溪頭試驗林2005年泰利颱風期間雨水與溪水化學變化研究

Shih-Fu Lo; 羅士福

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/33186

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	王立志(Lih-Jih Wang)
dc.contributor.author	Shih-Fu Lo	en
dc.contributor.author	羅士福	zh_TW
dc.date.accessioned	2021-06-13T04:28:23Z	-
dc.date.available	2006-07-27
dc.date.copyright	2006-07-27
dc.date.issued	2006
dc.date.submitted	2006-07-20
dc.identifier.citation	王立志、金恆鑣、夏禹九、洪富文、林國銓、林登秋 (1997) 福山試驗林的營養循環研究 (1993-1996)。「1997 海峽兩岸森林生物技術及環境變遷對森林生態系的影響研討會」論文集。台大森林研究所。 pp：343-355。王立志、鄧子菁、夏禹九、金恆鑣、劉瓊霦 (1998) 1996年葛樂禮颱風期間福山試驗林溪流水化學變化之研究。台灣大學實驗林研究報告12(3)：139-151。王立志、鄧子菁、夏禹九、金恆鑣、劉瓊霦 (1999) 1996年賀伯颱風期間福山試驗林溪流水化學變化之研究。中華林學季刊32(1)：217-232。中央氣象局 (2005) 中華民國85年(1996) 颱風路徑圖。中央氣象局。林青蓉 (1990) 溪頭試驗集水區降水及溪流水質之研究。台大森林研究所碩士論文。林青蓉、陳信雄、陳明杰 (1991) 溪頭試驗集水區降水及溪流水質之研究。台大實驗林研究報告5(2)：67-93。林登秋、林則桐、江智民、夏禹九、金恆鑣 (1999) 颱風對台灣東北部天然闊葉林林冠干擾之研究。中華林學季刊32(1)：67-73。林俊全 (2001) 溪頭地區桃芝颱風水土災害特徵之探討。中華水土保持學報 32(4)：261-270。金恆鑣、楊炳炎 (1984) 畢祿溪試驗集水區的降水及溪水化學。林試所試驗報告第427號。金恒鑣、夏禹九、黃正良、陳春雄、楊炳炎 (1984) 蓮華池試驗集水區暴雨時期水文特性及其溪水、懸浮質與養分濃度的關係。林試所試驗報告。 42pp。金恆鑣、劉瓊霦、夏禹九、黃正良 (2003) 福山天然闊葉林生態系對降水化學的交互作用。台灣林業科學18(4)：363-373。陳玲雯（2005）應用SPOT衛星影像於溪頭崩塌裸露地區植生回復監測之研究。台大森林研究所碩士論文。 158pp。陳信雄、邱祁榮、梁志文，賴彥任，張振生 (2001) 台大實驗林溪頭營林區桃芝風災災害圖冊。林業叢刊第77號。台大實驗林管理處。140pp。陳紫娥、張石角 (1987) 溪頭森林遊樂區之地質、地形及其發展史。台大實驗林研究報告1(2)：63-76。黃仁欽 (1997) 福山森林土壤之氮素動態：硝化作用—移動與植群吸收。台大農化研究所碩士論文。 58pp。黃正良、金恆鑣、廖學誠、李福明 (2003) 2001年桃芝颱風璉華池人工林及天然林集水區溪流水化學之比較。生態系經營－永久樣區理論與實務探討研討會論文集。 pp：219-239。張振生、王志豪、劉維，廖禎茹、陳信雄 (2004) 921地震後溪頭水文分布特性與土石流防災相關之研究。中華林學季刊37(3)：283-292。夏禹九、王立志、黃正良、金恆鑣 (1996) 森林集水區坡地逕流路徑之研究。台灣林業科學11(4)：481-486。許世宏、魏聰輝、姚榮鼐 (1994) 溪頭地區降雨與林內穿落雨的pH值及鹽基離子濃度。台大實驗林研究報告8(3)：83-97。劉儒淵、鍾年鈞、陳子英 (1990) 溪頭森林遊樂區之植物資源。森林遊樂研討會論文集。 pp：269-304。 APHA. (1995) Standard methods for the examination of water and wastewater. 19th ed. American Public Health Association. USA. Brooks, K. N., P. F. Ffolliott, H. M. Gregersen and L. F. DeBano (2003) Hydrology and the management of watersheds. 3rd ed. Iowa State Press, Ames. USA. pp:90-92. Church, M. Robbins (1997) Hydrochemistry of forested catchments. Ann. Rev. Earth Planet. Sci. 25:23-59. Crimo, C. P. and J. J. McDonnell. (1997) Linking the hydrological and biogeochemical controls of nitrogen transport in near-stream zones of temperate-forested catchments: a review. J. Hydrol. 199:88-120. Elsenbeer, H., A. West and M. Bonell (1994) Hydrologic pathways and stormf-low hydrochemistry at South Creek, northeast Queensland. J. Hydrol. 162:1-21 Elwood, J. W. and R. R. Turner. (1989) Streams: Water chemistry and ecology. In Johnson, D.W. and R.I. Van Hook. (eds.) Analysis of biogeochemical cycling processes in Walker Branch watershed. Springer-Verlag, New York . pp:301-350. Evans, C and T. D. Davies. (1998) Causes of concentration/discharge hysteresis and its potential as a tool for analysis of episode hydrochemistry. Wat. Resour. Res. 34 (1): 129-137. Everham, E. M. and N. V. L. Brokaw. (1996) Forest damage and recovery from catastrophic wind. Bot. Rev. 62(2): 114-185. Feller, M. C., and J. P. Kimmins. (1979) Chemical characteristics of small streams near Haney in southwestern British Columbia. Wat. Resour. Res. 15: 247-260. Foster, D. R. and E. R. Boose. (1995) Hurricane disturbance regimes in temperate and tropical forest ecosystems. In Coutts, M. P. and J. Grace (eds.) Wind and Trees. Cambridge U niversity Press, Cambridge, UK. pp:305-339. Giusti, L. and C. Neal. (1993) Hydrological pathways and solute chemistry of storm runoff at Dargall Lane, southwest Scotland. J. Hydrol. 