大氣穩定度對不同地表類型之可感熱通量擴尺度研究

Chao-Jung Fan; 范釗榮

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/65455

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	莊振義(Jehn_Yih Juang)
dc.contributor.author	Chao-Jung Fan	en
dc.contributor.author	范釗榮	zh_TW
dc.date.accessioned	2021-06-16T23:44:11Z	-
dc.date.available	2012-08-01
dc.date.copyright	2012-08-01
dc.date.issued	2012
dc.date.submitted	2012-07-24
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Comparison of Large Aperture Scintillometer and Eddy Covariance Measurements: Can Thermal Infrared Data Be Used to Capture Footprint-Induced Differences? Journal of Hydrometeorology, 8(2), 144-159. Hoedjes, J. C. B., Zuurbier, R. M., & Watts, C. J. (2002). Large Aperture Scintillometer Used Over A Homogeneous Irrigated Area, Partly Affected By Regional Advection. Boundary-Layer Meteorology, 105(1), 99-117. Hung, M.-S. (2010). Investigating the flux patterns within forest subcanopy over a hilly terrain. National Taiwan University, Taipei. Kell Wilson, A. G., Eva Falge, Marc Aubinet, Dennis Baldocchi, Paul Berbigier, Christian Bernhofer, Reinhart Ceulemans, Han Dolman, Chris Field, Achim Grelle, Andreas Ibromk, B.E. Law, Andy Kowalski,, & Tilden Meyers, J. M., Russ Monson, Walter Oechel, John Tenhunen, Riccardo Valentini, Shashi Verma. (2002). Energy balance closure at FLUXNET sites. Agricultural and Forest Meteorology, 113(1-4), 223-243. Kustas, W. P., & Daughtry, C. S. T. (1990). 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Scintec. (2006). Scintec Surface Layer Scintillometer SLS20/SLS40 SLS20-A/SLS40-A User Manual (including OEBMS1).Unpublished manuscript, Tubingen, Germany. Shao, K.-T. (1999). Result-based report to bioresource succession in Guandu Natural Reserved Area and Guandu Natural Park. Stull, R. B. (1988). An introduction to boundary layer meteorology. Boston: Kluwer Academic Publishers. Thiermann, V., & Grassl, H. (1992). The measurement of turbulent surface-layer fluxes by use of bichromatic scintillation. Boundary-Layer Meteorology, 58(4), 367-389. Von Randow, C., Kruijt, B., Holtslag, A. A. M., & de Oliveira, M. B. L. (2008). Exploring eddy-covariance and large-aperture scintillometer measurements in an Amazonian rain forest. Agricultural and Forest Meteorology, 148(4), 680-690. Wesely, M. L. (1976). The Combined Effect of Temperature and Humidity Fluctuations on Refractive Index. Journal of Applied Meteorology, 15(1), 43-49. Wu, C.-C. (2009). 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dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/65455	-
dc.description.abstract	能量通量的平衡和閉合 (energy closure) 是研究地表類型時很重要的特徵和參數。過去最常用於量測能量通量的方法為渦度相關法 (eddy-covariance method)，其也被廣泛用於量測生態系的能量、物質之淨交換量。由於其理論假設和限制，例如單點量測，使他仍有空間代表性不足等缺點。相對於渦度相關法，地面紊流閃爍測量儀 (surface layer turbulent scintillometer) 應用莫寧-奧布荷夫相似理論 (Monin-Obukhov similarity theory)，偵測步徑內的大氣結構，並計算得步徑距離內的平均可感熱通量 (sensible heat flux)，為一較大空間尺度的量測結果，此結果可以作為地表參數、渦度相關法計算過程的參考與修正。本研究於溪頭實驗林中架設閃爍測量儀，於夏季和冬季各量測一個月；另在關渡自然保護區架設，於冬季量測三個月。由計算結果得知在不同樣區之間，閃爍測量儀皆較渦度相關法得較低的可感熱通量值。大氣條件和不同尺度之渦流可能經兩種方法在空間和時間解析度上的優勢以及平流效應對其量測造成影響。於溪頭樣區之量測顯示在大氣穩定時，兩種方法之可感熱通量比值約為 0.35，而大氣不穩定時，冬季之量測顯示閃爍測量儀對渦度相關法之可感熱通量比值與穩定度參數之對數呈 y=0.76x2-0.56x+1.76 之線性關係，而夏季時則呈 y=1.56x2-2.07x+1.81 的回歸情形。關渡樣區之可感熱通量比值於大氣穩定時則呈現為 0.9 之定值關係，而大氣不穩定時則與穩定度參數之對數呈 y=3.25e-0.044x-2.14 之關係。本研究結果比較渦度相關法與較大空間尺度之閃爍測量儀之結果，期以中尺度現地量測作為單點量測與航測、遙測等大尺度技術之間的連結，並作為大範圍生態模式的研究基礎。	zh_TW
dc.description.abstract	Abstract Eddy-covariance (EC) system has been used to measure exchange of scalars, momentum and energy components between land surface and atmosphere in the past decades. But the limitations and assumptions of EC method such as being a point-measurement make EC method uncertain over complex terrain. To systematically quantify area-averaged energy fluxes, comparing between energy fluxes measured by EC method and surface-layer scintillometer (SLS) over hilly terrain and estuarial grass marsh is studied in this research. SLS system applied Monin-Obukhov Similarity Theory (MOST) to estimate sensible heat fluxes by linking variances and covariances of laser beam intensity within path-length between laser transmitter and receiver and SLS system was established at Xitou flux tower during summer and winter, and at Guandu Nature Park during winter. Owing to the measurement within path-length, SLS system provides better spatial representative than conventional tower-based EC results. In this study, surface parameters and properties such as friction velocity, Bowen ratio and surface roughness length are investigated to understand the features of turbulence formation in each site. Results suggest the under-estimated sensible heat flux by scintillometer and an explanation to the