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研究生: 廖美慧
論文名稱: 臺灣周邊海域海面水溫分析及其於珊瑚白化監測之研究
Studies on Sea Surface Temperature Variability and Coral Reef Bleaching Monitoring in the Coastal Waters of Taiwan
指導教授: 吳朝榮
學位類別: 碩士
Master
系所名稱: 海洋環境科技研究所
Graduate Institute of Marine Environmental Science and Technology
論文出版年: 2015
畢業學年度: 103
語文別: 中文
論文頁數: 113
中文關鍵詞: 衛星遙測海面水溫珊瑚白化臺灣周邊海域珊瑚白化熱區
DOI URL: https://doi.org/10.6345/NTNU202205329
論文種類: 學術論文
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  • 近年來全球暖化及氣候變遷相關議題已成為國際矚目焦點,其中東太平洋海域水溫異常變化之聖嬰及反聖嬰現象,其發生頻率及強度皆不斷提升,對整個太平洋海域(包含臺灣周邊海域)之自然環境及生態可能造成之衝擊,也已成為重要研究課題。本研究處理分析1981-2010年臺灣周邊海域衛星遙測海面水溫資料,探討臺灣近海主要海面水溫分布特徵及其時空變動特性,並利用高解析衛星遙測海面水溫資料,嘗試建立珊瑚白化監測及預警模式。
    本研究初步結果顯示,由近三十年衛星月平均海面水溫分布圖,發現臺灣周邊海域,冬、夏季海面水溫分布型態有明顯差異。夏季時期,臺灣周邊海域海面水溫可高達29℃左右,且於澎湖西南海域及臺灣東北海域均出現冷水塊分布,特別是澎湖西南海域之冷水塊分布面積廣大,呈下弦月狀分佈於200米等深線附近海域。冬季時期,臺灣海峽會出現密集的等溫線分布,東西水平向水溫梯度變化顯著,靠近大陸沿岸海面水溫下降至20℃以下。此時,臺灣東部海域則受黑潮暖流作用影響,水溫變化較不顯著。
    另外,臺灣周邊海域珊瑚白化的高峰期,出現於夏季時期的7至9月份,9月之後珊瑚白化發生的風險隨著水溫下降快速減低。2010至2014年間,以2014年的珊瑚白化警戒等級最高且熱區分布海域範圍最大,從5月份開始,臺灣東北及南部海域均有珊瑚白化熱區(Coral Bleaching HotSpots)出現,6月開始熱區海域逐漸擴大,7月時涵蓋海域範圍達最大,但於10月後熱區數值下降迅速恢復正常。此外,本研究初步結果亦顯示,利用高解析衛星遙測海面水溫影像(G1SST)不僅適用於建立臺灣周邊海域珊瑚白化監測及預警模式,亦可有效應用於面積範圍較小的區域性海域珊瑚白化監測利用。

    第一章 緒論 1 1.1 研究背景 1 1.2 衛星遙測技術發展 4 1.3 珊瑚礁介紹 6 1.4 珊瑚礁危機 7 1.5 珊瑚礁白化 10 1.6 研究目的 13 第二章 材料與方法 15 2.1 研究資料來源及說明 15 2.1.1 衛星海面水溫定義 15 2.1.2 海面水溫氣候資料 21 2.1.3 衛星海面水溫資料 25 2.1.4 現場海面水溫觀測資料 26 2.2 研究資料處理及分析方法 27 2.2.1 海面水溫氣候資料處理 27 2.2.2 衛星海面水溫資料 32 2.3 珊瑚白化監測產品 33 2.3.1 海面水溫距平值 33 2.3.2 珊瑚白化熱點 34 2.3.3 珊瑚白化週加熱程度 35 2.3.4 珊瑚白化警戒區 36 第三章 結果與討論 39 3.1臺灣周邊海域海面水溫月別分布 39 3.2最高月別平均海面水溫氣候值 54 3.3季節別平均海面水溫氣候值 56 3.4 澎湖海域現場實測水溫變化 59 3.5 臺灣周邊海域海面水溫距平變化分析 69 3.6 臺灣周邊海域珊瑚白化熱點變化分析 76 3.7 臺灣周邊海域珊瑚白化週加熱程度變化分析 80 3.8 臺灣周邊海域珊瑚白化警戒區變化分析 87 3.9 臺灣周邊海域及珊瑚白化監測產品變化分析 91 第四章 結論及未來展望 101 參考文獻 103

    Andres, M., M. Wimbush, J. -H. Park, K. -I. Chang, B. -H. Lim, D. R. Watts, H. Ichikawa, and W. J. Teague (2008):Observations of Kuroshio flow variations in the East China Sea, Journal of Geophysical Research, 113, C05013, doi:10.1029/2007JC004200.
