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完整後設資料紀錄
DC 欄位 | 值 | 語言 |
---|---|---|
dc.contributor.advisor | 葉德銘(Der-Ming Yeh) | |
dc.contributor.author | Shu-Ting Fan | en |
dc.contributor.author | 范舒婷 | zh_TW |
dc.date.accessioned | 2021-06-13T01:06:53Z | - |
dc.date.available | 2008-07-30 | |
dc.date.copyright | 2007-07-30 | |
dc.date.issued | 2007 | |
dc.date.submitted | 2007-07-23 | |
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dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/29431 | - |
dc.description.abstract | 本試驗針對儲運天數、溫度、乙烯及1-MCP對天南星科觀葉植物儲後生長及第二光合作用系統之影響來探討。以儲運後發生之黃化、壞疽葉片數或品質分級判斷各觀葉植物之儲運上限。粗肋草‘愛玉’與火鶴‘粉冠軍’以15或20℃皆可儲運14天,黛粉葉‘天堂’與白鶴芋‘Calypso’以15℃可儲運14天,金錢樹以16、23或30℃可儲運14天,而黑葉觀音蓮以16℃可儲運14天。粗肋草‘白馬’、黛粉葉‘寶玉’與白鶴芋‘綠巨人’以16或23℃儲運可儲運7天,粗肋草‘巴黎美人’以15或20℃儲運可儲運7天,黛粉葉‘瑪莉安’以16℃儲運亦可儲運7天。粗肋草‘箭羽’以16、23或29℃儲運14天,黛粉葉‘多芽夏雪’以16℃儲運7或14天,蔓綠絨‘綠帝王’以16或23℃儲運7或14天,各處理儲後品質不佳,皆未具販售價值。
儲運時,不同品種粗肋草及黛粉葉對乙烯之反應不同。儲運後,以4.5 μL•L-1乙烯燻蒸之粗肋草‘白馬’最低葉片葉綠素螢光值及葉綠素計讀值顯著降低,黃化及掉落葉片數顯著較未燻蒸乙烯者高,且分級品質較差。而4.5 μL•L-1乙烯燻蒸對粗肋草‘愛玉’最低葉片葉綠素螢光值、葉綠素計讀值、黃化葉片數及分級品質皆無影響。儲運後,4.7 μL•L-1乙烯處理使黛粉葉‘寶玉’及‘瑪莉安’最低葉片葉綠素螢光值下降,黃化和壞疽葉片數增加,品質分級下降,而‘寶玉’最低葉片葉綠素螢光值下降較‘瑪莉安’嚴重。儲運時有無燻蒸乙烯皆使多芽夏雪黛粉葉最低節位葉片葉綠素螢光值下降,黃化及掉落葉片數增加,品質分級下降。 乙烯濃度愈高,造成粗肋草‘白馬’葉片黃化數愈多且分級品質愈差,0.8 μL•L-1乙烯燻蒸即造成粗肋草‘白馬’葉綠素計讀值、Fv/Fm值及光子產量降低,而4.1 μL•L-1乙烯使傷害更嚴重。乙烯濃度愈高,黛粉葉‘寶玉’、‘瑪莉安’及蔓綠絨‘綠帝王’之黃化葉片數及落葉數愈多且分級品質愈差,儲運期間1 μL•L-1乙烯對黛粉葉‘寶玉’之Fv/Fm值及光子產量無影響,但2.3 μL•L-1乙烯造成其二值降至最低。儲運期間0.7 μL•L-1乙烯即造成黛粉葉‘瑪莉安’葉綠素計讀值、Fv/Fm值及光子產量降低,而4.6 μL•L-1乙烯燻蒸造成之傷害最嚴重。0.6 μL•L-1乙烯使蔓綠絨‘綠帝王’ Fv/Fm值及光子產量降低,而3.9 μL•L-1乙烯會使傷害更嚴重。 儲運前燻蒸1-MCP可減少黃化葉片數、增加品質分級及減輕最低葉片之葉綠素螢光值及葉綠素計讀值降低程度,改善儲運期間乙烯造成天南星科觀葉植物中對乙烯敏感者之危害。粗肋草‘白馬’之1-MCP有效濃度及適當燻蒸時間為以300 nL•L-11-MCP 燻蒸6小時;黛粉葉‘寶玉’及‘瑪莉安’為以600 nL•L-11-MCP燻蒸 6小時;蔓綠絨‘綠帝王’ 為以600 nL•L-1燻蒸1-MCP 2小時。 | zh_TW |
dc.description.abstract | The potted foliage plants of Taiwan have potential to transport to international markets. However, the storage environments may cause stress, and decrease poststorage quality. Thus the objectives of this thesis were to study the effects of storage duration, temperature, ethylene and 1-MCP on poststorage growth and photosystemⅡ in Araceae potted foliage plants.
