[1] 裴鉴, 丁志遵. 中国植物志[M]. 北京: 科学出版社, 1985: 16 − 27.

PEI Jian, DING Zhizun. Flora of China [M]. Beijing: Science Press, 1985: 16 − 27.
[2] 张露, 蔡友铭, 诸葛强, 等. 石蒜属种间亲缘关系RAPD分析[J]. 遗传学报, 2002, 29(10): 915 − 921.

ZHANG Lu, CAI Youming, ZHUGE Qiang, et al. Analysis of the Inter-species relationships on Lycoris (Amaryllidaceae) by use of RAPD [J]. Acta Genet Sin, 2002, 29(10): 915 − 921.
[3] 袁菊红. 石蒜属化学成分及其提取、检测方法研究进展[J]. 安徽农业科学, 2010, 38(2): 684 − 686, 692.

YUAN Juhong. Research advances on the chemical constituents of Lycoris and their extraction and detection methods [J]. J Anhui Agri Sci, 2010, 38(2): 684 − 686, 692.
[4] 张成华, 朱庆均, 田景振. 石蒜应用研究现状[J]. 食品与药品, 2017, 19(4): 298 − 301.

ZHANG Chenghua, ZHU Qingjun, TIAN Jingzhen. Progress in chemical constituents, bioactivities and clinical application of Lycoris radiate [J]. Food Drug, 2017, 19(4): 298 − 301.
[5] 刘程宏, 董亚南, 韩燕丽, 等. 谷子分子标记研究与应用[J]. 食品安全质量检测学报, 2021, 12(3): 1002 − 1008.

LIU Chenghong, DONG Yanan, HAN Yanli, et al. Research and application of molecular markers in millet [J]. J Food Saf Qual, 2021, 12(3): 1002 − 1008.
[6] 吴晓雯, 王铁杆, 刘颖, 等. DNA分子标记技术在坛紫菜(Pyropia haitanensis)中的应用[J]. 渔业研究, 2020, 42(3): 281 − 287.

WU Xiaowen, WANG Tiegan, LIU Ying, et al. Application of DNA molecular marker technology in Pyropia haitanensis [J]. J Fisheries Res, 2020, 42(3): 281 − 287.
[7]

GARCIA-LOR A, CURK F, SNOUSSI-TRIFA H, et al. A nuclear phylogenetic analysis: SNPs, indels and SSRs deliver new insights into the relationships in the ‘true citrus fruit trees’ group (Citrinae, Rutaceae) and the origin of cultivated species [J]. Ann Bot, 2013, 111(1): 1 − 19.
[8] 叶新如, 刘建汀, 李永平, 等. 基于EST-SSR标记的MCID法鉴定冬瓜种质资源[J]. 核农学报, 2021, 35(4): 780 − 788.

YE Xinru, LIU Jianting, LI Yongping, et al. Identification of wax gourd by using EST-SSR markers baded MCID method [J]. J Nucl Agric Sci, 2021, 35(4): 780 − 788.
[9] 赵尚敏, 李晓东, 付增娟, 等. 基于SSR标记的甜菜种质资源遗传多样性及群体结构分析[J]. 北方农业学报, 2021, 49(1): 1 − 9.

ZHAO Shangmin, LI Xiaodong, FU Zengjuan, et al. Analysis of genetic diversity and population structure of sugarbeet germplasm resources by SSR markers [J]. J Northern Agric, 2021, 49(1): 1 − 9.
[10]

SAHOO A, BEHURA S, SINGH S, et al. EST-SSR marker-based genetic diversity and population structure analysis of Indian Curcuma species: significance for conservation [J]. Braz J Bot, 2021, 44: 411 − 428.
[11] 胡文舜, 邓朝军, 许奇志, 等. 19个枇杷杂交新品种(系)的SSR鉴定和指纹图谱构建[J]. 热带亚热带植物学报, 2020, 28(2): 153 − 162.

HU Wenshun, DENG Chaojun, XU Qizhi, et al. Identification and fingerprint construction of 19 new hybrid varieties (lines) of loquat by SSR [J]. J Trop Subtrop Bot, 2020, 28(2): 153 − 162.
[12] 李双铃, 王辉, 任艳, 等. 利用荧光标记SSR技术鉴定花生F1代杂交种[J]. 花生学报, 2009, 38(4): 35 − 38.

LI Shuangling, WANG Hui, REN Yan, et al. Identification of peanut hybrids using SSR marker with fluorescence labeled M13-tailed primer [J]. J Peanut Sci, 2009, 38(4): 35 − 38.
[13] 张露, 王继华, 解玮佳, 等. 基于系谱和SSR标记的高山杜鹃杂交种亲缘关系分析[J]. 西北植物学报, 2016, 36(12): 2421 − 2432.

ZHANG Lu, WANG Jihua, XIE Weijia, et al. Ancestor parents speculation for Alpine Rhododendron hybrids based on the pedigree and SSR markers [J]. Acta Bot Boreali-Occident Sin, 2016, 36(12): 2421 − 2432.
[14] 徐雷锋, 葛亮, 袁素霞, 等. 利用荧光标记SSR构建百合种质资源分子身份证[J]. 园艺学报, 2014, 41(10): 2055 − 2064.

