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完整後設資料紀錄
DC 欄位 | 值 | 語言 |
---|---|---|
dc.contributor.advisor | 胡植慶(Jyr-Ching Hu) | |
dc.contributor.author | Yu-Yia Wu | en |
dc.contributor.author | 吳育雅 | zh_TW |
dc.date.accessioned | 2021-06-16T16:13:33Z | - |
dc.date.available | 2014-03-06 | |
dc.date.copyright | 2013-03-06 | |
dc.date.issued | 2013 | |
dc.date.submitted | 2013-02-07 | |
dc.identifier.citation | Amelung, F., C. Oppenheimer, P. Segall, and H. Zebker (2000) Ground deformation near Gada 'Ale Volcano, Afar, observed by Radar Interferometry. Geophys. Res. Lett., 27(19), 3093–3096.
Angelier, J., J.-C. Lee, H.-T. Chu, J.-C. Hu, C.-Y. Lu, Y.-C. Chan, T.-J. Lin, Y. Font, B. Deffontaines, and Y.-B. Tsai (2001) Le Seisme de Chichi (1999) et sa place dans l’oregene de Taiwan. C. R. Acad. Sci. Paris, Earth Planet. Sci., 333, 5-21. Berardino, P., G. Fornaro, R. Lanari, and E. Sansosti (2002) A new algorithm for surface deformation monitoring based on small baseline differential SAR interferograms. IEEE TGRS, 40(11), 2375. Burgmann, R.,P.A. Rosen, and E.J. Fielding (2000) Synthetic aperture radar interferometry to measure Earth's surface topography and its deformation. Annu. Rev. Earth Planet. Sci., 28, 169–209. Champenois, J., B. Fruneau, E. Pathier, B. Deffontaines, K.-C. Lin, and J.-C. Hu (2012) Monitoring of active tectonic deformations in the Longitudinal Valley (Eastern Taiwan) using Persistent Scatterer InSAR method with ALOS PALSAR data. Earth Planet. Sci. Lett., 337-338, 144–155, doi: 10.1016/j.epsl.2012.05.025. Chang, C.-P., C.-T. Wang, T.-Y. Chang, K.-S. Chen, L.-S. Liang, E. Pathier, and J. Angelier (2004) Application of SAR interferometry to a large thrust deformation: the 1999 MW=7.6 Chichi earthquake in central Taiwan. Geophys. J. Int., 159(1), 9–1610, doi: 1111/ j.1365-246X.2004. 02385.x. Chang, C.-P., J.-Y. Yen, A. Hooper, F.-M. Chou, Y.-A. Chen, C.-S. Hou, W.- C. Hung, and M.-S. Lin (2010) Monitoring of surface deformation in northern Taiwan using DInSAR and PSInSAR techniques. Terr. Atmos. Ocean. Sci., 21, 447–461, doi: 10.3319/TAO.2009.11.20.01(TH). Chen, C.-W. and H.A. Zebker (2002) Phase unwrapping for large SAR interferograms: Statistical segmentation and generalized network models. IEEE Tran. Geosci. Rem. Sens., 40, 1709–1719. Chen, Y.G. and T.K. Liu (2000) Holocene uplift and subsidence along an active tectonic margin southwestern Taiwan. Quatern. Sci. Rev., 19, 923–930. Colesanti, C., A. Ferretti, C. Prati, and F. Rocca (2003) Monitoring landslides and tectonic motions with the Permanent Scatterers Technique. Eng. Geol., 68(1-2), 3–14. Deffontaines, B., O. Lacombe, J. Angelier, H.-T. Chu, F. Mouthereau, C.-T. Lee, J. Deramond, J.-F. Lee, M.-S. Yu, and P.-M. Liew (1997) Quaternary transfer faulting in the Taiwan Foothills: Evidence from a multisource approach. Tectonophysics 274, 61–82. DeMets, C., R. G. Gordon, and D. F. Argus (2010) Geologically current plate motions. Geophys. J. Int., 181, 1-80. Ferretti, A., C. Prati, and F. Rocca (2000) Nonlinear subsid¬ence rate estimation using permanent scatterers in dif¬ferential SAR interferometry. IEEE Trans. Geosci. Remote Sensing, 38, 2202–2212, doi: 10.1109/36.868878. Ferretti, A., C. Prati, and F. Rocca (2001) Permanent scatterers in SAR interferometry. IEEE Trans. Geosci. Remote Sensing, 39, 8–20, doi: 10.1109/36.898661. Fruneau, B., E. Pathier, D. Raymond, B. Deffontaines, C.-T. Lee, H.-T. Wang, J. Angelier, J.-P. Rudant, and C.