Page 50 - 《广西植物》2025年第4期
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6 6 4                                  广  西  植  物                                         45 卷
            HE ZZꎬ STOTZ GCꎬ LIU Xꎬ et al.ꎬ 2024. A global synthesis of  change and their driving forces at multiple time scales in
               the patterns of genetic diversity in endangered and invasive  Southwest China [J]. Agricultural and Forest Meteorologyꎬ
               plants [J]. Biological Conservationꎬ 291: 110473.  256/ 257: 10-21.
            HOHENLOHE PAꎬ FUNK      WCꎬ RAJORA    OPꎬ 2021.    LIU HYꎬ LU JNꎬ YIN XGꎬ et al.ꎬ 2023. Identification of
               Population  genomics  for  wildlife  conservation  and  resistance to root rot and preliminary establishment of its SSR
               management [J]. Molecular Ecologyꎬ 30(1): 62-82.  markers in castor bean [ J]. Guihaiaꎬ 43 ( 7): 1326 -
            HUANG Bꎬ HUANG JJꎬ TANG YLꎬ et al.ꎬ 2023. SSR analysis  1334. [刘海燕ꎬ 陆建农ꎬ 殷学贵ꎬ 等ꎬ 2023. 蓖麻根腐病
               of genetic diversity of Camellia chekiangoleosa Hu. and its  抗性鉴定及其 SSR 标记的初步建立 [J]. 广西植物ꎬ
               related species in Jiangxi Province [J]. Acta Agriculturae  43(7): 1326-1334.]
               Universitatis Jiangxiensisꎬ 45(5): 1084-1095. [黄彬ꎬ 黄  LIU Lꎬ WANG Pꎬ WANG CZꎬ et al.ꎬ 2024. Genetic diversity
               建建ꎬ 汤优令ꎬ 等ꎬ 2023. 江西省浙江红山茶及近缘种群                   and grain shape association analysis of participating summer

               体遗传多样性的 SSR 分析 [J]. 江西农业大学学报ꎬ                     soybean in Huanghuaihai region based on SSR [J]. Jiangsu
               45(5): 1084-1095.]                                Journal of Agricultural Sciencesꎬ 40(5): 785-795. [刘丽ꎬ
            JARDIM DE QUEIROZ Lꎬ DOENZ CJꎬ ALTERMATT Fꎬ et       王培ꎬ 王传之ꎬ 等ꎬ 2024. 基于 SSR 标记黄淮海地区夏大
               al.ꎬ 2022. Climateꎬ immigration and speciation shape  豆区域试验参试品系遗传多样性及粒形性状关联位点分
               terrestrial and aquatic biodiversity in the European Alps  析 [J]. 江苏农业学报ꎬ 40(5): 785-795.]
               [ J ]. Proceedings of the Royal Society B: Biological  LIU Qꎬ LI Yꎬ YANG RMꎬ et al.ꎬ 2021. Yellow Camellia:
               Sciencesꎬ 289(1980): 20221020.                    resource status and research progress in modern studies
            LEI Gꎬ CHEN XJꎬ ZHOU KHꎬ et al.ꎬ 2024. Genetic diversity  [J]. Modern Chinese Medicineꎬ 23(4): 727-733. [刘青ꎬ
               and fingerprint analysis of 60 pepper founder parents based  李月ꎬ 杨润梅ꎬ 等ꎬ 2021. 金花茶组植物资源现状与现代
               on SSR markers [J]. Journal of Plant Genetic Resourcesꎬ 25  研究进展 [J]. 中国现代中药ꎬ 23(4): 727-733.]
