參考文獻 |
王相華、傅淑瑋、鄧國禎、洪西洲、廖學儀,「台灣紅樹林面積變遷及物種組成現況」,Taiwan Forestry Journal,Vol 41,No.2,2015。
邱志郁、周昌弘,「重金屬在河口生態系的角色」,生物科學,32:1-6,1989。
林泗濱、陳正宏,「台北盆地沉積物岩性與粘土礦物組成之變化」,中國地質學會會刊,第43卷, 第2期, 第311-332頁,2000。
陳美芙,「竹圍紅樹林沼澤區營養鹽與水筆仔生長關係之研究」,國立東華大學,自然資源管理研究所,碩士論文,第1-55頁,1997。
郭政隆、吳素慧,石油探採第一冊第五章(林國安等編著),中國石油股份有限公司,第210-211頁,2003。
郭智勇,台灣紅樹林自然導遊,大樹文化出版社,第1-198頁,1995。
趙杏媛、張有瑜,黏土礦物與黏土礦物分析,海洋出版社,北京,第1-354 頁,1990。
盧榮泰,「飽和脂肪烴類於濁水溪流域及台灣海峽沉積物中之分布與特徵」,國立中山大學,中山大學海洋科學系,碩士論文,第1-169頁,2013。
薛美莉,消失中的濕地森林-記台灣的紅樹林,特有生物研究保育中心,第1-116頁,1995。
Alongi, D.M., “Mangrove forests: resilience, protection fromtsunamis, and responses to global climate change”, Estuar. Coast. Shelf Sci. 76, 1–13, 2008.
Barnes, M. A., and Barnes, W.C., Organic compounds in lake sediments. In: Lerman, A. (Ed.), Lake: Chemistry, Geology, Physics;Springer-Verlag, Berlin, 127-152, 1978.
Barreto, M. B., Mónaco, S. L., Díaz, R., Barreto-Pittol, E., López, L., and Peralba, M. d. C. R., “Soil organic carbon of mangrove forests (Rhizophora and Avicennia) of the Venezuelan Caribbean coast”, Organic Geochemistry 100, 51–61, 2016.
Blumer, M., Mullin, M. M., and Thomas, D. W., “Pristane in the marine environment. Helgoland Marine Research”, 10, 187-201, 1964.
Bray, E. E. and Evans, E. D., “Distribution of n-paraffins as a clue to recognition of source beds”, Geochimicaet Cosmochimica Acta, 22(1):2-15, 1961.
Brooks, J. D., Gould, K. and Smith, J. W., “Isoprenoid hydrocarbons in coal and petroleum”, Nature, 222, 257-9, 1969.
Chen, Y. C. and Hung, T. C., “The behavior and mobilization of trace metals in the Tanshui River”, J. Environ. Protect. Soc. ROC, 11, 21-31, 1988.
Clark, R. C. Jr., and Blumer, M., “Distribution of n-Paraffins in Marine Organisms and Sediment. Limnology and Oceanography”, 12, 79-87, 1967.
Cranwell, P. A., “Chain-length distribution of n-alkanes from lake sediments in relation to post-glacial environmental change”, Freshwater Biology, 3, 259-265, 1973.
Cranwell, P. A., “Lipid geochemistry of sediments from Upton Broad, a small productive lake”, Organic Geochemistry, 7, 25-37, 1984.
Cranwell, P. A., Eglinton, G., and Robinson, N., “Lipids of aquatic organisms as potential contributors to lacustrine sediments-II”, Organic Geochemistry, 11, 513–527, 1987.
Deer, W. A., Howie, R. A., and Zussman, J., An introduction to rock-forming minerals, Longman Group Ltd., London, 528 pp, 1975.
Derenne, S., Largeau, C., Casadevall, E., and Connan, J., “Comparison of torbanites of various origins and evolutionary stages. Bacterial contribution to their formation. Cause of lack of botryococcane in bitumens”, Organic Geochemistry, 12, 43-59, 1988.
Didyk, B. M., Simoneit, B. R. T., Brassell, S. C., and Eglinton, G., “Organic geochemical indicators of palaeoenvironmental conditions of sedimentation. Nature”, 272,216-22, 1978.
Eglinton, G., and Calvin, M., “Chemical fossils”, Scientific American, 216(1): 32-43, 1967.
Eglinton, G., and Hamilton, R. J., “Leaf epicuticular waxes”, Science, 156, 1322-1335, 1967.
Espitalié, J., Laporte, J. L., Madec, M., Marquis F., Leplat, P., Paulet, J. and Boutefeu, A., “Méthode rapide de Caracterisation des roches mères de leur potentiel pétrolier et de leur degré d′evolution”, Revue l’Inst. Francais du Petrole, 32(1), p.23–42, 1977.
Espitalié, J., Maequis, F., and Barsony, I., Geochemical logging; in Proceedings of the 5th International Symposium on Analytical Pyrolysis; K. J. Voorhees (ed.), Vail, Colorado ,276-304, 1983.
Ficken, K. J., Swain, D. L., and Eglinton, G., “An n-alkane proxy for the sedimentary input of submerged/floating freshwater aquatic macrophytes.”,Organic geochemistry, 31(7-8): 745-749, 2000.
