[1] 程晓建, 黎章矩, 喻卫武, 等. 榧树的资源分布与生态习性[J]. 浙江林学院学报, 2007, 24(4): 383 − 388.

CHENG Xiaojian, LI Zhangju, YU Weiwu, et al. The resource distribution and ecological habits of Torreya grandis [J]. J Zhejiang For Coll, 2007, 24(4): 383 − 388.
[2] 易官美, 邱迎君, 李晓花, 等. 榧树的地理分布与资源调查[J]. 安徽农业科学, 2013, 41(19): 8200 − 8202.

YI Guanmei, QIU Yingjun, LI Xiaohua, et al. Geographic distribution and resource status of Torreya grandis [J]. J Anhui Agr Sci, 2013, 41(19): 8200 − 8202.
[3] 詹利云, 刘琏, 曾燕如, 等. 雄性榧树天然居群表型多样性及优株初选[J]. 浙江农林大学学报, 2020, 37(6): 1120 − 1127.

ZHAN Liyun, LIU Lian, ZENG Yanru, et al. Phenotypic diversity of male cones and the selection of superior plants among male populations in Torreya grandis [J]. J Zhejiang A&F Univ, 2020, 37(6): 1120 − 1127.
[4] 王国霞, 曹福亮, 方炎明. 古银杏雄株的ISSR遗传多样性分析[J]. 北京林业大学学报, 2010, 32(2): 39 − 45.

WANG Guoxia, CAO Fuliang, FANG Yanming. Genetic diversity of ancient male ginkgo trees by ISSR analysis [J]. J Beijing For Univ, 2010, 32(2): 39 − 45.
[5]

ZHOU Yanqing, ZHOU Chune, YAO Huanlin, et al. Application of ISSR markers in detection of genetic variation among Chinese yam (Dioscorea opposita Thunb.) cultivars [J]. Life Sci J, 2008, 5(4): 6 − 12.
[6] 刘列钊, 林呐. 油菜简单重复序列SSR(simple sequence repeat)研究进展[J]. 生命科学, 2004, 16(3): 173 − 176.

LIU Liezhao, LIN Na. Research advance of SSR (simple sequence repeat) in canola [J]. Chin Bull Life Sci, 2004, 16(3): 173 − 176.
[7] 刘会, 彭春钰, 武忠亮, 等. 植物SSR标记开发及应用研究进展[J]. 科学技术创新, 2018(36): 18 − 20.

LIU Hui, PENG Chunyu, WU Zhongliang, et al. Development and application of plant SSR markers [J]. Sci Technol Innovation, 2018(36): 18 − 20.
[8] 郭瑞星, 刘小红, 荣廷昭, 等. 植物SSR标记的发展及其在遗传育种中的应用[J]. 玉米科学, 2005, 13(2): 8 − 11.

GUO Ruixing, LIU Xiaohong, RONG Tingzhao, et al. Development of SSR marker and its application in plant genetics and breeding [J]. J Maize Sci, 2005, 13(2): 8 − 11.
[9] 闵会, 程诗明, 康志雄, 等. 香榧天然群体遗传多样性的AFLP分析[J]. 林业科学研究, 2009, 22(3): 367 − 372.

MIN Hui, CHENG Shiming, KANG Zhixiong, et al. Genetic diversity of different Torreya grandis populations by AFLP [J]. For Res, 2009, 22(3): 367 − 372.
[10] 吴昊, 喻卫武, 吴慧敏, 等. 基于种子性状及分子标记分析确定榧树核心种质[J]. 分子植物育种, 2019, 17(16): 5513 − 5520.

WU Hao, YU Weiwu, WU Huimin, et al. Determination of core germplasm in Torreya grandis Fort. ex Lindl. based on seed traits and molecular markers [J]. Mol Plant Breed, 2019, 17(16): 5513 − 5520.
[11] 刘浩凯. 榧树遗传多样性的SRAP标记分析[D]. 杭州: 浙江农林大学, 2014.

LIU Haokai. SRAP Marker-based Analysis of the Genetic Diversity in Torreya grandis[D]. Hangzhou: Zhejiang A&F University, 2014.
[12]

NAGOKA T, OGIHARA Y. Application of inter-simple sequence repeat polymorphism in wheat for use of DNA markers in comparisonto RFLP and RAPD markers [J]. Theor Appl Genet, 1997, 94: 597 − 602.
[13]

ZENG Jun, CHEN Jie, KOU Yixuan. et al. Application of EST-SSR markers developed from the transcriptome of Torreya grandis (Taxaceae), a threatened nut-yielding conifer tree[J/OL]. Peer J, 2018, 6(3): e5606[2021-02-18]. doi: 10.7717/peerj.5606.
[14]

YI Guanmei, ZHAO Tingting, YIN Zhinang, et al. Mining and characterizing EST-SSR markers from ESTs of Torreya grandis [J]. Biochem Syst Ecol, 2016, 65: 124 − 128.
[15]

LI Jianhui, JIAO Jing, JIANG Kai, et al. Development and characterize of microsatelliites in Torreya jackii(Taxaceae), an endangered species in China [J]. Am J Bot, 2011, 98(12): 349 − 351.
[16] 张敏, 周彩红, 陈焘, 等. 榧树转录组SSR信息分析及其分子标记开发[J]. 果树学报, 2017, 34(10): 1258 − 1265.

