松羅湖三千餘年來的沉積物孢粉分析

Meng-Huan wu; 吳孟寰

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/66052

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	劉平妹(Ping-Mei Liew)
dc.contributor.author	Meng-Huan wu	en
dc.contributor.author	吳孟寰	zh_TW
dc.date.accessioned	2021-06-17T00:20:14Z	-
dc.date.available	2012-06-29
dc.date.copyright	2012-06-29
dc.date.issued	2012
dc.date.submitted	2012-06-25
dc.identifier.citation	工藤祐舜 1931 台灣の植物岩波講座大江二郎 1931 台灣地質圖幅李崠山圖幅說明書圖幅第十八號上河文化編著 2000 湖泊記事上河文化共256頁王開發、王增憲 1983 孢粉學概論北京大學出版社共205頁王相華、田玉娟、江貞儀、林麗君 2009 泰雅族傳統「農林混合作業」所蘊含的生態知識─論南澳鄉金洋村的赤楊木栽植林業研究專訊第6卷第4期王紹武 2009 全新世北大西洋冷事件：年代學和氣候影響第四紀研究 29（6）, p.1146-1153 正宗嚴敬 1935 植物地理學東京養賢堂正宗嚴敬、中村泰造 1940 科學に台灣 9（3）正宗嚴敬、小早川利次 1942 台灣地學記事 13（4）, p.133 台灣植物誌第二版編輯委員會 1993 台灣植物誌，第二版，第三卷，被子植物，雙子葉類〔金縷梅科-繖型花科〕台灣植物誌第二版編輯委員會共1084頁台灣植物誌第二版編輯委員會 1994 台灣植物誌，第二版，第一卷，蕨類植物、裸子植物台灣植物誌第二版編輯委員會共648頁台灣植物誌第二版編輯委員會 1996 台灣植物誌，第二版，第二卷，被子植物台灣植物誌第二版編輯委員會共855頁台灣植物誌第二版編輯委員會 1996 台灣植物誌，第二版，第二卷，被子植物，單子葉類〔澤瀉科-霉草科〕台灣植物誌第二版編輯委員會共1143頁台灣植物誌第二版編輯委員會 1998 台灣植物誌，第二版，第四卷，被子植物，雙子葉類〔岩梅科-菊科〕台灣植物誌第二版編輯委員會共1219頁北川浩之 1995 屋久杉に刻み入まれた歷史時代の氣候変動吉野正敏、安田喜憲編：歷史と氣候講座文明と環境朝倉書店（6）p.47-55 北川陽一郎、吉川周作、高原光 2009 夢洲沖コアの花粉分析に基づく大阪灣集水域における完新世の植生變遷第四紀研究48（5）p.351-363 伊東俊太郎 1996 文明の画期環境と変動伊東俊太郎、安田喜憲編：地理と文明の画期，講座文明と環境朝倉書店（2）p.1-10 吉村信吉1936 台灣湖沼の水質陸水學雜誌 Vol.6, p.27-32 吉田明宏 2006 青森縣八甲田山田代濕原における約13000年前以降の古環境變遷第四紀研究 45（6）p.423-434 吉野正敏 2009 4∼10世紀における氣候変動と人間活動地學雜誌 Vol.118（6）, p.1221-1236 李權裕、陳明義 2004 關刀溪森林生態系殼斗科植物之物候週期特有生物研究6(2), p.95-110 李政益2004 恆春半島東源谷地3000年來的沉積物孢粉分析國立台灣大學地質科學研究所碩士論文共89頁李政益 2010 恆春半島東源谷地晚第四紀之植被與氣候變化國立台灣大學地質科學研究所博士論文共109頁佐佐木舜一 1932 台灣の植物台灣時報柳重勝 1998 全球變遷：塔塔加高山生態系長期生態研究─塔塔加地區蕨類植物相及群落調查研究(一) 行政院國家科學委員會專題研究計畫成果報告共4頁林啟文、林偉雄 1995 三星圖幅及說明書五萬分之一地質圖幅15號經濟部中央地質調查所共55頁林淑芬 2004 由孢粉紀錄看宜蘭平原最近4200年來的自然環境演變及其與史前文化發展之關係國立台灣大學地質科學研究所博士論文共189頁林天妍 2007 五千多年來台灣東北的古氣候變遷：宜蘭梅花湖湖積物岩芯MHL5-A之磁學證據國立中央大學地球物理研究所碩士論文共66頁竺可禎 1973 中國五千年氣候變遷的初步研究中國科學 16, p.226-256 郭兆敏 1994 頭社盆地一萬餘年來湖泊沉積物之花粉分析國立台灣大學地質學研究所碩士論文共82頁郭城孟 1997 台灣維管束植物簡誌第壹卷行政院農委會台北郭城孟 1999 台灣自然環境保育之研究（二）台灣區域性土地潛力研究行政院國家科學委員會專題研究計畫成果報告共38頁郝志新、葛全勝、鄭景雲 2009 宋元時期中國西北東部的冷暖變化第四紀研究29（5）, p.871-879 胡志銘 1999 氣候變遷對蘭陽溪流域之流量影響國立中央大學土木工程學系碩士論文共85頁鹿野忠雄、吉村信吉 1934 次高山附近に於ける高山池沼に就いて陸水學雜誌 Vol.4, p.54-65 張耀升 2004 宜蘭地區豪雨個案之研究國立中央大學大氣物理研究所博士論文共162頁張秋蓮 2006 南投埔里鯉魚潭自2600年前以來沉積物的孢粉分析國立台灣大學地質科學研究所碩士論文共89頁陳文山、宋時驊、吳樂群、徐澔德、楊小青 2005 末次冰期以來台灣海岸平原區的海岸線變遷考古人類學刊 p.40-55 陳明義、蔡進來、陳信佑、簡益章 1992 瑞岩溪自然保護區植群生態調查（第一年）台灣省農林廳林務局保育系列研究-82-01號共78頁陳建志 1998 松蘿湖集水區植群之研究國立中興大學森林學研究所碩士論文共113頁陳鎮東、王冰潔 1997 台灣之湖泊與水庫勃海堂文化公司共540頁陳盈曄 2000 宜蘭地區秋冬降雨特性之研究國立中央大學大氣物理研究所碩士論文共118頁陳子英 2000 台灣北部低海拔的植物生態植物園資源及經營管理學術研討會論文集台中：國立自然科學博物館陳子英 2004 蘭陽溪的植群分類系統之研究臺大實驗林研究報告 18(3): 171-206 (2004) 蘇鴻傑教授榮譽退休紀念專刊陳子英、劉啟斌、吳欣玲、葉清旺 1999 蘭陽溪的植群與保育蘭陽溪生命史-宜蘭研究第五屆學術研討會論文集宜蘭縣史館 