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| 論文分類 | 碩士論文 |
|---|---|
| 學號 | 9025604 |
| 姓名 | 張維妮 |
| 標題(中) | 不同營養特性之植物組織及部位對土壤中重金屬之累積吸附研究 |
| 標題(英) | Accumulation and adsorption of heavy metals from soil by different tissue types and functional organs of plants |
| 指導教授 | 程淑芬 |
| 畢業日期 | 2003-07 |
| 附件檔案 | |
| 參考連結 | http://ir.lib.cyut.edu.tw:8080/handle/310901800/1675 |
| 摘要 | 台灣地區對於農業灌溉用水皆無法掌握其來源及水源之特性,使得近年來農田遭受污染之事件頻頻發生,其中又以具累積、不易分解性及不可逆性的重金屬污染情況最為嚴重。對於大多數土壤重金屬污染而言,植物的地下根部是唯一與其直接接觸的部位,亦是重金屬污染物進入植物體內的主要門戶。因此,欲了解重金屬在植物體內之累積分佈情形,植物地下部位對重金屬的累積吸收特性是重要關鍵之一。 本研究選擇幾種具有不同營養特性的地下部作物進行研究,其中包括紅蘿蔔、白蘿蔔、甘藷、花生、大蒜以及苜蓿等,栽種試驗作物進行研究探討,不同營養特性的地下部 |
| 參考文獻 | 英文文獻: Alloway, B. J., and Steinnes. E., “Anthropogenic additions of cadmium to soil,” Proceedings of extended abstracts from the fourth international conference on the biogeochemistry of trace elements, June 23-26, Clark Kerr Camps, Berkeley, A review, pp.663-664(1997). Abdul Rida, A. M. M., and Bouché , M. B., “Heavy metal linkages with mineral, organic and ling soil compartments,” Soil Biology and Biochemistry, Vol.29 (3/4), pp.649-655(1997). Agrawal, A. K., Shapiro, B. H., “Phenobarbital induction of hepatic CYP2B1 and CYP2B2 : pretranscriptional and post-transcriptional effects of gender, adult age, and phenobarbital dose,” Mol Pharmacol 49, pp.523-531(1996). Agarwal, K. C., “Therapeutic actions of garlic constituents,” Med. Res. Rev. Vol. 16, pp.111-124(1996). Alloway, B. J., “Heavy metals in soils,” John Wiley&Sons, New York, pp.122~147(1995 a) . Anderson, A., and Simon, G., “Levels of Cd and some other trace elements in soils and crops as influenced by lime and fertilizer level,” Acta. Agric. Scand, Vol.41, pp.424-431(1991). Alloway, B. J., “Heavy metals in soils,” John Wiley and Son, New York., pp.5(1990). Alloway, W. H., “Advances in agronomy,” pp.240-243(1968). Ben-Shalom, N. R. et al., “Controlling gray mould caused by Botrytis cinerea in cucumber plants by means of chitosan,” Crop Protection Vol.22, pp.285–290(2003). Blum, W. E. H., “Cadmium uptake by higher plants,” Proceedings of extended abstracts from the fourth international conference on the biogeochemistry of trace elements, June 23-26, Clark Kerr Camps, Berkeley, pp.109-110(1997). Bolton, K. A., and Thorose, E.,” The effect of soil organic matter oncadmium bioavailability in barley,” Proceedings of extended abstracts from the fourth international conference on the biogeochemistry of trace elements, June 23-26, Clark Kerr Camps, Berkeley, pp.103-104(1997). Brown, C. L.et al., “A predictive model for the accumulation of cadmium by container-grown plants,” J. Environ. Qual, Vol.13, pp.184-188(1984). Barber A., and Brennan E., ”Phytotoxic effects of