Volume 7, Issue 6, December 2019, Page: 151-157
Collection and Utilization of Germplasm Resources of Myrtaceae Wild Plants in China
Xiong Binghong, South China Botanical Garden, Chinese Academy of Sciences, Guangzhou, China; Guangdong Provincal Key Laboratory of Applied Botany, Guangzhou, China
Liu Chunyan, Shunde Economic Plant Breeding Center of South China Botanical Garden, Chinese Academy of Sciences, Foshan, China
Xiong Xinlan, Shunde Economic Plant Breeding Center of South China Botanical Garden, Chinese Academy of Sciences, Foshan, China
Xu Zhifang, South China Botanical Garden, Chinese Academy of Sciences, Guangzhou, China
Zhao Liyun, South China Botanical Garden, Chinese Academy of Sciences, Guangzhou, China
Tan Haibo, South China Botanical Garden, Chinese Academy of Sciences, Guangzhou, China
Qiu Shengxiang, South China Botanical Garden, Chinese Academy of Sciences, Guangzhou, China
Ai Caixia, Guangdong Sen Lin Creates Green Limited Company, Guangzhou, China
Lin Shiquan, Guangdong Sen Lin Creates Green Limited Company, Guangzhou, China
Huang Xiongyao, Dianbai Forestry Science Research Institute, Maoming, China
Chen Jian, Dianbai Forestry Science Research Institute, Maoming, China
Luo Lian, Department of Ecology and Environment, Guangdong Environmental Protection Engineering Vocational College, Foshan, China
Tang Li, Department of Ecology and Environment, Guangdong Environmental Protection Engineering Vocational College, Foshan, China
Yu Shujun, College of Forestry and Landscape Architecture, South China Agricultural University, Guangzhou, China
Received: Oct. 6, 2019;       Accepted: Nov. 11, 2019;       Published: Nov. 18, 2019
DOI: 10.11648/j.jps.20190706.14      View  300      Downloads  91
Abstract
Myrtaceae is an important group of higher plants, the eighth family of angiosperms, with 134 genera, 5500-5900 species, mainly distributed in tropical America, Oceania and Asia. There are 9 genera, 126 species and 8 varieties of wild myrtle in China. South China Botanical Garden of Chinese Academy of Sciences introduced and related studies on the Myrtaceae wild plant germplasm resources since the 1930s. There are 58 species of 9 genera of Myrtaceae wild plants in China, of which there are 1 species of the genus Acmena, 1 species of the genus Baeckea, 2 species of the genus Cleistocalyx, 3 Species of the genus Decaspermum, 2 species of the genus Psidium, 2 species of the genus Pyrenocarp, 1 species of the genus Rhodamnia, 1 species of the genus Rhodomyrtus, and 45 Species of the genus Syzygium were collected. Myrtle plants have an important and far-reaching impact on the world economy in wood resources, volatile aromatic oils, industrial and pharmaceutical materials, edible spices, tropical fruits, and ecological and environmental protection. This paper studies the collection and application of wild plant germplasm resources of myrtle in China, in order to provide strategic support for China's economic development, sustainable utilization of resources and ecological environment protection.
Keywords
Myrtaceae, Wild Plants, Germplasm Resources, Collection and Utilization, China
To cite this article
Xiong Binghong, Liu Chunyan, Xiong Xinlan, Xu Zhifang, Zhao Liyun, Tan Haibo, Qiu Shengxiang, Ai Caixia, Lin Shiquan, Huang Xiongyao, Chen Jian, Luo Lian, Tang Li, Yu Shujun, Collection and Utilization of Germplasm Resources of Myrtaceae Wild Plants in China, Journal of Plant Sciences. Vol. 7, No. 6, 2019, pp. 151-157. doi: 10.11648/j.jps.20190706.14
Copyright
Copyright © 2019 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Reference
[1]
Angiosperm Phylogeny Group (2016), An Update of the Angiosperm Phylogeny Group Classification for the Orders and Families of Flowering Plants: APG IV. Botanical Journal of the Linnean Society, 181 (1), 1–20.