p.143-202 趙景波、岳明 1996 秦嶺及黃土區的櫟林與發育氣候西安地質學院學報 18（1）, p.67-73 黃淑玉 1975 頭社盆地孢粉分析國立台灣大學植物學研究所碩士論文共28頁黃增泉 1974 孢粉與環境：生物與環境專題研討會講稿集 157-224頁黃增泉、黃淑玉 1977 台灣之古生態研究（七）日月潭孢粉分析國立台灣大學農學院實驗林報告第120期共105頁黃增泉、陳淑華、陳世輝、郭長生、張惠珠、周稚華 1998 台灣空中孢粉誌國立台灣大學植物學研究所 177-235頁鈴木時夫 1938 台灣北部桶後溪地域の照葉喬木林を形成する群叢に就て生態學研究4(4) p.297-314 鈴木時夫 1952 東亞の森林植生古今書院共137頁楊保、譚明2009 近千年東亞夏季季風演變歷史重建及與區域溫濕變化關係的討論第四紀研究29（5）, 880-886頁臨時臺灣舊慣調查會 1918 臨時臺灣舊慣調查會第一部蕃族調查報告書大么族臺北：臨時臺灣舊慣調查會。齊士崢、宋國城、陳邦禮、謝孟龍、蔡衡、傅炯貴 1998 蘭陽溪上游沖積扇的地形演育環境與世界第二期, 137-150頁劉平妹、黃淑玉、郭兆敏 1994 台灣中部的全新世古氣候變遷初探台灣之第四紀第五次研討會暨台北盆地地下地質與工程環境綜合調查研究成果發表會中壢中央大學 107-109頁劉平妹、黃淑玉、郭兆敏、李政益 2007 台灣晚第四紀湖積物孢粉化石與古氣候研究經濟部中央地質調查所特刊第18號 p.165-186 劉昭民 1994 中國歷史上氣候之變遷台灣商務印書館共307頁劉益昌 1995 宜蘭史前文化的類型「宜蘭研究」第一屆學術研討會論文集 38-56 劉業經、呂福原、歐辰雄 1994 台灣樹木誌(增補修訂版) 國立中興大學農學院叢書第7號。劉靜榆、蘇鴻傑、曾彥學 2006 台灣中西部氣候區楠櫧林帶植群分類系統之研究特有生物研究8(2), p.53-85 蒙紅衛、馬玉貞、王維、桑艷禮 2009 陜西定邊地區2400cal. a B.P.以來高分辨率的花粉紀錄及環境變化第四紀研究29（5）, p.931-941 羅建育 1996 台灣高山湖泊沉積物之元素分佈與古氣候國立中山大學海洋地質研究所博士論文共194頁羅建育、陳鎮東 1996 嘉明湖與內蒙古鹽湖之古氣候紀錄對比：「台灣之第四紀」第六次研討會暨「台北盆地地下地質與工程環境綜合調查研究」成果發表論文集 261-265頁謝孟龍、齊士崢、陳邦禮、劉平妹 1997 蘭陽溪、二仁溪全新世河階的成因與氣候變遷海峽兩岸地形與環境教育研討會台南成功大學 65-70頁 Adhikari, D. P., Kumon, F., and Kawajiri, K. 2002 Holocene climate variability as deduced from the organic carbon and diatom records in the sediments of Lake Aoiki, central Japan. J. Geol. Soc. Japan, 108, p.249-265 Alley, R. B. 1998 Icing the North Atlantic. Nature Vol.392 p.335-336 Bianchi, G. G., McCave, I. N. 1999 Holocene periodicity in North Atlantic climate and deep ocean flow south of Iceland. Nature Vol.39 p.517-519 Bond, G. C. and R. Lotti 1995 Iceberg discharges into the North Atlantic on millennial time scales during the last deglaciation. Science 267, p.1005-1010 Bond, G., Kromer, B., Beer, J., Muschler, R., Evans, M., Showers, W., Hoffman, S., Lotti-Bond, R., Hajdas, I. and Bonani, G. 2001 Persistent solar influence on North Atlantic climate during the Holocene. Science. 294, p.2130-2136 Boninsegna, J. A. 1988 Santiago de Chile winter rainfall since 1220 as being reconstructed by tree-rings. Quatern. South Amer. Antarct. Penins. 6, p.67-87 Bowen, D. Q. 1988 Quaternary geology. Great Britain. 134-146p. Chen, C.-S. and Chen, Y.-L. 2003 The rainfall characteristics of Taiwan. Monthly Weather Review. 131, p.1323-1341 Chen, S.-H., Wu, J.-T., Yang, T.-N., Chuang, P.-P., Huang, S.-Y. and Wang, Y.-S. 2009 Late Holocene paleoenvironmental changes in subtropical Taiwan inferred from pollen and diatoms in lake sediments. J. Paleolimnol. 41, p.315–327 Chu, G., Sun, Q., Zhaoyan, G., Rioual, P., Qiang, L., Wang, K., Han, J. and Liu, J. 2009 Dust records from varved lacustrine sediments of two neighboring lakes in northeastern China over the last 1400 years. Quaternary International. 