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               phylogenetic  studies  with  an  example  from  Oxalis  LIU HRꎬ GAO QBꎬ ZHANG FQꎬ et al.ꎬ 2018. Molecular
               ( Oxalidaceae ) [ J ]. Mol Phylogenet Evolꎬ 12(3):  genetic diversity and phylogenetic structure of Scirpus Ribes
               310-319.                                          based on chloroplast gene sequence rbcL ̄accD [J]. Bull Bot
            EXCOFFIER Lꎬ LISCHER Hꎬ 2010. Arlequin suite ver 3.5: A  Resꎬ 38(2): 278-283. [刘海瑞ꎬ 高庆波ꎬ 张发起ꎬ 等ꎬ
               new series of programs to perform population genetics  2018. 基于叶绿体基因序列 rbcL ̄accD 研究莛子藨的分子
               analyses under Linux and Windows [J]. Mol Ecol Resourꎬ  遗传多样性和谱系地理结构 [J]. 植物研究ꎬ 38(2):
               10(3): 564-567.                                   278-283.]
            FAN SJꎬ GUO XXꎬ 2022. Advances in research and application  LIU SEꎬ 1985. Collected Works of Liu Shen-E [M]. Beijing:
               of plant chloroplast genome [ J]. J Shandong Norm Univ  Science Press. [刘慎谔ꎬ 1985. 刘慎谔文集 [M]. 北京:
               (Nat Sci Ed)ꎬ 37 ( 1): 22 - 31. [ 樊 守 金ꎬ 郭 秀 秀ꎬ   科学出版社.]
               2022. 植物叶绿体基因组研究及应用进展 [J]. 山东师范                 LIU Jꎬ 2013. Study on genetic diversity and population genetic
               大学学报(自然科学版)ꎬ 37(1): 22-31.]                       structure of Dou pear and Chuan pear in China [ D ].
            GAO Yꎬ WANG DJꎬ WANG Kꎬ et al.ꎬ 2020. Genetic diversity  Hangzhou: Zhejiang University: 1-120. [刘晶ꎬ 2013. 中国
               of Malus Mill. based on the sequences of chloroplast  豆梨与川梨的遗传多样性和群体遗传结构研究 [D]. 杭
               fragments [J]. Acta Agric Boreal ̄Sinꎬ 35(6): 42-51. [高  州: 浙江大学: 1-120.]
               源ꎬ 王大江ꎬ 王昆ꎬ 等ꎬ 2020. 基于叶绿体片段序列的苹                LU Mꎬ YAN XQꎬ BAI Jꎬ et al.ꎬ 2017. Construction of core
               果属植物遗传多样性 [J]. 华北农学报ꎬ 35(6): 42-51.]              collection in wild Rosa roxburghii from Guizhou Province
            HE Wꎬ ZHANG Jꎬ HUANG ZLꎬ et al.ꎬ 2014. Genetic diversity  using EST ̄SSR markers and fruits quality traits [ J]. J
               and population genetic structure among local Chinese cherry  Horticꎬ 18(9): 3098-3106. [鲁敏ꎬ 鄢秀芹ꎬ 白静ꎬ 等ꎬ
               varieties [Cerasus pseudocerasus (Lindl.) G. Don] based on  2017. 基于 EST ̄SSR 标记与果实品质性状的贵州野生刺
               ITS sequence [J]. Acta Bot Boreal ̄Occident Sinꎬ 34(3):  梨核心种质构建 [J]. 园艺学报ꎬ 18(9): 3098- 3106.]
               463-472. [何文ꎬ 张静ꎬ 黄智林ꎬ 等ꎬ 2014. 基于 ITS 序列       LU Mꎬ ZHANG HSꎬ BAI Jꎬ et al.ꎬ 2020. Genetic diversity
               对栽培中国樱桃遗传多样性及其群体遗传结构的分析                           analysis and core collection construction in Rosa roxburghii
               [J]. 西北植物学报ꎬ 34(3): 463-472.]                     based on fruits quality and EST ̄SSR markers [J]. Mol Plant
            HU YCꎬ MA Jꎬ ZHU JZꎬ et al.ꎬ 2021. Analysis of genetic  Breedꎬ 18(9): 3098-3106. [鲁敏ꎬ 张怀山ꎬ 白静ꎬ 等ꎬ
               diversity of ancient Lycium barbarum trees based on  2020. 基于果实品质与 EST ̄SSR 标记的刺梨居群遗传多
               chloroplast gene [J/ OL]. Mol Plant Breed: 1-14. [2022-  样性分析及核心种质构建 [J]. 分子植物育种ꎬ 18(9):
               06- 22 ]. http:/ / kns. cnki. net/ kcms/ detail/ 46. 1068. S.  3098-3106.]
