海洋防污涂料生物评价方法研究进展
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摘要
介绍了以细菌、海洋藻类、海洋动物为试验生物的海洋防污涂料生物评价方法的研究进展,提出了进一步完善海洋防污涂料生物评价方法的思路。
The research progress of biological evaluation methods of marine antifouling coatings with bacteria,marine algae and marine animals as experimental organisms was introduced.The idea of further improving the biological evaluation methods of marine antifouling coatings was put forward.
The research progress of biological evaluation methods of marine antifouling coatings with bacteria,marine algae and marine animals as experimental organisms was introduced.The idea of further improving the biological evaluation methods of marine antifouling coatings was put forward.
引文
[1]许凤玲,刘升发,侯保荣.海洋生物污损研究进展[J].海洋湖沼通报,2008(1):146-152.
[2]桂泰江.海洋防污涂料的现状及发展趋势[J].现代涂料与涂装,2005(5):28-29.
[3]Trentin I,Romairone V,Marcenaro G,et al.Quick Test Methods for Marine Antifouling Paints[J].Progress in Organic Coatings,2001,42(1-2):15-19.
[4]蔡如星,黄宗国.海洋污损生物及其防除[M].北京:海洋出版社,1984.
[5]Marhaeni B,Radjasa O K,Khoeri M M,et al.Antifouling Activity of Bacterial Symbionts of Seagrasses against Marine Biofilm-Forming Bacteria[J].Journal of Environmental Protection,2011,2(9):1 245-1 249.
[6]Hellio C,Bremer G,Pons A M,et al.Inhibition of the Development of Microorganisms(Bacteria and Fungi)by Extracts of Marine Algae from Brittany,France[J].Applied Microbiology and Biotechnology,2000,54(4):543-549.
[7]Marechal J,Culioli G,Hellio C,et al.Seasonal Variation in Antifouling Activity of Crude Extracts of the Brown Alga Bifurcaria Bifurcata(Cystoseiraceae)against Cyprids of Balanus Amphitrite and the Marine Bacteria Cobetia Marina and Pseudoalteromonas Haloplanktis[J].Journal of Experimental Marine Biology and Ecology,2004,313(1).
[8]Holmstrm C,Steinberg P,Christov V,et al.Bacteria Immobilised in Gels:Improved Methodologies for Antifouling and Biocontrol Applications[J].Biofouling,2000,15(1-3):109.
[9]马红圳,谢志鹏,秦岩,等.苯并异噻唑啉酮接枝丙烯酸锌树脂的合成及抑菌性能[J].材料开发与应用,2015(3):12-16.
[10]张琦,姜晓辉,于良民,等.多硫代丙酰胺的合成及其抑菌与海洋防污性能[J].精细化工,2015(2):232-236.
[11]于晓琳,于良民,姜晓辉.具类辣素结构丙烯酰胺的合成及其抑菌和防污性能[J].应用化学,2014(5):594-599.
[12]许凤玲,林强,张树芳,等.苯并异噻唑啉酮衍生物的合成及其抑菌性能[J].海洋科学,2008(5):62-66.
[13]沈明,徐焕志,孙保库,等.基于海洋细菌为受试生物的海洋防污剂快速筛选方法[J].海洋与湖沼,2014(3):608-616.
[14]Tsoukatou M,Hellio C,Vagias C,et al.Chemical Defense and Antifouling Activity of Three Mediterranean Sponges of the Genus Ircinia[J].Zeitschrift Für Naturforschung C,2002,57(1-2):161.
[15]Statz A,Finlay J,Dalsin J,et al.Algal Antifouling and Fouling-Release Properties of Metal Surfaces Coated with a Polymer Inspired by Marine Mussels[J].Biofouling,2006,22(6):391-399.
[16]Finlay J A,Callow M E,Ista L K,et al.The Influence of Surface Wettability on the Adhesion Strength of Settled Spores of the Green Alga Enteromorpha and the Diatom Amphora1[J].Integrative&Comparative Biology,2002,42(6):1 116-1 122.