194, p.108-118 Clapperton, C. M. 1983 The glaciation of the Andes. Quaternary Science Review. 2, p.83-155 Clift, P. D. and Plumb, R.A. 2008 The Asian Monsoon. Cambridge University Press p.197-216 Cook, E. R., Anchukaitis, K. J., Buckley, B. M., D’Arrigo, R. D., Jacoby, G. C. and Wright, W. E. 2010 Asian monsoon failure and megadrought during the last Millennium. Science. 328, p.486-489 Dansereau, P. 1951 Description and recording of vegetation upon a structural basis. Ecology 32, p.172-229. De Vleeschouwer, F., Piotrowska, N., Sikorski, J., Pawlyta, J., Cheburkin, A., Le Roux, G., Lamentowicz, M., Fagel, N. and Mauquoy, D. 2009 Multiproxy evidence of ‘Little Ice Age’paleoenvironmental changes in a peat bog from northern Poland. The Holocene. 19, 4, p.625-637 Dykoski, C. A., Edwards, R. L., Cheng, H., Yuan, D., Cai, Y., Zhang, M., Lin, Y., Qing, J., An, Z. and Revenaugh, J. 2005 A high-resolution, absolute-dated Holocene and deglacial Asian monsoon record from Dongge Cave, China. Earth and Planetary Science Letters. 233, p.71-86 García-Herrera, R., and Barriopedro, D. 2006 Northern Hemisphere snow cover and atmospheric blocking variability. J. Geophys. Res. 111, D21104, doi:10.1029/2005JD006975. Gómez Ortiz, A., Schutle, L., Palacios, D., Ramos, M., Tanarro, L. M., Salvador, F., De Marcos, J., Luengo, E. and García, A. 2002 El sistema morrénico del Corral del Veleta（Sierra Nevada, España）. In Pérez González, A., Vegas, J. and Machado, M. J., editors, Aportaciones a la Geomorfología de España en el inicio del Tercer Milenio. Instituto Geológico y Minero, p.405-416 González Trueba, J. J., Martín Moreno, R., Martínez de Pisón, E. and Serrano, E. 2008 ‘Little Ice Age’glaciation and current glaciers in the Iberian Peninsula. The Holocene. 18, 4, p.551-568 Grove, J. M. and Switsur, V. R. 1994 Glacial geological evidence for the Medieval Warm Period. Clim. Change 26, p.143-169 Holdridge, L. R. 1947. Determination of world plant formations from simple climatic data. Science 105, p.367-368. Hong, Y.-T., Hong, B., Lin, Q.-H., Zhu, Y.-X., Yasuyuki, S., Masahi, H., Masao, U., Leng, X.-T., Jiang, H.-B., Xu, H., Wang, H., Yi, L. 2003 Correlation between Indian Ocean summer monsoon and North Atlantic climate during the Holocene. Earth and Planetary Science Letters. 221, p.371-380 Huang, S.-F. and Lin, T.-P. 2006 Migration of Trochodendron aralioides（Trochodendraceae） in Taiwan and its adjacent areas. Botanical Studies. 47, p.83-88 Huang, S.-Y. and Huang, T.-C. 1977 Paleoecological study of Taiwan（5）-Toushe Basin. Taiwania. 22, p.1-4 Huang, T.