Genomics and Germplasm Innovation of Tree Peony Group

Research Areas

Mainly on germplasm innovation and effective utilization of tree peony, especially
1. Selection of oil tree peony germplasm resources and the molecular mechanisms of fatty acid biosynthesis;
2. The whole-genome sequencing of tree peony;
3. Evolutionary mechanism of big genome and large chromosome, and chromosome size of tree peony;
4. Germplasm enhancement of Jiangnan tree peony;
5. Molecular mechanisms of Jiangnan tree peony color pattern development.

Principal Investigator (PI)
Yonghong Hu, Ph.D, Professor
Tel: 86-21-67657802 Fax: 86-21-67657811
Address: Shanghai Chenshan Plant Science Research Center, Chinese Academy of Sciences / Chenshan Botanical Garden, 3888 Chenhua Road, Songjiang Shanghai 201602 China

Yonghong Hu,
 Ph.D. Professor, Executive Director of Shanghai Chenshan Botanical Garden, Vice Director of Shanghai Chenshan Plant Research Center of Chinese Academy of Sciences (SCPRC, CAS), leader of the Tree Peony Group in SCPRC. Dr. Hu was born in October 1968, in Yanshi, Henan. He earned his Ph.D. in Landscape Gardening from Beijing Forestry University in 1997. In 2004-2005, he was trained at Kew Gardens in Botanical Garden Management. Dr. Hu has made tremendous contribution to the long-term conservation of flora in East China, the development of botanical gardens in Shanghai, and biological research of tree peony in East China. He has been awarded the leading talent in Shanghai, the National May 1 Labor Medal and the special allowances from the State Council among many others from 2004 to 2015. He has undertaken over 50 projects funded by Shanghai and national scientific departments, published more than 140 research papers, 7 monographs, 8 patents, and registered 15 new varieties.

Jian Li
M.S., Engineer
Tel: 021-37792288-922
Junhui Yuan
Tel: 021-37792288-926
Lexuan Gao
Ph.D, Senior engineer
Tel: 021-37792288-917
Shuiyan Yu
Tel: 021-37792288-922


Recent Publications

  1. Chengzhong Wang, Hanze Ma, Zhiping Song, Ji Yang, Jigang Han, Yonghong Hu, Zhaoyu Li. Seasonal dynamics of biomass allocation of Peaonia ostii 'Fengdan' and the effects of tree age and shading.Plant Science Journal. 2017. 35(6):892-901. (in Chinese)

  2.  Jian Li. Selection and Validation of Reference Genes for Quantitative Real-Time PCR in Herbaceous Peony. Fenzi Zhiwu Yuzhong. 2017. (07): 2544-2549.

  3. Jian LiYonghong Hu. Establishment and Optimization of ISSR-PCR Reaction System of Oil Tree Peony. Fenzi Zhiwu Yuzhong. 2017. (08): 3129-3135. (in Chinese)

  4. Jie Qi, Xinying He, Yanan Xuan, Qinghua Liu,Yonghong Hu. Preliminary investigation on cross breeding of a new oil and ornamental tree peony ofPaeonia ostii Fengdan. Guangdong Agricultural Sciences. 2017. 44(03): 67-74. (in Chinese)

  5. Gengyun Li, Ying Deng, Yupeng Geng, Chengchuan Zhou, Yuguo Wang, Wenju Zhang, Zhiping Song,Lexuan Gao, Ji Yang. Differentially expressed microRNAs and target genes associated with plastic internode elongation in Alternanthera philoxeroide in contrasting hydrological habitats. Frontiers in Plant Science. 2017. 82078.

