放射線菌及常用藥劑應用於樹木褐根病防治之研究

Wei-Chen Li; 李韋辰

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/50174

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DC 欄位	值	語言
dc.contributor.advisor	孫岩章
dc.contributor.author	Wei-Chen Li	en
dc.contributor.author	李韋辰	zh_TW
dc.date.accessioned	2021-06-15T12:31:38Z	-
dc.date.available	2026-08-03
dc.date.copyright	2016-08-24
dc.date.issued	2016
dc.date.submitted	2016-08-03
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Journal of Arboriculture (USA) 25:38-42. 31. Goodfellow, M., Kämpfer, P., Busse, H., Trujillo, M. E., Suzuki, K., Ludwig, W., and Whitman, W. B. 2012. Bergey’s Manual® of Systematic Bacteriology: Volume Five, The Actinobacteria, Part A. Springer New York. 32. Jacob, C., Joseph, A., and Jayarathnam, K. 1991. Effect of fungal antagonists on Phellinus noxius causing brown root disease of Hevea. Indian Journal of Natural Rubber Research 4:142-145. 33. Kothandaraman, R., Joseph, K., Mathew, J., and Rajalakshmi, V. K. 1991. Actinomycete population in the rhizosphere of Hevea and its inhibitory effect on Phellinus noxius. Indian Journal of Natural Rubber Research 4:150-152. 34. Kuhns, M. 2011. Getting Chemicals into Trees without Spraying. UtahState University Cooperative Extension. 35. Lechevalier, M. P., and Lechevalier, H. 1970. Chemical composition as a criterion in the classification of aerobic actinomycetes. 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FEMS Microbiology Ecology 42:419-429. 40. Navarro, C., Fernandez-Escobar, R., and Benlloch, M. 1992. A low-pressure, trunk-injection method for introducing chemical formulations into olive trees. Journal of the American Society for Horticultural Science 117:357-360. 41. Robbins, S. H. 1981. Pressure trunk injections of potassium as a possible short term corrective measure for potassium deficiency in sweet cherry (Prunus avium L.) and prune (Prunus domestica L.). In partial fulfillment of the requirements for the degree of Master of Science. Oregon State University. The USA. 42. Sahashi, N., Akiba, M., Ishihara, M., Ota, Y., and Kanzaki, N. 2012. Brown root rot of trees caused by Phellinus noxius in the Ryukyu Islands, subtropical areas of Japan. Forest Pathology 42:353-361. 43. Schatz, A., Bugle, E., and Waksman, S. A. 1944. Streptomycin, a substance exhibiting antibiotic activity against gram-positive and gram-negative bacteria. Experimental Biology and Medicine 55:66-69. 44. Schwarze, F. W., Jauss, F., Spencer, C., Hallam, C., and Schubert, M. 2012. Evaluation of an antagonistic Trichoderma strain for reducing the rate of wood decomposition by the white rot fungus Phellinus noxius. Biological Control 61:160-168. 45. Shirling, E. t., and Gottlieb, D. 1966. Methods for characterization of Streptomyces species1. International Journal of Systematic and Evolutionary Microbiology 16:313-340. 46. Smith, K. T., and Lewis, P. A. 2005. Potential concerns for tree wound response from stem injection. In 3rd Symposium on Hemlock Woolly Adelgid in the Eastern United States, p 173-178. February 1-3. Ashevile, North Carolina. USDA Forest Service. Citeseer. 47. Smitley, D. R., Doccola, J. J., and Cox, D. L. 2010. Multiple-year protection of ash trees from emerald ash borer with a single trunk injection of emamectin benzoate, and single-year protection with an imidacloprid basal drench. Journal of Arboriculture 36:206. 48. Takai, K., Soejima, T., Suzuki, T., and Kawazu, K. 2000. Emamectin benzoate as a candidate for a trunk‐injection agent against the pine wood nematode, Bursaphelenchus xylophilus. Pest Management Science 56:937-941. 