港口外来生物入侵与压载水风险评估研究综述
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摘要
海洋贸易过程中船舶压载水引发的港口外来生物入侵风险,其形成受多方因素影响,监控管理难度大,是当今港口海洋生物入侵领域的研究热点。为了全面了解全球港口外来生物入侵风险评估方面的研究现状和发展趋势,本文采用Histcite文献分析工具,以1998-2018年Web of Science数据库和CNKI中国知网全文数据库中相关文献为研究对象,从文献年份变化情况、类型分布、来源分布、国家研究力量和被引频次计量等方面进行统计分析。研究内容主要围绕外来海洋生物入侵和压载水生物入侵的风险评估方法、风险评价指标体系、海洋生物生态安全数据分析及可视化方法方面,未发现全球标准化风险评估方案。
The risk of alien invasion of the port caused by ship ballast water in the process of marine trade is affected by many factors,and the monitoring and management is difficult.It is a research hotspot in the field of marine biological invasion in today's ports.In order to fully understand the research status and development trend of risk assessment of alien biological invasion in global ports,this paper uses Histcite literature analysis tool to study the related literatures in the Web-Science Database of 1998-2018 and CNKI China Knowledge Network.Statistical analysis was carried out in terms of year change,type distribution,source distribution,national research strength,and citation frequency measurement.The research content mainly focuses on the risk assessment methods of foreign marine organism invasion and ballast water biological invasion,risk assessment index system,marine biological ecological security data analysis and visualization methods.No global standardized risk assessment program has been found.
The risk of alien invasion of the port caused by ship ballast water in the process of marine trade is affected by many factors,and the monitoring and management is difficult.It is a research hotspot in the field of marine biological invasion in today's ports.In order to fully understand the research status and development trend of risk assessment of alien biological invasion in global ports,this paper uses Histcite literature analysis tool to study the related literatures in the Web-Science Database of 1998-2018 and CNKI China Knowledge Network.Statistical analysis was carried out in terms of year change,type distribution,source distribution,national research strength,and citation frequency measurement.The research content mainly focuses on the risk assessment methods of foreign marine organism invasion and ballast water biological invasion,risk assessment index system,marine biological ecological security data analysis and visualization methods.No global standardized risk assessment program has been found.
引文
[1]林更铭,杨清良.中国外来海洋生物及其快速检测[M].科学出版社,2018.
[2]李涛,文嘉鹏,田玉军,张波.基于SRA法的中韩船舶压载水生物入侵风险研究[J].上海海洋大学学报,2018,27(03):407-415.
[3]斯丹.米氏凯伦藻生态适应性研究及入侵风险评估[D].上海海洋大学,2016.
[4]梁勇,戴小鹏,刘小红,湛亮.基于模糊理论外来入侵生物风险评估研究文献综述[J].湖南农机,2012,39(05):205-206.
[5]胡岚岚.船舶压载水生态风险评估[D].大连海事大学,2008.
[6]马英,熊何健,林源洪,等.外来海洋物种入侵风险评估体系的构建[J].水产学报,2009,33(4):617-623.
[7]陆琴燕.南海近岸海域典型外来物种入侵风险评估研究[D].上海海洋大学,2013.
[8]梁勇.基于模糊理论外来入侵生物风险评估研究[D].湖南农业大学,2013.
[9]王以斌,石红旗,刘芳明,等.外来海洋物种入侵风险评估模式[J].自然杂志,2014,36(2):133-138.
[10]章正,王圆,等.中美小麦矮腥黑穗病菌鉴定合作研究[J].植物病理学报,1995,25(3):199-206.
[11]周卫川,陈德牛.褐云玛瑙螺在我国的适生性研究[J].动物学报,1998,44(2):138-143.
[12]Sutherst R W,Maywald G F,Yonow T,et al.CLI-MEX:predicting the effects of climate on plants and animals[J].Collingwood,Victoria,Australia:CSIROPublishing,1999.
[13]程俊峰,万方浩,郭建英.西花蓟马在中国适生区的基于CLIMEX的GIS预测[D].2006.
[14]林晓芬.船舶压载水处理方法综述[J].交通节能与环保,2012,8(01):34-38.
[15]IMO.2007,国际船舶压载水和沉积物管理与控制公约[S].
[16]David M.A decision support system model for ballast water management of vessels[D].doctoral dissertation.University of Ljubljana,Portoro?Google Scholar,2007.
