[1] 陈梦倩, 范李节, 王小德. 香港四照花花芽分化的形态学观察[J]. 植物科学学报, 2018, 36(4): 501 − 507.

CHEN Mengqian, FAN Lijie, WANG Xiaode. Morphological observation of flower bud differentiation of Dendrobenthamia hongkongensis ( Hemsl. ) Hutch. [J]. Plant Science Journal, 2018, 36(4): 501 − 507.
[2] 韩维栋. 四照花类群种质资源及其开发利用[J]. 中国野生植物资源, 1993(1): 37 − 40.

HAN Weidong. Cornus spp. germplasm resources and their development and utilization [J]. Chinese Wild Plant Resources, 1993(1): 37 − 40.
[3] 孙大伟, 杨玲, 毛霞, 等. 外源CaCl2缓解东京四照花幼苗盐胁迫的生理机制[J]. 西北植物学报, 2023, 43(3): 441 − 449.

SUN Dawei, YANG Ling, MAO Xia, et al. Physiological mechanism of CaCl2 application relieving salt-stressed seedlings of Cornus hongkongensis subsp. tonkinensis [J]. Acta Botanica Boreali-Occidentalia Sinica, 2023, 43(3): 441 − 449.
[4] 崔毅婵, 林雪茜, 洑香香, 等. 不同四照花观赏价值的综合评价[J]. 植物资源与环境学报, 2022, 31(6): 43 − 51.

CUI Yichan, LIN Xueqian, FU Xiangxiang, et al. Comprehensive evaluation on ornamental values of different Cornus spp. [J]. Journal of Plant Resources and Environment, 2022, 31(6): 43 − 51.
[5] YUAN Jiaqiu, SUN Dawei, LU Qiang, et al. Responses of physiology, photosynthesis, and related genes to saline stress in Cornus hongkongensis subsp. tonkinensis (WP Fang) QY Xiang[J/OL]. Plants, 2022, 11(7): 940[2023-09-01]. doi: 10.3390/plants11070940.
[6] 马青江, 孙操稳, 洑香香, 等. 东亚四照花群体中国潜在适生区预测研究[J]. 南京林业大学学报(自然科学版), 2019, 43(5): 135 − 140.

MA Qingjiang, SUN Caowen, FU Xiangxiang, et al. Identification of potential distribution region for East Asian dogwoods (Cornus) in China [J]. Journal of Nanjing Forestry University(Natural Sciences Edition), 2019, 43(5): 135 − 140.
[7] LU Qiang, YANG Ling, FU Xiangxiang, et al. Calcium ion richness in Cornus hongkongensis subsp. elegans (W. P. Fang et Y. T. Hsieh) Q. Y. Xiang could enhance its salinity tolerance[J/OL]. Forests, 2021, 12(11): 1522[2023-09-01]. doi: 10.3390/f12111522.
[8] 孙大伟, 袁佳秋, 蔡梅, 等. 东京四照花盐胁迫响应下实时荧光定量PCR内参基因的筛选与验证[J]. 农业生物技术学报, 2023, 31(5): 1088 − 1099.

SUN Dawei, YUAN Jiaqiu, CAI Mei, et al. Screening and verification of reference genes for real-time fluorescence quantitative PCR in Cornus hongkongensis subsp. tonkinensis under salt stress [J]. Journal of Agricultural Biotechnology, 2023, 31(5): 1088 − 1099.
[9] INOUE S, ILOGU C, SOBZE J M. Effects of indole-3-butyric acid and age of stem cuttings on root morphology, growth, and survival of Cornus sericea [J]. Journal of Forestry Research, 2023, 34(2): 433 − 440.
[10] 钱家连, 李迎超, 许慧慧, 等. 不同年龄栓皮栎嫩枝扦插生根及解剖学分析和酶活性变化[J]. 浙江农林大学学报, 2023, 40(1): 107 − 114.

QIAN Jialian, LI Yingchao, XU Huihui, et al. Rooting, anatomical analysis and changes of enzyme activity of softwood cuttings of Quercus variabilis at different ages [J]. Journal of Zhejiang A&F University, 2023, 40(1): 107 − 114.
[11] LÜ Gengxin, QING Jun, DU Hongyan, et al. Comparing rooting ability and physiological changes of two Eucommia ulmoides improved varieties[J/OL]. Forests, 2021, 12(9): 1267[2023-09-01]. doi: 10.3390/f12091267.
[12] 朱晓宇, 童婉婉, 赵楚, 等. 冬青‘长叶阿尔塔’扦插生根及解剖学研究[J]. 浙江农林大学学报, 2022, 39(2): 347 − 355.

ZHU Xiaoyu, TONG Wanwan, ZHAO Chu, et al. Root formation and anatomical structure of Ilex × altaclerensis‘Belgica Aurea’stem cuttings [J]. Journal of Zhejiang A&F University, 2022, 39(2): 347 − 355.
[13] NASCIMENTO B, SÁ A C S, MORAES C, et al. Rooting cuttings of Ilex paraguariensis native to southern Brazil according to mother tree genotype, rooting environment and IBA use[J/OL]. Scientia Forestalis, 2020, 48(128): 3087[2023-09-01]. doi: 10.18671/scifor.v48n128.24.
[14] CHEN Wangzun, HE Libing, TIAN Shiyi, et al. Factors involved in the success of Castanea henryi stem cuttings in different cutting mediums and cutting selection periods [J]. Journal of Forestry Research, 2021, 32(4): 1627 − 1639.
[15] 周幼成, 钟秋平, 李清平, 等. 千年桐半木质化春梢扦插繁殖及生根机理研究[J]. 中南林业科技大学学报, 2020, 40(8): 25 − 36.