cadmium,” Phytopatholigy, Vol.64, pp.578(1974). Chaney, R. L., “Soil cadmium as a threat to human health,” Proceedings of extended abstracts from the fourth international conference on the biogeochemistry of trace elements, June 23-26, Clark Kerr Camps, Berkeley, pp.671-672(1997). Chaney, R. L. et al, “Long-term phytoavailability of cadmium in soils amended with high quality biosolids,” Proceedings of extended abstracts from the fourth international conference on the biogeochemistry of trace elements, June 23-26, Clark Kerr Camps, Berkeley, pp.683-684(1997). Chaney, R. L., and Giordano, P. M., “Microelements as related to plant deficiencies and toxicities,” Soils for management of organic wastes and wastes waters, American Society of Agronomy Madison, Wisconsion, pp.235 –279 (1997). Christensen, T. H., ” Cadmium soil sorption at low concentrations: Ⅴ. Effect of competition by other heavy metals,“ Water Air Soil Polut, Vol.34, pp.293-303 (1987). Christensen, T. H., “Cadmium soil sorption at low concentrations: Ⅰ. Effect of time, cadmium load, pH, and cadmium,“ Water Air Soil Polut. Vol.21, pp.105-114 (1984). Cushman, J. H., “Nutrient transport and outside the rhizo sphere,” Theory. Soil Sci. Soc. Am. J. Vol. 46, pp.704-709(1982). Collins, J. C., “Zinc, Effect of heavy metal pollution on plants.” Vol.1: Effects of trace metals on plant function, Applied Science Publishers, Liverpool. pp.145-169(1981). Chaney, R. L. et al, “Plant accumulation of heavy metals and phyto-toxicity resulting from utilisation of sewage sludge and sludge composts on cropland,” National Conference on Composting Municipal Residues and Sludge. Information transfer. Rockville, MD pp. 86-97(1978). Chaney, R. L., “In factors Involved in application of agricultural and municipal wastes,” USDA, Beltsville, (1974). Cutler, J. M., and Rains. D. W., “Characterization of cadmium uptake by plant tissue,” Plant Physiol, Vol.54, pp.67-71(1974). Cavallito, C. J., Bailey, J. H., “Allicin, the antibacterial principle of allium sativum. I. Isolation,physical properties and antibacterial action,” J. Am. Chem. Soc, Vol.66, pp.1950-1951(1944). Dabin, P. et al, “Adsorption, distribution and binding of cadmium and zinc in irrigated rice plants,” Plant Soil, Vol.50, pp.329(1978). Fett, J. P. et al., “Cadmium uptake and growth inhibition in water hyacinths,” Effects of nutrient solution factors. J. Plant Nutr. Vol.17, pp.1205-1217(1994). Fergusson, J. E., “The heavy elements: chemistry, environmental impact and health effects,” Pergamon Press, Oxford, (1990). Friberg, L., and Nordberg, G. F., Handbook on the Toxicology of Metals, In L. 2nd ed Elsevier, Amsterdam, pp.1-14,(1986). Fenwick, G. R, Hanley, A. B., “The genus Allium. Crit,” Rev. Food Sci. Nutr. Vol.22(3), pp.199-271(1985). Giller, K. E. et