    Behrenfeld, M. J, R. T. O’Malley, D. A. Siegel, C. R. McClain, J. L. Sarmiento, G. C. Feldman, A. J. Milligan, P. G. Falkowski, R. M. Letelier, and E. S. Boss (2006):Climate-driven trends in contemporary ocean productivity. Nature, 444: 752–755.
    Berkelmans, R., and B.L. Willis (1999):Seasonal and local spatial patterns in the upper thermal limits of corals on the inshore Central Great Barrier Reef. Coral Reefs, 18: 219-228.
    Bertie, J. E., and Z. Lan (1996):Infrared Intensities of Liquids XX: The Intensity of the OH Stretching Band of Liquid Water Revisited, and the Best Current Values of the Optical Constants of H2O(l) at 25°C between 15,000 and 1 cm-1. Applied Spectroscopy, 50: 1047-1057.
    Chao, Y., Z. Li, J. D. Farrara, and P. Huang (2009):Blended sea surface temperatures from multiple satellites and in-situ observations for coastal oceans. Journal of Atmospheric and Oceanic Technology, 26 (7): 1435-1446.
    Chao, S. -Y. (1991):Circulation of the East China Sea, a numerical study. Journal of Oceanography, 42: 273–295.
    Donlon C., I. Robinson, K. S. Casey, J. Vazquez-Cuervo, E. Armstrong, O. Arino, C. Gentemann, D. May, P. LeBorgne, J. Piolle, I. Barton, H. Beggs, D. J. S. Poulter, C. J. Merchant, A. Bingham, S. Heinz, A. Harris, G. Wick, B. Emery, P. Minnett, R. Evans, D. Llewellyn-Jones, C. Mutlow, R. W. Reynolds, H. Kawamura, and N. Rayner (2007):The global ocean data assimilation experiment high-resolution sea surface temperature pilot project. Bulletin of the American Meteorological Society, 88: 1197-1213.
    Douglas, A. E. (2003):Coral bleaching––how and why? Marine Pollution Bulletin, 46(4): 385-392.
    Fairall, C., E. Bradley, J. Godfrey, G. Wick, J. Edson, and G. Young (1996) :Cool-skin and warm-layer effects on sea surface temperature. Journal of Geophysical Research, 101: 1295-1308.
    Hoegh-Guldberg, O. (1999):Climate change, coral bleaching and the future of the world's coral reefs. Marine and Freshwater Research, 50(8): 839-866.
    Hovis W. A., D. K. Clark, F. Anderson, R.W. Austin, W. H. Wilson, E. T. Baker, D. Ball, H. R. Gordon, J. L. Mueller, S. Z. El-Sayed, B. Sturm, R. C. Wrigley, and C. S. Yentsch (1980):Nimbus-7 Coastal Zone Color Scanner: System Description and Initial Imagery. Science, 210(4465): 60-63.
    Gentemann, C. L., P. J. Minnett, P. LeBorgne, and C. J. Merchant (2008): Multi-satellite measurements of large diurnal warming events. Geophysical Research Letters, 35, L22602.
    Gentemann, C. L. and P. J. Minnett (2008):Radiometric measurements of ocean surface thermal variability. Journal of Geophysical Research, 113, C08017.
    Glynn, P. W. and L. D'Croz (1990):Experimental evidence for high temperature stress as the cause of El Niño coincident coral mortality. Coral Reefs, 8: 181-191.
    Goreau, T. J., and R. L. Hayes (1994):Coral bleaching and "ocean hot spots." AMBIO, 23: 176-180.
    Ichikawa, K., R. Tokeshi, M. Kashima, K. Sato, T. Matsuoka, S. Kojima, and S. Fujii (2008):Kuroshio variations in the upstream region as seen by HF radar and satellite altimetry data. International Journal of Remote Sensing, 29: 6317-6326, doi:10.1080/01431160802175454.
    Jones, W. L., L. C. Schroeder, D. H. Boggs, E. M. Bracalente, R. A. Brown, G. J. Dome, W. J. Pierson, and F. J. Wentz (1982):The Seasat-A satellite scatterometer: The geophysical evaluation of remotely sensed wind vectors over the ocean, Journal of Geophysical Research, 87: 3297–3317.
    Kilpatrick, K. A., G. P. Podesta, and R. Evans (2001):Overview of the NOAA/NASA advanced very high resolution radiometer Pathfinder algorithm for sea surface temperature and associated matchup database. Journal of Geophysical Research-Oceans, 106: 9179-9197.
    Kozai, K., K. Ishida, T. Shiozaki, and Y. Okada (2004):Wind-induced upwelling in the western equatorial Pacific Ocean observed by multi-satellite sensors. Advanced in Space Research, 33:1189-1194.