Foster, D., and Fritz, S. C., “Mire development, pool formation and landscape processes on patterned fens in Dalarna, central Swenden”, The Journal of Ecology, 409-437, 1987. Gelpi, E., Schneider, H., Mann, J., and Oro, J., Hydrocarbons of geochemlcal significance in microscopic algae. Fhytochemistry, 9, 603-612, 1970.
Goossens, H., Duren, R. R., de Leeuw, J. W., and Schenck, P. A., “Lipids and their mode of occurrence in bacteria and sediments-II. Lipids in the sediment of a stratified, freshwater lake”, Organic Geochemistry, 14, 27-41, 1989.
Griffin, J. J., Windom, H., and Goldberg, E. D., “The distribution of clay minerals in the world ocean”, Deep-Sea Research, 15, 433-459,1968.
Grimalt, J., Albaiges, J., Al Saad, H. T., and Douabul, A. A. Z., “n-Alkane distributions in surface sediments from the Arabian Gulf”, Naturwissenschaften, 72, 35-37, 1985.
Grimalt, J., and Albaiges, J., “Sources and occurrence of C12-C22n-alkane distribution with even carbon-number preference in sedimentary environments”, Geochimica et Cosmochimica Acta, 51, 1379-1384, 1987.
Han, J., McCarthy, E. D., Van Hoeven, W., Calvin, M., and Bradley, W. H., “Organic geochemical studies, II. Apreliminary report on the distribution of aliphatic hydrocarbons in algae, in bacteria, and in a recent lake sediment”, Proceeding of the National Academy of Sciences (USA), 59, 29-33, 1968.
Hung, T.C., “Study on heavy metals in rivers and estuaries of western Taiwan Republic of China”, J. Environ. Protect. Soc. ROC, 6, 1-9, 1983.
Hunt, J. M., Petroleum geochemistry and geology, San Francisco, W. H., Freeman and Company, 617p, 1979.
Jaffé, R., Wolff, G. A., Cabrera, A. C., and Carvajal-Chitty, H. I., “The biogeochemistry of lipids in rivers of the Orinoco Basin”, Geochim. Cosmochim. Acta 59, 4507–4522, 1995.
Johns, W. D., Grim, R. E., and Bradley, W. F., “Quantitative estimations of clay minerals by diffraction methods”, Journal of Sedimentary Research, 24(4), 242-251, 1954.
Killop, S. D., and Killop, V. J., An introduction to organic geochemistry, Longman Group UK Ltd., England, 265p, 1993.
Koch, B. P., Filho, P. W. M. S., Behling, H., Cohen, M. C. L., Kattner, G., Rullkötter, J., Scholz-Böttcher, B., and Lara, R. J., “Triterpenols in mangrove sediments as a proxy for organic matter derived from the red mangrove (Rhizophora mangle)”, Org. Geochem. 42, 62–73, 2011.
Li, M. W., Larter, S. R., Taylor, P., Jones, D. M., Bowler, B., and Bjoroy, M., “Biomarkers or not biomarkers? A new hypothesis for the origin of pristine involving derivation from methyltrimethyl-tridecylchromans (MTTCs) formed during diagenesis from chlorophyll and alkylphenols”, Organic Geochemistry, 23, 159-167, 1995.
Lytle, J. S., Lytle, T. F., Gearing, J. N., and Gearing, P. J., “Hydrocarbons on benthic algae from the eastern Gulf of Mexico”, Marine Biology, 51, 279-288, 1979.
Meyers, P. A., Preservation of elemental and isotopic source identification of sedimentary organic matter. Chem. Geol. 114, 289–302, 1994.
Meyers, P. A., “Organic geochemical proxies of paleooceanographic, palelimnlogic, and paleoclimatic processes”, Organic Geochemistry, 27, 213-50, 1997.
Meyers, P. and R. Ishiwatari, “Organic matter accumulation records in lake sediments” , Physics and chemistry of lakes, Springer: 279-328, 1995.
Mironov, O. G., Shchekaturina, T. L., and Tsimbal, I. M., “Saturated Hydrocarbons in marine organisms. Marine Ecology Progress Series”, 3, 303-309, 1981.
Mitsch, W. J. and J. G. Gosselink, Wetlands, Lamper enterprises co. LTD. Taipei. pp. 1-644, 1993.
Moldowan, J. M., Seifert, W. K., and Gallegos, E. J., “Relationship between petroleum compositionand depositional environment of petroleum source rocks. American Association of Petroleum Geologists Bulletin”, 69, 1255-68, 1985.
Moore, D. M., Reynolds, C. and Reynolds, Jr, X-ray Diffraction and the Identification and Analysis of Clay Minerals 2nd Edition, Oxford University Press, New York, 378 pp, 1997.
Nishimura, M., and Baker, E. W., “Possible origin of n-alkanes with remarkable even-to-odd predominance in recent marine sediments”, Geochimica et Cosmochimica Acta, 50, 299-305, 1986.
Ogura, L., Machihara, T., and Takada, H., “Diagenesis of biomarkers in Biwa lake sediments over 1 million years”, Organic Geochemistry, 16, 805-813, 1990.