XU Leifeng, GE Liang, YUAN Suxia, et al. Using the fluorescent labeled SSR markers to establish molecular identity of lily germplasms [J]. Acta Hortic Sin, 2014, 41(10): 2055 − 2064.
[15] 丁力, 申方群, 黄红梅, 等. 芒种内F1杂交种的配制及杂种真实性的分子鉴定[J]. 中国草地学报, 2015, 37(2): 55 − 59,82.

DING Li, SHEN Fangqun, HUANG Hongmei, et al. Making up Intraspecific F1 hybrids among Miscanthus sinensis and identification of hybrid realness by SSR markers [J]. Chin J Grassland, 2015, 37(2): 55 − 59,82.
[16] 石艳, 童再康, 高燕会. 换锦花EST-SSR标记开发及遗传多样性分析[J]. 核农学报, 2018, 32(6): 1089 − 1096.

SHI Yan, TONG Zaikang, GAO Yanhui. Development of EST-SSR markers and genetic diversity analysis in Lycoris sprengeri [J]. J Nucl Agric Sci, 2018, 32(6): 1089 − 1096.
[17] 毛秀红, 朱士利, 李善文, 等. 基于荧光SSR标记的毛白杨核心种质构建[J]. 北京林业大学学报, 2020, 42(7): 40 − 47.

MAO Xiuhong, ZHU Shili, LI Shanwen, et al. Core germplasm construction of Populus tomentosa based on the fluorescent SSR markers [J]. J Beijing For Univ, 2020, 42(7): 40 − 47.
[18] 艾叶, 陈璐, 谢泰祥, 等. 基于SSR荧光标记构建建兰品种核心种质[J]. 园艺学报, 2019, 46(10): 1999 − 2008.

AI Ye, CHEN Lu, XIE Taixiang, et al. Construction of core collection of Cymbidium ensifolium cultivars based on SSR fluorescent markers [J]. Acta Hortic Sin, 2019, 46(10): 1999 − 2008.
[19] 陶乃奇, 张斌, 刘信凯, 等. 利用荧光标记SSR鉴别21个茶花新品种[J]. 植物学报, 2019, 54(1): 37 − 45.

TAO Naiqi, ZHANG Bin, LIU Xinkai, et al. Identification of 21 new Camellia hybrid varieties by fluorescence-labelled simple sequence repeat markers [J]. Chin Bull Bot, 2019, 54(1): 37 − 45.
[20] 尹明华, 徐文慧, 谢妮妮, 等. 三叶青种质资源遗传多样性的SSR荧光标记分析[J]. 中草药, 2018, 49(23): 5649 − 5656.

YIN Minghua, XU Wenhui, XIE Nini, et al. Genetic diversity analysis of Tetrastigma hemsleyanum germplasm resources based on fluorescently labeled SSR markers [J]. Chin Tradit Herbal Drugs, 2018, 49(23): 5649 − 5656.
[21] 钟淮钦, 林榕燕, 林兵, 等. 杂交兰转录组SSR信息分析及EST-SSR标记开发应用[J]. 中国细胞生物学学报, 2020, 42(2): 286 − 295.

ZHONG Huaiqin, LIN Rongyan, LIN Bing, et al. Analysis on SSR information in transcriptome and development of EST-SSR markers for hybrid Cymbidium [J]. Chin J Cell Biol, 2020, 42(2): 286 − 295.
[22] 杨军, 孔祥瑞, 王让剑, 等. 基于EST-SSR荧光标记和毛细管电泳检测技术分析邵武碎铜茶群体遗传多样性与亲缘关系研究[J]. 茶叶学报, 2019, 60(4): 137 − 143.

YANG Jun, KONG Xiangrui, WANG Rangjian, et al. Genetic diversity and relationship of Shaowu Suitong teas determined by calillary electorphoresis using fluorescent EST-SSR markers [J]. Acta Tea Sin, 2019, 60(4): 137 − 143.
[23] 陈庭见智, 袁文斌, 吴景芝, 等. 基于SSR分子标记的紫斑百合和栽培百合亲缘关系研究[J]. 南方农业学报, 2019, 50(12): 647 − 2655.

CHEN Tingjianzhi, YUAN Wenbin, WU Jingzhi, et al. Phylogenetic relationship between Lilium nepalense and cultivated lilies based on SSR molecular markers [J]. J Southern Agric, 2019, 50(12): 647 − 2655.
[24] 李慧峰, 王涛, 冉昆. 利用SSR荧光标记构建41份山东省苹果资源分子身份证[J]. 沈阳农业大学学报, 2020, 51(1): 70 − 77.

LI Huifeng, WANG Tao, RAN Kun. Using the fluorescent labeled ssr markers to establish the molecular identity of 41 Malus germplasms in Shandong Province [J]. J Shenyang Agric Univ, 2020, 51(1): 70 − 77.
[25] 邓传良, 周坚, 卢龙斗, 等. 长筒石蒜种质资源的RAPD及ISSR研究[J]. 云南植物研究, 2006, 28(3): 300 − 304.

DENG Chuanliang, ZHOU Jian, LU Longdou, et al. Study on germplasm resources of Lycoris longituba (Amarylliadaceae) by RAPD and ISSR [J]. Acta Bot Yunnan, 2006, 28(3): 300 − 304.
[26]

GAO Yanhui, ZHU Yuqiu, TONG Zaikang, et al. Analysis of genetic diversity and relationships among genus Lycoris based on start codon targeted (SCoT) marker [J]. Biochem Syst Ecol, 2014, 57: 221 − 226.