    Lee, J. S., and T. Matsuno (2007):Intrusion of Kuroshio water onto the continental shelf of the East China Sea. Journal of Oceanography, 63: 309-325.
    Liang, W. D., T. Y. Tang, Y. J. Yang, M. T. Ko, and W.-S. Chuang (2003): Upper-ocean currents around Taiwan. Deep-Sea Research II, 50: 1085–1105.
    Liu, G., A. E. Strong, and W. Skirving (2003):Remote sensing of sea surface temperature during 2002 Barrier Reef coral bleaching. EOS, 84(15): 137-144.
    Liu G, A. E. Strong, W. Skirving, and L. F. Arzayus (2005):Overview of NOAA coral reef watch program's near-real time satellite global coral bleaching monitoring activities. Proc 10th Int Coral Reef Symp, Okinawa, Japan, 2004. 1: 1783-1793.
    Mariano, A. J., A. Griffa, T. M. Özgökmen, and E. Zambianchi (2000) :Lagrangian analysis and predictability of coastal and ocean dynamics. Journal of Atmospheric and Oceanic Technology, 19: 1114-1126.
    Minnett, P. J., M. Smith, and B. Ward (2011):Measurements of the oceanic thermal skin effect. Deep Sea Research Part II: Topical Studies in Oceanography, 58: 861-868.
    Nash, J., and G. S. Forrester (1986):Long-term monitoring of stratospheric temperature trends using radiance measurements obtained by the TIROS-N series of NOAA spacecraft. Advances in Space Research, 6(10):37-44.
    Njoku, E. G., T. P. Barnett, R. M. Laurs and A. C. Vastano (1985):Advances in satellite Sea Surface Temperature Measurement and Oceanographic Applications. Journal of Geophysical Research, 90: 11573-11586.
    Oey, L. -Y., Y. -C. Hsin, and C. -R. Wu (2010):Why does the Kuroshio northeast of Taiwan shift shelfward in winter? Ocean Dynamics, 60: 413-426, doi: 10.1007/s10236-009-0259-5.
    Penaflor, E. L., C. L. Villanoy, C. T. Liu, and L. T. David (2007):Detection of monsoonal phytoplankton blooms in Luzon Strait with MODIS data. Remote Sensing of Environment, 109: 443–450.
    Price, R. D., M. D. King, J. T. Dalton, K. S. Pedelty, P. E. Ardanuy, and M. K. Hobish (1994):Earth Science Data for All: EOS and the EOS Data and Information System. Photogrammetric Engineering & Remote Sensing, 60(3): 277-285.
    Price, J. F., R. A. Weller, and R. Pinkel (1986):Diurnal cycling: observations and models of the upper ocean response to diurnal heating, cooling and wind mixing. Journal of Geophysical Research, 91: 8411-8427.
    Polovina, J. J., and E. A. Howell (2005):Ecosystem indicators derived from satellite remotely sensed oceanographic data for the North Pacific. ICES Journal of Marine Science, 62: 319-327.
    Polovina, J. J., E. Howell, D. R. Kobayashi, and M. P. Seki (2001):The transition zone chlorophyll front, a dynamic global feature defining migration and forage habitat for marine resources. Progress in Oceanography, 49: 469-483.
    Poulain, P. M. (2001):Adriatic Sea surface circulation as derived from drifter data between 1990 and 1999. Journal of Marine Systems, 29: 3-22.
    Reaser, J. K., R. Pomerance, and P. O. Thomas (2000):Coral bleaching and global climate change: Scientific findings and policy recommendations. Conservation Biology, 14: 1500-1511.
    Robinson I. S. (2004):Measuring the Oceans from Space: The principles and methods of satellite oceanography. Springer Praxis Books, 714pp.
    Schick, R. S., J. Goldstein, and M. E. Lutcavage (2004):Bluefin tuna (Thunnus thynnus) distribution in relation to sea surface temperature fronts in the Gulf of Maine (1994–96). Fisheries Oceanography, 13(4): 225-238.
    Selig, E. R., K. S. Casey, and J. F. Bruno (2010):New insights into global patterns of ocean temperature anomalies: implications for coral reef health and management. Global Ecology and Biogeography, DOI: 10.1111/j.1466-8238.2009.00522.x.
    Skirving, W. J., A. E. Strong, G. Liu, C. Liu, F. Arzayus, J. Sapper, and E. Bayler (2006):Extreme events and perturbations of coastal ecosystems: Sea surface temperature change and coral bleaching. Chapter 2 in Remote Sensing of Aquatic Coastal Ecosystem Processes, L. L. Richardson and E. F. LeDrew (Co-Eds), Kluwer publishers.