According to acceptable postproduction quality based on the numbers of chlorotic, necrotic leaves and/or rating, Aglaonema ‘Chalit’s Fantasy’ and Anthurium scherzerianum Lind. ‘Pink Champion’ could be stored at 15 or 20℃ for 14 days, Dieffenbachia ‘Mars’ and Spathiphyllum kochii L. ‘Calypso’could be stored at 15℃ for 14 days, Zamioculcas zamiifolia could be stored at 16, 23 or 30℃ for 14 days, Alocasia amazonica could be stored at 16℃ for 14 days, Aglaonema commutatum Schott. ‘White Tip’, D. picta (Lodd.) Schott. ‘Vesuvius’ and S. kochii L. ‘Sensation’ could be stored at 16 or 23℃ for 7 days, Aglaonema ‘Pattaya Beauty’ could be stored at 15 or 20℃ for 7 days, and D.(Jacq.) Schott ‘Tropic Marianne’ could be stored at 16℃ for 7 days. Aglaonema nitidum (Jacq.) Kunth ‘Curtisii’ stored at 16, 23 or 30℃ for 14 days, D. seguine Nichols ‘Tropic Snow’ stored at 16℃ for 7 or 14 days, and Philodendron ‘Imperial Green’ stored at 16 or 23℃ for 7 or 14 days had poor poststorage quality and were unsalable. Ethylene may decrease poststorage quality in foliage plants that are sensitive to ethylene. Exposure to 4.5 μL•L-1 ethylene during storage for 5 or 7 days decreased SPAD-502 value and Fv/Fm of the lowest leaves and rating, and increased chlorotic leaves in Aglaonema commutatum Schott. ‘White Tip’. In contrast, exposure to 4.5 μL•L-1 ethylene did not alter on SPAD-502 value and Fv/Fm of the lowest leaves, chlorotic leaves and rating in Aglaonema ‘Chalit’s Fantasy’. Exposure to 4.7 μL•L-1 ethylene during storage for 7 days decreased Fv/Fm of the lowest leaves and quality, and increased numbers of chlorotic and necrotic leaves in Diffenbachia ‘Vesuvius’ and ‘Tropic Marianne’. More decrease of poststorage Fv/Fm of the lowest leaves wae measured in D. picta (Lodd.) Schott. ‘Vesuvius’ than D. (Jacq.) Schott ‘Tropic Marianne’. Regardless of ethylene or not, D. seguine Nichols ‘Tropic Snow’ exhibited decreased Fv/Fm of the lowest leaves, and increased chlorotic and necrotic leaves, and poor postproduction. Exposure to 0.8 μL•L-1 ethylene during storage decreased SPAD-502 value, Fv/Fm and quantum yield of the lowest leaves in Aglaonema ‘White tip’. Exposure to 4.1 μL•L-1 ethylene caused damage more seriously. Exposure to 1.0 μL•L-1 ethylene during storage did not effect Fv/Fm and quantum yield of the lowest leaves in Diffenbachia ‘Vesuvius’, but exposure to 2.3 μL•L-1 ethylene during storage increased number of chlorotic leaves and decreased rating. Exposure to 0.7 μL•L-1 ethylene during storage decreased SPAD-502 value, Fv/Fm and quantum yield of the lowest