142: 1-27. Kasai, M., T. Marutani and G. Brierley (2004) Channel bed adjustment following major aggradation in a steep headwater setting: findings from Oyabu Creek, Kyushu, Japan. Geomorphology 62:199-215. Liaw, S. C. (1998) Streamflow simulation using a physically based hydological model in humid forested watersheds. Ph. D Dissdertation, Colorado State University, Fort Collins, Colorado, USA. 163pp. Likens G. E. and F. H. Bormann. (1995) Biogeochemistry of a forested ecosystem. 2nd. Ed. Springer-Verlag. New York. 159pp. Lin, K. C., S. P. Hamburg, S. Tang, Y. J. Hsia, T. C. Lin (2003) Typhoon effects on litterfall in a subtropical forest. Can. J. Forest Res. 33(11):2184-2192 Mabry, C. M., S. P. Hamburg, T. C. Lin, F. W. Horng, H. B. King and Y. J. Hsia. (1998) Typhoon disturbance and stand-level damage patterns at a subtropical forest in Taiwan. Biotropiica 30(2): 238-250. Ohsawa, S. and Y. Yusa (2000) Isotopic characteristic of typhoon rainwater: typhoon no. 13 (1993) and no. 6 (1996). Limnology. 1(2):143-149. Sakihama, H. and A. Tokuyama (2005) Effect of typhoon on chemical composition of rainwater in Okinawa Island, Japan. Atmospheric Environment. 39:2879-2888. Tsujimura, M., Y. Onda and J. Ito. (2001) Stream water chemistry in a steep headwater basin with high relief. Hydrological Processes. 15:1848-1858. Wang, L. J. (1994) Hydrogeochemistry cycle and storm transport in the subtropical Fushan Experimental Forest, NE Taiwan. Ph. D. Dissertation, University of Washington. Seattle Washington. USA. 130pp. Wang, L. J., Y. J. Hsia, H. B. King, T. C. Lin, J. L. Hwong and C. B. Liou. (1996) Storm solute changes in the Fushan Forested Watershed, NE Taiwan. Quart. J. Chin. Soil Wat. Conserv. 27(2): 97-105. Wang, L. J., Y. J. Hsia, H. B. King, R. B. Harrison, C. B. Liou, J. L. Hwong and T. C. Lin. (1997) Chemistry changes in the solution flowing through the Fushan Forest. Quart.. J. Chin. For. 30(2): 203-215. Wang, L. J., Y. J. Hsia, H. B. King and T. C. Lin. (1998) Applying natural tracers to separate storm hydrograph component: Fushan experimental watershed as an example. Quart. J. Chin. Soil Wat. Conserv. 27(4): 249-260. Wayne, F. M., W. B. Andrew, F. D. Thomas and D. McKenneth. (1989) Nutrient concentration -stream discharge relationships during storm events in a first-order stream. J. Hydrol. 179: 97-102.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/33186	-
dc.description.abstract	本研究目的主要在探討2005年泰利颱風 (Typhoon Talim, 8/31 ~ 9/5）期間，溪頭試驗林雨水與溪水水文及水化學變化。泰利颱風期間溪頭累積雨量為382 mm，分別由2次尖峰降雨 (184 mm及198 mm) 所組成。颱風期間，溪頭雨水偏酸性 (pH=4.21~5.40)，電導度偏低 (1.2~22.6 μS/cm)，各項離子濃度亦較平日降雨為低，僅於前期降雨尖峰時Na+、Cl－及SO42－濃度略為升高，可能顯示颱風降雨初期受海水鹽分的影響。泰利颱風降水使溪頭巨石坑溪與神木坑溪流中形成2次流量尖峰。溪頭溪水化學變化可歸納為下列2種形式：（1）濃度稀釋現象：即物質濃度隨著水位升高而下降，包括電導度、pH、Ca2+、Mg2+、Na+、Cl－、NO3－、SO42－等等，其中NO3－稀釋現象極為特殊，可能為泰利颱風前多次大雨淋洗，以致NO3－來源庫消耗，不及恢復，但仍需未來研究證實支持。（2）濃度增高現象：即物質濃度隨著水位的上升而升高，包括懸浮質與K+，其中神木坑溪流中懸浮質濃度於2次尖峰流量遠高於巨石坑溪，主要來自先前921地震及2001年桃芝土石流及泰利颱風三重干擾的影響。此些水質變化顯示2005年泰利颱風可為溪頭試驗林帶來大量潔淨雨水輸入，然巨石坑與神木坑溪流可能因過去干擾受害程度不同，而呈現不同水化學變化。	zh_TW