-P. Chang (2001) Uplift of Tainan Tableland (SW Taiwan) revealed by SAR interferometry. Geophys. Res. Lett., 28, 3071–3076. Gabriel, A. K., R. M. Goldstein, and H. A. Zebker (1989) Mapping small evaluation changes over large areas: Differential radar interferometry. J. Geophys. Res., 94(B7), 9183-9191. Galloway, D. L. and J. Hoffmann (2007) The application of satellite differential SAR interferometry-derived ground displacements in hydrogeology. J. Hydrol., 15, 133–154. Goldstein, R.M., H.A. Zebker, and C.L.Werner (1988) Satellite radar interferometry: two-dimensional phase unwrapping. Radio Sci., 23(4), 713–720. Goldstein, R.M. (1995) Atmospheric limitations to repeat-track radar interferometry. Geophys. Res. Lett., 22, 2517–2520. Graham, L.C., (1974) Synthetic interferometric radar for topographic mapping. Proc. IEEE, 62, 763–738. Hanssen, R.F. (2001) Radar interferometry: Data interpretation and error analysis. Kluwer Academic, Dordrecht, 308 pp. Ho, C. S. (1986) A synthesis of the Geologic Evolution of Taiwan. In : J. Angelier, R. Blanchet, C.S. Ho, and X. Le Pichon (Editors), Geodynamics of the Eurasia-Philippine Sea Plate Boundary. Tectonophysics, 125, 1–16. Hooper A. (2006) Persistent scatterer radar interferometry for crustal deformation studies and modeling of volcanic deformation. PhD thesis of department of geophysics of Stanford University. Hooper, A. (2008) A multi-temporal InSAR method incorporating both persistent scatterer and small baseline approaches, Geophys. Res. Lett., 35(16), doi: 10.1029/2008gl034654. Hooper, A., H. Zebker, P. Segall, and B. Kampes (2004) A new method for measuring deformation on volcanoes and other natural terrains using InSAR persistent scatterers. Geophys. Res. Lett., 31, L23611, doi: 10.1029/2004GL021737. Hooper, A., P. Segall, and H. Zebker (2007) Persistent scatterer interferometric synthetic aperture radar for crustal deformation analysis, with application to VolcanAl¬cedo, Galapagos. J. Geophys. Res., 112, B07407, doi: 10.1029/2006JB004763 Hsieh, C.-S., T.-Y. Shih, J.-C. Hu, H. Tung, M.-H. Huang, and J. Angelier (2011) Using differential SAR interferometry to map land subsidence: A case study in the Pingtung Plain of SW Taiwan. Nat. Hazards, 58(3), 1331–1332, doi: 10.1007/s11069-011-9734-7. Hu, J.-C., J. Angelier, and S.-B. Yu (1997) An interpretation of the active deformation of southern Taiwan based on numerical simulation and GPS studies. Tectonophysics, 274, 145-170. Hu, J.C., S.B. Yu, J. Angelier, and H.T. Chu (2001) Active deformation of Taiwan from GPS measurements and numerical simulations. J. Geophys. Res., 106, 2265–2280. Huang, S.-T., K.-M. Yang, J.-H. Hung, J.-C. Wu, H.-H. Ting, W.-W. Mei, S.-H. Hsu, and M. Lee (2004) Deformation front development at the northeast margin of the Tainan Basin, Tainan–Kaohsiung area, Taiwan. Mar. Geophys. Res., 25 (1-2), 139–156, doi: 10.1007/s11001-005-0739-z. Huang, M.-H., J.-C. Hu, C.-S. Hsieh, K.-E. Ching, R.-J Rau, E. Pathier, B. Fruneau, and B. Deffontaines (2006) A growing structure near the deformation front in SW Taiwan as deduced from SAR interferometry and geodetic observation. Geophys. Res. Lett., 33, L12305, doi:10.1029/2005GL025613. Huang, M.-H., J.-C. Hu, K.-E. Ching, R.-J. Rau, C.-S. Hsieh, E. Pathier, B. Fruneau, and B. Deffontaines (2009) Active deformation of Tainan tableland of southwestern Taiwan based on geodetic measurements and SAR interferometry. Tectonophysics, 466 (3-4), 322–334, doi: 10.1016/j.tecto.2007.11.020. Hung W.-C., C. Hwang, Y.-A. Chen, C.-P. Chang, J.-Y. Yen, A. Hooper, and C.