leaves in Diffenbachia ‘Tropic Marianne’, and exposure to 4.1 μL•L-1 ethylene caused more damage. Exposure to 0.6 μL•L-1 ethylene during storage decreased SPAD-502 value, Fv/Fm and quantum yield of the lowest leaves in P. ‘Imperial Green’, and exposure to 3.9 μL•L-1 ethylene results in more damage. Differential efficient concentration and adaptable treatment time of 1-MCP were determined in various species or cultivars. To prevent the damage of ethylene, A. commutatum Schott. ‘White Tip’ could be treated with 300 nL•L-1 1-MCP for 6 hours, D. picta (Lodd.) Schott. ‘Vesuvius’ and D.(Jacq.) Schott ‘Tropic Marianne’ with 600 nL•L-1 1-MCP for 6 hours, and P. ‘Imperial Green’ with 600 nL•L-11-MCP for 2 hours. After 1-MCP treatments, Araceae foliage plants which are sensitive to ethylene had fewer chlorotic leaves, higher rating, Fv/Fm and SPAD-502 value of the lowest leaves. | en |
dc.description.provenance | Made available in DSpace on 2021-06-13T01:06:53Z (GMT). No. of bitstreams: 1 ntu-96-R94628102-1.pdf: 2905029 bytes, checksum: 23f7f9c1edd55787244f1ec1e2d8e3ac (MD5) Previous issue date: 2007 | en |
dc.description.tableofcontents | 致謝……………………………………………………………………………….…...i
內容目次…………………………………………………………………………..…..ii 表目次………………………………………………………………………….…..…vi 圖目次…………………………………………………………………………….…...x 摘要………………………………………………………………………………….xiv 第一章 前言 (Introduction) …………………………………………………….…..1 第二章 前人研究 (Literature review) ……………………………………………...4 一、栽培因子對觀葉植物儲後品質之影響……………………………………4 二、儲運因子對觀葉植物儲後品質之影響……………………………………6 三、乙烯對盆花及觀葉植物儲後品質之影響…………………………….…..9 四、1-MCP對園藝作物儲後品質之影響……………………………………12 五、葉綠素螢光值………………………………………………………..……14 第三章 一般材料與方法(General Materials and Methods)……………….………19 第四章 儲運天數及溫度對天南星科觀葉植物儲後生長及光合作用第二系統 之影響………………………………………………………………………………..22 Effects of Storage Duration and Temperature on Poststorage Growth and Photosystem Ⅱ of Araceae Foliage Plants 前言……………………………………………………………………………22 材料與方法……………………………………………………………………23 結果……………………………………………………………………………28 一、模擬黑暗儲運天數與溫度對粗肋草‘白馬’儲後生長及光合作用第二系統之影響………………………………………………………28 二、模擬黑暗儲運溫度對粗肋草‘箭羽’儲後生長及光合作用第二系統之影響………………………………………………………………28 三、模擬黑暗儲運天數與溫度對粗肋草‘愛玉’儲後生長及光合作用第二系統之影響………………………………………………………28 四、模擬黑暗儲運天數與溫度對粗肋草‘巴黎美人’儲後生長及光合作用第二系統之影響. ………………………………………………..29 五、模擬黑暗儲運天數與溫度對黛粉葉‘寶玉’儲後生長及光合作用第二系統之影響………………………………………………………30 六、模擬黑暗儲運天數與溫度對黛粉葉‘天堂’儲後生長及光合作用第二系統之影響………………………………………………………30 七、模擬黑暗儲運天數對黛粉葉‘瑪莉安’儲後生長及光合作用第二系統之影響……………………………………………………………31 八、模擬黑暗儲運天數對黛粉葉‘多芽夏雪’儲後生長及光合作用第二系統之影響…………………………………………………………31 九、模擬黑暗儲運溫度對白鶴芋‘Calypso’儲後生長及光合作用第二系統之影響……………………………………………………………32 十、模擬黑暗儲運天數與溫度對白鶴芋‘綠巨人’儲後生長及光合作用第二系統……………………………………………………………32 十一、模擬黑暗儲運天數與溫度對蔓綠絨‘綠帝王’儲後生長及光合作用第二系統之影響…………………………………………………33 十二、模擬黑暗儲運天數與溫度對金錢樹儲後生長及光合作用第二系統之影響……………………………………………………………33 十三、模擬黑暗儲運天數與溫度對火鶴‘粉冠軍’儲後生長及光合作用第二系統之影響………………………………………………...