[17]刘红,张占平,齐育红,等.无毒防污涂料表面底栖硅藻附着评价的实验方法[J].海洋环境科学,2006(3):89-92.
[18]田斌.海洋防污涂层生物学性能的研究[D].山东青岛:中国海洋大学,2005.
[19]王宝娟.海洋防污涂料及其主要成分的生物学性能研究[D].山东青岛:中国海洋大学,2007.
[20]王惠.海洋防污涂料中典型防污剂检测方法的建立及生态毒性综合评价研究[D].山东青岛:中国海洋大学,2014.
[21]Iken K,Greer S P,Amsler C D,et al.A New Antifouling Bioassay Monitoring Brown Algal Spore Swimming Behaviour in the Presence of Echinoderm Extracts[J].Biofouling,2003,19(5):327-334.
[22]Dahms H U,Hellio C.12-Laboratory Bioassays for Screening Marine Antifouling Compounds[M]//Advances in Marine Antifouling Coatings and Technologies.Woodhead Publishing,2009:275-307.
[23]Rittschof D,Lai C H,Kok L M,et al.Pharmaceuticals as Antifoulants:Concept and Principles[J].Biofouling,2003,19(sup1):207-212.
[24]Rittschof D,Clare A S,Gerhart D J,et al.Barnacle in Vitro Assays for Biologically Active Substances:Toxicity and Settlement Inhibition Assays Using Mass Cultured Balanus Amphitrite Amphitrite Darwin[J].Biofouling,1992,6(2):115-122.
[25]Hellio C,Tsoukatou M,Marechal J P,et al.Inhibitory Effects of Mediterranean Sponge Extracts and Metabolites on Larval Settlement of the Barnacle Balanus Amphitrite[J].Marine Biotechnology,2005,7(4):297-305.
[26]Sasikumar N,Clare A S,Gerhart D J,et al.Comparative Toxicities of Selected Compounds to Nauplii of Balanus Amphitrite Amphitrite Darwin and Artemia sp[J].Bulletin of Environmental Contamination and Toxicology,1995,54(2):289-296.
[27]冯丹青,柯才焕,卢昌义,等.白脊藤壶(Balanus albicostatus)应用于天然海洋防污产物筛选模型的研究[J].海洋与湖沼,2008(4):395-400.
[28]严涛,谢恩义,曹文浩,等.华南沿海4种主要污损生物幼虫和孢子的采集与培养技术[J].热带海洋学报,2011(3):56-61.
[29]江学志,黄从树,黄志雄,等.草甘膦丙烯酸树脂的合成及其对微生物的抑制毒性研究[J].涂料工业,2012(3):55-58.
[30]黄英,柯才焕,周时强.国外对藤壶幼体附着的研究进展[J].海洋科学,2001(3):30-32.
[31]Gama B A P D,Pereira R C,Soares A R,et al.Is the Mussel Test a Good Indicator of Antifouling Activity?A Comparison Between Laboratory and Field Assays[J].Biofouling,2003,19(sup1):161-169.
[32]陈志颖,王祥,苏培,等.叶片山海绵共附生细菌的防污活性研究[J].厦门大学学报(自然科学版),2015(3):340-346.
[33]冯丹青,柯才焕,李少菁,等.生姜提取物的防污活性研究[J].厦门大学学报(自然科学版),2007(1):135-140.
[34]赵红,严雨帆,张翀,等.绿色杀生剂EGD控制贻贝污损的试验研究[J].武汉理工大学学报,2005(4):26-29.
[35]Etoh H,Kondoh T,Noda R,et al.Shogaols from as Promising Antifouling Agents[J].Bioscience Biotechnology&Biochemistry,2002,66(8):1 748-1 750.
[36]Dahms H U,Gao Q F,Hwang J S.Optimized Maintenance and Larval Production of the Bryozoan Bugula Neritina(Bugulidae:Gymnolaemata)in the Laboratory[J].Aquaculture,2007,265(1-4):169-175.
