参考文献

[1] Zenni R D,Essl F,García-Berthou E,et al.The economic costs of biological invasions around the world[J].NeoBiota,2021,67:1-9.

[2] Liu C,Diagne C,Angulo E,et al.Economic costs of biological invasions in Asia[J].NeoBiota,2021,67:53-78.

[3] Diagne C,Leroy B,Vaissière A C,et al.High and rising economic costs of biological invasions worldwide[J].Nature,2021,592(7855):571-576.

[4] Elton C S.The Ecology of Invasions by Animals and Plants[M].Cham:Springer International Publishing,2020.

[5] Marin P,Genitoni J,Barloy D,et al.Biological invasion:The influence of the hidden side of the (epi) genome[J].Functional Ecology,2020,34(2):385-400.

[6] Thia J A.Ready on arrival:Standing variation at a chromosomal inversion contributes to rapid adaptation in an invasive marine crab[J].Molecular Ecology,2022,31(1):37-40.

[7] Darling J A.Genetic studies of aquatic biological invasions:Closing the gap between research and management[J].Biological Invasions,2015,17(3):951-971.

[8] Fokam E,Hashimoto S,Irshad R,et al.Members of the Management Committee Who Provided Guidance for the Production of This Assessment[M].Bonn:Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services,2023.

[9] Invasive Species Specialist Group.100 of the World’s Worst Invasive Alien Species:A Selection from the global Invasive Species Database[EB/OL].(2000-12-12)[2024-03-21].http://www.issg.org/database/species/reference_files/100English.pdf.

[10] Luque G M,Bellard C,Bertelsmeier C,et al.The 100th of the world’s worst invasive alien species[J].Biological Invasions,2014,16(5):981-985.

[11] Bernery C,Bellard C,Courchamp F,et al.Freshwater fish invasions:A comprehensive review[J].Annual Review of Ecology,Evolution,and Systematics,2022,53(1):427-456.

[12] Pukk L,Kanefsky J,Heathman A L,et al.eDNA metabarcoding in lakes to quantify influences of landscape features and human activity on aquatic invasive species prevalence and fish community diversity[J].Diversity and Distributions,2021,27(10):2016-2031.

[13] 中华人民共和国生态环境部.2020中国生态环境状况公报[R/OL].(2021-05-24).https://www.mee.gov.cn/hjzl/sthjzk/zgh jzkgb/202105/P020210526572756184785.pdf.Ministry of Ecology and Environment of the People's Republic of China.2020 China Ecological Environment Status Bulletin[R/OL].(2021-05-24).https://www.mee.gov.cn/hjzl/sthjzk/zgh jzkgb/202105/P020210526572756184785.pdf.

[14] 冼晓青，王瑞，陈宝雄，等.“世界100种恶性外来入侵物种”在我国大陆的入侵现状[J].生物安全学报，2022,31(1):9-16.Xian X Q,Wang R,Chen B X,et al.Invasion status of “the world′s 100 malignant alien invasive species” in China[J].Journal of Biosafety,2022,31(1):9-16.

[15] 陈菁.中国外来入侵物种的分布格局及主要影响因素[D].南京：南京林业大学，2022.Chen J.Distribution Pattern and Main Influencing Factors of Invasive Alien Species in China[D].Nanjing:Nanjing Forestry University,2022.

[16] Bannister J,Sievers M,Bush F,et al.Biofouling in marine aquaculture:A review of recent research and developments[J].Biofouling,2019,35(6):631-648.

[17] Blakeslee A M H,Manousaki T,Vasileiadou K,et al.An evolutionary perspective on marine invasions[J].Evolutionary Applications,2020,13(3):479-485.

[18] Thomas A C,Tank S,Nguyen P L,et al.A system for rapid eDNA detection of aquatic invasive species[J].Environmental DNA,2020,2(3):261-270.

[19] Cuthbert R N,Pattison Z,Taylor N G,et al.Global economic costs of aquatic invasive alien species[J].Science of the Total Environment,2021,775:145238.

