . Effects of NaCl stress on seed germination and activities of protective enzymes in purple clover variants. Journal of Northwest A&F University (Nat. Sci. Ed.), 2013, 41(2): 117-122. [4] Zhu J K. Plant salt tolerance. Trends Plant Science, 2001, 6(2): 66-71. [5] Yu R G, Du X L, Chen C, et al . Effect of PEG stress on seed germination and seeding physiology of three Legumes. Agricultural Research in the Arid Areas, 2012, 30(5): 99-103. [6] Al-Karaki C N. Germination, sodium, and potassium concentrations of barley seeds as influenced by salinity. Journal of Plant Nutrition, 2001, 24: 511-522. [7] Banu M N, Hoque M A, Watanabe-Sugimoto M, et al . Proline and glycinebetaine induce antioxidant defense gene expression and suppress cell death in cultured tobacco cells under salt stress. Journal of Plant Physiology, 2009, 166: 146-156. [8] Munns R, Tester M. Mechanisms of salinity tolerance. Annual Review of Plant Biology, 2008, 59: 651-681. [9] Zhang L, Kang X H, Zhou S, et al . Surveys and integrated control of fungal diseases of gramineous forage grass in Sichuan Province. Journal of Anhui Agricultural Science, 2011, 39(29): 17899-17901. [10] Luo L Y, Shen Z N, Ding Y S, et al . A report of study about a sclcrotial blight in Trefoll . Grassland of China, 1996, 18(1): 64-66. [11] Lu Y M, Su C Q, Li H F. Effects of different salts stress on seed germination and seedling growth of Trifolium repens . Acta Prataculturae Sinica, 2013, 22(4): 123-129. [12] Tong Y W, Chen D F. Study on the cause and control of secondary saline soils in greenhouses. Acta Horticulturae Sinica, 1991, 18(2): 159-162. [13] Lu H P, Sun A H, Ma S H. Investigation on herbage disease and prevention and control of Peronospora aestivalis . Pratacultural Science, 1999, 16(6): 43-49. [14] Weinding R. Studies on a lethal principle effective in the parasitic action of Trichoderma lignorum on Rhizictonia solani and other soil fungi. Phytopathology, 1932, 22: 8372-8451. [15] Yin T, Xu B L, Liang Q L, et al . UV mutagenesis and screening for fungicide resistant strains of Trichoderma aureoviride T2. Acta Prataculturae Sinica, 2013, 22(2): 117-122. [16] Yang C L, Xi Y D, Liu B W, et al . Primary study on growth-promoting and biological control effects of Trichoderma harzianum T-h-30 on vegetables. Southwest China Journal of Agricultural Sciences, 2008, 21(6): 1603-1605. [17] Chen Z, Gu L J, Xu B L, et al . Effects of Trichoderma longibrachiatum on seed germination and physiological effects of six forage varieties. Acta Agrestia Sinica, 2013, 21(3): 564-570. [18] Liu J X, Wang R J, Wang X, et al . Effect of La(NO 3 ) 3 on seedling growth and physiological characteristics of ryegrass under NaCl stress. Chinese Journal of Eco-Agriculture, 2011, 19(2): 353-357. [19] Chen Y Q. Biochemistry Experiment Methods and Technology[M]. Beijing: Science Press, 2002: 197-199. [20] Yang Y F. The various methods for determining different proteins. The Sciences and Technology of Gelatin, 2007, 27(2): 98-100. [21] Qiu K, Si T R. Primary study on the method for determination of soluble protein in animal materials. Chinese Journal of Information on Traditional Chinese