-Y. Yang (2011) Surface deformation from persistent scatterers SAR interferometry and fusion with leveling data: A case study over the Choushui River Alluvial Fan, Taiwan. Remote Sens. Environ., 115(4), 957–967. Janes, H.W., R.B. Langley, S.P. Newby (1991) Analysis of tropospheric delay prediction models: comparisons with ray-tracing and implications for GPS relative positioning, Bull. Geod., 65, 151–161. Jehle, M., D. Small, E. Meier, D. Nuesch (2004) Improved knowledge of SAR geometry through atmospheric modeling. Proc. EUSAR. Lacombe, O., F. Mouthereau, B. Deffontaines, J. Angelier, H.-T. Chu, and C.-T. Lee, (1999) Geometry and quaternary kinematics of fold-and-thrust units of southwestern Taiwan. Tectonics, 18, 1198–1223. Lanari, R., P. Lundgren, M. Manzo, and F. Casu (2004) Satellite radar interferometry time series analysis of surface deformation for Los Angeles, California. Geophys. Res. Lett., 31, L23613, doi:10.1029/2004GL021294. Lee, Y.S., K.S. Hsei, T.Y. Huang, T.T. Ho, H.W. Chen, and H.C. Chang (1999) Evolution of Foreland basin, southwestern Taiwan. 1999 Annu. Meeting China Geol. Soc., 246–248. Li, Z., J.P. Muller, P. Cross, and E.J. Fielding (2005) Interferometric synthetic aperture radar (InSAR) atmospheric correction: GPS, Moderate Resolution Imaging Spectroradiometer (MODIS), and InSAR integration. J. Geophys. Res., 110, B03410. Liew, P.M., M.L. Hsieh, and B.H. Shyu (2004) An overview of coastal development in a Young Mountain Belt-Taiwan. Quat. Int., 115–116, 39–45, doi:10.1016/S1040-6182(03)00095-8. Lillesand, T. M., and R. W. Kiefer (2004) Remote sensing and image interpretation, fifth edition. John Wiley & Sons, Inc, New York, U.S. Lin, A.T.S. (2001) Cenozoic stratigraphy and tectonic development of the west Taiwan basin.Unpublished Ph. D. Dissertation, University of Oxford, 246p. Lin, A.T. and A.B. Watts (2002) Origin of the west Taiwan basin by orogenic loading and flexure of a rifted continental margin, J. Geophys. Res. 107, 2185–2203. Lin, A.T., A.B. Watts, and S.P. Hesselbo (2003) Cenozoic stratigraphy and subsidence history of the South China Sea margin in the Taiwan region. Basin Res., 15, 453-478. Lin,K.-C., J.-C. Hu, K.-E. Ching , J. Angelier, R.-J. Rau, S.-B. Yu, C.-H. Tsai, T.-C. Shin, M.-H. Huang (2010) GPS crustal deformation, strain rate, and seismic activity after the 1999 Chi-Chi earthquake. J. Geophys. Res., 115, B07404, doi:10.1029/2009JB006417. Lin,K.-C., Nocquet J-M, Hu J.-C., Delouis B. (2012) Taiwan Continuous GPS Geodetic Array: The deformation rate and apparent seasonal variation from 1994-2010. 16th General Assembly of WEGENER on earth deformation and the study of earthquake using geodesy and geodynamics, Strasbourg, France. Liou, Y.-A., Y.-T. Teng, T.V. Hove, J.C. Liljegren, (2001) Comparison of precipitable water observations in the near tropics by GPS, microwave radiometre, and radiosondes. J. Appl. Meteorol., 40, 5–15. Liu, C.-S. Liu, I.-L. Huang, and L.S. Teng (1997) Structural features off southwestern Taiwan. Mar. Geol., 137, 305–309. Liu, C.H., Y.W. Pan, J.J. Liao, C.T. Huang, and S. Ouyang (2004) Characterization of land subsidence in the Choshui River alluvial fan, Taiwan. Environ. Geol., 45(8), 1154–1166. Lu, C.Y. and J. Malavieille (1994) Oblique convergence, indentation and rotation tectonics in the Taiwan Mountain Belt: Insights from experimental modeling. Earth. Planet. Sci. Lett., 121, 477–494. Lundberg, N., D.L. Reed, and C.S. Liu (1991) The submarine propagation tip of the Taiwan collision: Shallow crustal structure and orogenic sedimentation. TAICRUST workshop Proce., National Taiwan Univ., 93–102 Malavieille, J., S. E. Lallemand, S. Domingquez, A. Deschamps, C. Y. Lu, C. S. Liu, P. Schnurle, and the ACT Scientific Crew (2002) Arc-continent collision in Taiwan: New marine observations and tectonic evolution. In: Byne, T. B., and C. S. Liu, (Eds.), Geology and Geophysics of an Arc-Continent collision, Taiwan, Republic of China: Boulder, Colorado, Geol. Soc. of Am. Special Paper 358, 187-211. Marc, O., J. Suppe, S. Huang, M. Le Beon, M.