[17]Barry S C,Hayes K R,Hewitt C L,et al.Ballast water risk assessment:principles,processes and methods[J].ICES Journal of Marine Science,2008,65(2):121-131.
[18]David M,Gollasch S,Lepp?koski E.Risk assessment for exemptions from ballast water management-the Baltic Sea case study[J].Marine pollution bulletin,2013,75(1-2):205-217.
[19]David M,Gollasch S,Lepp?koski E,et al.Risk assessment in ballast water management[M]//Global Maritime Transport and Ballast Water Management.Springer,Dordrecht,2015:133-169.
[20]Olenin S,Minchin D,Daunys D.Assessment of biopollution in aquatic ecosystems[J].Marine pollution bulletin,2007,55(7-9):379-394.
[21]郑瑞丰.仁川-大连航线船舶压载水风险评估[D].大连海事大学,2010.
[22]David M,Gollasch S.Risk assessment for ballast water management-Learning from the Adriatic Sea case study[J].Marine Pollution Bulletin,2018.
[23]Endresen?,Lee B H,Brynestad S,et al.Challenges in global ballast water management[J].Marine Pollution Bulletin,2004,48(7):615-623.
[24]陈立侨,李云凯,侯俊利,等.船舶压载水导致的生物入侵及其防治对策[J].华东师范大学学报(自然科学版),2005,2005(z1):40-48.
[25]刘冬.船舶压载水引发大连港赤潮风险的评价方法研究[D].大连海事大学,2008.
[26]许海梁,刘冬,王天藏.船舶引入赤潮生物的风险评估[J].科技创新导报,2009,(5):133-134.
[27]郗艳娟,吴新民,等.裸甲藻种群密度与理化因子的灰关联分析[J].水产科学,2014,33(07):410-416.
[28]李溢龙.基于时序栅格的海洋异常事件关联规则挖掘方法研究[D].重庆交通大学,2016.
[29]孙笑笑.联合浮标与卫星数据的赤潮预警与决策服务[D].浙江大学,2017.
[30]贾俊涛,李伟才,等.山东主要港口入境船舶压载水中细菌组成的等级聚类分析[J].海洋环境科学,2010,29(04):541-544.
[31]Cf D L H,Ramos E,Puente A,et al.Ecological typologies of large areas.An application in the Mediterranean Sea[J].Journal of Environmental Management,2017,205:59-72.
[32]姬鹏.知识发现技术在赤潮分析预测中的应用研究[D].山东大学,2009.
[33]张姗姗.基于海洋环境的数据挖掘算法研究[D].青岛科技大学,2018.
[34]马同星.网络型海洋环境监测数据挖掘和动态发布信息系统研究[D].山东大学,2006.
[35]Raoufy M R,Gharibzadeh S,Abbasifar R,et al.Modeling the growth of Salmonella typhimurium,under the effect of Zataria multiflora,essential oil,pH,and temperature by artificial neural networks[J].Comparative Clinical Pathology,2011,20(5):507-512.
[36]Zhiyi Wang,Irmela Zentner,Enrico Zio,A Bayesian framework for estimating fragility curves based on seismic damage data and numerical simulations by adaptive neural networks[J].Nuclear Engineering and Design,Volume338,2018.
[37]Kristjanpoller W,Minutolo M C.A hybrid volatility forecasting framework integrating GARCH,Artificial Neural network,Technical Analysis and Principal Components Analysis[J].Expert Systems withApplications,2018.
[38]赵友福,林伟.应用地理信息系统对梨火疫病可能分布区的初步研究[J].植物检疫,1995,9(6):321-326.
[39]周国娜,高宝嘉,等.地理信息系统在植物病虫害研究中的应用[J].河北农业大学学报,2003(z1):212-216.
[40]彭正强,程立生,等.椰心叶甲在中国的适生性分布[J].熱帶作物學報,2006,27(1):80-83.
[41]王雅男.基于GIS平台的外来生物风险评估系统[D].中国农业科学院,2007.
[42]高千永.地理信息系统应用现状及发展趋势[J].城市建设理论研究(电子版),2017,(34):39.
[43]Bagdanavi?iūt?I,Umgiesser G,Vai?iūt?D,et al.GIS-based multi-criteria site selection for zebra mussel cultivation:Addressing end-of-pipe remediation of a eutrophic coastal lagoon ecosystem[J].Science of the Total Environment,2018,634:990-1003.
