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DC 欄位 | 值 | 語言 |
---|---|---|
dc.contributor.advisor | 林宗賢(Tzong-Shyan Lin),楊雯如(Wen-Ju Yang) | |
dc.contributor.author | Yun-Hao Chen | en |
dc.contributor.author | 陳昀皓 | zh_TW |
dc.date.accessioned | 2021-06-16T17:18:31Z | - |
dc.date.available | 2012-08-20 | |
dc.date.copyright | 2012-08-20 | |
dc.date.issued | 2012 | |
dc.date.submitted | 2012-08-17 | |
dc.identifier.citation | 行政院農業委員會. 2010. 番石榴. 農業統計年報.http://www.coa.gov.tw/view.php?catid=23774
行政院農業委員會藥物毒物試驗所. 2012.番石榴立枯病(參考資料). 植物保護手冊. http://www.tactri.gov.tw/htdocs/ppmtable/frgu-01.pdf 呂理燊. 2010. 絕對傷口侵害及系統性之寄生菌引起的番石榴立枯病—Myxosporium wilt of guava. 農業世界 324:93-95. 呂理燊、高清文、王金池、梁文進、謝式坢鈺. 1976. 番石榴立枯病病徵、接種及病組織之產胞. 植物保護協會會刊 18:403 (摘要). 高拱乾(纂修)、周元文(增修). 2004. 果之屬, p. 333. 刊於:臺灣府志. 遠流出版. 臺北. 陳昱初. 2007. 如何應付番石榴立枯病. 高雄區農情月刊118:3. 陳敏祥. 1993. 番石榴品種改良. 果樹育種研習會專刊. 臺灣省農業試驗所編印. p. 249-260. 陳淑惠. 1996. 呂理燊博士談番石榴立枯病之研究歷程. 農業世界 158:12-14. 張林仁. 2005. 優質番石榴栽培管理. 臺中區農業專訊 51:9-17。 張明郎. 2011. 番石榴產業發展現況. 番石榴栽培技術與經營管理研討會論文輯.行政院農委會臺中區農業改良場編印. p. 1-9. 張哲嘉、林宗賢. 1998. 台灣番石榴生產之現況與改進. 中國園藝 44:116-124. 康有德. 2006. 番石榴, p. 214-215. 刊於:康有德主編. 水果世界. 科學農業社. 臺北. 黃明雅. 2007. 番石榴品種選育, p. 59. 刊於:楊文振主編. 高雄區農業改良場九十六年年報. 行政院農委會高雄區農業改良場. 屏東 黑澤英一. 1926. パンジロウの立枯病. 臺灣博物學會會報 83:47-61. 葉士財、柯文華、林金樹、廖君達、白桂芳. 2008. 立枯病, p. 3-6刊於:葉士財、柯文華、林金樹、廖君達、白桂芳主編. 中部地區番石榴病蟲及害物圖說. 台中區農業改良場編印. 臺中. 蕭吉雄. 1990. 園藝作物抗病育種之理論及實際. 園藝作物育種講習專刊. 臺灣省農業試驗所編印. p. 29-39。 蕭吉雄. 1993. 果樹之抗病育種. 果樹育種研習會專刊. 臺灣省農業試驗所編印. p. 33-48. 謝式坢鈺、梁文進、高清文、呂理燊. 1975. 番石榴立枯病菌之形態與生理. 植物保護協會會刊 17:5(摘要)。 謝式坢鈺、梁文進、高清文、呂理燊. 1976. 番石榴立枯病菌之形態及生理特性. 植物保護協會會刊 18:309-317. 謝鴻業. 2005. 番石榴, p. 61-68. 刊於:農業委員會臺灣農家要覽增修訂三版策劃委員會主編. 台灣農家要覽 農作篇. 豐年社. 臺北. 謝鴻業、洪爭坊. 2011. 番石榴栽培管理, p. 103-134, 刊於:陳駿季、陳甘澍、李文立、劉碧鵑主編. 熱帶果樹栽培管理專輯. 行政院農業委員會農業試驗所. 臺中. 謝鴻業、王武彰、李梨瑜. 1997. 番石榴品種改良-雜交育種. 提昇果樹產業競爭力研討會專集III. 行政院農委會臺中區農業改良場編印. p. 21-26. 謝鴻業、王智立、楊淑慧、王德男、劉政道、林慧玲、謝慶昌、陳幼光. 2006. 番石榴新品種-台農一號(帝王拔)之育成. 農業試驗所技術服務 67:1-4. 謝鴻業、黃和炎、鄭安秀. 2001. 番石榴栽培與管理. 臺南區農業改良場技術專刊 117:1-13. Athipunyakom, P. and J.J. Luangsa-ard. 2008. Nalanthamala psidii cause of guava wilt disease in Thailand. Proc. 64th Kasetsart Univ. Ann. Conf. p. 504-512. (In Thai with English Abstract). Borras, O., R. Santos, A.P. Matos, R.S. Cabral, and M. Arzola. 2001. A first attempt to use a Fusarium subglutinans culture filtrate for the selection of pineapple cultivars resistant to fusariose disease. Plant Breeding 120:435-438. Chen, Y. F., W. Chen, X. Huang, X. Hu, J. T. Zhao, Q. Gong, X. J. Li and X. L. Huang. 2012. Fusarium wilt-resistant lines of Brazil banana (Musa spp., AAA) obtained by EMS-induced mutation in a micro-cross-section cultural system. Plant Pathol. (Online) Companioni, B., N. Mora, L. Diaz, A. Perez, M. Arzola, P. Espinosa, M. Hernandez, J. Ventura, M.C. Perez, R. Santos, and J.C. Lorenzo. 