参考文献/References:
[1]陈建琴,宋涛,彭昭杰,等. 池州九华山机场鸟类多样性调查及鸟击防范措施初探[J]. 南京师大学报(自然科学版),2016,39(2):96-105.
[2]COGHLAN M L,WHITE N E,MURRAY D C,et al. Metabarcoding avian diets at airports:implications for birdstrike hazard management planning[J]. Investigative genetics,2013,4(1):1-10.
[3]JEFFERY R F,BUSCHKE F T. Urbanization around an airfield alters bird community composition,but not the hazard of bird-aircraft collision[J]. Environmental conservation,2019,46(2):124-131.
[4]DOLBEER R A,BEGIER M J,MILLER P R,et al. Wildlife strikes to civil aircraft in the United States,1990-2021[R]. Washington,DC,USA:Department of Transportation Federal Aviation Administration,2013.
[5]HU Y,XING P,YANG F,et al. A birdstrike risk assessment model and its application at Ordos airport,China[J]. Scientific reports,2020,10(1):1-7.
[6]苗可儿,钱薇雅,张俊,等. 功能、谱系发育多样性在机场鸟类群落研究中的应用——以扬州泰州国际机场为例[J]. 动物学杂志,2023,58(2):182-197.
[7]陈婉,袁思佳,钱汝恩,等. 扬州泰州国际机场鸟类多样性及鸟击防控[J]. 生态科学,2022,41(6):193-201.
[8]CHEN W,MIAO K E,LIU Y Z,et al. Using DNA barcoding and field surveys to guide wildlife management at Nanjing Lukou International Airport,China[J]. Ecology and evolution. 2023,13(4):e10005.
[9]YANG R,WU X,YAN P,et al. Using DNA barcodes to identify a bird involved in a birdstrike at a Chinese Airport[J]. Molecular biology reports,2010,37(7):3517-3523.
[10]SHAO Q,ZHOU Y,ZHU P. Spatiotemporal analysis of environmental factors on the birdstrike risk in high plateau airport with multi-scale research[J]. Sustainability,2020,12(22):9357.
[11]PFEIFFER M B,KOUGHER J D,DEVAULT T L. Civil airports from a landscape perspective:a multi-scale approach with implications for reducing bird strikes[J]. Landscape and urban planning,2018,179:38-45.
[12]YUAN S J,MIAO K E,QIAN R E,et al. The role of landscape in shaping bird community and implications for landscape management at Nanjing Lukou International Airport[J]. Ecology and evolution,2023,13(1):e9646.
[13]ZHAO B,WANG N,FU Q,et al. Searching a site for a civil airport based on bird ecological conservation:an expert-based selection(Dalian,China)[J]. Global ecology and conservation,2019,20:e00729.
[14]LI C L,ZHANG Y,ZHA D D,et al. Assembly processes of waterbird communities across subsidence wetlands in China:a functional and phylogenetic approach[J]. Diversity and distributions,2019,16(42):1-12.
[15]张敏,车先丽,彭逸生,等. 广东雷州湾和汕头沿海湿地越冬水鸟多样性[J]. 生态与农村环境学报,2020,36(5):553-559.
[16]约翰·马敬能,卡伦·菲利普斯. 中国鸟类野外手册:中文版[M]. 长沙:湖南教育出版社,2000.
[17]郑光美. 中国鸟类分类与分布名录[M]. 3版. 北京:科学出版社,2017.
[18]CORNWELL W K,SCHWILK D W,ACKERLY D D. A trait-based test for habitat filtering:convex hull volume[J]. Ecology,2006,87(6):1465-1471.
[19]VILLÉGER S,MASON N,MOUILLOT D. New multidimensional functional diversity indices for a multifaceted framework in functional ecology[J]. Ecology,2008,89(8):2290-2301.
[20]SI X,CADOTTE M W,ZENG D,et al. Functional and phylogenetic structure of island bird communities[J]. Journal of animal ecology,2017,86(3):532-542.