[20] Macêdo R L,Haubrock P J,Klippel G,et al.The economic costs of invasive aquatic plants:A global perspective on ecology and management gaps[J].Science of the Total Environment,2023,908:168217.

[21] Macêdo R L,Franco A C S,Kozlowsky-Suzuki B,et al.The global social-economic dimension of biological invasions by plankton:Grossly underestimated costs but a rising concern for water quality benefits?[J].Water Research,2022,222:118918.

[22] Haubrock P J,Bernery C,Cuthbert R N,et al.Knowledge gaps in economic costs of invasive alien fish worldwide[J].Science of The Total Environment,2022,803:149875.

[23] Kouba A,Oficialdegui F J,Cuthbert R N,et al.Identifying economic costs and knowledge gaps of invasive aquatic crustaceans[J].Science of the Total Environment,2022,813:152325.

[24] Wang S,Deng T,Zhang J,et al.Global economic costs of mammal invasions[J].Science of the Total Environment,2023,857:159479.

[25] Renault D,Angulo E,Cuthbert R N,et al.The magnitude,diversity,and distribution of the economic costs of invasive terrestrial invertebrates worldwide[J].Science of the Total Environment,2022,835:155391.

[26] Soto I,Cuthbert R N,Kouba A,et al.Global economic costs of herpetofauna invasions[J].Scientific Reports,2022,12:10829.

[27] Evans T,Angulo E,Bradshaw C J A,et al.Global economic costs of alien birds[J].PLoS One,2023,18(10):e0292854.

[28] Bradshaw C J A,Leroy B,Bellard C,et al.Massive yet grossly underestimated global costs of invasive insects[J].Nature Communications,Nature Publishing Group,2016,7(1):12986.

[29] Fernandez R D,Haubrock P J,Cuthbert R N,et al.Underexplored and growing economic costs of invasive alien trees[J].Scientific Reports,Nature Publishing Group,2023,13(1):8945.

[30] Bodey T W,Angulo E,Bang A,et al.Economic costs of protecting islands from invasive alien species[J].Conservation Biology,2023,37(2):e14034.

[31] Diagne C,Ballesteros-Mejia L,Cuthbert R N,et al.Economic costs of invasive rodents worldwide:The tip of the iceberg[J].PeerJ,2023,11:e14935.

[32] ?inar M E.The alien ascidian Styela clava now invading the Sea of Marmara (Tunicata:Ascidiacea)[J].ZooKeys,2016,563:1-10.

[33] Goldstien S J,Dupont L,Viard F,et al.Global phylogeography of the widely introduced North West Pacific ascidian Styela clava[J].PLoS One,2011,6(2):e16755.

[34] 王朝晖，陈菊芳，杨宇峰.船舶压舱水引起的有害赤潮藻类生态入侵及其控制管理[J].海洋环境科学，2010,29(6):920-922+934.Wang Z H,Chen J F,Yang Y F.Ecological invasion of harmful red tide algae caused by ship ballast water and its control and management[J].Marine Environmental Science,2010,29(6):920-922+934.

[35] 吕颂辉，岑竞仪，王建艳，等.我国近海米氏凯伦藻(Karenia mikimotoi)藻华发生概况、危害及其生态学机制[J].海洋与湖沼，2019,50(3):487-494.Lv S H,Cen J Y,Wang J Y,et al.Algal bloom occurrence,harm and ecological mechanism of Karenia mikimotoi in offshore China[J].Oceanology and Limnology,2019,50(3):487-494.

[36] 欧阳旭.入侵种西部食蚊鱼(Gambusia affinis)生活史(生殖生物学性状)变异、演化机制和捕食适应性研究[D].咸阳：西北农林科技大学，2019.Ouyang X.Study on Life History (Reproductive Biological Traits) Variation,Evolutionary Mechanism and Predation Adaptability of Invasive Western Mosquito Fish (Gambusia affinis)[D].Xianyang:Northwest A & F University,2019.

[37] Chen Pan,Zhang Yan,Zhu Xiaojing,et al.Ecological effects of invasion by the smooth cordgrass Spartina alterniflora on birds[J].Acta Ecologica Sinica,2019,39(7).

