Volume 6, Issue 5, October 2018, Page: 179-184
Studies on Collection Breeding and Application of Zingiberaceae Plants Wild Resources 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, Foshan, China
Xiong Xinlan, Shunde Economic Plant Breeding Center of South China Botanical Garden, Foshan, China
Cui Bo, 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
Liu 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
Received: Aug. 15, 2018;       Accepted: Sep. 18, 2018;       Published: Dec. 14, 2018
DOI: 10.11648/j.jps.20180605.14      View  267      Downloads  54
Abstract
Zingiberaceae wild plants are abundant, diverse in form and color, and are important resources for the development of new varieties of cultivation. There are about 1300 species of 52 genera in the world, which are widely distributed in tropical and subtropical regions. The application value of Zingiberaceae wild plant resources has long attracted the attention of domestic experts and scholars. However, so far, introduction, breeding and application of Zingiberaceae wild plant resources have not been systematically introduced and studied. In this paper, based on the analysis of Zingiberaceae wild plants germplasm resources distribution, the result was reported that South China Botanical Garden of Chinese Academy of Sciences introduced and related studies on the Zingiberaceae wild plant germplasm resources and has collected Zingiberaceae wild plants 18 genera and 116 species in China since the 1970s. Now, all the Zingiberaceae wild plants have planted in the endangered base and the greenhouse in South China Botanical Garden of China Academy of Sciences. At the same time, through the collection of wild resources of Zingiberaceae plants in China, systematic research on sexual, asexual and tissue culture and breeding technology of Zingiberaceae wild plants was carried out to explore the application of wild resources of Zingiberaceae plants in underforest economy, ethnic medicine and garden landscape, in order to provide references for further development and utilization of zingiberaceae wild plant resources.
Keywords
Zingiberaceae Plants, Wild Resources, Collection, Breeding, Application, China
To cite this article
Xiong Binghong, Liu Chunyan, Xiong Xinlan, Cui Bo, Ai Caixia, Lin Shiquan, Huang Xiongyao, Chen Jian, Liu Lian, Tang Li, Studies on Collection Breeding and Application of Zingiberaceae Plants Wild Resources in China, Journal of Plant Sciences. Vol. 6, No. 5, 2018, pp. 179-184. doi: 10.11648/j.jps.20180605.14
Copyright
Copyright © 2018 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]
Wu Delin and Chen zhongyi (1988). Promising Wild Zingiberaceae Flower Resources. Journal of Plants Sinica, vol. 2, 24-25.
[2]
Zeng Songjun, Duan Jun,and Liu Nian (2003). Zingiberales Flowers. Beijing: China Forestry Publishing House,pp, 84-103.
[3]
Liu Nian (2003). Diversity and Conservation of Zingiberaceae Plants in China. Journal of Zhong Kai Institute of Agricultural Technology, vol. 16, 7-11.
[4]
Lin Mingfeng, Ye Luying, and Xue Qiuhua (2016). Application Status and Development Prospect of Zingiberaceae Plants in Fuzhou. Journal of Chongqing Technology and Business university, vol. 32, 91-96.
[5]
Lu Guohui, and Wang Yingqiang (2011). Application Status and Development Prospect of Zingiberaceae Plants and Flowers. Northern Horticulture Sinica , vol. 10, 82-86.
[6]
Wu Delin (1981). Flora of China. Beijing: Science Press, pp, 1-169.
[7]
Wu Delin, and Larsen K. (2010), Zingiberaceae in Flora of China. Beijing: Science Press, pp, 1-322.
[8]
Xie Jianguang, Fang Jianping, Liu Nian (2000). Introduction of Zingiberaceae Plants. Journal of Tropical and Subtropical Plants Sinica, vol. 8, 252-290.
[9]
Wu Delin (2016). Plant Resources of Zingiberaceae in China. Wuhan: Huazhong University of Science and Technology Press, pp, 1-195.
[10]
Mei Beijian, and Ai Hua (1990). Tissue Culture of Alpinia officinarum. Plant Physiology Communications Sinica, vol. 2, 44-45.
[11]
Xiong Youhua, Ma Guohua, and Liu nian (2005). Tissue Culture and Plant Regeneration of White Ginger Flower. Plant Physiology Communications Sinica, vol. 41, 66.
[12]
Zhao Yanjie (2005). Research on Tissue Culture and Rapid Propagation Technology of Ginger lotus. Anhui Agricultural Science, vol. 33, 255-364.
[13]
Hu Jianzhu (2011). Study on Ex-situ Conservation and Application Evaluation of Zingiberaceae. Beijing: graduate school of Chinese academy of sciences, pp, 1-126.
[14]
Huang Jiayuan (2005).Utilization Status and Development Prospect of Zingiberaceae Plant Resources in Xishuangbanna. China's wild plant resources, vol. 24, 26-30.
[15]
Gao Jiangyun, Chen Jin, and Xia Jongmei (2002). Evaluation of Ornamental Characteristics and Selection of Fine Species of Zingiberaceae Plants in China. Journal of Horticulture, vol. 29, 158-162.
[16]
Hu Xiu,and Liu Nian (2009). Characteristics of Hedychium Wild flower Resources in China. Landscape Science and Technology, vol. 31, 7-11.
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