[1]
|
陈之端.桦木科植物的系统发育和地理分布(续)[J].植物分类学报,1994b,32(2):101~153. |
[2]
|
匡可任,李沛琼,郑斯绪,等.中国植物志(21卷)[M].北京:科学出版社,1979:93~103. |
[3]
|
陈之端,路安民.桦木科植物的系统发育和演化[J].中国科学院院刊,2001,16(3):188~191. |
[4]
|
Furlow J.The systematics of the American species of Alnus (Betulaceae)[J].Rhodora,1979,81(1):1~121. |
[5]
|
Savard L,Michaud M,Bousquet J.Genetic diversity and phylogenetic relationships between birches and alders using ITS,18S rRNA and rbcL gene sequences[J].Molecular Phylogenetics Evolution,1993,2(2):112~118. |
[6]
|
Chen ZD,Li J.Phylogenetics and biogeography of Alnus (Betulaceae) inferred from sequences of nuclear ribosomal DNA ITS region[J].International Journal of Plant Sciences,2004,165(2):325~335. |
[7]
|
Gryta H,Van DE PAER C,Manzi S,et al.Genome skimming and plastid microsatellite profiling of alder trees (Alnus spp.,Betulaceae):phylogenetic and phylogeographical prospects[J].Tree Genetics Genomes,2017,13(6):118. |
[8]
|
Murai S.Phytotaxonomical and geobotanical studies on gen.Alnus in Japan (Ⅲ).Taxonomy of whole world species and distribution of each section[J].Bulletin of the Government Forest Experiment Station,1964,171:1~107. |
[9]
|
Liu J,Ren BQ,Luo PG,et al.Karyotype analysis of Alnus Mill.(Betulaceae) species originating from Northeastern Asia[J].Silvae Genetica,2010,59(5):219~223. |
[10]
|
任保青,刘军.中国桤木属植物的细胞学研究(I)[J].广西植物,2006,26(4):356~359. |
[11]
|
饶龙兵,杨汉波,郭洪英,等.桤木属7种植物的核型分析[J].西北植物学报,2013,33(7):1333~1338. |
[12]
|
杨汉波,饶龙兵,郭洪英,等.5种桤木属植物的核型分析[J].植物遗传资源学报,2013,14(6):203~207. |
[13]
|
洪德元.植物细胞分类学[M].北京:科学出版社,1990. |
[14]
|
Mandák B,Vít P,Krak K,et al.Flow cytometry,microsatellites and niche models reveal the origins and geographical structure of Alnus glutinosa populations in Europe[J].Annals of botany,2016,117(1):107~120. |
[15]
|
Bousquet J,Cheliak W M,Lalonde M.Allozyme variability in natural populations of green alder (Alnus crispa) in Quebec[J].Genome,1987,29(2):345~352. |
[16]
|
Bousquet J,Cheliak W M,Lalonde M.Genetic diversity within and among 11 juvenile populations of green alder (Alnus crispa) in Canada[J].Physiologia Plantarum,1987,70(2):311~318. |
[17]
|
Bousquet J,Cheliak WM,Lalonde M.Allozyme variation within and among mature populations of speckled Alder (Alnus rugosa) and relationships with green Alder (A.crispa)[J].American Journal of Botany,1988,75(11):1678~1686. |
[18]
|
Huh M K,Huh H W.Genetic diversity and population structure of Alnus hirsuta (Betulaceae) in Korea[J].Journal of Plant Research,1999,112(4):437~442. |
[19]
|
Huh M K.Genetic diversity and population structure of Korean alder (Alnus japonica; Betulaceae)[J].Canadian Journal of Forest Research,1999,29(9):1311~1316. |
[20]
|
Gibson J P,Rice SA,Stucke CM.Comparison of population genetic diversity between a rare,narrowly distributed species and a common,widespread species of Alnus (Betulaceae)[J].American journal of botany,2008,95(5):588~596. |
[21]
|
King R A,Ferris C.Chloroplast DNA and nuclear DNA variation in the sympatric alder species,Alnus cordata (Lois.) Duby and A.glutinosa(L.) Gaertn[J].Biological journal of the Linnean society,2000,70(1):147~160. |
[22]
|
King RA,Ferris C.Chloroplast DNA phylogeography of Alnus glutinosa (L.) Gaertn[J].Molecular Ecology,1998,7(9):1151~1161. |
[23]
|
Hantemirova EV,Pimenova EA,Korchagina OS.Polymorphism of Chloroplast DNA and Phylogeography of Green Alder (Alnus alnobetula (Ehrh.) K.Koch sl) in Asiatic Russia[J].Russian Journal of Genetics,2018,54(1):64~74. |
[24]
|
Huh MK,Huh HW.Genetic diversity and phylogenetic relationships in alder,Alnus firma,revealed by AFLP[J].Journal of Plant Biology,2001,44(1):33~40. |
[25]
|
李洁,熊智,张成刚.云南尼泊尔桤木遗传多样性研究[J].浙江林学院学报,2008,25(1):16~21. |
[26]
|
饶龙兵,杨汉波,郭洪英,等.不同倍性桤木属植物遗传差异的AFLP分析[J].植物研究,2014,34(6):803~809. |
