杨树烂皮病(Cytospora chrysosperma)微生态保健技术的研究
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摘要
该论文采用菌物学及植物病理学的研究方法,对杨树烂皮病的微生态保健技术进行以下研究。
选用3个木霉菌株(Trichoderma viride 1,Trichoderma viride 2,Trichoderma
harzianum)与1个毛壳菌菌株(Chaetomium sp.)对杨树烂皮病菌(Cytospora
chrysosperma)进行拮抗培养,结果表明,Trichoderma viride 1对杨树烂皮病菌菌丝生长抑制效果最好,拮抗培养74h,其相对抑制效果达到11.49。
毒蘑菇菌株的培养特性及生物学特性的研究结果表明:(1)白霜杯伞(Clitocybe dealbata)、绒白乳菇(Lactarius vellereus)、厚环鹅膏(Amanita
pachyolea)、珊瑚菌(Ramaria ephemeroderma)、冠状环柄菇(Lepiota cristata)、鳞柄白鹅膏(Amanita virosa)6菌株菌丝生长的最适温度为25℃,细鳞环柄菇(Lepilta clypelolaria)和鹅膏菌(Amanita sp.)2菌株菌丝生长的最适温度为20℃。(2)各菌株生长最适碳源,除珊瑚菌为麦芽糖,冠状环柄菇为木糖外,其它6菌株均为葡萄糖。(3)除白霜杯伞在无氮条件下生长最好外,其他7菌株生长最佳氮源均为蛋白胨。(4)各菌株生长最适pH值:鹅膏菌、厚环鹅膏、细鳞环柄菇、鳞柄白鹅膏、珊瑚菌为6.0,绒白乳菇和冠状环柄菇为7.0,白霜杯伞为7.5,均属于喜稍偏碱性环境的菌株。
毒蘑菇菌株与杨树烂皮病菌的拮抗培养结果表明:鳞柄白鹅膏、白霜杯伞、珊瑚菌、细鳞环柄菇4菌株对病原菌的菌丝生长都表现出明显的抑制作用。毒蘑菇毒素粗提液对杨树烂皮病菌菌丝生长和孢子萌发抑制作用结果表明:鳞柄白鹅膏、白霜杯伞、白霜杯伞3菌株的毒素提取液对杨烂皮病菌不论是菌丝生长还是孢子萌发,都有明显的抑制作用;生长速率法抑菌率(0.5%浓度/1%浓度)分别为:17.3%/68.27%,20.4%/49.73%、16%/43.07%,与对照相比都达到显著水平;抑菌圈直径分别为:2.50cm、1.78cm、2.20cm也均与对照有显著差异;悬滴法分生孢子萌发抑制率分别为:97.50%、95.56%、96.00%。
The microecological health techniques on popular canker (Cytospora chrysospermd) was researched by the ways of mycology and pathology.
Inhibiting effects of 3 Trichoderma strains (Trichoderma viridel, Trichoderma viridel, Trichoderma hazerium) and Chaetomium sp. on Cytospora chrysosperma were studied. The results showed that the strain Trichoderma viridel has obvious inhibited growth on Cytospora chrysosperma, the relative inhibiting effect is 11.49 for 74h antagonistic culture.
The results of culture characteristic and biological characteristic of toxic mushroom strains showed: (1) The optimum growth temperature of Clitocybe dealbata, Lactarius vellereus, Amanita pachycolea, Ramaria ephemeroderma, Lepiota cristata and Amanita virosa is 25C; that of Lepiota clypelolaria and Amanita sp. is 20C. (2) The optimum carbon source of Ramaria ephemeroderma is maltose; that of Lepiota cristata is xylose, that of other strains is Glucose. (3) Except Clitocybe dealbata growing best on no-nitrogen source, the optimum nitrogen source of other strains is peptone. (4) The optimum growth pH of Amanita sp., Amanita pachycolea, Lepiota clypelolaria, Amanita virosa and Ramaria ephemeroderma is 6.0; that of Lactarius vellereus and Lepiota cristata is 7.0; that of Clitocybe dealbata is 7.5.