al., “Toxicity of heavy metals to microorganisms and microbial processes in agricultural soils,” Soil Biologyand Biochemistry. Vol.30(10/11), pp.1389-1414(1998). Grant, C. A., and Bailey, L. D., “Fertilizer effects on cadmium accumulation in durum whea,” Proceedings of extended abstracts from the fourth international conference on the biogeochemistry of trace elements, June 23-26, Clark Kerr Camps, Berkeley, pp.127-128(1997). Grant, C. A. et al, “Management techniques to reduce cadmium transfer from soils to plants,” Proceedings of extended abstracts from the fourth international conference on the biogeochemistry of trace elements, June 23-26, Clark Kerr Camps, Berkeley, A review. pp.667-668(1997). Galli, U. et al., “Heavy metal binding by mycorrhizal fungi,” Physiol. Plant, Vol.92, pp.364-368(1994). Greger, M. et al., “Uptake and physiological effects of cadmium in sugar beet(Beta vulgaris) related to mineral provision,” J. Exp. Bot. Vol.42, pp. 729–737 (1991). Hodge, C. A., and Popovici, N. N., “Pollution control in fertilizer production,” Marcel Dekker, New York, (1994). Hardiman, R. T., and Jacoby, B., “Absorption and translocation of Cd in bush beans(Phaseolus vulgaris)”. Physiol. Plant, Vol.61, pp.670-674 (1984). Hovmand, M. F. et al., ”Plant uptake of airborne cadmium,” Environ. Pollut. Vol.30, pp.27-38(1983). Hodges, T. K., “Ion absorption by plant roots,” Adv. In Agronomy, Vol.25, pp.163-207(1973). Johanna, R. E. et al.,“Kinetics of cadmium uptake by chitosan-based crab shells,” Water Research, Vol.36, pp. 3219–3226(2002). Jansson, G. K., and Oborn, I. E., “A field study on cadmium content in carrots and the influence of soil factors,” Proceedings of extended abstracts from the fourth international conference on the biogeochemistry of trace elements, June 23-26, Clark Kerr Camps, Berkeley, pp.123-124(1997). Jackson, A. P., and Alloway, B. J., “The transfer of cadmium from agricultural soils to the human food chain,” Biogeochemistry of trace metals, Lewis Publishers, Boca Raton, van. pp.109-158(1992). Jordan, D. C., and Family III. Rhizobiaceae Conn. “Bergey’s Manual of Systematic Bacteriology,” Williams and Wilkins, Baltimore. USA, Vol.1, No.9 pp.234-244(1984). Jarvis, S. C. et al., “Cd uptake from solution by plants and its transport from roots to shoots,” Plant Soil, Vol.44, pp.179-191(1976). Keller, C., and Vedy, J. C., “Distribution of copper and cadmium frations in two forest soils,” J. Environ, Qual, Vol.23, pp.987-999(1994). Kastori, R. et al., “Effect of excess Pb, Cd, Cu and Zn on water relations in sunflower,” J. Plant Nutr, Vol.15, pp.2427-2439(1992). Kabata-Penias, A., and Pendias H., “Trac elements in soil and plants,” CRC press. Boca