[38] Xiong W,Guo C,Gozlan R E,et al.Tilapia introduction in China:Economic boom in aquaculture versus ecological threats to ecosystems[J].Reviews in Aquaculture,2023,15(1):179-197.

[39] 丁慧萍，张志明，谢从新，等.鱼类入侵对雅鲁藏布江水域生态系统的影响及其防治对策[J].生态学杂志，2022,41(12):2440-2448.Ding H P,Zhang Z M,Xie X,et al.Impacts of fish invasion on ecosystem of Yarlung Zangbo River and its control strategies[J].Chinese Journal of Ecology,2022,41(12):2440-2448.

[40] 徐中亮.海南岛入侵植物水浮莲入侵水域植被生态系统特征及遗传多样性研究[D].海口：海南大学，2012.Xu Z L.Study on the Characteristics and Genetic Diversity of Vegetation Ecosystem in Invasive Waters of Water Lily in Hainan Island[D].Haikou:Hainan University,2012.

[41] Liu C,Wolter C,Courchamp F,et al.Biological invasions reveal how niche change affects the transferability of species distribution models[J].Ecology,2022,103(8).

[42] Chen Y,Gao Y,Huang X,et al.Incorporating adaptive genomic variation into predictive models for invasion risk assessment[J].Environmental Science and Ecotechnology,2023:100299.

[43] Chapple D G,Naimo A C,Brand J A,et al.Biological invasions as a selective filter driving behavioral divergence[J].Nature Communications,2022,13(1):5996.

[44] Hawes N A,Fidler A E,Tremblay L A,et al.Understanding the role of DNA methylation in successful biological invasions:A review[J].Biological Invasions,2018,20(9):2285-2300.

[45] Gao Y,Chen Y,Li S,et al.Complementary genomic and epigenomic adaptation to environmental heterogeneity[J].Molecular Ecology,2022,31(13):3598-3612.

[46] Tayeh A,Hufbauer R A,Estoup A,et al.Biological invasion and biological control select for different life histories[J].Nature Communications,2015,6(1):7268.

[47] Pfennig K S.Biased hybridization and its impact on adaptive introgression[J].Trends in Ecology & Evolution,2021,36(6):488-497.

[48] Tepolt C K,Grosholz E D,de Rivera C E,et al.Balanced polymorphism fuels rapid selection in an invasive crab despite high gene flow and low genetic diversity[J].Molecular Ecology,2022,31(1):55-69.

[49] Huang X,Li S,Ni P,et al.Rapid response to changing environments during biological invasions:DNA methylation perspectives[J].Molecular Ecology,2017,26(23):6621-6633.

[50] Irvine S Q,McNulty K B,Siler E M,et al.High temperature limits on developmental canalization in the ascidian Ciona intestinalis[J].Mechanisms of Development,2019,157:10-21.

[51] Chen Y,Gao Y,Huang X,et al.Local environment-driven adaptive evolution in a marine invasive ascidian (Molgula manhattensis)[J].Ecology and Evolution,2021,11(9):4252-4266.

[52] Epelbaum A,Herborg L M,Therriault T W,et al.Temperature and salinity effects on growth,survival,reproduction,and potential distribution of two non-indigenous botryllid ascidians in British Columbia[J].Journal of Experimental Marine Biology and Ecology,2009,369(1):43-52.

[53] 王冰冰.外来生物传播扩散模型问题研究[D].杭州：浙江工业大学，2018.Wang B B.Research on the Propagation Model of Exotic Organisms[D].Hangzhou:Zhejiang University of Technology,2018.

[54] Mortzfeld B M,Taubenheim J,Klimovich A V,et al.Temperature and insulin signaling regulate body size in Hydra by the Wnt and TGF-beta pathways[J].Nature Communications,2019,10(1):3257.

[55] Coble A A,Flinders C A,Homyack J A,et al.eDNA as a tool for identifying freshwater species in sustainable forestry:A critical review and potential future applications[J].Science of the Total Environment,2019,649:1157-1170.

[56] Peixoto S,Chaves C,Velo-Antón G,et al.Species detection from aquatic eDNA:Assessing the importance of capture methods[J].Environmental DNA,2021,3(2):435-448.