The results of inhibiting effects of 9 toxic mushroom strains on Cytospora chrysosperma showed that the strains Amanita virosa, Ramaria ephemeroderma, Lepiota clypelolaria and Clitocybe dealbata have obviously inhibited growth on Cytospora chrysosperma. The toxin extracts of strains Amanita virosa, Clitocybe dealbata and Ramaria ephemeroderma showed significantly inhibiting effects on either mycelia growth or spores germination of Cytospora chrysosperma. Inhibiting effect (concentration is 0.5%/1%) on mycelia growth is respectively 17.3%/68.27%, 20.4%/49.73%, 16%/43.07%; diameters of inhibitory zone are 2.50cm, 1.78cm, 2.20cm; the inhibiting rates of spores germination respectively are 97.50%, 95.56%, 96.00%.
选用3个木霉菌株(Trichoderma viride 1,Trichoderma viride 2,Trichoderma
harzianum)与1个毛壳菌菌株(Chaetomium sp.)对杨树烂皮病菌(Cytospora
chrysosperma)进行拮抗培养,结果表明,Trichoderma viride 1对杨树烂皮病菌菌丝生长抑制效果最好,拮抗培养74h,其相对抑制效果达到11.49。
毒蘑菇菌株的培养特性及生物学特性的研究结果表明:(1)白霜杯伞(Clitocybe dealbata)、绒白乳菇(Lactarius vellereus)、厚环鹅膏(Amanita
pachyolea)、珊瑚菌(Ramaria ephemeroderma)、冠状环柄菇(Lepiota cristata)、鳞柄白鹅膏(Amanita virosa)6菌株菌丝生长的最适温度为25℃,细鳞环柄菇(Lepilta clypelolaria)和鹅膏菌(Amanita sp.)2菌株菌丝生长的最适温度为20℃。(2)各菌株生长最适碳源,除珊瑚菌为麦芽糖,冠状环柄菇为木糖外,其它6菌株均为葡萄糖。(3)除白霜杯伞在无氮条件下生长最好外,其他7菌株生长最佳氮源均为蛋白胨。(4)各菌株生长最适pH值:鹅膏菌、厚环鹅膏、细鳞环柄菇、鳞柄白鹅膏、珊瑚菌为6.0,绒白乳菇和冠状环柄菇为7.0,白霜杯伞为7.5,均属于喜稍偏碱性环境的菌株。
毒蘑菇菌株与杨树烂皮病菌的拮抗培养结果表明:鳞柄白鹅膏、白霜杯伞、珊瑚菌、细鳞环柄菇4菌株对病原菌的菌丝生长都表现出明显的抑制作用。毒蘑菇毒素粗提液对杨树烂皮病菌菌丝生长和孢子萌发抑制作用结果表明:鳞柄白鹅膏、白霜杯伞、白霜杯伞3菌株的毒素提取液对杨烂皮病菌不论是菌丝生长还是孢子萌发,都有明显的抑制作用;生长速率法抑菌率(0.5%浓度/1%浓度)分别为:17.3%/68.27%,20.4%/49.73%、16%/43.07%,与对照相比都达到显著水平;抑菌圈直径分别为:2.50cm、1.78cm、2.20cm也均与对照有显著差异;悬滴法分生孢子萌发抑制率分别为:97.50%、95.56%、96.00%。
The microecological health techniques on popular canker (Cytospora chrysospermd) was researched by the ways of mycology and pathology.
Inhibiting effects of 3 Trichoderma strains (Trichoderma viridel, Trichoderma viridel, Trichoderma hazerium) and Chaetomium sp. on Cytospora chrysosperma were studied. The results showed that the strain Trichoderma viridel has obvious inhibited growth on Cytospora chrysosperma, the relative inhibiting effect is 11.49 for 74h antagonistic culture.