    Strong, A.E., C.S. Barrientos, C. Duda, and J. Sapper (1997):Improved satellite techniques for monitoring coral reef bleaching. Proc 8th Int'l Coral Reef Sym 2: 1495-1498.
    Swift, C. T. (1980):Passive microwave remote sensing of the ocean—A review. Boundary-Layer Meteorology, 18: 25-54.
    Takahashi, W. and H. Kawamura (2005):Detection method of the Kuroshio front using the satellite-derived chlorophyll-a images. Remote Sensing of Environment, 97(1): 83-91.
    Wilkinson, C. (2008):Status of coral reefs of the world: 2008. Global Coral Reef Monitoring Network and Reef and Rainforest Research Centre, Townsville, Australia, 296 pp.
    Wilkinson, CR (1999):Global and local threats to coral reef functioning and existence: review and predictions. Mar Freshw Res 50: 867-878
    Wilheit, T. T., A. T. C. Chang, and A. Milman (1980):Atmospheric Corrections to Passive Microwave Observations of the Ocean. Boundary-Layer Meteorology, 18: 65-77.
    Wilson, W. S., and J. Dozier (1991):Earth Observing System. Proceedings of SPIE, 1491, Remote Sensing of Atmospheric Chemistry, 117 (September 1, 1991); doi:10.1117/12.46654.
    Wu, C. -R., H. -F. Lu, and S. -Y. Chao (2008):A numerical study on the formation of upwelling off northeast Taiwan. Journal of Geophysical Research, 113, C08025, doi:10.1029/2007JC004697.
    Yang, Y., C. -T. Liu, T. N. Lee, and W. E. Johns (2004):Geostrophic uncertainty and anomalous current structure in association with mesoscale eddies delineated by altimeter observations east of Taiwan. In: Satellite Altimetry for Geodesy, Geophysics and Oceanography, 205-211.
    Yang, Y., C. -T. Liu, J. -H. Hu and M. Koga (1999):Taiwan Current (Kuroshio) and Impinging Eddies. Journal of Oceanography, 55: 609-617.
    Zainuddin, M., H. Kiyofuji, K. Saitoh, and S. Saitoh (2006):Using multi-sensor satellite remote sensing and catch data to detect ocean hot spots for albacore (Thunnus alalunga) in the northwestern North Pacific. Deep-Sea Research II, 53: 419-431.
    王磊、王麗婭(2004):利用衛星遙感資料對南海北部陸架海洋表層溫度鋒的分析。中國海洋大學學報,34(3):351-357。
    柯銘澤(2001):臺灣周圍的流場。國立臺灣大學海洋研究所碩士論文,78pp.
    孫湘平(1987):東海黑潮表層流路(途徑)的初步分析。黑潮調查研究論文集,海洋出版社:1-14。
    盧鴻復、吳朝榮(2014):臺灣周邊海域水文及洋流特徵。海洋技術季刊,14(4):12-18。
    戴昌鳳(2009):珊瑚與珊瑚礁。出版單位/墾丁國家公園管理處
    戴昌鳳(2008):氣候變遷對海洋生物的影響,林業研究專訊15(2):16-19。
    戴昌鳳(2007):建立海洋資源保育指標評估系統及規劃具體海洋保育政策,內政部營建署墾丁國家公園管理處委託辦理報告。
    童慶斌、曾昭衡、戴昌鳳、李培芬等(2007):建立氣候變遷對環境與生態永續性衝擊預警指標與機制,NSC 96-EPA-Z-002-04,環保署/國科會空污防制科研合作計畫。
    蘇瑞欣、吳淑黎、張祐嘉(2012):珊瑚活性物質的開發。科學發展,479期,12-17。
    國立海洋生物博物館, 20131219, 墾丁海域深層冷水 緩珊瑚白化, 新聞。
    行政院海洋事務推動小組,20071231,墾丁核三廠附近的海域、出現大量珊瑚白化的現象,(http://www.cga.gov.tw/GipOpen/wSite/ct?xItem=69465&ctNode=7504&mp=cmaa)
    李逸環(2010) :珊瑚白化的救星,科學發展,445期, 44-47。
    陳昭倫(2007):墾丁珊瑚白化─聽見海哭的聲音了嗎?環境資訊中心,2007年9月6日。
    謝雯凱(2007):上半年全球氣溫飆新高 印尼海域珊瑚白化嚴重,環境資訊中心,2011年1月7日。(http://e-info.org.tw/node/62641)
    Coral Reef Emergency: 2,600 Scientists Call For Worldwide Rescue CAIRNS, Australia, July 9, 2012 (ENS)
    郭芷瑄(2013):墾丁海域深層冷水 緩珊瑚白化,中央社,2013年12月19日。(http://www.cna.com.tw/news/aloc/201312190419-1.aspx)

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