[44]Moy K,Neilson B,Chung A,et al.Mapping coastal marine debris using aerial imagery and spatial analysis☆[J].Marine Pollution Bulletin,2017,132.
[45]Garcia〢Yllon S.GIS Assessment of Mass Tourism Anthropization in Sensitive Coastal Environments:Application to a Case Study in the Mar Menor Area[J].Sustainability,2018,10(5).
[46]王春乙,张继权,等.农业气象灾害风险评估研究进展与展望[J].气象学报,2015,73(01):1-19.
[47]Barry S C,Hayes K R,Hewitt C L,et al.Ballast water risk assessment:principles,processes,and methods[J].ICES Journal of Marine Science,2008,65(2):121-131.
[48]文嘉鹏.压载水相似风险区技术研究[J].中国船检,2017,(2):84-88.
[49]张桂臣,刘建欣.船舶节能在压载水系统方面的探索[J].交通节能与环保,2006,2(01):41-42.
[50]蔡军,黄荣富,陈新响.船舶压载水防治措施探讨[J].交通节能与环保,2012,8(03):57-60.
[2]李涛,文嘉鹏,田玉军,张波.基于SRA法的中韩船舶压载水生物入侵风险研究[J].上海海洋大学学报,2018,27(03):407-415.
[3]斯丹.米氏凯伦藻生态适应性研究及入侵风险评估[D].上海海洋大学,2016.
[4]梁勇,戴小鹏,刘小红,湛亮.基于模糊理论外来入侵生物风险评估研究文献综述[J].湖南农机,2012,39(05):205-206.
[5]胡岚岚.船舶压载水生态风险评估[D].大连海事大学,2008.
[6]马英,熊何健,林源洪,等.外来海洋物种入侵风险评估体系的构建[J].水产学报,2009,33(4):617-623.
[7]陆琴燕.南海近岸海域典型外来物种入侵风险评估研究[D].上海海洋大学,2013.
[8]梁勇.基于模糊理论外来入侵生物风险评估研究[D].湖南农业大学,2013.
[9]王以斌,石红旗,刘芳明,等.外来海洋物种入侵风险评估模式[J].自然杂志,2014,36(2):133-138.
[10]章正,王圆,等.中美小麦矮腥黑穗病菌鉴定合作研究[J].植物病理学报,1995,25(3):199-206.
[11]周卫川,陈德牛.褐云玛瑙螺在我国的适生性研究[J].动物学报,1998,44(2):138-143.
[12]Sutherst R W,Maywald G F,Yonow T,et al.CLI-MEX:predicting the effects of climate on plants and animals[J].Collingwood,Victoria,Australia:CSIROPublishing,1999.
[13]程俊峰,万方浩,郭建英.西花蓟马在中国适生区的基于CLIMEX的GIS预测[D].2006.
[14]林晓芬.船舶压载水处理方法综述[J].交通节能与环保,2012,8(01):34-38.
[15]IMO.2007,国际船舶压载水和沉积物管理与控制公约[S].
[16]David M.A decision support system model for ballast water management of vessels[D].doctoral dissertation.University of Ljubljana,Portoro?Google Scholar,2007.
[17]Barry S C,Hayes K R,Hewitt C L,et al.Ballast water risk assessment:principles,processes and methods[J].ICES Journal of Marine Science,2008,65(2):121-131.
[18]David M,Gollasch S,Lepp?koski E.Risk assessment for exemptions from ballast water management-the Baltic Sea case study[J].Marine pollution bulletin,2013,75(1-2):205-217.
[19]David M,Gollasch S,Lepp?koski E,et al.Risk assessment in ballast water management[M]//Global Maritime Transport and Ballast Water Management.Springer,Dordrecht,2015:133-169.
[20]Olenin S,Minchin D,Daunys D.Assessment of biopollution in aquatic ecosystems[J].Marine pollution bulletin,2007,55(7-9):379-394.
[21]郑瑞丰.仁川-大连航线船舶压载水风险评估[D].大连海事大学,2010.
[22]David M,Gollasch S.Risk assessment for ballast water management-Learning from the Adriatic Sea case study[J].Marine Pollution Bulletin,2018.
[23]Endresen?,Lee B H,Brynestad S,et al.Challenges in global ballast water management[J].Marine Pollution Bulletin,2004,48(7):615-623.