49. Vandamme, P., Pot, B., Gillis, M., De Vos, P., Kersters, K., and Swings, J. 1996. Polyphasic taxonomy, a consensus approach to bacterial systematics. Microbiological Reviews 60:407-438. 50. Wu, M. L., Hsu, Y. Y., Lee, C. Y., Wu, H. D., and Hung, T. H. 2014. Application of biocontrol agents to control Phellinus noxius. Taiwan Journal of Forest Science 29:S41-S53. 51. Yanti, Y., Zainon, M. N., and Marshida, A. H. 2012. Antagonistic activity of three Actinomycetes, MG01, MG02 And KT2F towards Phellinus noxius. Business, Engineering and Industrial Applications (ISBEIA), 2012 IEEE Symposium on, p 729-732. September 23-26. Bandung, Indonesia. IEEE. 52. Yuan, W. M., and Crawford, D. L. 1995. Characterization of streptomyces lydicus WYEC108 as a potential biocontrol agent against fungal root and seed rots. Applied and Environmental Microbiology 61:3119-3128. 53. Zeng, Q., McGhee, G. C., Sundin, G. W., and Wise, J. C. 2015. Control of fire blight (Erwinia amylovora) on apple trees with trunk-injected plant resistance inducers and antibiotics and assessment of induction of pathogenesis-related protein genes. Frontiers in Plant Science 6:1-10.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/50174	-
dc.description.abstract	褐根病菌(Phellinus noxius)所造成的樹木褐根病為亞洲、非洲、大洋洲及澳洲的熱帶及亞熱帶地區常見之林木根部病害。近年台灣的一些重要經濟果樹或是行道樹等經常發生黃化萎凋甚至急速立枯等情形，多以褐根病菌為主要原因。目前對於褐根病之防治方法以化學防治為主，國外曾報導三得芬、平克座及三泰隆可有效抑制其菌絲的生長，而國內之農試所則發現普克利、4-4式波爾多液、三泰芬、三得芬、撲克拉、滅普寧、佈生、依普同及Pyriferox+40% Quinolate對抑制褐根病菌菌絲有良好的效果。關於生物防治方面，國外曾有報導土壤根圈中的放射線菌(Actinomycetes)及 Trichoderma spp.可以抑制褐根病菌菌絲之生長，但是並無進一步的試驗應用。本研究因此自苗栗、台北及花蓮等地分離出二十株對褐根病菌具有拮抗能力之放射線菌，最後從其中選出兩株效果最好之菌株BR-br及BR-wh，並經定序後對照NCBI資料庫，確認為Streptomyces屬之放射線菌，與本實驗室前人從花蓮玉里之水稻田所分得之放射線菌YU01進行後續之模擬殘根試驗。模擬殘根試驗分成生長箱試驗組及田間試驗組，分別以褐根病菌接種後枝條的乾重損失率及褐根病菌在枝條中的殘存率來評估放射線菌的抑菌效果。結果顯示在枝條放置前七天施用一倍放射線菌培養液的狀態下，枝條的乾重損失率均較對照組少；而在生長箱試驗中枝條的褐根菌殘存率則較對照組低，但在田間試驗中則無。化學藥劑防治方面，本研究篩選測試6種殺菌劑，確定以普克利、待克利及待普克利具有良好抑制褐根病菌之藥效，本實驗另利用莖部注射的方式，將藥劑(50%待普克利乳劑)稀釋100倍後注射至試驗榕樹及垂榕，之後探討藥劑在植株中的分布狀況。結果顯示在注射藥劑5天、10天及15天後，於試驗植株的注射點下方30公分處能測得普克利及待克利。最後測量褐根病菌在不同污染環境處理之殘存率，結果顯示褐根病菌在尿素、大花咸豐草及高麗菜之處理中殘存率較低，其中以在第8天時即能使殘存率降到0%的尿素效果最好。以往防治褐根病時需要大面積的將化學藥劑施用於土壤中，本研究希望藉由生物防治及藥劑注射的方式，降低化學藥劑對人畜環境等所造成的影響。	zh_TW
dc.description.abstract	Brown root rot disease caused by Phellinus noxius is a common root disease distributed in tropical and subtropical regions of Asia, Africa, Oceania and Australia. In recent years, wilting and decline found on some important fruit and urban trees in Taiwan were attributed to this brown root rot disease. At present, the main method to control the brown root rot disease is chemical control. it was a reported that tridemorph, penconazole and triadimenol could inhibit the mycelial growth of Phellinus noxius in foreign country. Taiwan Agricultural Research Institute also reported that 4-4 Bordeaux mixture, propiconazole, triadimefon, tridemorph, prochloraz, mepronil, benthiazole, iprodione and pyriferox+40% quinolate showed good effect to inhibit mycelial growth of pathogen. For biological control, some actinomycetes and Trichoderma spp. from rhizosphere were reported to inhibit mycelial growth of Phellinus noxius, but there was no further application test. In the study, therefore, we isolated 20 strains of actinomycetes showing ability to antagonize Phellinus noxius from Miaoli, Taipei and Hualien. Two strains Br-br and Br-wh with another strain YU01 isolated from Yuli, Hualien were selected to process the simulated stem section test. And depends on the database of NCBI, strains BR-br and