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題名:海岸山脈東翼南段水系面積高度積分之探討
書刊名:中國地理學會會刊
作者:鄭光佑黃文樹詹仕堅 引用關係蔡衡 引用關係
作者(外文):Cheng, Kuang-yuHuang, Wen-shuChan, Shih-chienTsai, Heng
出版日期:2014
卷期:53
頁次:頁35-49
主題關鍵詞:海岸山脈數值地形模型地形計測面積高度積分Coastal rangeDigital terrain modelDTMGeomorphometryHypsometric integral集水區
原始連結:連回原系統網址new window
相關次數:
  • 被引用次數被引用次數:期刊(0) 博士論文(1) 專書(0) 專書論文(0)
  • 排除自我引用排除自我引用:0
  • 共同引用共同引用:6
  • 點閱點閱:8
河流地形特徵受到不同地形營力的影響,可以反映在各種河流地形特徵的地形計測參數中。在這些地形計測參數中,面積高度積分是可以在某種程度上反映河流演育階段,地形作用類型,進而間接推估流域的造構活動特徵。本文以造構作用活躍、區域差異顯著的海岸山脈東翼南段集水區為研究區,計算常流河流域的面積高度積分,探討該數值與造構、岩性、流域面積的關係。研究結果顯示,面積高度積分值與流域面積之間,並無線性關係,且與近期區域地體抬升趨勢(構造作用)無顯著關係。相較之下,面積高度積分值與流域內的岩體抗蝕力,關係較顯著。
Fluvial morphometries as indicators were inferred from fluvial morphological features dominated by geomorphic processes. The hypsometric integral (HI), one of the fluvial morphometries, is considered to reveal fluvial evolution, types of geomorphic processes, and the tectonic characteristics of a basin. In this study, we selected the southern basins in the eastern part of the Coastal Range, characterized as having a high amount of tectonic activity, as a study area for calculating HI values of perennial rivers. Based on these values, the relation between HI values and tectonics, straths, and the areas of the river basins were determined. The results suggest that the HI values of perennial rivers are relevant to the erosive resistance of straths in the river basins rather than to the areas of the basins or recent local tectonic uplift.
期刊論文
1.Willgoose, G.、Hancock, G.(1998)。Revisiting the hypsometric curve as an indicator of form and process in transport-limited catchment。Earth Surface Processes and Landforms,23,611-623。  new window
2.Jamieson, S. S. R.、Sinclair, H. D.、Kirstein, L. A.、Purves, R. S.(2004)。Tectonic forcing of longitudinal valleys in the Himalaya: morphological analysis of the Ladakh Batholith, north India。Geomorphology,58,49-65。  new window
3.Riquelme, R.、Martinod, J.、Hérail, G.、Darrozes, J.、Charrier, R.(2003)。A geomorphological approach to determining the Neogene to recent tectonic deformation in the Coastal Cordillera of northern Chile (Atacama)。Tectonophysics,361,255-275。  new window
4.陳彥傑、鄭光佑、宋國城(20050300)。面積尺度與空間分佈對流域面積高度積分及其地質意義的影響。地理學報,39,53-69。new window  延伸查詢new window
5.莊永忠、陳永寬、詹進發(20061100)。不同流向演算法與集流閥值對數值地形模型河川網路萃取之影響。地理研究,45,73-92。new window  延伸查詢new window
6.Cheng, K. Y.、Chang, H. C.、Sung, Q. C.、Tsai, H.(2012)。Scale Dependence of Basin Hypsometry: A Geomorphic Index of Steady State Topography。Geomorphology,171/172,1-11。  new window
7.Garbrecht, J.、Martz, L. W.(1993)。Network and subwaterhsed parameters extracted from digital elevation models: the Bills Greek experience。Water Resources Bulletin,29(6),909-916。  new window
8.Hsieh, M. L.、Rau, R. J.(2009)。Late Holocene coseismic uplift on the Huatung coast, estern Taiwan: Evidence from mass mortality of intertidal organisms。Tectonophysics,474,595-609。  new window
9.Hurtrez, J. E.、Sol, C.、Lucazeau, F.(1999)。Effect of drainage area on hypsometry from analysis of small scale drainage basins in the Siwalik Hills (center Nepal)。Earth Surface Process and Landform,24,799-808。  new window
10.Kelsey, H. M.、Bockheim, J. G.(1994)。Coastal landscape evolution as a function of eustasy and surface uplift rate, Cascadia margin, southern Qregon。Geological Society of America Bulletin,106,840-854。  new window
11.Walcott, R. C.、Summerfield, M. A.(2008)。Scale dependence of hypsometric integral: An analysis of southeast African basins。Geomorphology,96,174-186。  new window
12.Segura, F. S.、Pardo-Pascual, J. E.、Rosselló, V. M.、Fornós, J. J.、Geldbert, B.(2007)。Morphometric indices as indicators of tectonic, fluvial and karst processes in calcareous drainage basins, South Menorca Island, Spain。Earth Surface Processes and Landforms,32,1928-1946。  new window
13.詹仕堅、孫志鴻(20001200)。網格式數值高程模型擷取河系集流閾值之探討。地理學報,28,27-45。new window  延伸查詢new window
14.Chen, Y. C.、Sung, Q. C.、Cheng, K. Y.(2003)。Along-strike variations of morphotectonic features in the western foothills of Taiwan: tectonic implications based on stream-gradient and hypsometric analysis。Geomorphology,56,109-137。  new window
15.Yamaguchi, M.、Ota, Y.(2004)。Tectonic interpretations of Holocene marine terraces, east coast of Coastal Range, Taiwan。Quaternary International,115/116,71-81。  new window
16.Hsieh, M. L.、Liew, P. M.、Hsu, M. Y.(2004)。Holocene tectonic uplift on the Hua-tung coast, eastern Taiwan。Quaternary International,115/116,47-70。  new window
17.Strahler, Arthur N.(1952)。Hypsometric (Area-Altitude) Analysis of Erosional Topography。Bulletin of the Geological Society of America,63(11),1117-1142。  new window
學位論文
1.張韻嫻(2003)。台灣地區流域面積高度積分之研究(碩士論文)。國立高雄師範大學。  延伸查詢new window
2.簡上恩(2004)。臺灣活躍造山與河流體系關係(碩士論文)。國立成功大學。  延伸查詢new window
3.陳彥傑(2003)。台灣山脈的構造地形指標特性--以面積高度積分、地形碎形參數與河流坡降指標為依據(博士論文)。國立成功大學。  延伸查詢new window
圖書
1.陳培源(2006)。台灣地質。台北:台灣省應用地質技師公會。  延伸查詢new window
2.羅煥記、陳文山、宋聖榮(1993)。台灣地質說明書:成功、東河。台北:經濟部中央地質調查所。  延伸查詢new window
3.經濟部中央地質調查所(1993)。五萬分之一台灣地質圖:海岸山脈。台北:經濟部中央地質調查所。  延伸查詢new window
4.Ritter, D. F.、Kochel, R. C.、Miller, J. R.(1995)。Process Geomorphology。McGraw-Hill Inc。  new window
5.Keller, E. A.、Pinter, N.(2002)。Active Tectonics: Earthquakes, Uplift, and Landscape。Prentice-Hall。  new window
其他
1.中央氣象局(2013)。氣候統計,http://www.cwb.gov.tw/V7/climate/monthlyMean/Taiwan_tx.htm, 2013/06/02。  new window
 
 
 
 
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