difference of measurement is established under various atmospheric conditions. In this study, it’s concluded that at Xitou, SLS measures about 0.35 times of sensible heat flux to that by EC under stable state and the correlations y=0.76x2-0.56x+1.76 and y=1.56x2-2.07x+1.81 could describe the relationship between logarithm of stability and H ratio under unstable state in winter and summer respectively. At Guandu, the H ratio is constantly 0.9 under stable state and in correlation y=3.25e-0.044x-2.14 between logarithm of stability and H ratio under unstable state. The relationship between results of EC and SLS could be a linkage among tower-based studies and high-scale methods such as remote sensing and be estimated to be a base to regional micrometeorological modeling.	en
dc.description.provenance	Made available in DSpace on 2021-06-16T23:44:11Z (GMT). No. of bitstreams: 1 ntu-101-R99228022-1.pdf: 2315501 bytes, checksum: e9bcab684df844f2ff8025b2435afdb7 (MD5) Previous issue date: 2012	en
dc.description.tableofcontents	Abstract in Chinese ............................................................................................................ i Abstract ............................................................................................................................. ii Contents ........................................................................................................................... iv List of Figures and Tables................................................................................................. v 1. Introduction ......................................................................................................... - 1 - 1.1 Background and motivation ......................................................................... - 1 - 1.2 Objectives ..................................................................................................... - 6 - 2. Methods ................................................................................................................ - 8 - 2.1 Theory and calculate process ........................................................................ - 8 - 2.2 Site description ........................................................................................... - 11 - 2.3 Instruments ................................................................................................. - 16 - 2.4 Study design ............................................................................................... - 19 - 3. Results and Discussion ...................................................................................... - 21 - 3.1 Estimation of zero-plane displacement height at Xitou site ....................... - 21 - 3.2 Meteorological characteristics at two sites ................................................. - 21 - 3.3 Energy fluxes characteristics at Xitou site ................................................. - 22 - 3.4 Energy fluxes characteristics at Guandu site .............................................. - 30 - 3.5 Limitation of scintillometer measurement at Guandu site.......................... - 35 - 3.6 The temporal and spatial representative across two methods..................... - 36 - 4. Conclusions and Future Works ........................................................................ - 38 - 5. References .......................................................................................................... - 40 - Appendix ................................................................................................................... - 45 -
dc.language.iso	en
dc.subject	地表能量平衡	zh_TW
dc.subject	莫寧-奧布荷夫相似理論	zh_TW
dc.subject	地表紊流閃爍測量儀	zh_TW
dc.subject	穩定度	zh_TW
dc.subject	中尺度	zh_TW
dc.subject	Middle Scale	en
dc.subject	Monin-Obukhov Similarity Theory (MOST)	en
dc.subject	Surface Layer Scintillometer	en
dc.subject	Stability	en
dc.subject	Surface Energy Budget	en
dc.title	大氣穩定度對不同地表類型之可感熱通量擴尺度研究	zh_TW
dc.title	Upscaling Parameterization of Sensible Heat Flux under Different Atmospheric Stability Conditions across Various Land Surface Types	en
dc.type	Thesis
dc.date.schoolyear	100-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	莊秉潔(Ben-Jei Tsuang),夏禹九(Yue-Joe Hsia),朱佳仁(Chia-Ren Chu),李明旭(Ming-Hsu Li)
dc.subject.keyword	地表能量平衡,莫寧-奧布荷夫相似理論,地表紊流閃爍測量儀,穩定度,中尺度,	zh_TW
dc.subject.keyword	Surface Energy Budget,Monin-Obukhov Similarity Theory (MOST),Surface Layer Scintillometer,Stability,Middle Scale,	en
dc.relation.page	71
dc.rights.note	有償授權
dc.date.accepted	2012-07-24
dc.contributor.author-college	理學院	zh_TW
dc.contributor.author-dept	地理環境資源學研究所	zh_TW
顯示於系所單位：	地理環境資源學系

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