The results of culture characteristic and biological characteristic of toxic mushroom strains showed: (1) The optimum growth temperature of Clitocybe dealbata, Lactarius vellereus, Amanita pachycolea, Ramaria ephemeroderma, Lepiota cristata and Amanita virosa is 25C; that of Lepiota clypelolaria and Amanita sp. is 20C. (2) The optimum carbon source of Ramaria ephemeroderma is maltose; that of Lepiota cristata is xylose, that of other strains is Glucose. (3) Except Clitocybe dealbata growing best on no-nitrogen source, the optimum nitrogen source of other strains is peptone. (4) The optimum growth pH of Amanita sp., Amanita pachycolea, Lepiota clypelolaria, Amanita virosa and Ramaria ephemeroderma is 6.0; that of Lactarius vellereus and Lepiota cristata is 7.0; that of Clitocybe dealbata is 7.5.
The results of inhibiting effects of 9 toxic mushroom strains on Cytospora chrysosperma showed that the strains Amanita virosa, Ramaria ephemeroderma, Lepiota clypelolaria and Clitocybe dealbata have obviously inhibited growth on Cytospora chrysosperma. The toxin extracts of strains Amanita virosa, Clitocybe dealbata and Ramaria ephemeroderma showed significantly inhibiting effects on either mycelia growth or spores germination of Cytospora chrysosperma. Inhibiting effect (concentration is 0.5%/1%) on mycelia growth is respectively 17.3%/68.27%, 20.4%/49.73%, 16%/43.07%; diameters of inhibitory zone are 2.50cm, 1.78cm, 2.20cm; the inhibiting rates of spores germination respectively are 97.50%, 95.56%, 96.00%.
引文
[1] 魏侠,李万海等.杨树烂皮病优化管理技术的研究[J].防护林科技,2000,3(1):23-25
[2] 许成启,赵岭.黑龙江省西部平原缓丘农区杨树病害种类及主要病害防治[J].防护林科技,2000,9(3):38-41
[3] 涡阳县,刘芳.杨树主要病害及防治.安徽林业,2003,1:18
[4] 周仲铭.林木病理学[M].北京:中国林业出版社;1987:164-166
[5] 袁嗣令.中国乔、灌木病害[M].北京:科学出版社;1997:92-122
[6] 王敬,赵亮.杨树烂皮病的发病原因及防治方法[J].江苏林业科技;2001,4(2):30
[7] 曾大鹏.我国杨树病害的研究现状与防治[J].中国森林病虫;2002,2(1):20-26
[8] 汪太振,姜常丰,李宝太.杨树烂皮病(valsa sordida Net)[J].东北林业大学学报;1981,(1):18-28
[9] 景耀,王建军,周卫芬.杨树溃疡病潜伏侵染的研究[J].林业科学;1991,27(2):173-178
[10] 杨自湘,汪太振,郝宏等.杨树烂皮病与早春抗病冻能力[J].林业科学研究;1994,7(6):116-120
