Page 92 - 《广西植物》2020年第10期
P. 92

10 期            覃信梅等: 石山苣苔属四种(含一变种)植物的染色体数目和倍性研究                                          1 4 7 5

     石山苣苔(英文) [J]. 广西植物ꎬ 39(5):574-580.                 ( Gesneriaceae ) and their systematic implications [ D ].
   CHRISTIE Fꎬ BARBER Sꎬ MÖLLER Mꎬ 2012. New chromosome  Beijing: University of Chinese Academy of Sciences. [刘瑞
     counts in Old World Gesneriaceae: numbers for species  瑞ꎬ 2013. 广义报春苣苔属(苦苣苔科)的细胞学特征及其
     hitherto regarded as Chiritaꎬ and their systematic and  系统学意义 [D]. 北京:中国科学院大学.]
     evolutionary significance [J]. Edinb J Botꎬ 69(2): 363-365.  LIU RRꎬ SKOG LEꎬ LIAO JPꎬ et al.ꎬ 2014. New chromosome
   GUO Jꎬ MENG Tꎬ ZHANG Qꎬ et al.ꎬ 2016. Petrocodon     counts and their taxonomic implications in Primulina sensu
     retroflexus sp. nov. ( Gesneriaceae) from a karst cave in  lato ( Gesneriaceae) [J]. Plant Divers Resourꎬ 36(1): 13-
     Guizhouꎬ China [J]. Nord J Botꎬ 34(2): 159-164.    21. [刘瑞瑞ꎬ SKOG LEꎬ 廖景平ꎬ 等ꎬ 2014. 广义报春苣
   HAN Jꎬ KONG DYꎬ PENG FRꎬ 2018. Optimization of       苔属(苦苣苔科) 的染色体新计数及其分类学意义(英
     chromosome mounting technique and karyotype analysis of  文) [J]. 植物分类与资源学报ꎬ 36(1):13-21.]
     Carya illinoinensis [J]. Mol Plant Breedꎬ 16(16): 5240-  LIU Dꎬ XIA Xꎬ WU YMꎬ et al.ꎬ 2015. Analysis of factors
     5246. [韩杰ꎬ 孔德仪ꎬ 彭方仁ꎬ 2018. 薄壳山核桃染色体                affecting chromosome squashing effect in plant [ J ]. J
     制片技 术 的 优 化 与 核 型 分 析 [ J]. 分 子 植 物 育 种ꎬ           Zhejiang Agric Sciꎬ 56(10): 1654-1657. [刘丹ꎬ 夏雪ꎬ 吴
     16(16):5240-5246.]                                 益梅ꎬ 等ꎬ 2015. 植物染色体制片效果影响因素的解析
   HE YLꎬ LIU HWꎬ YANG Bꎬ et al.ꎬ 2018. Study on        [J]. 浙江农业科学ꎬ 56(10):1654-1657.]
     chromosomes preparation on technique of root tip of Buplerum  LU YBꎬ HUANG YSꎬ XU WBꎬ et al.ꎬ 2017. Floral evolutionary
     chinese DC [J]. Seedꎬ 37(8): 68-71. [何倚涟ꎬ 刘宏伟ꎬ     trend of Petrocodon (Gesneriaceae) and its significance in
     杨彬ꎬ 等ꎬ 2018. 北 柴 胡 根 尖 染 色 体 制 片 技 术 研 究           classification [J]. Guihaiaꎬ 37(10): 1227-1239. [卢永彬ꎬ
     [J]. 种子ꎬ 37(8):68-71.]                             黄俞淞ꎬ 许为斌ꎬ 等ꎬ 2017. 石山苣苔属(苦苣苔科)花形
   HONG Xꎬ ZHOU SBꎬ WEN Fꎬ 2014. Petrocodon villosus    态演化及分类学意义(英文) [J]. 广西植物ꎬ 37(10):
     (Gesneriaceae )ꎬ a new species from Guangxiꎬ China  1227-1239.]
     [J]. Blumeaꎬ 59(1): 33-36.                      LU YBꎬ PAN BOꎬ HUANG Jꎬ et al.ꎬ 2017. Petrocodon
   KANG Mꎬ TAO Jꎬ WANG Jꎬ et al.ꎬ 2014. Adaptive and    pulchriflorus sp. nov. (Gesneriaceae) from Guangxiꎬ China
     nonadaptive genome size evolution in karst endemic flora of  [J]. Phytotaxaꎬ 291(1): 81-88.