-C. 1972 Pollen flora of Taiwan. National Taiwan University, Botany Department press. 297, 177p. plates Huang, T.-C. 1981 Spore flora of Taiwan. National Taiwan University, Botany Department press. 111p, 120 plates Iverson, J., Faegri, K. 1975 Textbook of pollen analysis. Munksgaard, Copenhagen, Denmark. p.129 Jiang, Q.-H. and Dolores, R. P. 1999 Environmental and archaeological implications of a late Quaternary palynological sequence, Poyang Lake, southern China. Quaternary Research. 52, p.250-258 Jian, Z., Wang, P., Saito, Y., Wang, J., Pflaumann, U., Oba, T. and Cheng, X. 2000 Holocene variability of the Kuroshio Current in the Okinawa Trough, northwestern Pacific Ocean. Earth and Planetary Science Letter. 184, p.305-319 Jin, L. and Su, B. 2000 Natives or immigrants：modern human original in East Asia. Nature Rev. Genet. 1, p.126-137 Kiladis, G. N. and Diaz, H. F. 1989 Global climatic anomalies with extremes in the Southern Oscillation events. Journal of Climate. 2, p.1069-1090 Lamb, H. H. 1972 Climates：Present, Past and Future. London：Methuen. Vol. Ⅰ：Fundamentals and Climate Now. 270p. Lamb, H. H. 1985 Climatic History and the Future. Princeton Univ. Press Li, Z., Saito, Y., Matsumono, W., Wang, Y., Tanabe, S. and Vu, Q. L. 2006 Climate change and human impact on the Song Hong (Red River) Delta, Vietnam, during the Holocene. Quaternary International. 144, p.4-28 Liew, P. M. 1977 Pollen analysis of Pleistocene sediments at Waichiataoken, central Taiwan. Acta Geologica Taiwanica. 19, p.103-109 Liew, P.-M. and Hsieh, M.-L. 2000 Late Holocene (2 ka) sea level, river discharge and climate interrelationship in the Taiwan region. Journal of Asian Earth Sciences. 18, p.499-505 Liew, P.-M. and Huang, S.-Y. 1994 A 5000-year pollen record from Chitsai Lake, Central Taiwan. TAO Vol.5, No.3, p.411-419 Liew, P.-M., Huang, S.-Y. and Kuo, C.-M. 2002 Climatic changes of recent several millennia in Taiwan based on pollen record. Symposium for the retirement of Profs. Tsien, Hsien Ho. and Lo, Huann Jih. of the Department of Geosciences, National Taiwan Univ, p.165-170 Lin, S.-F., Huang, T.-C., Liew, P.-M. and Chen, S.-H. 2007 A palynological study of environmental changes and their implications for prehistoric settlement in Ilan Plain, northeastern Taiwan. Vegt Hist Archaeobot. 16, p.127-138 Long, H., Lai, Z., Wang, N. and Li, Y. 2010 Holocene climate variations from Zhuyeze terminal lake records in East Asian monsoon margin in arid northern China. Quaternary Research. 74, p.46–56 Lou, J.-Y. and Chen, C.-T. 1997 Paleoclimatological records of the Great Ghost Lake in Taiwan. Science in China Series D. 40, p.284-292 McCabe, A. M. and Clark, P. U. 1998 Ice-sheet variability around the North Atlantic Ocean during the last deglaciatio. Nature. 