[37]Vucko M J,Poole A J,Carl C,et al.Using Textured PDMS to Prevent Settlement and Enhance Release of Marine Fouling Organisms[J].Biofouling,2014,30(1):1-16.
[38]殷浩文,刘瑞栋.涂料的微生物毒性检测与毒性管理程序探讨[J].化学建材,1998(1):22-24.
[2]桂泰江.海洋防污涂料的现状及发展趋势[J].现代涂料与涂装,2005(5):28-29.
[3]Trentin I,Romairone V,Marcenaro G,et al.Quick Test Methods for Marine Antifouling Paints[J].Progress in Organic Coatings,2001,42(1-2):15-19.
[4]蔡如星,黄宗国.海洋污损生物及其防除[M].北京:海洋出版社,1984.
[5]Marhaeni B,Radjasa O K,Khoeri M M,et al.Antifouling Activity of Bacterial Symbionts of Seagrasses against Marine Biofilm-Forming Bacteria[J].Journal of Environmental Protection,2011,2(9):1 245-1 249.
[6]Hellio C,Bremer G,Pons A M,et al.Inhibition of the Development of Microorganisms(Bacteria and Fungi)by Extracts of Marine Algae from Brittany,France[J].Applied Microbiology and Biotechnology,2000,54(4):543-549.
[7]Marechal J,Culioli G,Hellio C,et al.Seasonal Variation in Antifouling Activity of Crude Extracts of the Brown Alga Bifurcaria Bifurcata(Cystoseiraceae)against Cyprids of Balanus Amphitrite and the Marine Bacteria Cobetia Marina and Pseudoalteromonas Haloplanktis[J].Journal of Experimental Marine Biology and Ecology,2004,313(1).
[8]Holmstrm C,Steinberg P,Christov V,et al.Bacteria Immobilised in Gels:Improved Methodologies for Antifouling and Biocontrol Applications[J].Biofouling,2000,15(1-3):109.
[9]马红圳,谢志鹏,秦岩,等.苯并异噻唑啉酮接枝丙烯酸锌树脂的合成及抑菌性能[J].材料开发与应用,2015(3):12-16.
[10]张琦,姜晓辉,于良民,等.多硫代丙酰胺的合成及其抑菌与海洋防污性能[J].精细化工,2015(2):232-236.
[11]于晓琳,于良民,姜晓辉.具类辣素结构丙烯酰胺的合成及其抑菌和防污性能[J].应用化学,2014(5):594-599.
[12]许凤玲,林强,张树芳,等.苯并异噻唑啉酮衍生物的合成及其抑菌性能[J].海洋科学,2008(5):62-66.
[13]沈明,徐焕志,孙保库,等.基于海洋细菌为受试生物的海洋防污剂快速筛选方法[J].海洋与湖沼,2014(3):608-616.
[14]Tsoukatou M,Hellio C,Vagias C,et al.Chemical Defense and Antifouling Activity of Three Mediterranean Sponges of the Genus Ircinia[J].Zeitschrift Für Naturforschung C,2002,57(1-2):161.
[15]Statz A,Finlay J,Dalsin J,et al.Algal Antifouling and Fouling-Release Properties of Metal Surfaces Coated with a Polymer Inspired by Marine Mussels[J].Biofouling,2006,22(6):391-399.
[16]Finlay J A,Callow M E,Ista L K,et al.The Influence of Surface Wettability on the Adhesion Strength of Settled Spores of the Green Alga Enteromorpha and the Diatom Amphora1[J].Integrative&Comparative Biology,2002,42(6):1 116-1 122.
[17]刘红,张占平,齐育红,等.无毒防污涂料表面底栖硅藻附着评价的实验方法[J].海洋环境科学,2006(3):89-92.
[18]田斌.海洋防污涂层生物学性能的研究[D].山东青岛:中国海洋大学,2005.
[19]王宝娟.海洋防污涂料及其主要成分的生物学性能研究[D].山东青岛:中国海洋大学,2007.