     China [J]. New Phytolꎬ 202(4): 1371-1381.       MADDISON WPꎬ MADDISON DRꎬ 2018. Mesquite: A modular
   LEI WYꎬ ZHAO LLꎬ JIAN ZLꎬ et al.ꎬ 2017. Optimization of  system for evolutionary analysis [ EB/ OL]. Version 3. 51ꎬ
     chromosome preparation and karyotype analysis of Sophora  http:/ / www.mesquiteproject.org.
     davidii [J]. Seedꎬ 36(8): 5-9. [雷文英ꎬ 赵丽丽ꎬ 简忠    MAYROSE Iꎬ ZHAN SHꎬ ROTHFELS CJꎬ et al.ꎬ 2011.
     领ꎬ 等ꎬ 2017. 白刺花染色体压片技术优化及核型分析                      Recently formed polyploid plants diversify at lower rates
     [J]. 种子ꎬ 36(8): 5-9.]                              [J]. Scienceꎬ 333(6047): 1257-1257.
   LI CRꎬ LIU FPꎬ GADAGKAR SRꎬ et al.ꎬ 2019. Petrocodon  MIDDLETON DJꎬ SANGVIROTJANAPAT Sꎬ LA ̄ONGSRI Wꎬ
     longitubus ( Gesneriaceae)ꎬ a new species from Guizhouꎬ  2015. A new species of Petrocodon ( Gesneriaceae) from
     China [J]. Phytotaxaꎬ 408 (4): 267-275.            Thailand [J]. Thai For Bull Botꎬ 43: 15-17.
   LI MXꎬ CHEN RYꎬ 1985. A suggestion on the standardization  MÖLLER Mꎬ KIEHN Mꎬ 2004. A synopsis of cytological studies
     of karyotype annalysis in plants [ J]. Acta Bot Wuhanꎬ 3  in Gesneriaceae [J]. Edinb J Botꎬ 60(3): 425-447.
     (4): 297-302. [李懋学ꎬ 陈瑞阳ꎬ 1985. 关于植物核型分          OLSON Kꎬ GORELICK Rꎬ 2011. Chromosomal fission accounts
     析的标准化问题 [J]. 武汉植物学研究ꎬ 3(4):297-302.]               for small ̄scale radiations in Zamia (Zamiaceaeꎻ Cycadales)
   LI ZYꎬ WANG YZꎬ 2005. Plants of Gesneriaceae in China  [J]. Bot J Linn Socꎬ 165(2): 168-185.
     [M]. Henan: Henan Science and Technology Publishing  SOLTIS PSꎬ MARCHANT DBꎬ VAN DE PEER Yꎬ et al.ꎬ
     House. [李 振 宇ꎬ 王 印 政ꎬ 2005. 中 国 苦 苣 苔 科 植 物        2015. Polyploidy and genome evolution in plants [ J]. Sci
     [M]. 河南:河南科学技术出版社.]                                Directꎬ 35: 119-125.
   LI HQꎬ WANG YQꎬ 2015. Petrocodon confertiflorus ( Gesne ̄  SOLTIS DEꎬ SOLTIS PSꎬ 1999. Polyploidy: recurrent formation
     riaceae)ꎬ a new species from Guangdongꎬ China [J]. Ann  and genome evolution [ J]. Trends Ecol Evolꎬ 14 ( 9):
     Bot Fennꎬ 52: 27-36.                               348-352.
   LI MXꎬ ZHANG ZPꎬ 1996. Crop chromosomes and their  SU LYꎬ PENG Tꎬ ZHAO ZGꎬ et al.ꎬ 2019. Petrocodon
     research techniques [M]. Beijing: China Agriculture Press:  chongqingensisꎬ a new species of Gesneriaceae from Chongqing
     1-40. [李懋学ꎬ 张赞平ꎬ 1996. 作物染色体及其研究技术                 Cityꎬ China [J]. Guihaiaꎬ 39(8): 997-1006. [苏兰英ꎬ 彭
     [M]. 北京:中国农业出版社:1-40.]                             涛ꎬ 赵志国ꎬ 等ꎬ 2019. 苦苣苔科石山苣苔属一新种———重
   LIU RRꎬ PAN Bꎬ ZHOU TJꎬ et al.ꎬ 2012. Cytological studies on  庆石山苣苔 [J]. 广西植物ꎬ 39(8): 997-1006.]
     Primulina taxa ( Gesneriaceae ) from limestone karsts in  VAN DE PEER Yꎬ MAERE Sꎬ MEYER Aꎬ 2009. The
     Guangxi Provinceꎬ China [J]. Caryologiaꎬ 65(4): 295-303.  evolutionary significance of ancient genome duplications
   LIU RRꎬ 2013. Cytological characteristics of Primulina sensu lato  [J]. Nat Rev Genetꎬ 10(10): 725-736.
   87   88   89   90   91   92   93   94   95   96   97