[11] 向玉英.杨树病害及其防治[M].北京:中国林业出版社;1986:61-65
[12] 项存悌,邵力平.杨树病害综合防治技术[M].东北林业大学出版社;1992:1-113
[13] 唐明,陈辉.杨树菌根与溃疡病的关系[J].土壤学报;1994,31(增刊.):218-223
[14] 吕全,雷增普.外生菌根提高办理苗木抗旱性能及其机理的研究[J].林业科学研究;2000,13(3):249-256
[15] 弓明钦,王凤珍.相思菌根的菌种筛选及气接种效应研究[J].林业科学研究;2000,13(3):268-273
[16] 郭兴华.益生菌基础与应用[M].北京:北京科学技术出版社;2002:280-327
[17] 郭润芳,刘晓光,高克祥等.拮抗木霉菌在生物防治中的应用于研究进展[J].中国生物防治;2002,18(4):180-184
[18] 黎起秦,林纬等.芽孢杆菌对水稻纹枯病的防治效果[J].中国生物防治;2000,16(4):160-162
[19] 胡东维,王源超,徐颖.木霉对辣椒疫霉菌抑制作用的超微结构与细胞化学[J].菌物系统:2003,22(1):95-100
[20] 鲁素云.植物病害生物防治学[M].北京:北京农业大学出版社;1992:25-261
[21] 王树桐,胡同乐,王晓燕.对番茄灰霉病菌有抗菌活性的的植物提取物的室内筛选[J].河北农业大学学报;2003,(26)1:61-64
[22] 杨新美.中国菌物学传承与开拓[M].北京:中国农业出版社;2001:72-89
[23] 卯晓岚.毒蘑菇及其毒性[J].中国预防医学杂志;1980,14(3):188-192
[24] 卯晓岚.中国的毒蘑菇及其中毒类型[J].微生物学通报;1987,14(1):42-47
[25] 陈作红,张志光,张天晓.RAPD应用于蕈菌研究中的条件优化探讨[J].生物科学研究;1998,2(3):199-204
[26] 张志光,周素荣,李常明.灰花纹鹅膏及其毒性研究[J].湖南师范大学自然科学学报;1997,20(1):68-71
[27] 张志光,李常明,李东屏.几种不同鹅膏菌毒素对真核生物RNA聚合酶Ⅱ抑制作用的比较研究[J].菌物系统;1997,16(4):311-314
[28] 李东屏,张志光.黑鹅膏菌(Amanita fuliginea)毒素的HPLC初步分离鉴定[J].生命科学研究;1997,1(1):41-46
[29] 宋瑞清,黄海清.红松树栖真菌及引起的重要病害[M].哈尔滨:东北林业大学出版社;2001:106-109
[30] 陈士瑜.菇菌生产技术全书[M](第一版).北京:中国农业出版社:1999:56-59
[31] 邵力平,项存悌.中国森林蘑菇[M].哈尔滨:东北林业大学出版社:1997:175-652
[32] 邵力平.真菌分类学[M].北京:中国林业出版社;1987:156-268
[33] 卯晓岚.中国大型真菌[M].河南科技大学;2000:36-223
[34] 史小凤,项勇,王晓燕等.两株东北红豆杉内生真菌的生理特性[J].东北林业大学学报;2003,31(1):69-71
[35] 马桂莲,胡国良,俞彩珠.高节竹梢枯病病原菌及其生物学特性[J].浙江林学院学报;2003,20(1):44-48
[36] 产祝龙,丁克坚,檀克甲等.哈茨木霉对水稻恶苗菌的拮抗作用[J].植物保护;2003,29(3):35-38
[37] 李青,刘华梅.管碟法测定苏云金杆菌上清液中增效物质含量的研究[J].微生物学通报;2001,29(3):285-291
[38] 陈秀蓉,魏勇良.几种新型杀菌剂对瓜类蔓枯病菌的毒力测定[J].甘肃农业大学学报;1998,33(4):413-416
[39] 万佐玺.链格孢菌粗毒素的提取方法和稳定性的研究[J].湖北民族学院学报;2001,17(1):10-15
[40] 何迎春,高必达.立枯丝核菌的生物防治[J].中国生物防治;2000,16(1)30-34
[41] 李树正译.农药实验法——杀菌剂篇[M].北京:农业出版社;1991:31-38
[42] 方仲达.植病研究法(第三版).[M].北京:中国农业出版社;;1998:110-154
[43] Bhuyan S. A. Journal of the Agricultural Science Society of North East India[J]. 1994, 7(1): 125-127.
[44] Cindy Sehutt, David Netzly. Effect of apiforol and apogeninidin on growth of selected fungi[J].Journal of Chemical Ecology,1991,17(11): 2261-2266.