….33 十四、模擬黑暗儲運天數對黑葉觀音蓮儲後生長及光合作用第二系統之影響………………………………………………………………34 討論……………………………………………………………………………35 第五章 乙烯對天南星科觀葉植物儲後生長及光合作用第二系統之影響……..71 Effects of Ethylene on Poststorage Growth and Photosystem Ⅱ of Araceae Foliage Plants 前言……………………………………………………………………………71 材料與方法……………………………………………………………………72 結果……………………………………………………………………………76 試驗一、儲運前及儲運期間乙烯與儲運天數對粗肋草‘白馬’及‘愛玉’儲後生長及光合作用第二系統之影響.…………….…..……..…..76 試驗二、乙烯濃度對粗肋草‘白馬’儲後生長及光合作用第二系統之影響........................................................................................................77 試驗三、乙烯對黛粉葉‘寶玉’、‘瑪莉安’及‘多芽夏雪’儲後生長及光合作用第二系統之影響………………...……………….…..………..77 試驗四、乙烯濃度對黛粉葉‘寶玉’及‘瑪莉安’儲後生長及光合作用第二系統之影響…..……………………...………………….…………..80 試驗五、乙烯濃度與儲運天數對蔓綠絨‘綠帝王’儲後生長及光合作用第二系統之影響…...….……………..……………………………..81 試驗六、乙烯濃度對蔓綠絨‘綠帝王’儲後生長及光合作用第二系統之影響…...……………………...……………………………………..82 討論…………………………………………..……….………………….……83 第六章 1-MCP對天南星科觀葉植物儲後生長及光合作用第二系統之影響…126 Effects of 1-MCP on Poststorage Growth and Photosystem Ⅱ of Araceae Foliage Plants 前言…………………………………………………………………….…….126 材料與方法…………………………………………………………….…….127 結果……………………………………………………………………..……131 試驗一、1-MCP濃度對粗肋草‘白馬’及儲後生長及光合作用第二系統之影響.……..………..……………………………………..……...131 試驗二、1-MCP濃度對黛粉葉‘寶玉’及儲後生長及光合作用第二系統之影響….........................................................................................131 試驗三、1-MCP濃度對黛粉葉‘瑪莉安’及儲後生長及光合作用第二系統之影響………………...………………………………………..132 試驗四、1-MCP濃度對蔓綠絨‘綠帝王’及儲後生長及光合作用第二系統之影響……………………...…………………………………..133 試驗五、1-MCP燻蒸時間對蔓綠絨‘綠帝王’及儲後生長及光合作用第二系統之影響….………………………….……….……………..134 討論…………………...………………………………………………..134 第七章 結論(Conclusion)…………………………………………………………154 Summary……………………………………………………………………………158 參考文獻(Reference)………………..……………………………...………………161 | |
dc.language.iso | zh-TW | |
dc.title | 儲運天數、溫度、乙烯及1-MCP對天南星科觀葉植物儲後生長及光合作用第二系統之影響 | zh_TW |
dc.title | Effects of Storage Duration, Temperature, Ethylene and 1-MCP on Poststorage Growth and Photosystem Ⅱ of Araceae Foliage Plants | en |
dc.type | Thesis | |
dc.date.schoolyear | 95-2 | |
dc.description.degree | 碩士 | |
dc.contributor.oralexamcommittee | 林瑞松(Ruey-Song Lin),王自存(Tsu-Tsueb Wang),張耀乾(Yao-Chien Chang) | |
dc.subject.keyword | 乙烯敏感度,葉綠素螢光,葉綠素計讀值,儲後品質, | zh_TW |
dc.subject.keyword | ethylene sensitivity,chlorophyll fluorescence,SPAD-502 value,poststorage quality, | en |
dc.relation.page | 172 | |
dc.rights.note | 有償授權 | |
dc.date.accepted | 2007-07-23 | |
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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