Medicine, 2007, 14(4): 49-50. [22] Wang Z Y, Jiang S P. Effect of endophytic fungi on defensive enzymes activity of tall fescue leaves. Journal of Anhui Agricultural Science, 2007, 35(2): 361-365. [23] Yang S Q, Ren G X, Yang G H, et al . Study on protective enzyme activity and drought resistance of 8 introduced American forage species. Agricultural Research in the Arid Areas, 2009, 27(6): 144-148. [24] Hu Q, Shao F F. Research advances on the growth-promoting effect of Trichoderma on plants. Journal of Anhui Agricultural Science, 2010, 38(10): 5077-5079. [25] Wang J F, Wu L M, Lu N H, et al . Effect of the fermentation filtrate of Trichoderma on seed vigor and seedling growth in cucumber. Shanxi Journal of Agricultural Sciences, 2008, (3): 37-38. [26] Wei L, Laing Z H, Luo H R. Effect of the fermentation filtrate of Trichoderma on seed vigor in rice. Seed, 2005, 24(11): 4-7. [27] Wu L M, Guo L J, Lu N H, et al . Effect of the metabolic product of Trichoderma on seed vigor and seedling growth of tomato. Journal of Anhui Agricultural Science, 2006, 34(21): 5482-5492. [28] Liu L M, Qian W X, Qu H Y. Effect of Trichoderma harzianum spore suspension on tomato seedling growth and anti-oxidant enzymes activity. Jiangsu Agricultural Sciences, 2007, (4): 96-98. [29] Chen B Q, Qu H Y, Liu L M. Effect of Trichoderma HT-03 on the chlorophyll and protective enzyme of tomato seedlings. Jiangsu Agricultural Sciences, 2007, (3): 112-114. [1] 樊锦春, 刘以信, 朱凤华. 草莓三叶草的利用与栽培. 特种经济动植物, 2003, 6(3): 29. [2] 李州, 彭燕, 苏星源. 不同叶型白三叶抗氧化保护及渗透调节生理对干旱胁迫的响应. 草业学报, 2013, 22(2): 257-263. [3] 吴楠, 王飞, 田治国, 等. NaCl胁迫对变异紫叶三叶草种子萌发及保护酶活性的影响. 西北农林科技大学学报(自然科学版), 2013, 41(2): 117-122. [5] 余如刚, 杜雪玲, 陈楚, 等. PEG 胁迫对三种豆科牧草种子萌发及幼苗生理影响. 干旱地区农业研究, 2012, 30(5): 99-103. [9] 张利, 康晓慧, 周俗, 等. 四川地区禾本科牧草真菌病害调查及综合防治研究. 安徽农业科学, 2011, 39(29): 17899-17901. [10] 罗禄怡, 沈仲宁, 丁应生, 等. 三叶草白绢病的研究. 中国草地, 1996, 18(1): 64-66. [11] 卢艳敏, 苏长青, 李会芬. 不同盐胁迫对白三叶种子萌发及幼苗生长的影响. 草业学报, 2013, 22(4): 123-129. [12] 童有为, 陈淡飞. 温室土壤次生盐渍化的形成和治理途径研究. 园艺学报, 1991, 18(2): 159-162. [13] 鲁鸿佩, 孙爱华, 马绍慧. 临夏州人工草地牧草病害调查及苜蓿霜霉病防治. 草业科学, 1999, 16(6): 43-49. [15] 尹婷, 徐秉良, 梁巧兰, 等. 耐药性木霉T 2 菌株的筛选、紫外诱变与药剂驯化. 草业学报, 2013, 22(2): 117-122. [16] 杨春林, 席亚东, 刘波微, 等. 哈茨木霉T-h-30对几种蔬菜的促生作用及病害防治初探. 西南农业学报, 2008, 21(6): 1603-1605. [17] 陈臻, 古丽君, 徐秉良, 等. 长枝木霉对6种牧草种子发芽与生理效应的影响. 草地学报, 2013, 21(3): 564-570. [18] 刘建新, 王瑞娟, 王鑫, 等. La(NO 3 ) 3 对盐胁迫下黑麦草幼苗生长及抗逆生理特性的影响. 中国生态农业学报, 2011, 19(2): 353-357. [19] 陈毓荃. 生物化学实验方法和技术[M]. 北京: 科学出版社, 2002: 197-199. [20] 杨玉芳. 蛋白质含量测定方法. 明胶科学与技术, 2007, 27(2): 98-100. [21] 邱葵, 司天润. 用考马斯亮蓝法测定动物药材中可溶性蛋白含量方法初探. 中国中医药杂志, 2007, 14(4): 49-50. [22] 王志勇, 江淑平. 内生真菌对高羊茅叶内防御酶活性的影响. 安徽农业科学, 2007, 35(2): 361-365. [23] 杨顺强, 任广鑫, 杨改河, 等. 8种美国引进禾本科牧草保护酶活性与抗旱性研究. 干旱地区农业研究, 2009, 27(6): 144-148. [24] 胡琼, 邵菲菲. 木霉对植物促生作用的研究进展. 安徽农业科学, 2010, 38(10): 5077-5079. [25] 王建锋, 吴利民, 陆宁海, 等. 木霉发酵产物对黄瓜种子活力及幼苗生长的影响. 陕西农业科学, 2008, (3): 37-38. [26] 魏林, 梁志怀, 罗赫荣. 哈茨木霉 T2-16发酵产物对水稻种子活力的影响. 种子, 2005, 24(11): 4-7. [27] 吴利民, 郭立季, 陆宁海, 等. 木霉对番茄种子活力及幼苗生长的影响. 安徽农业科学, 2006, 34(21): 5482-5492. [28] 刘连妹, 钱雯霞, 屈海泳. 哈茨木霉孢子悬浮液对番茄幼苗生长及抗氧化酶活性的影响. 江苏农业科学, 2007, (4): 96-98. [29] 陈伯清, 屈海泳, 刘连妹. 木霉HT-03对番茄幼苗叶绿素和保护酶的影响. 江苏农业科学, 2007, (3): 112-114. |