  6. Xinying He, Jie Qi, Yonghong Hu. Revealing mechanism of preliminary coloring in Paeonia suffruticosa 'Wulong Pengsheng' petals based on transcriptome comparison. Adavances in Ornamental Horticulture of China, 2017.724-732. (in Chinese)

  7. Yanli Hu, Junhui Yuan, Yonghong Hu. Effects of waterlogging and recovery on the photosynthetic characteristics and root activity of Paeonia ostiiActa Bot. Boreal. -Occident. Sin. 2017. 37(8):1586-1594. (in Chinese)

  8. Yingyi Mao, Jigang Han, Fang Tian, Xue Tang, Yonghong Hu, Yan Guan. Chemical Composition Analysis, Sensory, and Feasibility Study of Tree Peony Seed. Journal of Food Science. 2017. 82(2): 553-561.

  9. Yonghong Hu, Gilles Vincent, Xiaoya Chen. How Can Botanical Gardens Support Sustainable Urban Development? A Case Study of Shanghai Chenshan Botanical Garden. Annals of the Missouri Botanical Garden. 2017. 102(2): 303-308.

  10. Yonghong Hu, Shuting Yang, Jun Yang, Gilles Vincent, Xiaoya Chen. Botanical gardens support urban sustainable development: a case study from the Shanghai Chenshan Botanical Garden. Biodiversity Science. 2017. (09): 951-958. (in Chinese)

  11. Zhiqiang Zheng, Jigang Han, Yingyi Mao, Xue Tang, Yan Guan, Yonghong Hu. Health Benefits of Dietary Tree Peony Seed Oil in a High Fat Diet Hamster Model. Functional Foods in Health and Disease. 2017. 7(2): 135-148.

  12. Jian Li, Jigang Han, Yonghong Hu, Ji Yang. Selection of Reference Genes for Quantitative Real-Time PCR during Flower Development in Tree Peony (Paeonia suffruticosa Andr.). Frontiers in Plant Science. 2016. 7: 516.

  13. Jigang Han, Zhao Liu, Xiaoqing Li, Jian Li, Yonghong Hu. Diversity in seed oil content and fatty acid composition in three tree peony species with potential as sources of omega-3 fatty acids. The Journal of Horticultural Science and Biotechnology. 2016. 9: 175-179.

  14. Lexuan Gao, Hongxing Yang, Hongfeng Liu, Ji Yang, Yonghong Hu. Extensive Transcriptome Changes Underlying the Flower Color Intensity Variation in Paeonia ostiiFrontiers in Plant Science. 2016. 6: 1205.

  15. Linjuan Zhang, Junhui Yuan, Shuiyan Yu, Yonghong Hu. The Initial Research on Approach of Quickly Capture Meiosis Period and Observation of Meiosis Process of Pollen Mother Cell in Paeonia ostii . Northern Horticulture. 2016. (11): 100-105. (in Chinese)

  16. Shuiyan Yu, Shaobo Du, Junhui Yuan, Yonghong Hu. Fatty acid profile in the seeds and seed tissues ofPaeonia L. species as new oil plant resources.Scientific Reports. 2016. 6: 26944.

  17. Zhu Zhu, Luoyan Zhang, Lexuan Gao, Shaoqing Tang, Yao Zhao, Ji Yang. Local habitat condition rather than geographic distance determines the genetic structure of Tamarix chinensis populations in Yellow River Delta, China. Tree Genetics & Genomes. 2016. 12(1):14.

  18. Honhfeng LiuLexuan GaoYonghong Hu. Reference Genes Discovery and Selection for Quantitative Real- time PCR in Tree Peony Seed and Petal Tissue of Different Development Stages.Journal of Agricultural Biotechnology. 2015. (12): 1639-1648. (in Chinese)

  19. Lanpeng Ma, Junhui Yuan, Songlin He, Yonghong Hu. Characterizations of Three Endogenous Hormones During Seed Germination in Paeonia ostii.Henan Science. 2015. (03): 374-379. (in Chinese)

  20. Lexuan Gao. Comparisons of morphological variation and cellular osmotic potential adjustment between invasive species Alternanthera philoxeroides and its native congerner A. sessilisunder different water treatments. Plant Science Journal. 2015. (02): 195-202 (in Chinese)

  21. Lexuan Gao, Yupeng Geng, Hongxing Yang, Yonghong Hu, Ji Yang. Gene Expression Reaction Norms Unravel the Molecular and Cellular Processes Underpinning the Plastic Phenotypes of Alternanthera Philoxeroides in Contrasting Hydrological Conditions.Frontiers in Plant Science. 2015. 6: 991.