392, p.373-377 Maria, R., Karin, H. and David, T. 2008 A record of vegetation dynamics and lake level changes from Lake Emakat, northern Tanzania, during the last c.1200 years. Journal of Paleolimnology. 40, p.583-601 Murdmaa, I., Polyak, L., Ivanova, E. and Khromova, N. 2004 Paleoenvironments in Russkaya Gavan’ Fjord (NW Novaya Zemlya, Barents Sea) during the last millennium. Palaeogeography, Palaeoclimatology, Palaeoecology. 209, p.141-154 Myers, A. A. and Giller, P. S.（eds.） 1988 Analytical Biogeography：an Integrated Approach to the Study of Animal and Plant Distributions. Chapman and Hall, New York Porter, S. C. and An, Z.-S. 1995 Correlation between climate events in the North Atlantic and China during the last glaciation. Nature. 375, p.305-308 Rabassa, J. and Clapperton, C. M. 1990 Quaternary glaciations of the southern Andes. Quaternary Science Review. 2, p.153-174 Ramezani, E., Mohadjer, M., Knapp, H., Ahmadi, H. and Joosten, H. 2008 The late-Holocene vegetation history of the Central Caspian（Hyrcanian）forests of northern Iran. The Holocene. 18,2, p.307-321 Reimer, P. J., Baillie, M. G. L., Bard, E., Bayliss, A., Beck, J. W., Blackwell, P. G., Bronk Ramsey, C., Buck, C. E., Burr, G., Edwards, R. L., Friedrich, M., Grootes, P. M., Guilderson, T. P., Hajdas, I., Heaton, T. J., Hogg, A. G., Hughen, K. A., Kaiser, K. F., Kromer, B., McCormac, F. G., Manning, S. W., Reimer, R. W., Richards, D. A., Southon, J., Turney, C. S. M., van der Plicht, J., Weyhenmeyer, C. 2009 IntCal09 and Marine09 radiocarbon age calibration curves, 0-50,000 years cal BP. Radiocarbon. 51, p.1111–1150. Relter, P. 2000 From Shakespeare to Defoe: Malaria in England in the Little Ice Age. Emerging Infectious Diseases. Vol.6, No.1, p.1-11 Röthlisberger, F. 1986 1000 Jahre Gleistschergerchichte der Erde, Salzburg：Verlag Sauerlander Sakaguchi, Y. 1983 Warm and cold stages in the past 7600 years in Japan and their global correlation. Bull. Dep. Geogr. Univ. Tokyo,15, p.1-31 Schimper, A. F. W. and F. C. von Faber. 1935 Pflanzengeographie auf physiologischer Grundlage. 3rd ed. Fisher, Jena. 2 vols., p.588 & p.1612 Selvaraj, K., Chen, C.-T. A. and Lou, J.-Y. 2007 Holocene East Asian monsoon variability：Links to solar and tropical Pacific forcing. Geophysical Research Letters 34 L01703, doi：10.1029/2006GL028155 Selvaraj, K., Chen, C.-T. A., Lou, J.-Y. and Kotlia, B. S. 2010 Holocene weak summer East Asian monsoon intervals in Taiwan and plausible mechanisms. Quaternary International. doi：10.1016/j.quaint.2010.01.05 Shen, W. 1974 Changes in China’s climate. Bulletin of the American Meteorology Society Vol.55, No.11 Su, H.