Oro, J., Tornabene, T. G., Nooner, D. W., and Gelpi, E., “Aliphatic hydrocarbons and fatty acids of some marine and freshwater microorganisms. Journal of Bacteriology”, 93, 1811-1818, 1967.
Pancost, R. D., Boot, C. S., The palaeoclimatic utility of terrestrial biomarkers in marine sediments. Mar. Chem. 92, 239–261, 2004.
Peters, K. E. and Cassa, M. R., Applied source rock geochemistry: chapter 5: Part II. Essential elements, 1994.
Peters, K. E., Walters, C. C., and Moldowan, J. M., The Biomarker Guide: II. Biomarker and Isotopes in Petroleum Exploration and Earth History., Cambridge University Press, 2007.
Philp, R. P., Fossil fuel biomarkers, applications and spectra, Elsevier, New York, 1985.
Powell, T. G. and McKirdy, D. M., Relationship between ratio of pristine to phytane, crude oil composition and geological environment in Australia. Nature, 243, 37-9, 1973.
Prartono, T., and Wolff, G. A., “Organic geochemistry of lacustrine sediments: a record of the changing trophic status of Rostherne Mere”, U.K. Org. Geochem. 28, 729-747, 1998.
Ranjan, R. K., Routh, J., Klump, J. V., and Ramanathan, A., “Sediment biomarker profiles trace organic matter input in the Pichavaram mangrove complex, southeastern India”, Marine Chemistry, 171, 44-57, 2015.
Rieley, G., Collier, R. J., Jones, D. M., and Eglinton, G., “The biogeochemistry of Ellesmere Lake, U.K.-I: source correlation of leaf wax inputs to the sedimentary lipid record”, Organic Geochemistry, 17, 901-912, 1991.
Risatti, J. B., Rowland, S. J., Yon, D. A., and Maxwell, J. R., “Stereochemical studies of acyclic isoprenoids, XII. Lipids of methanogenic bacteria and possible contributions to sediments”, In: Schenck, P. A., de Leeuw, J. W. (Eds.), Advances in Organic Geochemistry. Pergamon, Oxford, 93-104, 1984.
Rowland, S. J., “Production of acyclic isoprenoid hydrocarbons by laboratory maturation of methanogenic bacteria”, Organic Geochemistry, 15, 9-16, 1990.
Scalan, R. S. and Smith, J. E., “An improved measure of the odd-to-even predominance in the normal alkanes of sediment extracts and petroleum”, Geochimica et Cosmochimica Acta, 34, 611-20, 1970.
Schopf, J. M., Variable coalification. The processes involved in coal formation. Econ. Geol., 43 (3): 207-224, 1948.
Stach, E., Mackowsky, M. T., Teichmuller, M., Taylor, G. H., Chandra, D., and Teichmuller, R., Stach′s Textbook of Coal Petrology Gebruder Borntraeger, Stuttgart, 535 pp, 1982.
Tissot, B. P., and Welte, D. H., Petroleum Formation and Occurrence, Springer-Verlag, New York, 699 pp, 1984.
Versteegh, G. J. M., Schefuß, E., Dupont, L. M, Marret, F., Sinninghe-Damsté, J. S., and Jansen, F., “Taraxerol and Rhizophora pollen as proxies for tracking past mangrove ecosystems”, Geochim. Cosmochim. Acta 68, 411–422, 2004.
Viso, A. C., Pesando, D., Bernard, P., and Marty, J. C., “Lipid components of the Mediterranean seagrass Posidonia Oceanica”, Phytochemistry, 34, 381-387, 1993.
Wakeham, S. G. and R. Carpenter, “Aliphatic hydrocarbons insediments of Lake Washington 1.”, Limnology and Oceanography, 21(5): 711-723, 1976.
Waples, D.W., Geochemistry in petroleum exploration, D. Reidel Publishing Co. Dordrecht- Boston- Lancaster, pp. 232, 1985.
Winters, K., Parker, P. L., and Van Baalen, C., “Hydrocarbonsof blue-green algae: geochemical significance. Science”, 158, 467-468, 1969.
Wolanski, E., “Hydrodynamic of a mangrove swamos and their coastal water”, Hydrobiologia, 247: 147-161, 1992.
Ye, B., Zhang, Z. and Ting, M., “Petroleum hydrocarbon in surficial sediment from rivers and canals in Tianjin, China”, Chemosphere, 68(1): 140-149, 2007.
Zeng, E. Y., Khan A. R. and Tran, K., Organic pollutants in the coastal marine environment off San Diego, California. 3. Using linear alkylbenzenes to trace sewage‐derived organic materials, Environmental Toxicology and Chemistry, 16(2): 196-2001, 1997.
林務局自然保育網:http://conservation.forest.gov.tw/0000106
國際繞射資料中心礦物X光繞射資料卡:http://www.icdd.com,2003
http://163.20.52.80/stu635/cwpspage/2011mangrove/2011mangrove2/3.htm
http://cm.jmjh.tn.edu.tw/~seven7/mangrove/1-4.htm
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