Raton, Florida, (1986). Kabata-Pendias, A. and Pendias, H., “Family dependent cadmium accumulation characteristics in higher plants,” First edition, CRC Press, Boca Raton, FL., USA, (1984). Kabata-Pendias, A., and Pendias H., “Trace Elements in Soil and Plants,” CRC Press, Florida, pp.315(1984). Kuleff, I., and Jingova, R. D., “The dandelion(taraxacum officinale )-A monitor for environmental pollutions,” Water, Air, & Soil Pollu, Vol.21, pp.77-85(1984). Kirkham, M. B., “Water relations of cadmium-treated plants,” J. Environ. Qual, Vol.7, pp.334-336(1978). Liste, H. H., and Alexander, M., “Plant-promoted pyrene degradation in soil,” Chemosphere Vol.40 , pp.7-10(2000). Lombi, E. et al., “Soil contamination risk reduction and remediation,” Land Contam. & Reclama, Vol.6, pp.183 –197 (1998). Lune, P., and Zwart, K. B., “Cadmium uptake by crops from the subsoil,” Plant and Soil, Vol.189, pp.231-237(1997). Lin, H. C., and Chiou, C. K., “Response of Lettuce, mustard, rice and corn crops to cadmium treatment, ”Proceeding of the 2nd Workship of Soil Pollution Prevention, pp.257-272(1990). Lepp, N. W.,” Effect of heavy metal pollution on plants,” Effects of trace metals on plant function, Applied Science Publishers, Lomdon. Vol. 1 ( 1981). Marja R. T. et al.,“Phytoremediation of subarctic soil contaminated with diesel fuel,” Bioresource Technology, Vol.84, pp. 221–228(2002). Morgan, A. J. et al., “Davies Assaying the effects of chemical ameliorants with earthworms and plants exposed to a heavily polluted metalliferous soil,” European Journal of Soil Biology, Vol.38, pp.323-327( 2002). Mergeay, M., A. I. Tervahauta, “Genetic engineering in the improvement of plants for phytoremediation of metal polluted soils,” Environmental Pollution Vol.107, pp. 225-231(2000). McBride, M. B. et al., “Mobility and solubility of toxic metals and nutrients in soil fifteen years after sludge application,” Soil Sci. Vol.162, pp.487-500 (1997a). McBride, M. et al., “Solubility control of Cu, Zn, Cd, and Pb in contaminated soils,” Chemical Abstracts 19-Fert. Soils Plant Nutr, Vol.127, No.9, pp.497 (1997b). Malik, D. et al., ”Carbon metabolism in leaves of cadmium treated wheat seedlings,” Plant Physiol, Vol.99, pp.872-878(1992). Mance, G., “Bioaccumulation,” Pollution Treat of Heavy Metals in Aquatic Environments, Elsevier Applied Science, London, pp287-298(1987). Merry, R. H., and Tiller, K. G., “The effects of soil contamination with copper, lead and aresenic on the growth and composition of plants,” I. effects of season, genotype, soil temperature and fertilizer, Pl. Soil, Vol.91, pp.115-128(1986a). Merry, R. H. and K. G. Tiller, “The effects of soil contamination with copper, lead and aresenic on the growth and composition of