[57] Wei J,Zhang J,Lu Q,et al.Genomic basis of environmental adaptation in the leathery sea squirt (Styela clava)[J].Molecular Ecology Resources,2020,20(5):1414-1431.

[58] Arbour J H,Curtis A A,Santana S E.Signatures of echolocation and dietary ecology in the adaptive evolution of skull shape in bats[J].Nature Communications,2019,10(1):2036.

[59] 蒲霜.广东四市林业外来植物入侵风险评价[D].广州：华南农业大学，2016.Pu S.Risk Assessment of Forest Alien Plant Invasion in Four Cities of Guangdong Province[D].Guangzhou:South China Agricultural University,2016.

[60] 顾慧.华东地区外来引种陆生植物入侵风险评估体系的构建[D].南京：南京林业大学，2014.Gu H.Construction of Invasive Risk Assessment System for Introduced Terrestrial Plants in East China[D].Nanjing:Nanjing Forestry University,2014.

[61] 杜素洁，郭建洋，赵浩翔，等.近十年我国入侵生物预防与监控研究[J].植物保护，2023,49(5):410-418+440.Du S J,Guo J Y,Zhao H X,et al.Study on the prevention and control of invasive organisms in China in recent 10 years[J].Plant Protection,2023,49(5):410-418+440.

[62] 王曦.盱眙县小龙虾产业融合发展研究[D].扬州：扬州大学，2023.Wang X.Research on the Integrated Development of Crayfish Industry in Xuyi County[D].Yangzhou:Yangzhou University,2023.

[63] 郑雄.广西南部六条主要河流罗非鱼种群及杂合性的DNA分子鉴定[D].桂林：桂林理工大学，2020.Zheng X.DNA Molecular Identification of Tilapia Population and Heterozygosity in Six Major Rivers in Southern Guangxi[D].Guilin:Guilin University of Technology,2020.

[64] 吴佳伟，王加国，李苇洁.空心莲子草入侵对植物群落多样性影响及风险评估[J].杂草学报，2023,41(2):21-28.Wu J W,Wang J G,Li W J.Impact and risk assessment on plant community diversity[J].Acta Edulis Sinica,2023,41(2):21-28.

[65] 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.Wang Y B,Shi H Q,Liu F M,et al.Risk assessment model of invasive alien marine species[J].Chinese Journal of Nature,2014,36(2):133-138.

[66] 胡隐昌.外来入侵水生动物风险评估与防控关键技术[EB/OL].(2018-10-15)[2024-03-21].http://www.cgfh.com.cn/BiomedicalMaterials/119 352.jhtmlHu Y C.Key Technologies for Risk Assessment and Control of Invasive Aquatic Animals[EB/OL].(2018-10-15)[2024-03-21].http://www.cgfh.com.cn/BiomedicalMaterials/119352.jhtml

[67] 徐旭丹，刘强，黄伟，等.外来养殖鱼类的入侵风险评估及防控对策——以尼罗罗非鱼为例[J].生物安全学报，2022,31(3):278-288.Xu X D,Liu Q,Huang W,et al.Invasive risk assessment and prevention and control measures of exotic cultured fish:A case study of Nile Tilapia[J].Journal of Biosafety,2022,31(3):278-288.

[68] 方康.重要外来养殖鱼类生物入侵风险评估[D].荆州：长江大学，2024.Fang K.Biological Invasion Risk Assessment of Important Exotic Fish[D].Jingzhou:Yangtze University,2024.

[69] 董杨，申志新，王海桂，等.海南省外来淡水生物入侵现状、危害及防控策略[J].水生态学杂志，2020,41(3):85-91.Dong Y,Shen Z X,Wang H G,et al.Status,hazards and control strategies of invasive freshwater organisms in Hainan Province[J].Chinese Journal of Water Ecology,2020,41(3):85-91.