-J. 1984a. Studies on the climate and vegetation types of the natural forests in Taiwan. (1)Analysis of the variation in climate factors. Quart. Journ. Chin. For 17(3), p.1-73 Su, H.-J. 1984b. Studies on the climate and vegetation types of the natural forests in Taiwan. (2)Altitudinal vegetation zones in relation to temperature gradient. Quart. Journ. Chin. For 17(4), p.57-73. Su, Z. and Shi, Y. 2002 Response of monsoonal temperate glaciers to global warming since the Little Ice Age. Quaternary International 97-98 p.123-131 Taylor, D., Yen, O. H., Sanderson, P. G. and Dodson, J. 2001 Late Quaternary peat formation and vegetation dynamics in a lowland tropical swamp： Nee Soon, Singapore. Palaeogeography. Palaeoclimatology. Palaeoecology. 171, p.269-287. Tsukada, M. 1966 Late Pleistocene vegetation and climate in Taiwan（Formosa）：The proceedings of the National Academy of Science, 55（3）, p.543-548 Underhill, P. A., Passarino, G. and Lin, A. A.2001 The phylogeography of Y chromosome binary haplotypes and the origins of modern human populations. Ann. Human Genet., 65, p.43-62 van der Kaars, S., Penny, D., Tibby, J., Fluin, J., Dam, R. A. C. and Suparan, P. 2001 Late Quaternary palaeoecology, palynology and palaeolimnology of a tropical lowland swamp Rawa Danau, West-Java, Indonesia. Palaeogeography. Palaeoclimatology. Palaeoecology. 171, p.185-212 van Geel, B., Raspopov, O. M., Renssen, H., van der Plicht, J., Dergachev, V. A. and Meijer, H. A. J. 1999 The role of solar forcing upon climate change. Quaternary Science Reviews. 18, p.331-338 Villalba, R. 1990 Climatic fluctuations in Northern Patagonia in the last 1000 years as inferred from tree-ring records. Quaternary Research. 34, p.346-360 Villalba, R. 1994 Tree-ring and glacial evidence for the Medieval Warm Epoch and the Little Ice Age in southern South America. Climatic Change. 26, p.183-194 Wang, Y., Cheng, H., Edwards, R. L., He, Y., Kong, X., An, Z., Wu, J., Kelly, M. J., Dykoski, C. A. and Li, X. 2005 The Holocene Asian Monsoon：links to solar changes and North Atlantic climate. Science. 308, p.854-857 Wang, L.-C., Wu, J.-T., Lee, T.-Q., Lee, P.-F. and Chen, S.-H. 2011 Climate changes inferred from intergrated multi-site pollen data in northern Taiwan. Journal of Asian Earth Sciences. 40, p.1164-1170 Weaver, P. L., Byer, M. D. and Bruck, D. L. 1973 Transpiration rates in the Luquillo Mountains in Puerto Rico. Biotropica 5（2）, p.123-133 Whitemore, T. C. 1975. Tropical Rain Forests of the Far East. Oxford Univ. Press, London. 352p. Whittaker, R. H. 1970. Communities and Ecosystems. Macmillan, New York. 162p. Wiles, G.