               (8): 1321-1335. [雷刚ꎬ 陈学军ꎬ 周坤华ꎬ 等ꎬ 2024. 60      LIUFU YQꎬ PENG GQꎬ LU YBꎬ et al.ꎬ 2014. Development and
               份辣椒骨干亲本的 SSR 遗传多样性分析及指纹图谱构建                       characterization of 38 microsatellite markers for Camellia
               [J]. 植物遗传资源学报ꎬ 25(8): 1321-1335.]                 flavida based on transcriptome sequencing [J]. Conservation
            LEVY Eꎬ BYRNE Mꎬ COATES DJꎬ et al.ꎬ 2016. Contrasting  Genetics Resourcesꎬ 6(4): 1007-1010.
               influences of geographic range and distribution of populations  LOVELESS MDꎬ HAMRICK JLꎬ 1984. Ecological determinants
               on patterns of genetic diversity in two sympatric Pilbara  of genetic structure in plant populations [J]. Annual Review
               acacias [J]. PLoS ONEꎬ 11(10): e0163995.          of Ecologyꎬ Evolutionꎬ and Systematicsꎬ 15(15): 65-95.
            LI Aꎬ GE Sꎬ 2002. Advances in plant conservation genetics  LU XLꎬ CHEN HLꎬ LIANG XYꎬ et al.ꎬ 2019. Genetic diversity
               [J]. Biodiversity Scienceꎬ 10(1): 61-71. [李昂ꎬ 葛颂ꎬ  analysis of C. nitidissima var. microcarpa and peripheral
               2002. 植物 保 护 遗 传 学 研 究 进 展 [ J]. 生 物 多 样 性ꎬ       population of Camellia nitidissima [ J]. Molecular Plant
               10(1): 61-71.]                                    Breedingꎬ 17(1): 301-306. [路雪林ꎬ 陈海玲ꎬ 梁雪雁ꎬ
            LI Bꎬ LIU Cꎬ TANG JRꎬ et al.ꎬ 2022. Genetic diversity  等ꎬ 2019. 金花茶边缘种群及变种小果金花茶的遗传多样
               analysis of Camellia fascicularis H. T. Chang based on SSR  性分析 [J]. 分子植物育种ꎬ 17(1): 301-306.]
               markers [J]. Journal of Applied Research on Medicinal and  LU XLꎬ CHEN HLꎬ WEI SJꎬ et al.ꎬ 2020. Chloroplast and
               Aromatic Plantsꎬ 31: 100404.                      nuclear  DNA  analyses  provide  insight  into  the
            LI Sꎬ LIU SLꎬ PEI SYꎬ et al.ꎬ 2020. Genetic diversity and  phylogeography and conservation genetics of Camellia
               population structure of Camellia huana ( Theaceae )ꎬ a  nitidissima ( Theaceae )  in southern Guangxiꎬ China
               limestone species with narrow geographic rangeꎬ based on  [J]. Tree Genetics & Genomesꎬ 16(1): 8.
               chloroplast DNA sequence and microsatellite markers  LU YBꎬ LIUFU YQꎬ PENG GQꎬ et al.ꎬ 2014. Development of
               [J]. Plant Diversityꎬ 42(5): 343-350.             21  microsatellite  primers  for  Camellia  pingguoensis
            LI XLꎬ WANG Jꎬ FAN ZQꎬ et al.ꎬ 2020. Genetic diversity in  ( Theaceae ) using 454 sequencing [ J ]. Conservation
               the  endangered  Camellia  nitidissima  assessed  using  Genetics Resourcesꎬ 6: 791-793.
               transcriptome ̄based SSR markers [ J ]. Treesꎬ 34(2):  LUO QFꎬ FENG YHꎬ WU DSꎬ et al.ꎬ 2022. Genetic diversity of
               543-552.                                          Pinus taiwanensis var. damingshanensis natural populations by
            LIU Hꎬ ZHANG Mꎬ LIN Zꎬ et al.ꎬ 2018. Spatial heterogeneity  SSR markers [J]. Guihaiaꎬ 42(8): 1367-1373. [罗群凤ꎬ 冯
               of the relationship between vegetation dynamics and climate  源恒ꎬ 吴东山ꎬ 等ꎬ 2022. 基于 SSR 标记的大明松天然群体
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