[70] 陆琴燕，刘永，李纯厚，等.海洋外来物种入侵对南海生态系统的影响及防控对策[J].生态学杂志，2013,32(8):2186-2193.Lu Q Y,Liu Y,Li C H,et al.Impacts of invasive Marine alien species on ecosystems in the South China Sea and its prevention and control strategies[J].Chinese Journal of Ecology,2013,32(8):2186-2193.

[71] 陈翠娜.长江经济带湖南区域外来入侵物种调查与入侵风险评价[D].长沙：湖南农业大学，2022.Chen C N.Investigation and Invasive Risk Assessment of Alien Invasive Species in Hunan Region of Yangtze River Economic Belt[D].Changsha:Hunan Agricultural University,2022.

[72] 郦珊，陈家宽，王小明.淡水鱼类入侵种的分布、入侵途径、机制与后果[J].生物多样性，2016,24(6):672-685.Li S,Chen J K,Wang X M.Distribution,invasion pathways,mechanisms and consequences of invasive species of freshwater fishes[J].Biodiversity Science,2016,24(6):672-685.

[73] 李涛，陈燕，李晋鹏，等.港口外来生物入侵与压载水风险评估研究综述[J].交通节能与环保，2019,15(1):23-29.Li T,Chen Y,Li J P,et al.Review of port alien biological invasion and ballast water risk assessment[J].Transportation Energy Conservation and Environmental Protection,2019,15(1):23-29.

[74] 李涛，文嘉鹏，田玉军，等.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(3):407-415.Li T,Wen J P,Tian Y J,et al.Study on biological invasion risk of ships ballast water in China and South Korea based on SRA method[J].Journal of Shanghai Ocean University,2018,27(3):407-415.

[75] Buckley Y M,Cserg? A M.Predicting invasion winners and losers under climate change[J].Proceedings of the National Academy of Sciences,Proceedings of the National Academy of Sciences,2017,114(16):4040-4041.

[76] 郑志鑫，王瑞，张风娟，等.重要外来入侵植物随南水北调工程传入京津冀受水区的风险评估[J].生物安全学报，2018,27(4):300-308.Zheng Z X,Wang R,Zhang F J,et al.Risk assessment on the introduction of important alien invasive plants into the Beijing-Tianjin-Hebei water receiving area with the South-to-North Water Diversion Project[J].Journal of Biosafety,2018,27(4):300-308.

[77] 宁修仁.流式细胞测定技术在海洋生物和海洋生态环境监测研究中的应用[J].东海海洋，2001(3):56-60.Ning X R.Application of flow cytometry in monitoring marine organisms and marine ecological environment[J].East China Sea Ocean,2001(3):56-60.

[78] 赵婉君.我国生物入侵防治的法律制度研究[D].石家庄：河北地质大学，2019.Zhao W J.Research on Legal System of Biological Invasion Control in China[D].Shijiazhuang:Hebei University of Geosciences,2019.

[79] 郑亚辉.长三角生态绿色一体化发展示范区湿地外来植物入侵风险评估[D].上海：上海师范大学，2022.Zheng Y H.Risk Assessment of Alien Plant Invasion in Wetland Eco-Green Integrated Development Demonstration Zone of Yangtze River Delta[D].Shanghai:Shanghai Normal University,2022.

[80] Britton J R.Contemporary perspectives on the ecological impacts of invasive freshwater fishes[J].Journal of Fish Biology,2023,103(4):752-764.

[81] Crichigno S,Cordero P,Blasetti G,et al.Dispersion of the invasive common carp Cyprinus carpio in southern South America:Changes and expectations,westward and southward[J].Journal of Fish Biology,2016,89(1):403416.

[82] Wójcik-Fudalewska D,Normant-Saremba M,Anastácio P.Occurrence of plastic debris in the stomach of the invasive crab Eriocheir sinensis[J].Marine Pollution Bulletin,2016,113(1):306-311.

[83] Crocetta F,Tanduo V,Osca D,et al.The Chinese mitten crab Eriocheir sinensis H.Milne Edwards,1853 (Crustacea:Decapoda:Varunidae) reappears in the northern Adriatic Sea:Another intrusion attempt or the trace of an overlooked population?[J].Marine Pollution Bulletin,2020,156:111221.