-H. Huang, J.-C. Hu (2010) Deep structure and deformation history of the rapidly growing Tainan anticline, southwestern Taiwan. American Geophysical Union, Fall Meeting 2010, abstract #T21F-03 Massonnet, D. and K.L. Feigl (1998) Radar interferometry and its application to changes in the earth's surface. Rev. Geophys., 36(4), 441–500. Massonnet, D., M. Rossi, C. Carmona, F. Adragna, G. Peltzer, K. Feigl, and T. Rabaute (1993) The displacement field of the landers earthquake mapped by radar interferometry. Nature, 364(6433), 138–142 Massonnet, D., P. Briole, and A. Arnaud (1995) Deflation of Mount Etna monitored by spaceborne radar interferometry. Nature, 375(6532), 567–570. Monthereau, F., O. Lacombe, B. Deffontaines, J. Angelier, and S. Brusset (2001) Deformation history of the southwestern Taiwan foreland thrust belt: Insights from tectono-sedimentary analyses and balanced cross-secions. Tectonophys., 333, 293-322. Mora, O., J.J. Mallorqui, A. Broquetas, (2003) Linear and nonlinear terrain deformation maps from a reduced set of interferometric SAR images. IEEE Trans. Geos. Remote Sens., 41(10), 2243–2253. Ng, S.-M., J. Angelier, C.-P. Chang (2009) Earthquake cycle in western Taiwan: Insights from historical seismicity. Geophys. J. Int., 178, 753–774, doi:10.111/j.1365-246X.2009.04164.x. Pan, Y.-S. (1968) Interpretation and seismic coordination of the Bouguer gravity anomalies obtained in southwestern Taiwan. Petrol. Geol. Taiwan, 6, 197-207. Pathier, E., B. Fruneau, B. Deffontaines, J. Angelier, C.-P. Chang, S.-B. Yu, and C.-T. Lee (2003) Coseismic displacements of the footwall of the Chelungpu fault caused by the 1999 Taiwan Chi-Chi earthquake from InSAR and GPS data. Earth Planet. Sci. Lett., 212, 73–88. Reed, D.L., N. Lundberg, C.S. Liu, and B.Y. Kuo (1992) Structural relations along the margins of the offshore Taiwan accretionary wedge: implications for accretion and crustal kinematics. Acta Geol. Taiwan., 3, 105–122. Rott, H. (2009) Advances in interferometric synthetic aperture radar (InSAR) in earth system science. Progr. Phys. Geogr., 33(6), 769–791. Rosen, P.A., S. Hensley, I.R. Joughin, F.K. Li, S.N. Madsen, E. Rodriguez, and R.M. Goldstein (2000) Synthetic aperture radar interferometry. Proc. IEEE, 88(3), 333–382. Peyret, M., S. Dominguez, R. Cattin, J. Champenois, M. Leroy, and A. Zajac (2011) Present-day interseismic surface deformation along the Longitudinal Valley, eastern Taiwan, from a PS‐InSAR analysis of the ERS satellite archives. J. Geophys. Res., 116(B03402), 1-21, doi:10.1029/2010JB007898. Samuel,W. and Christopher, R.J. (2004) Principles of Synthetic Aperture Radar, SAR marine user’s manual , NOAA, 1-23. http://www.sarusersmanual.com/ SARMap. is an owner managed high-tech company in the field of remote sensing and geographical information systems. University of Zurich, headquarters is situated in southern Switzerland. Suga, Y., S. Takeuchi, Y. Oguro, A. J. Chen, M. Ogawa, T. Konishi, and C. Yonezawa (2001) Application of ERS-2/SAR data for the 1999 Taiwan earthquake. Adv. Space Res., 28(1), 155–163. Sun, R., Q.-C. Sung, and T.