2005. Identification of discriminant factors after treatment of resistant and susceptible banana leaves with Fusarium oxysporum f. sp. cubense culture filtrates. Plant Breeding 124:79-85. Dayton, D.F., R.L. Bell, and E.B. Williams. 1983. Disease Resistance, p. 189-215. In: Janick, J. and J.N. Moore (eds), Fruit Breeding. Purdue Univ. Press, West Lafayette, Ind. Denoyes-Rothan, B. and G. Guerin. 1996. Comparison of six inoculation techniques with Colletotrichum acutatum on cold stored strawberry plants and screening for resistance to this fungus in French strawberry collections. European J. Plant Pathol. 102:615-621. Dicenta, F., P. Martinez-Gomez, E. Martinez-Pato and T.M. Gradziel. 2003. Screening for Aspergillus flavus Resistance in Almond. HortScience 38:266-268. Dhaliwal, G.S., P.S. Chohan, and S.S.Gosal. 1993. In vitro studies on pollen viability and germination in open-pollinated seedlings of guava. Haryana J. Hort. Sci. 22:211-213. Dhingra, O.D. and J.B. Sinclair. 1995. Establishment of disease and testing for resistance, p.151-216. In: O.D. Dhingra and J.B. Sinclair (eds). Basic plant pathology methods. CRC Press, Boca Raton, Fla. Doijode, S.D. 2001. Guava: Psidium guajava L, p. 65-67. In: S. D. Doijode (ed), Seed Storage of Horticultural Crops, Haworth Press, N.Y. Flores, P.S., W.C. Otoni, O.D. Dhingra, S.P. Severo de Souza Diniz, T.M. dos Santos, and C.H. Bruckner. 2012. In vitro selection of yellow passion fruit genotypes for resistance to Fusarium vascular wilt. Plant Cell Tiss. Organ Cult. 108:37-45. Gentile, A., E. Tribulato, Z.N. Deng, E. Galun, R. Fluhr and A. Vardi. 1993. Nucellar callus of ‘Femminello’ lemon, selected for tolerance to Phoma tracheiphila toxin, shows enhanced release of chitinase and glucanase into the culture medium. Theor. Appl. Genet. 86:527-532. Hong, C.F., H.Y., Hsieh and W.C. Chung. 2009. Development of semiselective medium for detection of guava wilt pathogen Nalanthamala psidii. Plant Protection Bul. 51:129. (Abstr.) Jayasankar, S., R.E. Litz, D.J. Gray and P.A. Moon. 1999. Responses of embryogenic mango cultures and seedling bioassays to a partially purified phytotoxin produced by a mango leaf isolate of Colletotrichum gloeosporioides Penz. In Vitro Cell. Dev. Biol. – Plant 35:475-479. Jayasankar, S., Z. Li and D.J. Gray. 2000. In-vitro selection of Vitis vinifera ‘Chardonnay’ with Elsinoe ampelina culture filtrate is accompanied by fungal resistance and enhanced secretion of chitinase. Planta 211:200-208. Jaiswal, V.S. and Amin, M.N. 1992. Guava and Jackfruit, p. 421-431. In: F.A. Hammerschlag and Litz, R.E. (eds), Biotechnology of perennial fruit crops, CAB Int., Wallingford, U.K. Leu, L.S. and C.W. Kao. 1979. Artificial inoculation of guava with Myxosporium psidii [Wilt]. Plant Dis. Retr. 63:1077-1079. Leu, L.S., C.W. Kao, C.C. Wang, W.J. Liang and S.P.Y. Hsieh. 