[21]SUKUMARAN J,HOLDER M T. DendroPy:a Python library for phylogenetic computing[J]. Bioinformatics,2010,26(12):1569-1571.
[22]OKSANEN J,BLANCHET F G,FRIENDLY M,et al. Vegan:community ecology package. R package Version 2.5-6[CP/OL]. R Core Team,2019[2020-11-05]. https://CRAN.R-project.org/package=vegan/.
[23]LALIBERTÉ E,LEGEBDRE P,SHIPLEY B. FD:measuring functional diversity(FD)from multiple traits,and other tools for functional ecology. R package Version 1.0-12[CP/OL]. R Core Team,2014[2020-11-05]. https://CRAN.R-project.org/package=FD/.
[24]KEMBEL S W,ACKERLY D D,BLOMBERG S P. et al. Picante:integrating phylogenies and ecology. R package Version 1.8.2[CP/OL]. R Core Team,2020[2020-11-05]. https://CRAN.R-project.org/package=picante/.
[25]R CORE TEAM. R:A language and environment for statistical computing. R foundation for statistical computing[CP/OL]. Beijing,China,2020[2020-06-30]. https://www.r-project.org/.
[26]WHITTAKER R J,WILLIS K J,FIELD R. Scale and species richness:towards a general,hierarchical theory of species diversity[J]. Journal of biogeography,2001,28(4):453-470.
[27]BENINDE J,VEITH M,HOCHKIRCH A. Biodiversity in cities needs space:A meta-analysis of factors determining intra-urban biodiversity variation[J]. Ecology letters,2015,18(6):581-592.
[28]PELLISSIER V,COHEN M,BOULAY A,et al. Birds are also sensitive to landscape composition and configuration within the city centre[J]. Landscape and urban planning,2012,104(2):181-188.
[29]GODDARD M A,DOUGILL A J,BENTON T G. Scaling up from gardens:biodiversity conservation in urban environments[J]. Trends in ecology & evolution,2010,25(2):90-98.
[30]MAURE L A,RODRIGUES R C,ALC(^overA)NTARA(^overA)V,et al. Functional redundancy in bird community decreases with riparian forest width reduction[J]. Ecology and evolution,2018,8(21):10395-10408.
[31]MOUILLOT D,GRAHAM N,VILLÉGER S,et al. A functional approach reveals community responses to disturbances[J]. Trends in ecology & evolution,2013,28(3):167-177.
[32]MAHMOUDI S,ILANLOO S S,SHAHRESTANAKI A K,et al. Effect of human-induced forest edges on the understory bird community in Hyrcanian forests in Iran:implication for conservation and management[J]. Forest ecology and management,2016,382:120-128.
[33]JIANG X L,ZHANG W G,WANG G. Effects of different components of diversity on productivity in artificial plant communities[J]. Ecological research,2007,22(4):629-634.
[34]TUOMISTO H,RUOKOLAINEN L,RUOKOLAINEN K. Modelling niche and neutral dynamics:on the ecological interpretation of variation partitioning results[J]. Ecography,2012,35(11):961-971.
[35]CRAMPTON L H,LONGLAND W S,MURPHY D D,et al. Food abundance determines distribution and density of a frugivorous bird across seasons[J]. Oikos,2011,120(1):65-76.
[36]MORLON H,SCHWILK D W,BRYANT J A,et al. Spatial patterns of phylogenetic diversity[J]. Ecology letters,2011,14(2):141-149.
[37]KRAFT N J B,ACKERLY D D. Functional trait and phylogenetic tests of community assembly across spatial scales in an Amazonian forest[J]. Ecological monographs,2010,80(3):401-422.
[38]CADOTTE M W,TUCKER C M. Should environmental filtering be abandoned?[J]. Trends in ecology & evolution,2017,32(6):429-437.
[39]BATISTELI A F,TANAKA M O,SOUZA A L T. Bird functional traits respond to forest structure in riparian areas undergoing active restoration[J]. Diversity,2018,10(3):90.
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