[45] Lederer W, Lorenz K H ,Seemuller E.Studies on antagonistic effects of trichoderma isolates against Phytophthora cactorum[J]. Journal of Phytopathology. 1992, 136: 154-164
[46] Winding R. Phytopathology [J], 1932,22:837-845
[47] Maria Rita Marques,Laurenia Maria B Albquerque,Xavier-Filho J.Antimicrobial and insecticidal activities of cashew tree gum exudate[J]. Chem Biol. 1993, 121: 371-377
[48] Song Ruiqing Ji Ruiqing Inhibiting effect of 4 toxic mushroom strains and their toxins on Cytospora chrysosperma(Pers.)Fr. KMITL SCIENCE JOURNAL[J] 2004(4), 1: 125-132
[49] Wieland T,Schmidt G.Werth L.Uber die Giftstoffe deskrollen blarrerpilzes.Liebigs Ann Chem, 1952,577:215-233
[50] WielandT,Boehringer W. Uber die Giftstoffe des gruner knollen blatter pilzes, ⅩⅨ. Umwwandlung von β-amanitin in α-amamitin. Liebigs Ann Chem, 1960, 625: 178-181
[51] Yocum RR.Simons DM.Amatoxins and phallotoxinsin Amanita of the North Easten United States, 1977, 40: 178-190
[52] Sullivan G, Brady LR,Tyler VE Jr.Identification of α-and β-amanitn by thin layerchomatography.J Pharm Sci,1965,54:545-548
[53] Palyza V.Kulhanek v.uberdie chomatographische analyse von toxinen aus Amanita phalloides.J.Chromatogr,1970,53:545-548
[54] Phlyza chromatographie der Amanita-Toxine Ⅱ,Neue Methode zur Identifizierung von Amanita toxinen dutch Dunnschichtchromatographie.. J Chromatogy,1972, 64: 317-325
[55] Palyza V.Schnelle.Identifizie rung bon Amanitinen in Pilzgeweben,Arch Toxicol,1974, 32: 109-114
[56] Stijve T, Seeger R.Detemination of α-, β-,and γ-amanitin by high performance thin layer chromatography in Amanita phalloedes from various origins. Z Naturforch,
1979. 34C: 1133-1138
[57] Andary C,Privat G, Enjalbert F et al.Dosage des anatoxines parspectrophotmetric directe sur chromatogramme chez Amanita phalloedes Fr.J Chromatogr,1977, 132: 525-532
[58] Andary C,Privat G, Enjalbert F et al. Teneur comparative en amanitines en defferentes agaricales toxiques Europe. Doc Mycoe. 1979, 10: 61-82
[59] Beulter SA,Der Marderosian AH.Chemical variation in Amanita.J Nat Prod(Lloydia), 1981, 44: 422-431
[60] Pastorello L,Tolentino D,D'Aletis M et al.Determination If-amanitin by H P L C. J Chromatogr, 1982, 233: 398-403
[61] Enjalbert F.Gallion C,Faulstich H et al.Simultaneous assay for anatoxins and phallotoxina in Amanita phalloedes Fr.by high-performance liquid chromatography.J Chromatogr, 1993, 598: 227-236
[62] Hanpl J.Isolation of toxic peptides from Amanita phalloedes and their analysis using H P LC.Lek Cesk, 1993, 132(15): 460-163