1979. Myxosporium wilt of guava and its control. Plant Dis. Retr. 63:1075-1077. Lim, T.K. and B.Q. Manicom. 2003. Dieases of Guava, p. 275-285. In: R.C. Ploetz (ed), Dieases of Tropical Fruit Crops. CABI Publishing, Wallingford, U.K. Malo, S. E. and C. W. Campbell. 1994. The Guava. Fla. Coop. Ext. Serv. Fact Sheet HS-4. Menzel, C.M. 1985. Guava: An exotic fruit with potential in Queensland. Queensl. Agr. J. 111:93-98. Molnar, T.J., S.N. Baxer and J.C. Goffreda. 2005. Accelerated Screening of Hazelnut Seedlings for Resistance to Eastern Filbert Blight. HortScience 40:1667-1669. Morton, J.F. 1987. Guava, p. 356-362. In: J.F. Morton (ed), Fruits of Warm Climates. Creative Resources Systems, Winterville, N.C. Nakasone, H.Y. and R.E. Paull. 1998. Guava, p. 149-172. .In: H.Y. Nakasone and R.E. Paull (eds.), Tropical Fruits. CAB Int., Wallingford, U.K. Negi, S.S. and S. Rajan. 2007. Improvement of guava through breeding. Acta Hort. 735:31-37. Pommer, C.V. and R.N. Murakami. 2009. Breeding guava (Psidium guajava L.), p.83-120. In: S. M. Jain and P.M. Priyadarshan (eds.), Breeding Plantation Tree Crops: Tropical Species. Springer, NY Purseglove, J.W. 1968. Psidium guajava L., p. 414-419. In: J.W. Purseglove (ed), Tropical crops: Dicotyledons. Longman , Harlow, Essex, England. Ray, P. K. 2002. Breeding objectives, genetic resources and techniques of breeding, p.1-15. In: P. K. Ray (ed), Breeding Tropical and Subtropical Fruits. Springer, India . Ribeiro,I. J.A. and C.V. Pommer. 2004. Breeding guava (Psidium guajava) for resistance to rust caused by Puccinia psidii. Acta Hort. 632:75-78. Scarpari, L.M., L.W. Meinhardt, P. Mazzafera, A. W.V. Pomella, M.A. Schiavinato, J. C.M. Cascardo and G.A.G. Pereira. 2005. Biochemical changes during the development of witches' broom: the most important disease of cocoa in Brazil caused by Crinipellis perniciosa. J. Expt. Bot. 56:865-877. Schroers, H.J., M.M. Geldenhuis, M.J. Wingfield, M.H. Schoeman, Y.F. Yen, W.C. Shen and B.D. Wingfield. 2005. Classification of the guava wilt fungus Myxosporium psidii, the palm pathogen Gliocladium vermoesenii and the persimmon wilt fungus Acremonium diospyri in Nalanthamala. Mycologia 97:375–395. Schoeman, M.H., B.Q. Manicom, and F.A. Botha. 2012. Guava wilt disease – the South African perspective. III Intl. Symp. Guava Other Myrtaceae. p. 38. (Abstr.) Sowik, I., A. Bielenin and L. Michalczuk. 2001. In vitro testing of strawberry resistance to Verticillium dahliae and Phytophthora cactorum. Sci. Hort. 88:31-40. Švabova, L. and A. Lebeda. 