[2]
Editorial Committee of Chinese Flora (1984). Chinese Flora. Beijing: Science Press, 53 (1), 1-28.
[3]
Liu Xiaoping, Zhou Yonghui, Luo Sumei, Guo Chengyun, and Chen Bilu (2019). Development and Application Prospect of Permplasm Resources of Local Flower Myrtle. Modern Horticulture, 373 (1), 61-62.
[4]
Han Fei, and Huang Xiaochun (2017). Garden Rookie Myrtle. Modern Horticulture, 19 (10), 53-54.
[5]
Liu Zexin, Wu Yuehong, and Xioa Zexin (2018). Investigation and Research on Forest Germplasm Resources in Chaoshan Area. Forestry and Environmental Science, 34 (2), 101-106.
[6]
Si Shubin, Cao Fuxiang, Peng Jiqing, and Xu Ruoxian (2012). Delineation of the North Line of Myrtle Community Distribution in China and Its Relationship with Climate Factors. Journal of Central South University of Forestry and Technology, 32 (3), 162-165.
[7]
Zheng Shufang, Zhao Daxuan, and Qiu Wenwu (2013). Exploitation and Utilization of Wild Plant Myrtle. Tropical Agriculture in Guangxi, 131, 53-54.
[8]
Ye Caihua, Yan Xiaoxia, and Wang Zhunian (2015). Development and Utilization of Rhodomyrtus tomentosa and Its Cultivation Management Techniques. Chinese Journal of Tropical Agriculture, 35 (1), 22-25.
[9]
Liu Wei, Xie Bin, and Deng Guanghua (2009). Research Progress of Syzygium buxifolium-a Typical Plant for Potted Landscape. Journal of Anhui Agriculture Science, 37 (30), 14678-14681.
[10]
Tan Fengjie (2011). Research Status and Development Prospect of Rhodomyrtus tomentosa. China Tropical Agriculture, 39, 63-64.
[11]
M J. Wingfield, E. G. Brockerhoff, B. D. Wingfield and B. Slippers (2015). Planted Forest Health: The Need for a Global Strategy. Science, 349 (6250), 832-836.
[12]
Li Wu-guo, Su Qiao, Wei Jieshu, Liao Qiwen, Liu Cuiting, Zhu Yeyan, Zhao Guangyin, Li Wenwen, Huang Haoji, Li Wenying, Cao Weiji, and Zhan Ruoting (2018). GC-MS Analysis of Volatile Oils from Leaves of Two Myrtaceae Species and Their Anti-proliferation Activity Against Lung Cancer A549 and H460 Cells. Science and Technology of Food Industry, 39 (15), 260-265.
[13]
Qiu Wenwu (2011). Analysis and Evaluation of Nutritional Components of Wild Myrtle Fruits. Fruit Trees in South China, 2, 15-16.
[14]
Liu Chun, Mei Le, and Li Xin (2013). Overview of Pharmaceutical Research on Guava Fruit. Anhui Agricultural Science, 41, 7460-7462.
[15]
Mahboubi, M (2016). Myrtus communis L. And Its Application in Treatment of Recurrent Aphthous Stomatitis. Journal Ethnopharmacology, 193, 481–489.
[16]
Mandegary, A., Soodi, M., Sharififar, and F., Ahmadi, S (2014). Anticholinesterase, Antioxidant, and Neuroprotective Effects of Tripleurospermum Disciforme and Dracocephalum Multicaule. Journal of Ayurveda and Integrative Medicine, 5, 162.
[17]
Raeiszadeh, M., Esmaeili-Tarzi, M., Bahrampour-Juybari, K., Nematollahi-mahani, S., Pardakhty, A., Nematollahi, M., and Mehrabani, M (2018). Evaluation the Effect of Myrtus communis L. Extract on Several Underlying Mechanisms Involved in Wound healing: an in-vitro Study. South African Jouenal of Botany. 118, 144–150.
[18]
Samareh Fekri, M., Mandegary, A., Sharififar, F., Poursalehi, H. R., Nematollahi, M. H., Izadi, A., Mehdipour, M., Asadi, A., and Samareh Fekri, M (2018). Protective Effect of Standardized Extract of Myrtus communis L. (myrtle) on Experimentally Bleomycininduced Pulmonary Fibrosis: Biochemical and Histopathological Study. Drug Chemical Toxicology, 41, 1–7.
