杨伟宗，工学博士，硕士生导师。以牡丹等园林植物为研究对象，着重研究其重要性状形成的分子机理，相关研究成果以第一作者在Plant Physiology、The Plant Journal和Horticulture Research等国际期刊上发表。目前在研国家自然科学基金青年科学基金项目（C类）一项。任Industrial Crops & Products、International Journal of Biological Macromolecules等SCI期刊审稿人。

工作经历

 2024.07-至今  南京林业大学，风景园林学院，园林植物系，讲师

教育背景

 2020.09-2024.06  西北农林科技大学，风景园林学，博士

 2017.09-2020.06  西北农林科技大学，风景园林学，硕士

 2013.09-2017.06  河北农业大学，园林，学士

 国家自然科学基金青年科学基金项目（C类），2026.01-2028.12，主持

发表论文

1. Yang, WZ., Niu, LX., Xin, ZW., Zhang, YL. (2025) The trihelix transcription factor PrASR3 regulates α-linolenic acid accumulation in tree peony seeds. The Plant Journal, 124(2), e70546.

2. Yang, WZ., Xin, ZW., Zhang, QY., Zhang, YL., Niu, LX. (2024) The tree peony DREB transcription factor PrDREB2D regulates seed α-linolenic acid accumulation. Plant Physiology, 195(1):745-761.

3. Yang, WZ., Xin, ZW., Hu JY., Zhang, YL., Zhang, QY., Niu, LX. (2023) The tree peony nuclear factor Y transcription factor PrNF-YC2 promotes seed oil accumulation. The Plant Journal, 115, 546–562.

4. Yang, WZ., Xin, ZW., Xie, LH., Zhai, YH., Zhang, YL., Niu, LX., Zhang, QY. (2023) Integrative lipidomics profile uncovers the mechanisms underlying high-level α-linolenic acid accumulation in Paeonia rockii seeds. Horticulture Research, 10, uhad106.

5. Yang WZ^#., Hu JY^#., Behera JR., Kilaru A., Yuan YP., Zhai YH., Xu YF., Xie LH., Zhang YL., Zhang QY., Niu LX (2021) A Tree Peony Trihelix Transcription Factor PrASIL1 Represses Seed Oil Accumulation. Frontiers in Plant Science 12:796181.

6. Xin, ZW., Niu, LX., Yang, WZ., Zhang, YL. (2026) Regulatory mechanism of tree peony transcription factor PoPIF8 involved in luteoloside synthesis. Industrial Crops & Products, 239, 122425.

7. Xin, ZW., Yang, WZ., Duan, YH., Wang, WJ., Niu, LX., Sun, DY., Zhang, YL. (2022) Bioactive components and antibacterial activities of hydrolate extracts by optimization conditions from Paeonia ostii T. Hong ＆ J. X. Zhang. Industrial Crops & Products, 188, 115737.

8. Xin, ZW., Yang, WZ., Niu, LX., Zhang, YL. (2023) Comprehensive metabolite profile uncovers the bioactive components, antioxidant and antibacterial activities in wild tree peony leaves. International Journal of Molecular Sciences, 24, 10609.

9. Xin, ZW., Wang, WJ., Yang, WZ., Li, YJ., Niu, LX., Zhang, YL. (2024) Investigation of volatile components and assessment of antioxidant potential in seven Lamiaceae plant hydrosols. Molecules, 29, 145.

10. Xie, LH., Hu, JY., Yan, ZG., Li, XY., Wei, SL., Xu, RL., Yang, WZ., Gu, HH, Zhang, QY. (2023) Tree peony transcription factor PrWRI1 enhances seed oil accumulation. BMC Plant Biology 23 (1).

11. Yan, ZG., Li, MC., Xie, LH., Luo, XN., Yang, WZ., Yuan, YP., Niu, LX. (2020) A systematic comparison of 17 cultivated herbaceous peony seed based on phytochemicals and antioxidant activity. European Food Research and Technology, 246, 1919–1932.

12. Xie, LH., Zhang, QY., Sun, DY., Yang, WZ., Hu, JY., Niu, LX., Zhang, YL. (2019) Virus-induced gene silencing in the perennial woody Paeonia ostii. PeerJ 7:e7001.

学术获奖

  2023年中国观赏园艺学术研讨会优秀口头报告奖

  任Industrial Crops & Products、International Journal of Biological Macromolecules等SCI期刊审稿人。