2005. In Vitro Selection for Improved plant resistance to toxin-producing Pathogens. J. Phytopathol. 153: 52-64. Sun, E.J and H.J. Su. 1984. Rapid method for determining differential pathogenicity of Fusarium oxysporum f. sp. cubense using banana plantlets. Trop. Agr. 61:7-8. Vos, J.E. and M.H. Schoeman. 2000. In vitro selection and commercial release of guava wilt resistant rootstocks. Acta Hort. 513:69-79. Wan, W.C. and L.S. Leu. Breeding guava resistant lines against Myxosporium wilt. 1999. Plant Protection Bul. 41:149-154. Wharton, P.S., A. Iezzoni and A.L. Jones. 2003. Screening cherry germ plasm for resistance to leaf spot. Plant Dis. 87:471-477. Xu X.M., D.J. Butt and M.S. Ridout. 1998. The effects of inoculum dose, duration of wet period, temperature and wound age on infection by Nectria galligena of pruning wounds on apple. European J. Plant Pathol. 104:511-519. Yadava, U.L. 1996a. Guava production in Georgia under cold protection structure, p. 451-457. In: Janick, J. (ed), Progress in New Crops. ASHS Press, Arlington, Va. Yadava, U.L. 1996b. Guava (Psidium guajava L.): an exotic tree fruit with potential in the southeastern United States. HortScience 31:789-794. | |
dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/63763 | - |
dc.description.abstract | 番石榴立枯病(Myxosporium wilt)乃病原菌Nalanthamala psidii (Sawada et Kurosawa) Schroers & M. J. Wingf. (≡Myxosporium psidii Sawada et Kurosawa)所造成的一種系統性真菌病害(systemical fungal disease)。自1970年代以來,由於番石榴多以修剪方式進行產期調節,植株常因修剪產生大量傷口,致病原菌入侵的機會大為提高,使該病成為臺灣番石榴栽培最嚴重、破壞性最大的病害。此病目前尚無法藉由藥劑防治,植株一旦發病要防治其蔓延,除將其焚燒與清除外別無他法。因此,進行抗病育種是必要的。
本研究之目的為:(1)番石榴實生苗接種方法之研究(2)實生苗之抗病篩選(3)菌株培養濾液(culture filtrate)對實生苗致病性之測試。本試驗中,摘心及剪根處理時強度過強,過度傷害實生苗,造成植株大量死亡,無法比較其接種效果,因此目前尚無法確定傷口製造法、苗齡及接種濃度對接種番石榴立枯病菌的影響。4品種共2760株實生苗在兩年內接種三次後,選拔出132擬抗病株。其中50% 為‘白拔’開放授粉實生苗後代。‘白拔’雜交後代及其他品系開放授粉實生苗經菌株Mp-02培養基塊接種至枝條傷口後,多數植株之枯萎病徵僅限於接種位置上方。由於目前僅為接種後2個月,尚無法確立其抗感病性。依據結果,目前菌株培養濾液對實生苗的致病性仍無法判定。 | zh_TW |
dc.description.abstract | Myxosporium wilt, caused by the pathogen Nalanthamala psidii (Sawada et Kurosawa) Schroers & M. J. Wingf. (≡Myxosporium psidii Sawada et Kurosawa), belongs to one of systemical fungal diseases. This disease has been the most severe and destructive disease of guava (Psidium guajava) cultivation in Taiwan since the 1970s due to the development of pruning techniques for nonseasonal production. The pruning techniques result in numerous wounded sites and increase chances for the invasion of this pathogen. No chemical could prevent or cure this disease and no other solution is available except to burn and remove infected trees from the orchards immediately as the symptoms ocurred. Therefore, breeding for disease resistance is requied.