[19]
Ibukun M. Famuyide, Abimbola O. Aro, Folorunso O. Fasina, Jacobus N. Eloff, and Lyndy J. McGaw (2019). Antibacterial and Antibiofilm Activity of Acetone Leaf Extracts of Nine Under Investigated South African Eugenia and Syzygium (Myrtaceae) Species and Their Selectivity Indices. Complementary and Alternative Medicine, 19, 141.
[20]
Sabira Begum, Syed Ali, Saima Tauseef, and Syed Tahir Ali (2014). Chemical Constituents and Antioxidant Activity of Fresh Leaves of Psidium guajava Cultivated in Pakistan. Journal Chemical Society of Pakistan, 36 (1): 119-122.
[21]
Fu Chunli, Peng Yan, Chen Ziyun, Xiao Shenghong, and Chen Huaxu (2016). Chemical Constituents from Psidium guajava Leaves. Journal of Chinese Medicinal Materials, 39 (12), 2781-2784.
[22]
Chen Jialing, Guo Wei, Peng Wei, and Su Weiwei (2013). Volatole Components in Leaves of Myrtaceous Plants by SPME-GC-MS. Journal of Tropical and Subtropical Botany, 21 (2), 189-192.
[23]
Liu Hongxin, Chen Kai, Yuan Yao, Xu Zhifang, Tan Haibo, and Qiu Shengxiang (2016). Rhodomentones A and B, Novel Meroterpenoids with an Unique NMR Characteristics from Rhodomyrtus tomentosa. Organic & Biomolecular Chemistry, 14, 7354-7360.
[24]
Liu Hongxin, Zhang Weimin, Xu Zhifang, Tan Haibo, and Qiu Shengxiang (2016). Isolation, Synthesis, and Biological Activity of Tementosenol A from the Leaves of Rhodomyrtus tomentosa. RSC Advances, 6, 25882-25886.
[25]
Xiang Yuqing, Liu Hongxin, Zhao Liyun, Xu Zhifang, Tan Haibo, and Qiu Shengxiang (2017). Viminone A, A Novel Dearomatic Dibenzofuran-type Acylphloroglucinol with Antimicrobial Activity from Callistemon viminalis. Scientific Reports, 7, 2363-2368.
[26]
Zhao Liyun, Liu Hongxin, Huo Luqiong, Wang Miaomiao, Yang Bao, Zhang Weimin, Xu Zhifan, Tan Haibo, and Qiu Shengxiang (2018). Structural Optimization and Antibacterial Evaluation of Rhodomyrtosone B analogues Against MRSA Strains. Medicinal Chemistry Communication, 9, 1698-1707.
[27]
Liu Hongxin, Tan Haibo, Li Saini, Chen Yuan, Li Haohua, Qiu Shengxiang, and Zhang Weimin (2019). Two New 12-membered Macrolides from the Endophytic Fungal Strain Cladosprium colocasiae A801 of Callistemon viminalis. Journal of Asian Natural Products Research, 21 (7), 696-701.
[28]
Zhao Liyun, Liu Hongxin, Wang lei, Xu Zhifang, Tan Haibo, and Qiu Shengxiang (2019). Rhodomyrtosone B, A Membrane-targeting Anti-MRSA Natural Acylgphloroglucinol from Rhodomyrtus tomentosa. Journal of Ethnopharmacology, 228, 50-57.
[29]
J. A. Prosser, R. R. Woods, J. Horswella, and B. H. Robinson (2016). The Potential in-situ Antimicrobial Ability of Myrtaceae Plant Species on Pathogens in Soil. Soil Biology & Biochemistry, 96, 1-3.
[30]
Wang Jing, Liu Xianwu, Li runtang, Xie Qiulan, and Zhang Yu (2018). Preliminary Study on the Effect of Several Plant Extracts of Myrtle Family on the Avoidance of Yellow Kojima. South China Agriculture, 12 (30), 37-38.
Browse journals by subject