[63] Tsuguo Hongo. Larger fungi of the provinces of Qmi and Yamashiro(4). Journ Jap Bot. 1953, 28(3), 67-70
[2] 许成启,赵岭.黑龙江省西部平原缓丘农区杨树病害种类及主要病害防治[J].防护林科技,2000,9(3):38-41
[3] 涡阳县,刘芳.杨树主要病害及防治.安徽林业,2003,1:18
[4] 周仲铭.林木病理学[M].北京:中国林业出版社;1987:164-166
[5] 袁嗣令.中国乔、灌木病害[M].北京:科学出版社;1997:92-122
[6] 王敬,赵亮.杨树烂皮病的发病原因及防治方法[J].江苏林业科技;2001,4(2):30
[7] 曾大鹏.我国杨树病害的研究现状与防治[J].中国森林病虫;2002,2(1):20-26
[8] 汪太振,姜常丰,李宝太.杨树烂皮病(valsa sordida Net)[J].东北林业大学学报;1981,(1):18-28
[9] 景耀,王建军,周卫芬.杨树溃疡病潜伏侵染的研究[J].林业科学;1991,27(2):173-178
[10] 杨自湘,汪太振,郝宏等.杨树烂皮病与早春抗病冻能力[J].林业科学研究;1994,7(6):116-120
[11] 向玉英.杨树病害及其防治[M].北京:中国林业出版社;1986:61-65
[12] 项存悌,邵力平.杨树病害综合防治技术[M].东北林业大学出版社;1992:1-113
[13] 唐明,陈辉.杨树菌根与溃疡病的关系[J].土壤学报;1994,31(增刊.):218-223
[14] 吕全,雷增普.外生菌根提高办理苗木抗旱性能及其机理的研究[J].林业科学研究;2000,13(3):249-256
[15] 弓明钦,王凤珍.相思菌根的菌种筛选及气接种效应研究[J].林业科学研究;2000,13(3):268-273
[16] 郭兴华.益生菌基础与应用[M].北京:北京科学技术出版社;2002:280-327
[17] 郭润芳,刘晓光,高克祥等.拮抗木霉菌在生物防治中的应用于研究进展[J].中国生物防治;2002,18(4):180-184
[18] 黎起秦,林纬等.芽孢杆菌对水稻纹枯病的防治效果[J].中国生物防治;2000,16(4):160-162
[19] 胡东维,王源超,徐颖.木霉对辣椒疫霉菌抑制作用的超微结构与细胞化学[J].菌物系统:2003,22(1):95-100
[20] 鲁素云.植物病害生物防治学[M].北京:北京农业大学出版社;1992:25-261
[21] 王树桐,胡同乐,王晓燕.对番茄灰霉病菌有抗菌活性的的植物提取物的室内筛选[J].河北农业大学学报;2003,(26)1:61-64
[22] 杨新美.中国菌物学传承与开拓[M].北京:中国农业出版社;2001:72-89
[23] 卯晓岚.毒蘑菇及其毒性[J].中国预防医学杂志;1980,14(3):188-192
[24] 卯晓岚.中国的毒蘑菇及其中毒类型[J].微生物学通报;1987,14(1):42-47
[25] 陈作红,张志光,张天晓.RAPD应用于蕈菌研究中的条件优化探讨[J].生物科学研究;1998,2(3):199-204
[26] 张志光,周素荣,李常明.灰花纹鹅膏及其毒性研究[J].湖南师范大学自然科学学报;1997,20(1):68-71
[27] 张志光,李常明,李东屏.几种不同鹅膏菌毒素对真核生物RNA聚合酶Ⅱ抑制作用的比较研究[J].菌物系统;1997,16(4):311-314
[28] 李东屏,张志光.黑鹅膏菌(Amanita fuliginea)毒素的HPLC初步分离鉴定[J].生命科学研究;1997,1(1):41-46
[29] 宋瑞清,黄海清.红松树栖真菌及引起的重要病害[M].哈尔滨:东北林业大学出版社;2001:106-109
[30] 陈士瑜.菇菌生产技术全书[M](第一版).北京:中国农业出版社:1999:56-59
[31] 邵力平,项存悌.中国森林蘑菇[M].哈尔滨:东北林业大学出版社:1997:175-652
[32] 邵力平.真菌分类学[M].北京:中国林业出版社;1987:156-268
[33] 卯晓岚.中国大型真菌[M].河南科技大学;2000:36-223
[34] 史小凤,项勇,王晓燕等.两株东北红豆杉内生真菌的生理特性[J].东北林业大学学报;2003,31(1):69-71
[35] 马桂莲,胡国良,俞彩珠.高节竹梢枯病病原菌及其生物学特性[J].浙江林学院学报;2003,20(1):44-48
[36] 产祝龙,丁克坚,檀克甲等.哈茨木霉对水稻恶苗菌的拮抗作用[J].植物保护;2003,29(3):35-38
[37] 李青,刘华梅.管碟法测定苏云金杆菌上清液中增效物质含量的研究[J].微生物学通报;2001,29(3):285-291
[38] 陈秀蓉,魏勇良.几种新型杀菌剂对瓜类蔓枯病菌的毒力测定[J].甘肃农业大学学报;1998,33(4):413-416
[39] 万佐玺.链格孢菌粗毒素的提取方法和稳定性的研究[J].湖北民族学院学报;2001,17(1):10-15
[40] 何迎春,高必达.立枯丝核菌的生物防治[J].中国生物防治;2000,16(1)30-34
[41] 李树正译.农药实验法——杀菌剂篇[M].北京:农业出版社;1991:31-38
[42] 方仲达.植病研究法(第三版).[M].北京:中国农业出版社;;1998:110-154
[43] Bhuyan S. A. Journal of the Agricultural Science Society of North East India[J]. 1994, 7(1): 125-127.