BR-wh belong to genus Streptomyces. The dry weight loss rate of inoculated stem section and the survival rate of P. noxius in stem section were used to estimate the antagonistic effect of three actinomycete strains. Results show that the dry weight loss rate of treated stem section are lower than the control in both growth chamber and field test after the treatment of actinomycetes liquid culture. The survival rate of pathogen in treated stem section is also lower than the control one in growth chamber but no significant differences in the field test. In chemical control, we test six fungicide to screen the effective control chemical for brown root rot pathogen. Results show that propiconazole, difenoconazole and difenoconazole+propiconazole show good inhibition effects on the pathogen. This study used fungicide(50% propiconazole+difenoconazole EC 100X) to inject into Ficus microcarpa and Ficus benjamina and determine the distribution of both fungicide inside the tree body. Results show that propiconazole and difenoconazole is existing in the 30 cm point below the injected site on 5th,10th and 15th day. In the last of this study, we test the survival rate of pathogen under different pollution treatments within 10 days. Results show that treatments of urea, Bidens pilosa var. radiate and cabbage can reduce the survival rate of pathogen, especially urea, which can lead to the 0% of survival rate of pathogen after 8th day.To avoid using large amount of fungicide, we expect to reduce the impact of fungicide on the environment by using biological control and trunk injection methods in controlling this disease.	en
dc.description.provenance	Made available in DSpace on 2021-06-15T12:31:38Z (GMT). No. of bitstreams: 1 ntu-105-R02633010-1.pdf: 2570930 bytes, checksum: 703eea39a0c2d2aeef8213ed09f7763e (MD5) Previous issue date: 2016	en
dc.description.tableofcontents	目錄誌謝 i 中文摘要 iii Abstract v 目錄 vii 表目錄 ix 圖目錄 x 第一章前言 1 第二章前人研究 5 一、褐根病現行之防治方法 5 二、放射線菌用於防治褐根病之應用 5 三、樹木藥劑注射於病蟲害防治之應用 6 第三章材料與方法 9 一、拮抗樹木褐根病菌之放射線菌篩選 9 (一) 放射線菌之分離及保存 9 (二) 褐根病菌之分離及鑑定 9 (三) 放射線菌拮抗樹木褐根病菌的初步篩選 11 二、放射線菌對樹木褐根病菌拮抗能力之測試 11 (一) 以對峙培養法篩選具拮抗能力之放射線菌 11 (二) 以玻璃紙培養基法測試放射線菌之抑制能力 12 三、放射線菌分離株之分子鑑定 13 (一) 核苷酸(DNA)之萃取 13 (二) 目標片段之增幅(PCR反應) 13 (三) PCR產物電泳分析 13 (四) 基因片段之定序 14 四、以模擬殘根法測試放射線菌防治褐根病菌之試驗 14 五、樹木褐根病菌防治藥劑之篩選測試 16 六、樹木褐根病菌防治藥劑注射後在樹幹內之分佈及變化 17 七、褐根病菌在污染環境中殘存能力之研究 19 第四章結果 20 一、拮抗樹木褐根病菌之放射線菌篩選 20 (一) 放射線菌之分離及保存 20 (二) 褐根病菌之分離及鑑定 21 (三) 放射線菌拮抗樹木褐根病菌的初步篩選 25 二、放射線菌對樹木褐根病菌拮抗能力之測試 27 (一) 以對峙培養法篩選具拮抗能力之放射線菌 27 (二) 以玻璃紙培養基法測試放射線菌之抑制能力 30 三、放射線菌分離株之分子鑑定 33 四、以模擬殘根法測試放射線菌防治褐根病菌之試驗 39 五、樹木褐根病菌防治藥劑之篩選測試 46 六、樹木褐根病菌防治藥劑注射後在樹幹內之分佈及變化 48 七、褐根病菌在污染環境中殘存能力之研究 60 第五章討論 62 一、拮抗樹木褐根病菌之放射線菌篩選 62 二、放射線菌對樹木褐根病菌拮抗能力之測試 62 三、放射線菌分離株之分子鑑定 63 四、以模擬殘根法測試放射線菌防治褐根病菌之試驗 63 五、樹木褐根病菌防治藥劑之篩選測試 64 六、樹木褐根病菌防治藥劑注射後在樹幹內之分佈及變化 65 七、褐根病菌在污染環境中殘存能力之研究 66 參考文獻 67
dc.language.iso	zh-TW
dc.title	放射線菌及常用藥劑應用於樹木褐根病防治之研究	zh_TW
dc.title	Application of actinomycetes and common fungicides for controlling the tree brown root rot disease	en
dc.type	Thesis
dc.date.schoolyear	104-2
dc.description.degree	碩士
dc.contributor.coadvisor	黃榮南
dc.contributor.oralexamcommittee	郭章信,楊秀珠
dc.subject.keyword	放射線菌,褐根病,褐根病菌,生物防治,藥劑注射,	zh_TW
dc.subject.keyword	Actinomycetes,brown root rot disease,Phellinus noxius,biological control,trunk injection.,	en
dc.relation.page	72
dc.identifier.doi	10.6342/NTU201601899
dc.rights.note	有償授權
dc.date.accepted	2016-08-04
dc.contributor.author-college	生物資源暨農學院	zh_TW
dc.contributor.author-dept	植物病理與微生物學研究所	zh_TW
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