-K. Liu (1998) Near-surface evidence of recent Taiwan orogeny detected by a shallow seismic method. Earth Planet. Sci. Lett., 163, 291–300. Suppe, J. (1981). Mechanics of mountain building and metamorphism in Taiwan. Mem. Geol. Soc. China, 4, 67-89. Suppe, J. (1984) Kinematics of arc-continent collision, flipping of subduction and back-arc spreading near Taiwan. Memor. Geol. Soc. China, 6, 21–33. Teng, L.S. (1987) Stratigraphic records of the late Cenozoic Penglai orogeny of Taiwan. Acta Geol. Taiwanica, 25, 205–224. Teng, L.S. (1990) Geotectonic evolution of late Cenozoic arc-continent collision in Taiwan. Tectonophysics 183, 57–76. Teng, L.S. (1996) Extensional collapse of the northern Taiwan mountain belt. Geology, 10, 949–952. Teng, L.S. and A.T. Lin (2004) Cenozoic tectonics of the China continental margin: insights from Taiwan. In: Aspects of the tectonic evolution of China (edited by J. Malpas, C.J.N. Fletcher, J.R. Ali and J.C. Aitchison), Geol. Soc. London, Special Publications, 226, 313-332. Tsai, Y.-B. (1985) A study of disastrous earthquakes in Taiwan, 1683-1895. Bull. Inst. Earth Sci. Acad. Sinica., 5, 1–44. Tsai, Y. B., and J. M. Chiu (1976) An active fault at the estuary of the Tsengwen-hsi in southwestern Taiwan. Petrol. Geol. Taiwan, 13, 209–224. Tung, H., J.-C. Hu (2012) Assessments of serious anthropogenic land subsidence in Yunlin County of central Taiwan from 1996 to 1999 by Persistent Scatterers InSAR. Tectonophysics, 578, 126-135, doi:10.1016/j.tecto.2012.08.009. Wang, C.-T., K.-S. Chen, J.-C. Hu, W.-Y. Chang, W.M. Boerner (2011) Mapping land uplift and subsidence in the Industrial Parks in northern Taiwan by radar interferometry. Int. J. Remote Sens., 32 (21), 6527–6538, doi:10.1080/01431161.2010.512932. Wang,W.Q. (2008), Radar Systems: Technology, Principles and Applications, NOVA Publisher, New York, USA. Woodhouse, I. H. (2006) Introduction to microwave and remote sensing. Taylor and Francis Ltd., Boca Raton, p 379. Wu, T.J., Y.G. Chen, and T.K. Liu (1992) Sedimentary history and neotectonic implication of Tainan formation on Tainan Tableland. Ti-Chih, 12(2), 167–184. (in Chinese, with English abstract) Wu, Y. M., C.-H. Chang, L. Zhao, J. Shyu, H. Bruce, Y.-G. Chen, K. Sieh, and J.-P. Avouac (2007) Seismic tomography of Taiwan: Improved constraints from a dense network of strong motion stations. J. Geophys. Res., 112(B8). B08312, doi: 10.1029/2007JB004983. Wu, Y.-Y., J.-C. Hu, G.-P. Lin, C.-P. Chang, H. Tung, C.-H. Lu (2013) Transient active deformation in Tainan Tableland using Persistent Scatterers SAR interferometry. Bull. Soc. Geol. France, in press. Yang, C.-C. B., W.-S. Chen, L.-C. Wu, and C.-W. Lin (2007) Active deformation front delineated by drainage pattern analysis and vertical movement rates, southwestern Coastal Plain of Taiwan. J. Asian Earth Sci., 31(3), 251–264, doi:10.1016/j.jseaes.2006.07.026. Yen, J.-Y., C.-H. Lu, C.-P. Chang, A. Hooper, Y.-H. Chang, W.-T. Liang, T.-Y. Chang, M.-S. Lin, K.S. Chen (2011) Investigating active deformation in the northern longitudinal valley and city of Hualien in eastern Taiwan using persistent scatterer and small-baseline SAR Interferometry. Terr. Atmos. Ocean. Sci., 22(3), 1–14, doi: 10.3319 /TAO.2010.10.25.01. Yu, H.-S. (2004) Nature and Distribution of the deformation front in the Luzon Arc-Chinese continental margin collision zone at Taiwan. Mar. Geophys. Res., 25, 109–122, doi: 10.1007/s11001-005-0737-1. Yu, S.-B., H.-Y. Chen, and L.-C. Kao (1997) Velocity field of GPS stations in the Taiwan area. Tectonophysics, 274(1-3), 41-59. Yu, S.-B., L.