[20]王惠.海洋防污涂料中典型防污剂检测方法的建立及生态毒性综合评价研究[D].山东青岛:中国海洋大学,2014.
[21]Iken K,Greer S P,Amsler C D,et al.A New Antifouling Bioassay Monitoring Brown Algal Spore Swimming Behaviour in the Presence of Echinoderm Extracts[J].Biofouling,2003,19(5):327-334.
[22]Dahms H U,Hellio C.12-Laboratory Bioassays for Screening Marine Antifouling Compounds[M]//Advances in Marine Antifouling Coatings and Technologies.Woodhead Publishing,2009:275-307.
[23]Rittschof D,Lai C H,Kok L M,et al.Pharmaceuticals as Antifoulants:Concept and Principles[J].Biofouling,2003,19(sup1):207-212.
[24]Rittschof D,Clare A S,Gerhart D J,et al.Barnacle in Vitro Assays for Biologically Active Substances:Toxicity and Settlement Inhibition Assays Using Mass Cultured Balanus Amphitrite Amphitrite Darwin[J].Biofouling,1992,6(2):115-122.
[25]Hellio C,Tsoukatou M,Marechal J P,et al.Inhibitory Effects of Mediterranean Sponge Extracts and Metabolites on Larval Settlement of the Barnacle Balanus Amphitrite[J].Marine Biotechnology,2005,7(4):297-305.
[26]Sasikumar N,Clare A S,Gerhart D J,et al.Comparative Toxicities of Selected Compounds to Nauplii of Balanus Amphitrite Amphitrite Darwin and Artemia sp[J].Bulletin of Environmental Contamination and Toxicology,1995,54(2):289-296.
[27]冯丹青,柯才焕,卢昌义,等.白脊藤壶(Balanus albicostatus)应用于天然海洋防污产物筛选模型的研究[J].海洋与湖沼,2008(4):395-400.
[28]严涛,谢恩义,曹文浩,等.华南沿海4种主要污损生物幼虫和孢子的采集与培养技术[J].热带海洋学报,2011(3):56-61.
[29]江学志,黄从树,黄志雄,等.草甘膦丙烯酸树脂的合成及其对微生物的抑制毒性研究[J].涂料工业,2012(3):55-58.
[30]黄英,柯才焕,周时强.国外对藤壶幼体附着的研究进展[J].海洋科学,2001(3):30-32.
[31]Gama B A P D,Pereira R C,Soares A R,et al.Is the Mussel Test a Good Indicator of Antifouling Activity?A Comparison Between Laboratory and Field Assays[J].Biofouling,2003,19(sup1):161-169.
[32]陈志颖,王祥,苏培,等.叶片山海绵共附生细菌的防污活性研究[J].厦门大学学报(自然科学版),2015(3):340-346.
[33]冯丹青,柯才焕,李少菁,等.生姜提取物的防污活性研究[J].厦门大学学报(自然科学版),2007(1):135-140.
[34]赵红,严雨帆,张翀,等.绿色杀生剂EGD控制贻贝污损的试验研究[J].武汉理工大学学报,2005(4):26-29.
[35]Etoh H,Kondoh T,Noda R,et al.Shogaols from as Promising Antifouling Agents[J].Bioscience Biotechnology&Biochemistry,2002,66(8):1 748-1 750.
[36]Dahms H U,Gao Q F,Hwang J S.Optimized Maintenance and Larval Production of the Bryozoan Bugula Neritina(Bugulidae:Gymnolaemata)in the Laboratory[J].Aquaculture,2007,265(1-4):169-175.
[37]Vucko M J,Poole A J,Carl C,et al.Using Textured PDMS to Prevent Settlement and Enhance Release of Marine Fouling Organisms[J].Biofouling,2014,30(1):1-16.
[38]殷浩文,刘瑞栋.涂料的微生物毒性检测与毒性管理程序探讨[J].化学建材,1998(1):22-24.