plants,” I. effects of season, genotype, soil temperature and fertilizer, Pl. Soil, Vol.91, pp.115-128(1986a). Merry, R. H., and Tiller, K. G., “The effects of soil contamination with copper, lead and aresenic on the growth and composition of plants,” II. effects of source of contamination, varying soil ph, and prior waterlogging, Pl. Soil, Vol.95, pp.255-269(1986b). Mortvedt, J. J., “Plant uptake of heavy metals in zinc fertilizers made form industrial by-products,” J. Environ. Qual, Vol.14, pp.424-427(1985). Mulla, J. O. .et al., “Cadmium accumulations and bioavailability in soils form long-term phosphorus fertilization,” J. Environ. Oual, Vol.9, pp.408-412(1980). McLaren, R. G., and Graford, D. V., “Studies on soil copper: I. the fractionation of copper in soils,” J. Soil Sci, Vol.24, pp.172-181(1973). Nriagu, J. O., “Cadmium in the environment,” 1: Ecological cycling. John Wiley and Sons, New York, (1980). Nye, P.H., and Tinker, P.B., “Solute movement in soil-root system,” In Studies in Ecology, Blackwell Scientific Publ, Oxford, England, Vol. 4, (1977). Oleszek, W., ”Alfalfa saponins: structure, biological activity, and chromatography,” Saponins in food and agriculture. Plenum Publishing Corp. New York, pp.155-170(1996). Oleszek, W. et al., “Isolation and Identification of Alfalfa (Medicago sativa L.) Root Spaonins: Their Activity in Relation to a Fungal Bioassay,” J. Agric. Food Chem, Vol.38, pp.1810-1817(1990). Pinsky, D. L., “Ion-exchange adsorption of cadmium, copper, lead, and zinc by soils and their interaction with soils components,” Proceedings of extended abstracts from the fourth international conference on the biogeochemistry of trace elements, June 23-26, Clark Kerr Camps, Berkeley, pp. 409-410(1997). Page, A. L. et al., “Cadmium,” Effects of Heavy Metal Pollution in Plants, Vol.1, by N. W. Lepp, (ed.), Applied Sci, UK. pp.77-109(1981). Ralph, P. J., and Burchett, M. D., “Photosynthetic response of Halaphila ovalis to heavy metal stress,” Environmental Pollution, Vol.103, pp.91-101 (1998). Rauser, W. E., ”Phytrochelatins,” Annu Rev Biochem, Vol.59, pp.61-86(1990). Rauser, W. E., ”Early effects of phytotoxic burdens of cadmium, cobalt, nickel, and zinc in white beans,” Can J Bot, Vol.56, pp.1744-1749(1977). Singh, A. K. & Pandeya, S. B., “Modelling uptake of cadmium by plants in sludge-treated soils,” Bioresource Technology, Vol.66, pp.51-58 (1998). Simon, L., “Cadmium accumulation and distribution in sunflower plant,” J. Plant Nutri, Vol.21, pp.341-352(1998). Simon, L. et al., “Chicory(Cichorium intybus L.) and denelion(taraxacum officinale web.) as phytoindicators of cadmium contamination,” Water, Air, & Soil pollut, Vol.91, pp.351-362(1996). Salt, D. E. et al.,”Phytoremediation a