Please use this identifier to cite or link to this item: http://hdl.handle.net/11455/65871
標題: 山木麻黃種源在台灣9年生之表現評估
Evaluation on growth performs of 9-years Casuarina junghuhniana provenances in Taiwan
作者: 潘冠良
Pan, Kuan-Liang
關鍵字: Casuarina junghuhniana
山木麻黃
provenance trials
cluster analysis
morphological characteristics
種源試驗
歸群分析
形態性狀
出版社: 森林學系所
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摘要: 本試驗為澳洲CSIRO統籌山木麻黃國際種源試驗之一部分,以印尼原生種及非洲栽培種共28個種源為試驗材料,在台灣海岸及山地等4個不同生育地進行栽植試驗。調查及分析山木麻黃1-9年生造林木12項定量及定性之生長與形態性狀資料,結果顯示各試區種源間之生長性狀皆達顯著差異,且具有顯著的種源與環境之交感效應。山木麻黃28個種源於四湖試區之成活率、樹高及胸徑生長皆以帝汶(Timor)島的17號種源表現較佳;而在台中港試區之成活率則以帝汶島的20號種源最高,樹高生長則以帝汶島的16-19號種源表現優異,胸徑生長則以帝汶島的19號種源為最佳;另在多納試區則以4號種源之成活率和樹高生長表現最佳,而胸徑生長則以巴厘(Bali)島的10號種源最佳;於太麻里試區之成活率以肯亞(Kenya)的23號種源最佳,樹高與胸徑生長則以倫巴(Lombok)島的14號種源表現最佳。 分別計算山木麻黃1-9年廣義遺傳率,結果顯示樹高、胸徑生長在四湖、多納試驗地以第2年為最高;在太麻里者以第6年為最高;而台中港者樹高之遺傳率則以第1年可達最高。此外分析種源年份間相對生長之變異,結果顯示不同種源在不同時間之生長達顯著之差異,且有顯著的種源與林齡之間的交感效應;以第2年和其它年份進行相關分析結果顯示除太麻里之胸徑與材積生長未達顯著外,其餘皆達顯著相關。 進行主成分因子分析與歸群分析,以了解種源間之地理變異趨勢,在四湖、台中港試驗地結果顯示在低海拔之威特島(Wetar)之21號種源在空間分布上與其它種源之距離最遠,而印尼中高海拔之帝汶島16~20號等5個種源則明顯歸為一群,其它中高海拔之種源則另自成一集團,而在多納與太麻里試驗地則無明顯相同之趨勢。 種源間營養或繁殖生長物候呈現非常大的差異性,一般而言其終年皆可進行生長,並不斷重複物候現象。惟在10-2月時生長開始明顯受阻,推測可能是受東北季風或低溫之影響;以迴歸分析之結果顯示雄花始花日與山木麻黃原產地之海拔呈顯著負相關,顯示在四湖試驗地山木麻黃開花始日會隨其原產地海拔升高而提早之趨勢。
This study was undertaken as a part of international provenance trials of Casuarina junghuhniana coordinated by CSIRO, Australia. The present trial compared 28 provenances of C. junghuhniana from natural occurrence and land races, and variations in 12 growth and morphological characteristics were assessed in 1 to 9-years old stands at 4 sites in Taiwan. Considerable genetic variations among natural provenance and land races of C. junghuhniana with a significant site-by-provenance interaction were revealed. Provenance no. 16-20 from Timor Island, Indonesia, and no. 21 from Old Uhak NE Wetar, Indonesia, were selected as the superior seed sources for all 4 sites, based on Tukey's multiple range tests of their survival rate, height, and diameter growth. The broad sense heritability (h2) of provenance in all grown traits were estimated from 1 to 9-years old after plating. The grown was better in 2- years old at Sihhu and Dona, and was better heritability in 1 and 6-years old at Taichung harbor and Taimalee, respective. Data use to estimate relative growth trends in C. junghuhniana and correlation analyze. A summary of the analyses of variance over years for each site, suggested the provenance, age and age-by- provenance interaction was significant in each site. There was significant correlation of grown in 2-years old and each 1 to 9-yeas old in Sihhu, Dona and Taichung harbor. Results from both cluster and factor analysis with a principal component solution suggested that the 28 provenances could be classified into 3 geographical groups in Sihhu and Taichung harbor. The first group originated from Old Uhak NE Wetar, Indonesia and was far side of the other provenances. The second group consisted of 5 provenances from Timor, with the remaining provenances being classified into the third group. These results suggest that the ecoclines of C. junghuhniana might be affected by elevation. The phonological phase observation shows that the long grown phonological stage was without in October to February. Supposition because by northeasterly monsoon winds. There was large variation of phonological phase among and within provenance. A conclusion by regresion analyses a significant negative relationship of elevation with initial male flower phase.
URI: http://hdl.handle.net/11455/65871
文章連結: http://www.airitilibrary.com/Publication/alDetailedMesh1?DocID=U0005-3008200615485700
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