dc.description.abstract	Rainfall and streamwater collecting system was set up to study chemical changes in precipitation and streamwater in Chitou Experimental Forest during 2005 Typhoon Talim event. Total rainfall of 382 mm (comprised of two distinctive 184 mm and 198 mm peak rainfall) was recorded in Chitou experimental watershed from 2005/08/31~09/05. Bulk precipitation was acidic (pH4.21~5.40) with low conductivity (1.2~22.6 μS/cm), and with low concentration for most anions and cations, yet higher concentrations of Na+, Cl－ and SO42－. In early part of peak rainfall could be from the sea salt spray. Heavy rainfall from typhoon also induced twin-peak stormflow in both Giant-Rock Creek and the Big-Tree Creek. Conductivity, pH, Ca2+, Mg2+, Na+, Cl－, NO3－, and SO42－ in both creek exhibited decreases in concentrations with increasing streamflow. Diluting NO3－ in this study showed totally different trend to other studies in Taiwan. Whether or not the NO3－ pools in both watersheds were adequately replenished from previous leaching caused by antecedent precipitation, needs further study. While suspended solids, and K+ showed increases with increasing streamflow. Extreme increase in suspended solids in the Big-Tree Creek was caused by the combined effects from Talim typhoon storm flow and the last debris torrent from typhoon Toraji in 2001 and the 921 earthquake in 1999. These solute behaviors suggested that typhoon Talim could bring heavy input of clean rainfall to the Chitou watersheds, yet stormwater chemistry could be controlled by the distinctive disturbance history for Giant-Rock Creek and Big-Tree Creek respectively.	en
dc.description.provenance	Made available in DSpace on 2021-06-13T04:28:23Z (GMT). No. of bitstreams: 1 ntu-95-R92625010-1.pdf: 671638 bytes, checksum: 2082562ff6a0bb42be061e3c001b249e (MD5) Previous issue date: 2006	en
dc.description.tableofcontents	表目錄 2 圖目錄 3 中文摘要 4 英文摘要(Abstract) 5 前言 6 Ⅰ. 材料與方法 9 Ⅱ. 結果與討論 12 （一）水文變化 12 （二）雨水及溪水化學物質濃度範圍 13 （三）雨水與溪水化學物質變化 13 (1) 水文、水溫、pH與電導度變化 14 (2) 懸浮質、Cl－、NO3－與K+離子變化 15 (3) SO42－、Na+、Mg2+ 與Ca2+ 離子變化 17 Ⅲ. 引用文獻 21 附錄 32
dc.language.iso	zh-TW
dc.subject	溪頭	zh_TW
dc.subject	泰利颱風	zh_TW
dc.subject	溪水化學	zh_TW
dc.subject	雨水化學	zh_TW
dc.subject	Chitou	en
dc.subject	Hydrology	en
dc.subject	Streamwater Chemistry	en
dc.subject	Precipitation	en
dc.subject	Typhoon Talim	en
dc.title	溪頭試驗林2005年泰利颱風期間雨水與溪水化學變化研究	zh_TW
dc.title	Chemical Changes in Precipiation and Streamwater in Chitou Experimental Forest during 2005 Typhoon Talim Event	en
dc.type	Thesis
dc.date.schoolyear	94-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	林登秋(Teng-Chiu Lin),劉瓊霦(Chiung-Pin Liu)
dc.subject.keyword	泰利颱風,溪頭,雨水化學,溪水化學,	zh_TW
dc.subject.keyword	Typhoon Talim,Precipitation,Streamwater Chemistry,Chitou,Hydrology,	en
dc.relation.page	33
dc.rights.note	有償授權
dc.date.accepted	2006-07-21
dc.contributor.author-college	生物資源暨農學院	zh_TW
dc.contributor.author-dept	森林環境暨資源學研究所	zh_TW
顯示於系所單位：	森林環境暨資源學系

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