novel strategy for removal of toxic metals from the environment using plants,” Biotechnology, Vol.13, pp.468-474(1995). Salomons, W., and Forstner, U., “Trace metal analysis on polluted sediments,” Part2, Evaluation of environmental impact, Environ Technol. Lett.1, pp.506-517(1980). Sutcliffe, J. F., “Mineral Salts Absorption in Plants,” Pergamon Press, (1962). Torres, E. et al, “Removal of cadmium ions by the marine diatom phaeodactylum tricornutum bohlin accumulation and long-term kinetics of uptake,” Bioresource Technology, Vol.63, pp.213-220(1998). Thys, C., “Interactions of Cd with Zn, Cd, Mn and Fe for lettuce ( Lactuca sativa L. ) in hydroponic culture,” Plant Cell Environ, Vol.14, pp.713-717(1991). Thornton, I., “Geochemical aspects of the distribution and forms of heavy metals in soils,” In: Effect of heavy metal pollution in plants, N. W. Lepp,(ed.) Vol. 2 , pp.1-33(1981). Tinker, P. B., “The transport of ions in the soil around plant roots,” In Ecological Aspectof the Mineral Nutrition of Plants,(1969). Ulrich, B., “Deposition of acids and metal compounds,” Metals and their compounds in the environment, VCH Publishers, New York pp.369-378(1991). Vázquez, M. D. et al.,“Localization of zinc and cadmium in Thlaspi caerulescens (Brassicaceae), a metallophyte that can hyperaccumulate both metals,” Journal of Plant Physiology, Vol.140, pp.350-355(1992). Van Assche, F. et al., ”Induction of enzyme capacility in plants as a result of heavy metal toxicity: Dose-Response relation in Phaseolus vulgaris L., treated with zinc and cadmium,” Environ. Pollut, Vol.52, pp.103-115 (1988). Walter J. Fitz., and Wenzel, W. W., “Arsenic transformations in the soil_ /rhizosphere_/plant system:fundamentals and potential application to phytoremediation,” Journal of Biotechnology, Vol.99, pp.259-278(2002). White, M. C., and Chaney, R. L., “Zinc, Cadmium and manganese uptake by soybean form two zinc and cadmium amended costal plain soils,” Soil Sci. Soc. Am. J., Vol.44, pp.308-313(1980). Yaron, B. et al., “Soil pollution: Processes and dynamics,” Springer-Verlag, Berlin, (1996). 中文文獻: 于迺文,「土壤重金屬含量變化之評估」,博士論文,國立中興大學土壤環境科學系,(2000)。 王銀波、廖乾華,「農作物對重金屬的吸收」,台灣省農業藥物毒物試驗所,農作物中重金屬監測基準資料之建立,第57-60頁(1999 a)。 王銀波、廖乾華,「國外農作物中重金屬之限量標準」,台灣省農業藥物毒物試驗所,農作物中重金屬監測基準資料之建立,第61-72頁,(1999 b)。 王一雄,「土壤污染學」,國立空中大學,台北,(1993)。 王一雄,「土壤環境污染與農藥」,明文出版社,台北,(1997)。 王銀波,「植物營養學」,中興大學教務處出版社印,台中,(1991)。 王銀波、劉黔蘭、吳論、林晏夙,「銅、鋅、鎘及鉻對土壤微生物與作物生長之影響」,農林學報,No.35,第97-110頁(1986)。 方俊民,「有機化學」,藝軒發行,台北市,(1995)。 台灣省環境保護處,「土壤污染調查研究報告彙編(第二輯)」,(1989)。 行政院環境保護署,「土壤檢測方法總則,NIEA S103.60C 2002」。 行政院環境保護署,「土壤中重金屬檢測方法-王水消化法 ,NIEA S321.62C 2002」。 行政院環境保護署,「土壤水分含量測定方法-重量法,NIEA S280.61C 2002。」 行政院環境保護署,「土壤採樣方法,NIEA S102.60B 2001」。 行政院環境保護署,「土壤中陽離子交換容量-醋酸鈉法,NIEA S202.60A 1994」。 