-C. Kuo, R.S. Punongbayan, E.G. Ramos (1999) GPS observation of crustal deformation in the Taiwan-Luzon region. Geophys. Res. Lett., 26, 923–926. Zebker, H.A. and R.M. Goldstein (1986) Topographic mapping from interferometric synthetic aperture radar observations. J. Geophys. Res., 91(B5), 4993–4999. Zebker, H.A. and J. Villasenor (1992) Decorrelation in interferometric radar echoes. IEEE Trans. Geosci. Sensing, 30(5), 950–959. Zebker, H.A., P.A. Rosen, R.M. Goldstein, A. Gabriel, and C.L. Werner (1994) On the derivation of coseismic displacement-fields using differential radar interferometry: The Landers earthquake. J. Geophys. Res., 99(B10), 19617–19634. Zebker, H.A., P.A. Rosen, and S. Hensley (1997) Atmospheric effects in interferometric synthetic aperture radar surface deformation and topographic maps. J. Geophys. Res., 102, 7547–7563. 王宏霖(2006)以反射震測法研究木屐寮斷層及其附近構造。國立中央大學地球物理研究所碩士論文,共118頁。 中國石油公司(1989)台灣西部地質圖,台南圖幅 ( 1:100,000 )。中國石油公司台灣油礦探勘總處編印。 石瑞銓、王乾盈、謝昭輝(1998)活動斷層地球物理探勘計畫87年度報告-雲嘉南地區活動斷層震測調查(1/5)。經濟部中央地質調查所,130頁。 年佩芬(2004)利用合成孔徑雷達差分干涉技術觀測屏東地區地層下陷之研究。國立台灣大學地質研究所碩士論文,共96頁。 江崇榮、林燕初、陳建良(2011)地下水位與地表高程互動模式之研究。經濟部中央地質調查所彙刊,第24號,1–35頁。 何世紀(2006)應用太空大地測量法探討台南地區之地表變形。國立中央大學地球物理研究所碩士論文,共129頁。 何春蓀(1975)臺灣地質概論-臺灣地質圖說明書。經濟部出版,共153頁。 余輝龍、施輝煌、黃春盛、何智剛、曾寶樹(1990)台南縣龍船及高雄縣坑內、小滾水構造重點地質核查報告,中油內部報告。 吳東錦(1990)台南台地台南層之碳十四定年研究及其在新構造運動上之意義。國立台灣大學地質研究所碩士論文,共71頁。 吳東錦、陳于高、劉聰桂(1992)台南台地台南層之沈積史與新期構造研究。地質,第12卷,第2期,167–184。 吳善薇(2005)應用雷達干涉法在彰化縣員林地區地層下陷研究。國立中央大學地球物理研究所碩士論文,共158頁。 吳樂群 (2002)沉積物與沉積環境分析及地層對比研究—嘉南平原及蘭陽平原,台灣地區地下水觀測網第二期計畫--_水文地質調查九十一年報告。經濟部中央地質調查所。 李明書、劉彦求、林偉雄、林啟文(2004)觸口斷層調查報告。經濟部中央地質調查所,未出版報告。 李政修(2006)應用雷達干涉進行數值地形之生成。朝陽科技大學營建工程系碩士論文,共80頁。 李錫堤(2001)後甲里斷層槽溝探挖工作成果報告。國立中央大學應用地質研究所印製,共 66 頁。 李麗芬(1995)台灣西南海構造型態分析。國立台灣師範大學地球科學研究所,碩士論文, 81頁。 沈淑敏、張瑞津、楊貴三(2005)地震地質調查及活動斷層資料庫建置- 活動構造地形及資料庫建置分析(1/2)。經濟部中央地質調查所研究報告,94-6號,共80頁。 周韋興(2009)台南市GPS控制點速度場分析。國立成功大學地球科學系專班碩士論文,共85頁。 周飛宏(2007)從全新世沉積層序探討台南地區褶皺-逆衝斷層帶的構造特性。臺灣大學地質科學研究所碩士論文,共115頁。 周瑞燉(1971)臺灣南部臺南區泥岩層之地層沈積之初步研究。台灣石油地質,第8號,第187-219頁。 周鋒泯(2004)應用永久散射體差分干涉法觀測台灣北部地區之地表變形。國立中央大學地球物理研究所碩士論文,共107頁。 林耕霈(2012)利用永久性散射體差分干涉法探討台南地區之地殼形變。國立中央大學地球物理研究所碩士論文,共81頁。 林啟文、張徽正、盧詩丁、石同生、黃文正(2000)台灣活動斷層概論(第二版):五十萬分之一台灣活動斷層分布圖說明書。中央地質調所特刊,第13號,共122頁。 林啟文、盧詩丁、石同生、張徽正、石瑞銓(2000)從野外觀察探討台灣西南部四條存疑性活動斷層的存在。經濟部中央地質調查所特刊,第13號, 77–101。 林啟文、盧詩丁、石同生、劉彥求、林偉雄、林燕慧(2007)台灣西南部的活動斷層。經濟部中央地質調查所特刊,第17號,109–124頁。 林朝棨(1957)台灣地形。台灣省文獻委員會,共424頁。 林朝棨(1961)臺灣西南部之貝塚與其地史學意義。國立臺灣大學考古人類學刊,第15-16期,49–94頁。 林朝棨(1963)台灣之第四紀(上、下)。臺灣文獻,第14卷,第1、2期,1-92頁。 林燕慧、劉彥求、石瑞銓、陳平護(2004)台南台地的淺部地下構造與後甲里斷層。經濟部中央地質調查所特刊,第15號,121-135頁。 洪偉嘉(2009)應用多重感應器監測雲林地區三維變形。國立交通大學土木工程學系博士論文,共164頁。 胡植慶、劉啟清、饒瑞鈞、李元希、鄭錦桐、張午龍、陳卉瑄、景國恩、唐昭榮(2012)斷層活動性觀測研究第二階段─斷層監測與潛勢分析研究(4/4) 。中央地質調查所報告,第101-1號,共366頁。 郁靜慧(2010)台灣西南部泥貫入體構造特性研究。國立中正大學應用地球物理與環境科學研究所碩士論文,共106頁。 孫習之(1964)臺灣省臺南至高雄間平原區域航照地質之研究。臺灣石油地質,第3號,39–51頁。 徐明同(1983)明清時代破壞性大地震規模及震度之評估。氣象學報,第29卷,第4期,1–18頁。 徐明同、呂新民(1964)臺南嘉義地方烈調查報告。台灣省氣象局,共55頁。 翁淑卿(2002)台南台地暨鄰近地區之台南層及其構造運動。國立中央大學應用地質研究所碩士論文,共 99 頁。 張憲欽(1976)近三十年台灣之地震。台灣文獻,第27卷,第2期,162–195頁。 張錫齡(1962)六雙層之命名。中國地質學會專刊,第1號,189–192頁。 張徽正、林啟文、陳勉銘(1998)台灣活動斷層概論第一版—五十萬分之一台灣活動斷層分布圖說明書。經濟部中央地質調查所特刊,第13號,1–122頁。 張麗旭(1955)台灣之地史。台灣銀行季刊,第7卷,第2期,1–7頁。 張麗旭(1955)台灣之地層。台灣銀行季刊,第7卷,第2期,26–49頁。 莊俊欽(2007)從GPS連續觀測資料探討台南地區的地表變形。國立成功大學碩士論文,共54頁。 莊惠如(2006)台灣西南海域泥貫入體分布與構造活動之關係。臺灣大學海洋研究所碩士論文。 郭勁廷(2011)差分干涉雷達地變形方向模糊的最佳分解。國立中央大學遙測科技碩士學位學程碩士論文,共91頁。 郭炫佑(1999)後甲里斷層及其附近構造。國立中央大學地球物理研究所碩士論文,共83頁。 郭素妙(2008)利用GPS與地震資料探討台灣西南部地震潛能。成功大學地球科學系碩士班學位論文,共66頁。 郭素妙、景國恩、饒瑞鈞、侯進雄(2008)由1996-2006年之GPS資料探討台南地區地殼變形。經濟部地質調查所特刊,第20號,1–16頁。 陳于高(1993)晚更新世以來南台灣地區海水面變化與新構造運動研究。國立台灣大學地質研究所博士論文,共158 頁。 陳于高、劉聰桂、蔡珮珊、汪中和(1994)台南地區台南層年代及其相關問題之檢討。經濟部中央地質調查所特刊,第8號,171–180頁。 陳文山、宋時驊、吳樂群、徐澔德、楊小青(2004)末次冰期以來台灣海岸平原區的海岸線變遷。國立臺灣大學考古人類學刊,第62期,40–55頁。 陳文山、李錫堤(2003)地震地質調查及活動斷層資料庫建置計畫––後甲里斷層槽溝的古地震研究。經濟部中央地質調查所報告,第92-7號。 陳文山、陳于高、楊小青(2006)地震地質調查及活動斷層資料庫建置-槽溝開挖與古地震研究計畫(5/5)與總報告。經濟部中央地質調查所研究報告95-08號, 共133頁。 陳文山、楊志成、楊小青、吳樂群、林啟文、張徽正、石瑞銓、林偉雄、李元希、石同生、盧詩丁(2004)從構造地形探討嘉南地區的活動構造。經濟部中央地質調查所彙刊,第17期,53–77頁。 陳延宗(2007)以反射震測法研究左鎮斷層及其附近構造。