[44] Cindy Sehutt, David Netzly. Effect of apiforol and apogeninidin on growth of selected fungi[J].Journal of Chemical Ecology,1991,17(11): 2261-2266.
[45] Lederer W, Lorenz K H ,Seemuller E.Studies on antagonistic effects of trichoderma isolates against Phytophthora cactorum[J]. Journal of Phytopathology. 1992, 136: 154-164
[46] Winding R. Phytopathology [J], 1932,22:837-845
[47] Maria Rita Marques,Laurenia Maria B Albquerque,Xavier-Filho J.Antimicrobial and insecticidal activities of cashew tree gum exudate[J]. Chem Biol. 1993, 121: 371-377
[48] Song Ruiqing Ji Ruiqing Inhibiting effect of 4 toxic mushroom strains and their toxins on Cytospora chrysosperma(Pers.)Fr. KMITL SCIENCE JOURNAL[J] 2004(4), 1: 125-132
[49] Wieland T,Schmidt G.Werth L.Uber die Giftstoffe deskrollen blarrerpilzes.Liebigs Ann Chem, 1952,577:215-233
[50] WielandT,Boehringer W. Uber die Giftstoffe des gruner knollen blatter pilzes, ⅩⅨ. Umwwandlung von β-amanitin in α-amamitin. Liebigs Ann Chem, 1960, 625: 178-181
[51] Yocum RR.Simons DM.Amatoxins and phallotoxinsin Amanita of the North Easten United States, 1977, 40: 178-190
[52] Sullivan G, Brady LR,Tyler VE Jr.Identification of α-and β-amanitn by thin layerchomatography.J Pharm Sci,1965,54:545-548
[53] Palyza V.Kulhanek v.uberdie chomatographische analyse von toxinen aus Amanita phalloides.J.Chromatogr,1970,53:545-548
[54] Phlyza chromatographie der Amanita-Toxine Ⅱ,Neue Methode zur Identifizierung von Amanita toxinen dutch Dunnschichtchromatographie.. J Chromatogy,1972, 64: 317-325
[55] Palyza V.Schnelle.Identifizie rung bon Amanitinen in Pilzgeweben,Arch Toxicol,1974, 32: 109-114
[56] Stijve T, Seeger R.Detemination of α-, β-,and γ-amanitin by high performance thin layer chromatography in Amanita phalloedes from various origins. Z Naturforch,
1979. 34C: 1133-1138
[57] Andary C,Privat G, Enjalbert F et al.Dosage des anatoxines parspectrophotmetric directe sur chromatogramme chez Amanita phalloedes Fr.J Chromatogr,1977, 132: 525-532
[58] Andary C,Privat G, Enjalbert F et al. Teneur comparative en amanitines en defferentes agaricales toxiques Europe. Doc Mycoe. 1979, 10: 61-82
[59] Beulter SA,Der Marderosian AH.Chemical variation in Amanita.J Nat Prod(Lloydia), 1981, 44: 422-431
[60] Pastorello L,Tolentino D,D'Aletis M et al.Determination If-amanitin by H P L C. J Chromatogr, 1982, 233: 398-403
[61] Enjalbert F.Gallion C,Faulstich H et al.Simultaneous assay for anatoxins and phallotoxina in Amanita phalloedes Fr.by high-performance liquid chromatography.J Chromatogr, 1993, 598: 227-236
[62] Hanpl J.Isolation of toxic peptides from Amanita phalloedes and their analysis using H P LC.Lek Cesk, 1993, 132(15): 460-163
[63] Tsuguo Hongo. Larger fungi of the provinces of Qmi and Yamashiro(4). Journ Jap Bot. 1953, 28(3), 67-70