行政院環境保護署,「土壤中酸鹼值測定方法,NIEA S410.60T 1992」。 江漢全,「基力化工廠污染區農田下層土壤對鎘之吸附」,中國環境工程學刊,第四卷,第三期,第181-185頁(1994)。 朱德民,「植物與環境逆境」,國立編譯館,台北,(1990)。 何念祖、孟賜福,「植物營養原理」,科技出版社,上海,(1987)。 李國欽、林浩潭,「農地污染及其防治」,行政院農業委員會農業藥物毒物試驗所專題報導第43期,(1996)。 李孫榮、黃國慶,「土壤中重金屬污染物質之宿命與傳輸行為之模式研究及其應用」,行政院國家科學委員會專題研究計畫成果報告,(1999)。 李世仁,「重金屬污染地種植園藝作物可行性之研究」,碩士論文,國立中興大學土壤學研究所,(1994)。 李豔琪,「銅污染不同土壤對作物之影響」,碩士論文,國立中興大學土壤學研究所,(1986)。 李國欽、費雯綺,「水稻田土壤含砷量與植株含砷量及生長情形相關關係之探討」,植保會刊No.22,第101-112頁(1980)。 李達源,「如何知道土壤污染的範圍」,科學月刊,第二十九卷,第五期,第362-367頁。 杜政榮,「桃園鎘污染農地上所栽種之作物含鎘量調查」,空大生各科學學報創刊號,第125-135頁,(1996)。 邱弘毅、葉錦瑩、薛玉梅、陳建仁,「台灣地區砷、汞、鎘及其化合物之用途和用量調查研究」,中華衛誌,第十三卷,第二期,第113-125頁(1994)。 林浩潭、李國欽、賴七仙,「臺灣地區不同作物對土壤中重金屬吸收之探討」,第三屆土壤污染防治研討會論文集,第293-308頁(1992)。 林浩潭,「以作物中重金屬容許含量推算土壤中重金屬容許含量之 探討」,碩士論文,國立中興大學,(1991)。 卓英仁,「我國土壤污染現況分析及防治政策之研究」,環保通訊社,(1990)。 卓英仁,「我國土壤污染現況分析及防治政策之研究」,環保通訊雜誌,台北,(1988)。 施如佳、楊福麟、呂文寶、吳克慧、鄭秋真、蔡玉雲、林阿洋、周薰修,「食米中重金屬(鎘、汞)含量之調查」,藥物食品檢驗局調查研究年報No. 18,第153-160頁(2000)。 郭登志、黃益田,「鎘污染土栽培之莧菜品種對鎘吸收之效益」,植物保護學會會刊No.34,第405-415頁(1992)。 高景輝,「植物荷爾蒙」,華香園出版社,(1991)。 陳潔音,「彩色豆馬勃菌根於重金屬污染土壤之復育效應」,碩士論文,國立中興大學森林學研究所,(2001)。 陳育民,「重金屬污染土壤利用鹽酸及檸檬酸之改良」,碩士論文,土壤環境科學研究所,(1999)。 陳尊賢、鄭雙福、鄭榮賢,「農作物中重金屬含量測定之採樣分析方法」,農作物中重金屬監測基準資料之建立,(1999)。 陳尊賢,「台灣地區受重金屬污染土壤之整治經驗與評估」,第五屆土壤污染防治研討會污染土壤之整治復育技術論文集,台北市,第75-88頁(1997)。 陳懷滿等著,土壤—植物系統中的重金屬污染,科學出版社,(1996)。 陳勝利,「鎘對水稻幼苗與切離葉片生理之影響」,碩士論文,國立台灣大學農藝學研究所,第80頁(1994)。 陳尊賢、李達源、林楨坤、王銀波,「篩選適宜種植於台灣北部鎘污染區之觀賞植物」,第三屆土壤污染防治研討會論文集,台中市,第247-259頁(1992)。 陳尊賢、陸瑩、黃東亮、吳芳娥,「台灣地區主要農業土壤中重金屬之鹽酸抽出量與全量之相關性」,第三屆土壤污染防治研討會論文集,(1992)。 陳尊賢、黃如宏、張仲民,「重金屬在台灣農業土壤中之分布」,中國農業化學會,第二十七卷,第三期,第331-3352頁(1989)。 陳清義,「植物營養學」,國立中興大學教務處出版組,(1988)。 許振宏,「豬糞堆肥之重金屬及有機物化學特性與其於土壤之應用研究」,博士論文,國立台灣大學,(1999)。 張仁福,土壤污染防治學,高雄復文圖書出版社,第325-340頁(1998)。 張簡水紋,「電鍍廢水對土壤重金屬聚積型態與作物生長之影響」,碩士論文,國立中興大學土壤環境科學系,(1996)。 張尊國,「台灣地區土壤重金屬污染場址鑑識(Ⅰ)」,行政院國家科學委員會專題研究計畫成果報告,第102頁(1996)。 張添晉,「台北市土壤中四、五級重金屬含量調查研究」,台北市政府環境保護局,第94頁(1993)。 張明暉、李達源、陳尊賢,「鎘、鉛在砂質與黏質污染土壤中移動之初步評估」,中國農業化學會誌,第三十卷,第二期,第204-215頁(1992)。 張明暉,「鎘、鉛在砂質與黏質污染土壤中移動的模擬」,碩士論文,國立台灣大學農業化學研究所,(1991)。 張尊國,「以螯合劑淋洗受污染土壤時重金屬移動之研究」,行政院國家科學委員會專題研究計畫成果,第102頁(1990)。 莊榮輝,「重金屬鎘在細胞內的代謝隔離機制」,行政院國家科學委員會專題研究計畫成果報告,第106頁(1996)。 童翔新,「土壤中重金屬污染物分析方法研究」,逢甲學報No.29,第87-96頁(1996)。 廖自基,「環境中微量重金屬元素的污染危害與遷移轉化」,科學出版社,上海,(1989)。 農林水產技術會議事務局,「土壤及作物體中重金屬之分析法」,日本土肥誌43,第264- 270頁、第305-311頁、第349-356頁、第390-395頁(1972)。 農業委員會,「台灣農家要覽」,豐年社,台北,(1995)。 劉賢祥,「植物生理學」,徐氏基金會,台北,(1999)。 簡秀芳,「過量鎘對水稻切離葉片生理作用影響之研究」,碩士論文,國立台灣大學農藝學研究所,第72頁(1999)。 鄭春榮、陳懷滿,「土壤-植物系統中的重金屬污染」,科學出版社,第8-10頁、第212頁、第217頁(1996)。 鄭榮賢、黃山內、吳金助、阮忠信,「土壤重金屬含量與稻體吸收分佈之關係研究」,第三屆土壤污染防治研討會論文集,第185-199頁(1992)。 劉心慧,「青剛櫟菌根體系對鎘之攔截予吸收力之效應」,碩士論文,國立台灣大學森林學研究所,(2001)。 劉鎮宗,「土壤中有毒重金屬的清道夫」,環境工程會刊,第七卷,第一期,(1996)。 劉黔蘭、王銀波,「鎳污染台灣各類土壤與作物生長關係之研究」,第二屆土壤污染防治研討會論文集,第243-255頁(1990)。 賴鴻裕、陳尊賢,「污染土壤之植物復育技術」,第七屆土壤污染防治研討會論文集,(2001)。 譚鎮中、李振州,「鎘污染土中生物固氮活性與固氮菌之多樣性」,土壤與環境,第二卷,第三期,第281-292頁(1999)。 |