國立中央大學地球物理所碩士論文,共90頁。 傅式齊(1996)台灣南部陸上及海域弧陸斜向碰撞及隱沒構造之演化。台灣大學海洋研究所博士論文,共166頁。 曾可欣(2002) 台灣西南部陸上及海域之構造演化。國立臺灣師範大學地球科學研究所碩士論文。共68頁。 童忻(2008)利用永久散射體雷達干涉技術分析地表變形:以臺灣西南部平原為例。臺灣大學地質研究所碩士論文,共100頁。 黃旭燦(2003)台灣中南部褶皺逆衝斷層帶地質構造特徵分析。國立中央大學地球物理研究所博士論文,共129頁。 黃孟涵(2006)以合成孔徑雷達干涉法研究台灣之地殼變形。國立台灣大學地質研究所碩士論文,共185頁。 黃衍騮(1993)台灣西南部海域之地質構造分析。國立台灣大學地質科學系碩士論文,共116頁。 黃郁婷(2001)嘉南平原曾文溪流域晚第四系之沉積環境暨層序初探。國立台灣大學地質科學研究所碩士論文,共187 頁。 黃偉倫(1995)台灣西南部海域泥貫入體之分布與陸上諸背斜之關係及其對沈積環境之影響。國立台灣大學海洋研究所碩士論文,共68頁。 黃鑑水、劉桓吉、張憲卿(1992)台灣南部觸口斷層之地質調查與探勘研究(一)。國科會防災科技報告,81–22頁。 劉俊忠(2005)六甲斷層之淺層反射震測與野外地質分析。國立中正大學應用地球物理研究所碩士論文,共74 頁。 劉說安(1999) 地面微波輻射偵測大氣中可降水之動態。大氣科學,第27期,141-158頁。 蔡義本(1985)清代台灣有災害地震之研究。中央研究院地球科學研究所集刊,第5卷,1–44頁。 鄧屬予(2002)台灣新生代大地構造。台灣的大地構造,中國地質學會出版,第49–93頁。 鄭宏祺(2000)台灣西南部台南至屏東地區地質構造之研究。國立中央大學理學院應用地質研究所碩士論文,共100頁。 盧玉芳(2007)以雷達干涉技術監測雲林地層下陷,國立交通大學土木工程研究所碩士論文,共106頁。 盧志恆 (2009) 應用永久散射體差分干涉法探討花蓮市區斷層活動與地表變形。臺北市立教育大學自然科學系碩士論文,共85頁。 盧詩丁、石同生、李元希、林燕慧、劉彥求、黃存慧、林偉雄、林啟文(2003)新化斷層調查報告。經濟部中央地質調查所,未出版報告。 盧詩丁和林啟文(2001)活動斷層報告─木屐寮斷層。經濟部中央地質調查所施政計畫報告。 謝世雄及胡錦城(1972)臺灣重力及磁力之研究,台灣石油地質第10號,283–321頁。 謝嘉聲(2006)以雷達干涉技術偵測地表變形之研究。國立交通大學土木工程學系博士論文,共159頁。 蘇柏宗(2012)具多餘觀測的永久散射體雷達干涉測量法。國立成功大學測量及空間資訊學系碩士論文,共96頁 饒瑞鈞、余致義、洪日豪、胡植慶、李建成、詹瑜璋、許麗文(2006)地震地質調查及活動斷層資料建置計畫––活動斷層監測系統計畫總報告。中央地質調查所報告,第95-10號,65–213頁。 饒瑞鈞、余致義、洪日豪、胡植慶、李建成、詹瑜璋、許麗文(2006)地震地質調查及活動斷層資料庫建置-活動斷層監測系統計畫(5/5)。經濟部中央地質調查所研究報告95-10號,共241頁。 饒瑞鈞、李元希、胡植慶(2010)地震地質與地變動潛勢,分析地變動監測分析(4/4)期末報告。中央地質調查所報告,第99-10號,108–112頁。 饒瑞鈞、景國恩、謝宗訓、余致義、侯進雄、李元希、胡植慶、詹瑜璋、李建成、洪日豪(2003)台南台地的地表變形與地震潛能。經濟部中央地質調查所特刊,第14號,147–156頁。 | |
dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/62882 | - |
dc.description.abstract | 台灣位在歐亞板塊與菲律賓海板塊的碰撞縫合帶,西南海岸平原雖然地勢平緩,地表不同程度的抬升和沉降,可能反應褶皺逆衝帶初期發展的特性。為掌握更多地表變形資訊及研究西南海岸平原區潛在的活動構造,本研究應用持久性散射體差分合成孔徑雷達干涉技術(PSInSAR),以ENVISAT ASAR衛星降冪期(descending)軌道編號: Track 232/Frame 3141共20幅影像資訊,使用StaMPS演算分析,獲得2005年5月19日至2008年9月25日間的西南台灣大範圍的地表變形成果,衛星斜距方向位移(Slant Range Displacement, SRD)結果顯示研究地區的八掌溪以北濱海有沈陷的變形,但曾文溪中游南岸到新化斷層以北,以及曾文溪下游兩側皆為抬升變形,台南台地在此期間的變形行為與1996-2000年間的觀測資料比較,則有顯著改變。台南台地北段在視衛星方向(Line of sight)的抬升速率比南段快了近5 mm/yr。位在台地東側的大灣低地同樣也顯示抬升變形,最大斜距方向變形速率達9.6 mm/yr,比台南台地部分地區顯著,此一結果和使用1996年至2000年ERS-1/-2影像,利用差分合成孔徑雷達干涉法(D-InSAR)或持久性散射體差分合成孔徑雷達干涉技術所獲得地表變動不同,然而同一期間精密水準測量及全球衛星定位系統(GPS)等其他大地監測方法,均獲得相同的變形行為。此短暫時間內台南台地和大灣低地變形模式改變的構造因素仍不清楚,可能與泥岩貫入體活動或其它末知構造再活動有關,需要進一步研究。在曾文溪南岸和新化斷層以北之間的台南科學園區也呈現明顯的抬升變形,最大視衛星方向的抬升速率達13 mm/yr,曾文溪口北岸至北側將軍溪出海同樣均呈現抬升變形。本研究將PSI結果與水準資料和GPS比較,所得變形結果非常相近。本研究進而分析影響地表變形的可能因素,包括水文因素和活動構造可能造成地表變形的程度,地下水的影響較微弱,附近的斷層構造變形可提供較大程度的變形,但總結以上因素所有貢獻未能涵蓋此區變形速率,可能近期構造活動更加活躍,顯示在西南地區平坦的沖積層之下有活化的盲斷層或活動構造正在發育,因此臺灣西南部變形前緣的位置應該更往西移。 | zh_TW |
dc.description.abstract | Taiwan is situated along the collision boundary between the Eurasian plate and Philippine Sea plate. Although the morphology of western Taiwan is flat, however subsurface deformation is characterized by various subsiding or uplift rate in response to the incipient development of fold-and-thrust belt. This study aims to unmask the deformation pattern of the major structures and active blind structures in the coastal plain of southwestern Taiwan area for the assessment of seismic hazard of blind fault systems. Persistent Scatterers SAR Interferometry (PSInSAR) was employed to monitor surface deformation in southwestern Taiwan using 20 Advanced Synthetic Aperture Radar (ASAR) images from the ENVISAT satellite taken during the period from 2005 May 19 to 2008 September 25. The result of slant range displacement (SRD) demonstrates that significant subsidence observed in the coastal area of north part of Bazhangxi River. Meanwhile the significant uplift rate is observed in the south area and both sides of downstream area of Tsengwen River as well