ZHOU Youcheng, ZHONG Qiuping, LI Qingping, et al. Study on cutting propagation and rooting mechanism of semilignified spring shoots of Vernicia montana [J]. Journal of Central South University of Forestry &Technology, 2020, 40(8): 25 − 36.
[16] MENG Xinya, WANG Zheng, HE Songlin, et al. Endogenous hormone levels and activities of IAA-modifying enzymes during adventitious rooting of tree peony cuttings and grafted scions [J]. Horticulture,Environment,and Biotechnology, 2019, 60(2): 187 − 197.
[17] CHENG Qiangqiang, JI Dejia, GUO Xiaoyan, et al. Endogenous metabolic content of the cutting positions and ndole-3-butyric acid influence rooting of Toona ciliata var. pubescens stem cuttings [J]. Southern Forests:a Journal of Forest Science, 2021, 83(4): 284 − 293.
[18] 高俊凤. 植物生理学实验指导[M]. 北京: 高等教育出版社, 2006: 142 − 219.

GAO Junfeng. Experimental Guidance for Plant Physiology[M]. Beijing: Higher Education Press, 2006: 142 − 219.
[19] 刘昊, 宋晓波, 周乃富, 等. 吲哚丁酸对核桃嫩枝扦插生根及内源激素变化的影响[J]. 浙江农林大学学报, 2017, 34(6): 1038 − 1043.

LIU Hao, SONG Xiaobo, ZHOU Naifu, et al. Adventitious root formation with IBA and endogenous hormones dynamics in walnut soft-cuttings [J]. Journal of Zhejiang A&F University, 2017, 34(6): 1038 − 1043.
[20] 胡涛, 曹钰, 张鸽香. 美国流苏嫩枝扦插及生根内源激素含量的变化[J]. 西北林学院学报, 2019, 34(2): 109 − 115.

HU Tao, CAO Yu, ZHANG Gexiang. Softwood cutting of Chionanthus virginicus and changes of endogenous hormone content during rooting period [J]. Journal of Northwest Forestry University, 2019, 34(2): 109 − 115.
[21] SABATINO L, D’ANNA F, LAPICHINO G. Cutting type and IBA treatment duration affect Teucrium fruticans adventitious root quality [J]. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 2015, 42(2): 478 − 481.
[22] 胡涛, 曹钰, 张鸽香. 基质和植物生长调节剂对美国流苏硬枝扦插生根的影响[J]. 浙江农林大学学报, 2019, 36(3): 622 − 628.

HU Tao, CAO Yu, ZHANG Gexiang. Rooting of Chionanthus virginicus hardwood cuttings with media and plant growth regulator [J]. Journal of Zhejiang A&F University, 2019, 36(3): 622 − 628.
[23] CHEN Wangzun, HE Libing, TIAN Shiyi, et al. Factors involved in the success of Castanea henryi stem cuttings in different cutting mediums and cutting selection periods [J]. Journal of Forestry Research, 2020, 32(4): 1627 − 2639.
[24] 魏黔春, 江泽平, 刘建锋, 等. 侧柏古树扦插试验及插穗营养物质变化[J]. 南京林业大学学报(自然科学版), 2020, 44(1): 63 − 71.

WEI Qianchun, JIANG Zeping, LIU Jianfeng, et al. Effects of several factors on rooting of cutting propagation of ancient Platycladus orientalias and the changes of nutritive material [J]. Journal of Nanjing Forestry University (Natural Sciences Edition), 2020, 44(1): 63 − 71.
[25] KIM E J, JIN S Y, JUNG H S, et al. Comparison of propagation methods and cutting collection time focusing on transplant growth, fruit quality, and yield in strawberry (Fragaria×ananassa Duch. ) [J]. Horticultural Science and Technology, 2023, 41(1): 1 − 10.
[26] 赵爽, 刘志高, 冯彬, 等. 山木通扦插繁殖及生根机制[J]. 浙江农林大学学报, 2017, 34(5): 955 − 962.

ZHAO Shuang, LIU Zhigao, FENG Bin, et al. Cutting propagation technology and rooting of Clematis finetiana [J]. Journal of Zhejiang A&F University, 2017, 34(5): 955 − 962.
[27] 吕庚鑫, 孟益德, 庆军, 等. ‘华仲6号’杜仲嫩枝扦插生根的解剖及生理变化[J]. 林业科学, 2022, 58(2): 113 − 124.

LÜ Gengxin, MENG Yide, QING Jun, et al. Changes of anatomical structure and physiology during softwood cutting rooting of Eucommia ulmoides ‘Huazhong No. 6’ [J]. Scientia Silvae Sinicae, 2022, 58(2): 113 − 124.
[28] 王改萍, 王晓聪, 章雷, 等. 楸树扦插过程中插穗内含物变化分析[J]. 浙江农林大学学报, 2021, 38(2): 296 − 303.

WANG Gaiping, WANG Xiaocong, ZHANG Lei, et al. Cutting test of Catalpa bungei and change analysis of cutting contents [J]. Journal of Zhejiang A&F University, 2021, 38(2): 296 − 303.
[29] QIN Ruofan, ZHAO Qingrong, GU Chenrui, et al. Analysis of oxidase activity and transcriptomic changes related to cutting propagation of hybrid larch[J/OL]. Scientific Reports, 2023, 13(1): 1354[2023-09-01]. doi: 10.1038/s41598-023-27779-x.
[30] YANG Wanxia, ZHUANG Jiaqi, DING Siyu, et al. Study on cutting cultivation technology and rooting mechanism of Cyclocarya paliurus [J]. Ecological Chemistry and Engineering S, 2022, 29(3): 379 − 389.