-C., Barclay, D.-J. and Calkin, P.-E. 1999 Tree-ring-dated ‘Little Ice Age’ histories of maritime glaciers from western Prince William Sound, Alaska. The Holocene 9 ,2, p.163-173 Xu, Q., Li Y. and Yang X.2007 Quantitative relationship between pollen and vegetation in Northern China. Science in China（Series D）, 50（4）, p.582-599 Yamada, K., Yamite, M., Saito-Kato, M., Okuno, M., Shinozuka, Y. and Yasuda Y. 2010 Late Holocene monsoonal-climate change inferred from Lakes Ni-no-Megata and San-no-Megata, northeastern Japan. Quaternary International.220, p.122-132 Yao, T., Shi, Y. and Yang, Z. 1996 The climatic record in ice cores from west China since the Little Ice Age. Proceeding of the Fifth Chinese Conference on Glaciology and Geocryology, Vol.1.1. Gansu Culture Press. p.99-106 Yin, J.-H. and Battisti, D. S. 2000 The importance of the tropical sea surface temperature patterns in simulations of Last Glacial Maximum climate. J. Climate.14, p.565-581 Zhang, P.-Z., Cheng, H., Edwards, R. L., Chen, F.-H., Wang, Y.-J., Yang, X.-L., Liu, J., Tan, M., Wang, X.-F., Liu, J.-H., An, Z.-L., Dai, Z.-B., Zhou, J., Zhang, D.-Z., Jia, J.-H., Jin, L.-Y. and Johnson, K. R. 2008 A test of climate , sun, and cultural relationships from an 1810-year Chinese cave record. Science. 322, p.940-942
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/66052	-
dc.description.abstract	松羅湖位於台灣東北部雪山山脈，海拔約1250公尺，地處冬季東北季風迎風面、濕冷多雨，夏秋之際除了午後雷陣雨外，颱風亦會帶來暴雨，整體氣候型態屬副熱帶季風氣候，年均溫約15°C、年降雨量約4400mm，並無明顯乾溼季之分；蘭陽地區鮮明的氣候型態形塑出獨特的森林組成，松羅湖山區長期未受人為干擾，現生森林組成介於下部櫟林帶（海拔800-1500公尺）與楠櫧林帶（海拔800公尺以下）之間。本研究採取了湖沼上部3.8公尺的沉積物，搭配6個碳十四定年樣本，分析過去3000餘年來台灣東北部環境變化之概況。岩芯全長385公分、以泥質沉積物為主，並多夾有植物碎屑，整段岩芯沉積速率穩定，約為1mm/yr。依據孢粉圖譜各屬之消長變化，本研究將松羅湖岩芯分出2個主要的孢粉帶（ZoneⅡ：3300-1300年前、ZoneⅠ：1300年前以來），再依據孢粉帶內各花粉優勢種屬消長，各細分出2個孢粉亞帶（Ⅰ-1：650年前以來、Ⅰ-2：1300-650年前、Ⅱ-1：2150-1300年前、Ⅱ-2：3400-2150年前）。 3400-2150（Ⅱ-2）年前，主要植被組成為松科、鐵杉、櫟屬、灰木、昆欄樹，森林底層多蕨類，氣候偏向濕涼；2150-1300年前（Ⅱ-1），主要植被組成為松科、鐵杉、赤楊、櫟屬、灰木，此亞帶前期氣候偏涼濕，涼濕的氣候伴隨大雨，蘭陽溪上游崩塌變多，2000年前以來氣候回溫，雨量更增，破壞原有森林體系，赤楊成為森林演替後的優勢種，此時正是符合已有研究、史前考古遺址陷入文化斷層的時期，顯示蘭陽溪流域頻繁的崩塌、氾濫事件，使得蘭陽平原不適人居；至亞帶中期約1700年前冬季季風轉強，溫度降低使鐵杉族群擴張。1300-650年前（Ⅰ-2）氣候再度變暖轉乾，蕨類與鐵杉大量減少，植被組成以栲屬、櫟屬、赤楊為主，此亞帶之上部可對應到中世紀暖期；650年前（Ⅰ-1）之後鐵杉、松科和蕨類再度增加，氣候轉濕冷，可對映到小冰期，草本植物比例大幅上升。總體而言，除了Ⅰ-1亞帶外，木本植物所佔比例相當高，木／草本比例都在80％以上；蕨類所佔比例亦甚高，孢子／花粉比例多數時期都在50％以上。由1700年前、650年前這幾個冷暖轉換的時間點，鐵杉與蕨類孢子皆呈幾波高峰，面臨東亞季風演變下，松羅湖當代的環境變化具有高度敏感性。冷暖氣候交替也主宰了台灣東北部森林組成。	zh_TW