as along the Hsinhua fault. We also found that the uplift rate of the northern Tainan tableland is 5 mm/yr faster than that in the southern tableland. The SRD rate for the area north along the precise leveling array is about 5 to 10 mm/yr with respect to the western edge of the Tainan tableland, whereas the SRD rate for the area south of the leveling array is about 1 to 5 mm/yr. In addition, the uplifted area extends eastward to the Tawan lowland with a maximum SRD rate of 9.6 mm/yr, which is almost the same as the rate of the Tainan tableland. Results of this study differ from those suggested in previous researches that employed ERS-1/2 radar images taken from the Differential Interferometry Synthetic Aperture Radar (D-InSAR) technique and PSInSAR. However, the SRD rate observed in 2005-2008 period is consistent with those from precise leveling and GPS measurement. For instance, the tectonic implication of this transient deformation in different period is unclear; it may be related to reactivation of mud diapir or the unknown active structures. The most interesting appearance arises from a wide and unequivocally uplifting area along the north side of E-W trending Hsinhua fault and to the south side of the Tsengwen River. The maximum SRD rate is about 13 mm/yr. In comparison with leveling and GPS data, the results are fairly consistent. The analysis of possible factors affecting the surface deformation including the contributions from underground water and the movement of major faults fail to meet the observed deformation rate. It implies that the subsurface structures might be reactived in response to the compressional regime in study area. Thus the westward propagation of fold-and-thrust belts could result in the westward migration of the deformation front in coastal plain of SW Taiwan. | en |
dc.description.provenance | Made available in DSpace on 2021-06-16T16:13:33Z (GMT). No. of bitstreams: 1 ntu-102-D93224001-1.pdf: 14551435 bytes, checksum: 733337a477c4716c6bfeb05dee434f03 (MD5) Previous issue date: 2013 | en |
dc.description.tableofcontents | 致謝 i
摘要 ii Abstract iii 目錄 v 圖目錄 vii 表目錄 ix 第一章 研究問題綜覽 1 1-1西南台灣構造地質的重要性 2 1-2差分干涉技術應用於地表監測 5 第二章 西南台灣區域地質 7 2-1研究區域的構造特性 13 2.1.1台灣西南的海陸交會區域構造 13 2.1.3 近期地震活動與變形監測 19 2-2研究區域內的重要構造 25 2.2.1 活動斷層構造 25 2.2.2 地層 28 第三章 雷達差分干涉與持久性散射體差分干涉技術 32 3.1雷達觀測技術發展脈絡簡述 33 3.2雷達差分干涉基本原理 34 3.2.1相位變化 35 3.2.2 雷達影像解析度 36 3.2.3 合成孔徑雷達的原理 38 3.3 合成孔徑差分干涉法(DInSAR) 42 3 .3.1干涉成像的基本條件 43 3.3.2差分干涉的處理過程 46 3.3.3差分干涉相位來源 50 3.3.4大氣效應 51 3.4持久性差分干涉法 55 3.4.1 持久性散射點的特性 56 3.4.2持久性散射體差分干涉的StaMPS演算法 58 3.4.3. StaMPS的優勢和限制 62 第四章 研究結果與討論 64 4.1台南地區的變形現象 68 4.1.1差分干涉技術獲取的變形資訊 69 4.1.2其他大地監測結果比較 76 4.1.3 台南台地變形與構造模式的探討 86 4.2 曾文溪南岸台南科學園區附近的變形 94 4.2.1差分干涉技術監測地表變形 94 4.2.2 南科及附近的地下水井資料 99 第五章 結論 107 參考文獻 109 | |
dc.language.iso | zh-TW | |
dc.title | 應用持久性散射體差分干涉法研究台灣西南部活動變形 | zh_TW |
dc.title | Monitoring of Surface Deformation in Southwestern Taiwan Based on Persistent Scatterers SAR Interferometry | en |
dc.type | Thesis | |
dc.date.schoolyear | 101-1 | |
dc.description.degree | 博士 | |
dc.contributor.oralexamcommittee | 羅清華(Ching-Hua Lo),余樹楨(Shu-Cheng Yu),張中白(Chung-Pai Chang),陳于高(Yue-Gau Chen),盧佳遇(Chia-Yu Lu) | |
dc.subject.keyword | 持久性散射體差分干涉技術,增積岩楔,台南台地,變形前緣,褶皺與逆衝斷層帶,盲斷層, | zh_TW |
dc.subject.keyword | Persistent Scatterers SAR Interferometry (PSInSAR),Accretionary wedge,Tainan tableland,Deformation front,Fold-and-thrust Belts,Blind fault, | en |
dc.relation.page | 120 | |
dc.rights.note | 有償授權 | |
dc.date.accepted | 2013-02-08 | |
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 |
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