               20211011.1803.008.html. [胡永超ꎬ 马洁ꎬ 朱金忠ꎬ 等ꎬ       MO ZMꎬ YANG CDꎬ LI YSꎬ et al.ꎬ 2022. Analysis of genetic
               2021. 基于 matK、psbA ̄trnH、racL ̄a、trnL ̄trnF 序列分析枸    diversity and geographical distribution pattern of Spiranthes
               杞古树的遗传多样性 [J/ OL]. 分子植物育种: 1- 14.                 sinensis [J]. Mol Plant Breedꎬ 20(3): 1037-1044. [莫忠
               [2022 - 06 - 22 ]. http:/ / kns. cnki. net/ kcms/ detail/ 46.  妹ꎬ 杨传东ꎬ 李银双ꎬ 等ꎬ 2022. 绶草的遗传多样性及地
               1068.S.20211011.1803.008.html.]                   理 分 布 格 局 分 析 [ J ]. 分 子 植 物 育 种ꎬ 20(3):
            JOLY Sꎬ STARR JRꎬ LEWIS WHꎬ et al.ꎬ 2006. Polyploid and  1037-1044.]
               hybrid evolution in roses east of the Rocky Mountains  PAN Fꎬ MO ZMꎬ SHI Tꎬ et al.ꎬ 2021. Genetic diversity and
               [J]. Am J Botꎬ 93(3): 412-425.                    genetic structure analysis of Pinellia ternata (Thunb.) Breit
            LAHAYE Rꎬ SAVOLAINEN Vꎬ DUTHOIT Sꎬ et al.ꎬ 2008. A   populations [ J ]. Mol Plant Breedꎬ 19 ( 24 ): 8347 -
               test of psbK ̄psbI and atpF ̄atpH as potential plant DNA  8352. [潘凤ꎬ 莫忠妹ꎬ 石甜ꎬ 等ꎬ 2021. 半夏居群遗传多
               barcodes using the flora of the Kruger National Park (South  样性及遗传结构分析 [J]. 分子植物育种ꎬ 19(24):
               Africa) as a model system [J]. Nat Preced. DOI: http:/ /  8347-8352.]
               hdl.handle.net/ 10210/ 8915.                    PAN YZꎬ ZHAO YJꎬ GONG Xꎬ 2021. Genetic diversity and
            LI NYꎬ ZHANG HSꎬ AN HMꎬ et al.ꎬ 2021. Analysis of genetic  population  demography  of  Eupatorium  heterophyllum
               diversity of Rosa roxburghii tratt. based on its sequence [J/  (Asteraceae ) [J]. Guihaiaꎬ 41(3): 340-350. [潘跃芝ꎬ
               OL]. Mol Plant Breed: 1 - 25. [2022 - 06 - 22]. http:/ /  赵玉娟ꎬ 龚洵ꎬ 2021. 异叶泽兰的遗传多样性和居群历史
               kns. cnki. net/ kcms/ detail/ 46. 1068. s. 20210827. 1325. 005.  动态研究 [J]. 广西植物ꎬ 41(3): 340-350.]
               html. [李楠玉ꎬ 张怀山ꎬ 安华明ꎬ 等ꎬ 2021. 基于 ITS 序         PETIT RJꎬ DUMINIL Jꎬ FINESCHI Sꎬ et al.ꎬ 2005.
               列对刺梨遗传多样性的分析 [J/ OL]. 分子植物育种: 1-                  Comparative organization of chloroplastꎬ mitochondrial and
               25. [2022 - 06 - 22]. http:/ / kns. cnki. net/ kcms/ detail/ 46.  nuclear diversity in plant populations [ J ]. Mol Ecolꎬ
               1068.s.20210827.1325.005.html.]                   14(3): 689-701.
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