ZHANG Min, ZHOU Caihong, CHEN Tao, et al. Analysis of SSR information in transcriptome and development of molecular markers in Torreya grandis [J]. J Fruit Sci, 2017, 34(10): 1258 − 1265.
[17] 王大玮, 李煜, 周玮, 等. 杜仲AFLP反应体系的建立及优化[J]. 西北农林科技大学学报(自然科学版), 2010, 38(6): 88 − 94.

WANG Dawei, LI Yu, ZHOU Wei, et al. Establishment and optimization of AFLP reaction system in Eucommia ulmoides Oliv. [J]. J Northwest A&F Univ Nat Sci Ed, 2010, 38(6): 88 − 94.
[18]

EXCOFFIER L, SMOUSE P E, QUATTRO J M. Analysis of molecular variance inferred from metric distances among DNA haplotypes: applications to human mitochondrial DNA restriction data [J]. Genetics, 1992, 131(2): 479 − 491.
[19]

HUANG Hong, LU Jiang, REN Zhongbo. et al. Mining and validating grape(Vitis L.) ESTs to develop EST-SSR markers for genotyping and mapping [J]. Mol Breed, 2011, 28(2): 241 − 254.
[20]

EVANNO G, REGNAUT S, GOUDET J. Detecting the number of clusters of individuals using the software STRUCTURE: asimulation study [J]. Mol Ecol, 2005, 14 (8): 2611 − 2620.
[21] 王玲, 左示敏, 张亚芳, 等. 中国南方八省(自治区)水稻纹枯病菌群体遗传结构的SSR分析[J]. 中国农业科学, 2015, 48(13): 2538 − 2548.

WANG Ling, ZUO Shimin, ZHANG Yafang, et al. SSR analysis of population genetic structure of rice sheath blight causing agent Rhizoctonia solani AG1-IA collected from eight provinces (autonomous region) in southern China [J]. Sci Agric Sin, 2015, 48(13): 2538 − 2548.
[22]

BOSTSEIN D, WHITE R L, SKOLNICK M, et al. Construction of a genetic linkage map in man using restriction fragment polymorphisms [J]. Am J Hum Genet, 1980, 32: 314 − 331.
[23] 刘振, 赵洋, 杨培迪, 等. SSR、SRAP、ISSR分子标记在茶树品种亲本鉴定上的比较分析[J]. 茶叶科学, 2014, 34(6): 617 − 624.

LIU Zhen, ZHAO Yang, YANG Peidi, et al. Comparison of parents identification for tea variety based on SSR, SRAP and ISSR markers [J]. J Tea Sci, 2014, 34(6): 617 − 624.
[24] 王华忠, 吴则东, 王晓武, 等. 利用SRAP与SSR标记分析不同类型甜菜的遗传多样性[J]. 作物学报, 2008, 34(1): 37 − 46.

WANG Huazhong, WU Zedong, WANG Xiaowu, et al. Analysis of the genetic diversity in different types of sugar beets by SRAP and SSR markers [J]. Acta Agron Sin, 2008, 34(1): 37 − 46.
[25]

WRIGHT S. The genetical structure of populations [J]. Ann Eugenics, 1951, 15(4): 323 − 354.
[26] 易官美, 邱迎君. 榧树居群遗传多样性的cpSSR分析[J]. 果树学报, 2014, 31(4): 583 − 588.

YI Guanmei, QIU Yingjun. Genetic diversity of Torreya grandis populations as revealed by chloroplast microsatellite markers [J]. J Fruit Sci, 2014, 31(4): 583 − 588.
[27]

SLATKIN M. Gene flow and the geographic structure of natural populations [J]. Science, 1987, 236(4803): 787 − 792.
[28] 高源, 王昆, 王大江, 等. 7个来源地区山荆子的遗传多样性与群体结构分析[J]. 中国农业科学, 2018, 51(19): 3766 − 3777.

GAO Yuan, WANG Kun, WANG Dajiang, et al. The genetic diversity and population structure analysis on Malus baccata (L.) Borkh from 7 sources [J]. Sci Agric Sin, 2018, 51(19): 3766 − 3777.
[29]

HAMRICK J L. Gene flow and distribution of genetic variation in plant populations[C]//URBANSKA K. Differentiation Patterns in Higher Plants. New York: Academic Press, 1987: 53 − 67.
[30] 何明, 董雷鸣, 刘浩凯, 等. 香榧古树的遗传差异性[J]. 浙江林业科技, 2014, 34(6): 1 − 5.

HE Ming, DONG Leiming, LIU Haokai, et al. Genetic differences in ancient Torreya grandis cv. Merrillii trees [J]. J Zhejiang For Sci Technol, 2014, 34(6): 1 − 5.
[31] 刘萍, 马宏玮, 王掌军. 我国药用植物种质资源遗传多样性及其研究进展[J]. 农业科学研究, 2008, 29(3): 66 − 70.

LIU Ping, MA Hongwei, WANG Zhangjun. Research progress on genetic diversity of germplasm resources of medicinal plants in China [J]. J Agric Sci, 2008, 29(3): 66 − 70.
[32] 葛淑俊, 孟义江, 李广敏, 等. 我国药用植物遗传多样性研究进展[J]. 中草药, 2006(10): 1584 − 1589.

GE Shujun, MENG Yijiang, LI Guangmin, et al. Research progress on genetic diversity in Chinese medicinal plants [J]. Chin Tradit Herb Drugs, 2006(10): 1584 − 1589.