[24]陈立侨,李云凯,侯俊利,等.船舶压载水导致的生物入侵及其防治对策[J].华东师范大学学报(自然科学版),2005,2005(z1):40-48.
[25]刘冬.船舶压载水引发大连港赤潮风险的评价方法研究[D].大连海事大学,2008.
[26]许海梁,刘冬,王天藏.船舶引入赤潮生物的风险评估[J].科技创新导报,2009,(5):133-134.
[27]郗艳娟,吴新民,等.裸甲藻种群密度与理化因子的灰关联分析[J].水产科学,2014,33(07):410-416.
[28]李溢龙.基于时序栅格的海洋异常事件关联规则挖掘方法研究[D].重庆交通大学,2016.
[29]孙笑笑.联合浮标与卫星数据的赤潮预警与决策服务[D].浙江大学,2017.
[30]贾俊涛,李伟才,等.山东主要港口入境船舶压载水中细菌组成的等级聚类分析[J].海洋环境科学,2010,29(04):541-544.
[31]Cf D L H,Ramos E,Puente A,et al.Ecological typologies of large areas.An application in the Mediterranean Sea[J].Journal of Environmental Management,2017,205:59-72.
[32]姬鹏.知识发现技术在赤潮分析预测中的应用研究[D].山东大学,2009.
[33]张姗姗.基于海洋环境的数据挖掘算法研究[D].青岛科技大学,2018.
[34]马同星.网络型海洋环境监测数据挖掘和动态发布信息系统研究[D].山东大学,2006.
[35]Raoufy M R,Gharibzadeh S,Abbasifar R,et al.Modeling the growth of Salmonella typhimurium,under the effect of Zataria multiflora,essential oil,pH,and temperature by artificial neural networks[J].Comparative Clinical Pathology,2011,20(5):507-512.
[36]Zhiyi Wang,Irmela Zentner,Enrico Zio,A Bayesian framework for estimating fragility curves based on seismic damage data and numerical simulations by adaptive neural networks[J].Nuclear Engineering and Design,Volume338,2018.
[37]Kristjanpoller W,Minutolo M C.A hybrid volatility forecasting framework integrating GARCH,Artificial Neural network,Technical Analysis and Principal Components Analysis[J].Expert Systems withApplications,2018.
[38]赵友福,林伟.应用地理信息系统对梨火疫病可能分布区的初步研究[J].植物检疫,1995,9(6):321-326.
[39]周国娜,高宝嘉,等.地理信息系统在植物病虫害研究中的应用[J].河北农业大学学报,2003(z1):212-216.
[40]彭正强,程立生,等.椰心叶甲在中国的适生性分布[J].熱帶作物學報,2006,27(1):80-83.
[41]王雅男.基于GIS平台的外来生物风险评估系统[D].中国农业科学院,2007.
[42]高千永.地理信息系统应用现状及发展趋势[J].城市建设理论研究(电子版),2017,(34):39.
[43]Bagdanavi?iūt?I,Umgiesser G,Vai?iūt?D,et al.GIS-based multi-criteria site selection for zebra mussel cultivation:Addressing end-of-pipe remediation of a eutrophic coastal lagoon ecosystem[J].Science of the Total Environment,2018,634:990-1003.
[44]Moy K,Neilson B,Chung A,et al.Mapping coastal marine debris using aerial imagery and spatial analysis☆[J].Marine Pollution Bulletin,2017,132.
[45]Garcia〢Yllon S.GIS Assessment of Mass Tourism Anthropization in Sensitive Coastal Environments:Application to a Case Study in the Mar Menor Area[J].Sustainability,2018,10(5).
[46]王春乙,张继权,等.农业气象灾害风险评估研究进展与展望[J].气象学报,2015,73(01):1-19.
[47]Barry S C,Hayes K R,Hewitt C L,et al.Ballast water risk assessment:principles,processes,and methods[J].ICES Journal of Marine Science,2008,65(2):121-131.
[48]文嘉鹏.压载水相似风险区技术研究[J].中国船检,2017,(2):84-88.
[49]张桂臣,刘建欣.船舶节能在压载水系统方面的探索[J].交通节能与环保,2006,2(01):41-42.
[50]蔡军,黄荣富,陈新响.船舶压载水防治措施探讨[J].交通节能与环保,2012,8(03):57-60.