The objectives for the present studies were to: (1) study the effectiveness of inoculation methods for guava seedlings; (2) screening seedlings for N. psidii resistance; (3) evaluate the pathogenicity of N. psidii culture filtrate to seedlings. In the present study, pitiching and root trimming severely injured seedlings and caused a lot portion of seedlings died. Therefore, the effectiveness of the two inoculation methods could not be compared; and thus, the effects of wounding method, seedling stage and inoculum concentration on inoculation of N. psidii could not be determined. Among 2760 seedlings we screened after 3 inoculations within 2 years, 132 puataive resistant plants were obtained. Half of them were ‘Pei-pa’ open-pollinated (OP) progenies. After wounding branches of ‘Pei-pa’ hybrid and OP seedlings of other lines were inoculated with agar plugs of N. psidii Mp-02 isolate, wilting symptoms of most plants only occurred above the wounds. The observation period, 2 months, was not long enough to determine their resistance/susceptibility. However, pathogenicity of N. psidii culture filtrate to guava seedlings could not be confirmed. | en |
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dc.description.tableofcontents | 致謝………………………………………………………………………………………………………………………………i
中文摘要……………………………………………………………………………………..……………….……………iii Abstract……………………………………………………………………..………………………………………….….iv 目錄.……………………………………………………………………..….………………………………………………..vi 圖目錄…………………………………………………………………………………………………………..…………viii 表目錄…………………………………………………………………………………………………………….…………ix 第一章 前人研究…………………….…………………………………..…………….…………………………..1 第一節 番石榴概述………………………………………………………………………………………1 第二節 番石榴立枯病概述…………………………………………………………………………2 第三節 果樹抗病育種概述…………………………………………………………………………7 第二章 材料與方法………………………………………………………………….………………………….13 第一節 植物材料來源、菌株來源及試驗設計……………………………………………13 第二節 番石榴實生苗接種番石榴立枯病菌方法之探討…………………………14 第三節 番石榴立枯病抗病植株之篩選……………………………………………………..16 第四節 番石榴立枯病抗病雜交苗之篩選………………………………………………….18 第五節 番石榴實生苗對菌株濾液之反應………………………………………………….19 第三章 結果…………………………………………..…………..…………………………………………….21 第一節 番石榴實生苗接種番石榴立枯病菌方法之探討…………………………..21 第二節 番石榴立枯病抗病植株之篩選…………………..……………………..…………22 第三節 番石榴立枯病抗病雜交苗之篩選…………………..………………….…………22 第四節 番石榴實生苗對菌株濾液之反應………………….………………….…..……..23 第四章 討論…………………………………………………………………………………………………….……24 第一節 番石榴實生苗接種番石榴立枯病菌方法之探討………………………....24 第二節 番石榴實生苗抗病植株及雜交苗之篩選………………………………………25 第三節 番石榴實生苗對菌株濾液之反應………………….………………………………27 第五章 結論與未來研究方向…………………………………………………….……..…………………29 參考文獻…………………………………………………………………….…………………………………….………30 | |
dc.language.iso | zh-TW | |
dc.title | 番石榴立枯病接種方法之探討及其抗病篩選 | zh_TW |
dc.title | Studies on Inoculation Methods of Guava (Psidium guajava L.) Seedlings with Nalanthamala psidii (syn. Myxosporium psidii) and the Screening for Resistance | en |
dc.type | Thesis | |
dc.date.schoolyear | 100-2 | |
dc.description.degree | 碩士 | |
dc.contributor.oralexamcommittee | 高清文(Ching-Wen Kao),陳幼光(Yu-Kuang Chen),李金龍 | |
dc.subject.keyword | 番石榴,番石榴立枯病,實生苗,接種,抗病篩選, | zh_TW |
dc.subject.keyword | guava,Psidium guajava,Nalanthamala psidii,Myxosporium psidii,Myxosporium wilt,seedlings,inoculation,screening for resistance, | en |
dc.relation.page | 60 | |
dc.rights.note | 有償授權 | |
dc.date.accepted | 2012-08-17 | |
dc.contributor.author-college | 生物資源暨農學院 | zh_TW |
dc.contributor.author-dept | 園藝學研究所 | zh_TW |
顯示於系所單位: | 園藝暨景觀學系 |
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