[27]
|
饶龙兵,杨汉波,郭洪英,等.17种桤木属植物的亲缘关系研究及模糊种鉴定[J].植物研究,2015,35(4):528~534. |
[28]
|
Zhuk A,Veinberga I,Daugavietis M,et al.Cross-species amplification of Betula pendula Roth.simple sequence repeat markers in Alnus species[J].Baltic Forestry,2008,14(2):116~121. |
[29]
|
Lance SL,Jones KL,Hagen C,et al.Development and characterization of nineteen polymorphic microsatellite loci from seaside alder,Alnus maritima[J].Conservation Genetics,2009,10(6):1907~1910. |
[30]
|
Gürcan K,Mehlenbacher S A.Transferability of microsatellite markers in the Betulaceae[J].Journal of the American Society for Horticultural Science,2010,135(2):159~173. |
[31]
|
Mingeot D,Baleux R,Watillon B.Characterization of microsatellite markers for black alder (Alnus glutinosa[L.] Gaertn)[J].Conservation Genetics Resources,2010,2:269~271. |
[32]
|
Jones JM,Gibson JP.Population genetic diversity and structure within and among disjunct populations of Alnus maritima (seaside alder) using microsatellites[J].Conservation Genetics,2011,12(4):1003~1013. |
[33]
|
Jones JM,Gibson JP.Mating System Analysis of Alnus maritima (Seaside Alder),a Rare Riparian Tree[J].Castanea,2012,77(1):11~20. |
[34]
|
Lepais O,Bacles CFE.De novo discovery and multiplexed amplification of microsatellite markers for black alder (Alnus glutinosa) and related species using SSR-enriched shotgun pyrosequencing[J].Journal of Heredity,2011,102(5):627~632. |
[35]
|
Schrader JA,Graves WR.Systematics of Alnus maritima (seaside alder) resolved by ISSR polymorphisms and morphological characters[J].Journal of the American Society for Horticultural Science,2004,129(2):231~236. |
[36]
|
Lepais O,Muller SD,Saad-limam SB,et al.High genetic diversity and distinctiveness of rear-edge climate relicts maintained by ancient tetraploidisation for Alnus glutinosa[J].PLoS One,2013,8(9):e75029. |
[37]
|
HAvrdová A,Douda J,Krak K,et al.Higher genetic diversity in recolonized areas than in refugia of Alnus glutinosa triggered by continent-wide lineage admixture[J].Molecular Ecology,2015,24(18):4759~4777. |
[38]
|
Mingeot D,Husson C,Mertens P,et al.Genetic diversity and genetic structure of black alder (Alnus glutinosa[L.] Gaertn) in the Belgium-Luxembourg-France cross-border area[J].Tree Genetics Genomes,2016,12(2):1~12. |
[39]
|
Vít P,Douda J,Krak K,et al.Two new polyploid species closely related to Alnus glutinosa in Europe and North Africa-An analysis based on morphometry,karyology,flow cytometry and microsatellites[J].Taxon,2017,66(3):567~583. |
[40]
|
Mandák B,Havrdová A,Krak K,et al.Recent similarity in distribution ranges does not mean a similar postglacial history:a phylogeographical study of the boreal tree species Alnus incana based on microsatellite and chloroplast DNA variation[J].New Phytologist,2016,210(4):1395-1407 |
[41]
|
Dering M,Lata?owa M,Boratyńska K,et al.Could clonality contribute to the northern survival of grey alder[Alnus incana (L.) Moench] during the Last Glacial Maximum[J].Acta Societatis Botanicorum Poloniae,2017,86(1):3523. |
[42]
|
吴际友,龙应忠,童方平,等.桤木优树选择研究[J].湖南林业科技,2004,31(6):10~12. |
[43]
|
杨春惠,谭琼,熊冬连,等.桤木地理种源/家系选择试验初报[J].中南林业科技大学学报,2008,28(1):64~69. |
[44]
|
龚细娟,张国君,梁丽容,等.25个桤木家系在湖区对比试验初报[J].林业实用技术,2013(8):23~24. |
[45]
|
朱俊义,陆静梅.桤木属花序和花的形态发生[J].植物分类学报,2008,46(4):641~650. |
[46]
|
陈益泰,卓仁英,吴天林.桤木属植物的引种和早期适应性[J].林业科学研究,2004,17(2):139~146. |
[47]
|
陈益泰,李桂英,王惠雄.桤木自然分布区内表型变异的研究[J].林业科学研究,1999,12(4):379~385. |
[48]
|
王军辉.桤木遗传变异与选择的研究[D].北京:北京林业大学,2000. |
[49]
|
卓仁英,陈益泰.四川桤木不同群体间遗传分化研究[J].浙江林业科技,2005,25(1):13~16. |
[50]
|
饶龙兵,杨汉波,郭洪英,等.基于桤木属转录组测序的SSR分子标记的开发[J].林业科学研究,2016,29(6):875~882. |
[51]
|
Yang A,Wu B,Shen C,et al.Microsatellite records for volume 9,issue 3[J].Conservation Genetics Resources,2017,9(3):507~511. |