dc.description.abstract	Palynological studies can provide the impact of rapid climate changes on terrestrial ecosystems, since vegetation responses to climate fluctuation occurs on the order of decades. Here we study pollen record from Sonluo Lake and intend to discover the climate conditions of northeastern Taiwan during the recent 3000 years under the regime of Asian monsoon. Sonluo Lake, at an elevation of 1300 m AMSL, is an isolated basin located in Shueshan Range, northeastern Taiwan. Annual precipitation is approximately 4,400 mm which evenly distributed through the whole year. Vegetation surrounding the basin consists of the lower Quercus (vegetation 800-1500 m amsl) Zone and Machilus-Castanopsis (vegetation < 800 m amsl ) Zone. Four pollen zones are assigned in this pollen spectrum, which indicated the following climatic changes. During 3400-2000 yr BP（Zone IV）, Tsuga, Quercus and Trochodendron are abundant, indicating a cool period. Subsequently, the warm climate conditions between 2000 and 1700 yr BP (Zone III) are represented by less Tsug. Meanwhile the increasing for Alnus indicates more landslides trigger by strongly rainfall under summer monsoon. This in turn suggests that summer monsoon intensified. The lowest percentage of Tsuga and fern spores from 1300 to 650 yr BP (Zone II), indicates a warmer and drier period. Since 650 yr BP, the basin experienced cool and wet conditions again evidenced by the return of Tsuga, Trochodendron and fern spore. The last climatic phases could be corresponded to the Little Ice Age（LIA）, with not only decreasing of temperature but also increasing of rainfall and infers that winter monsoon intensified.	en
dc.description.provenance	Made available in DSpace on 2021-06-17T00:20:14Z (GMT). No. of bitstreams: 1 ntu-101-R97224114-1.pdf: 8655035 bytes, checksum: 0571b418bec424805185d66b734dd229 (MD5) Previous issue date: 2012	en
dc.description.tableofcontents	目錄 I 表目錄 II 圖目錄 III 摘要 IV 一序論 1 1.1前言 1 1.2研究區域簡介 5 1.2.1研究區域地理地質概況 5 1.2.2研究區域氣候 7 1.2.3研究區域植被概況 9 1.3前人研究 14 二岩芯描述及定年 18 2.1岩芯鑽取與描述 18 2.2定年 20 三分析方法 21 花粉分析及標本處理 21 四分析結果 23 五古植被與古環境重建 31 六討論 38 6.1與其他古氣候資料對比 38 6.1.1與歷史文獻資料對比 46 6.2鐵杉、蕨類、赤楊與殼斗科消長之探討 47 6.3湖泊水位探討 55 七結論 57 參考文獻 59
dc.language.iso	zh-TW
dc.subject	台灣	zh_TW
dc.subject	松羅湖	zh_TW
dc.subject	孢粉	zh_TW
dc.subject	Taiwan	en
dc.subject	Sonluo Lake	en
dc.subject	pollen	en
dc.title	松羅湖三千餘年來的沉積物孢粉分析	zh_TW
dc.title	Pollen Record of the Recent 3000 years sediments in Sonluo Lake, Northeastern Taiwan	en
dc.type	Thesis
dc.date.schoolyear	100-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	陳淑華,林淑芬,謝孟龍
dc.subject.keyword	松羅湖,孢粉,台灣,	zh_TW
dc.subject.keyword	Sonluo Lake,pollen,Taiwan,	en
dc.relation.page	119
dc.rights.note	有償授權
dc.date.accepted	2012-06-25
dc.contributor.author-college	理學院	zh_TW
dc.contributor.author-dept	地質科學研究所	zh_TW
顯示於系所單位：	地質科學系

文件中的檔案：

檔案	大小	格式
ntu-101-1.pdf 未授權公開取用	8.45 MB	Adobe PDF

顯示文件簡單紀錄

系統中的文件，除了特別指名其著作權條款之外，均受到著作權保護，並且保留所有的權利。