  22. Jigang Han, Xiaoqing Li, Zhao Liu, Yonghong Hu. Potential applications of tree peony as an oil plant.Cereals & Oil. 2014. (05): 21-25. (in Chinese)

  23. Yanan Xuan, Yonghong Hu, Xin Li, Yulin Du, Yongqing Yan. Comparative Study on Different Provenance oil Use and Ornamental Tree Peony Pollen Ultrastructure. Northern Horticulture. 2015. (15): 99-103. (in Chinese)

  24. Yonghong Hu. Core Issues Concerning the Construction of Botanical Gardens. Chinese Landscape Architecture. 2014. (11): 88-91. (in Chinese)

  25. Zhao Liu, JiGang Han, Xiaoqing Li, Jian Li, Xue Tang, Lexuan Gao, Junhui Yuan, Ying Zhang, Yonghong Hu. Accumulation rules of fatty acids in Paeonia ostii seed during development. Nonwood Forest Research. 2015. (04): 75-80. (in Chinese)

  26. Jian LiYonghong HuJun QinJigang HanZhao Liu, lidong Pu, Shucheng Feng. Optimization of SRAP-PCR Reaction System of Paeonia ostiiFenzi Zhiwu Yuzhong. 2014. (12): 1001-1007. (in Chinese)

  27. Junhui Yuan. Genetic structure of wild Paeonia rockii impacted by environmental and ecological factors. Guangdong Agricultural Sciences. 2014. (07): 48-52. (in Chinese)

  28. Jun-Hui Yuan, Amandine Cornille, Tatiana Giraud, Fang-Yun Cheng, Yong-Hong Hu. Independent domestications of cultivated tree peonies from different wild peony species. Molecular Ecology. 2014. 23(1): 82-95.

  29. Xiaoqing LiJigang HanZhao Liu, Qinghua Liu,Yonghong Hu. Economic characteristics investigation and seed oil fatty acid composition analysis of paeonia ostii plants in different areas.Cereals & Oil. 2014. (04): 43-46. (in Chinese)


  1. Han Jigang, Wang Yunshan, Hu Yonghong. ”A technology for promoting germination of peony seeds and growth of peony seedlings using the bacteria promoting growth of peony and antagonistic to pathogens “, Application Number: 201610308942.5

  2. Hu Yonghong, Li Jian, Han Jigang. “Development method of EST-SSR primers for tree peony based on transcriptome sequencing”, Application Number: 201610854186.6

  3. Hu Yonghong, Yuan Junhui, Yu Shuiyan, Han Jigang. “A method to quickly extract and separate lipid from peony seeds”. Application Number: 201510650997X.

  4. Han Jigang, Wang Yunshan, Hu Yonghong. “A method using bacteria that can improve peony growth and against pathogenic bacteria to improve peony seed germination and seedling growth”. Patent Number:201410116389.6..

  5. Han Jigang, Wang Yunshan, Hu Yonghong.“A strain of Paenibacillus polymyxa against Peony pathogen and its application”, Patent Number:ZL 201410117673.5.

  6. Yuan Junhui, Hu Yonghong, Zhang Linjuan. “A method to acquire the sigle peony chromosome. Application Number: 2014106483975.

  7. Yuan Junhui, Hu Yonghong, Zhang Linjuan, Liu Hongfeng, Du Shaobo, Xuan Yanan, Wang Yunpeng, Ma Lanpeng, Du Yuling. “A method to quickly determine Pollen mother cells (PMC) meiosis period in peony ”. Application Number:2014106491793.