周涛
周涛,男,作物栽培学与耕作学博士、中药学博士后、副教授、硕士生导师、澳大利亚西澳大学访问学者。致力于环境调控中药品质形成机制解析和栽培中药质量稳定增产,从事光、温、肥介导的药用植物“能量感知-代谢重定向-次生代谢强化”途径的质量形成机制研究,药材绿色优质栽培模式构建与应用研究、阴生植物环境适应性生态机制解析研究等。近年主持国家级项目1项、省级项目1项、校级项目多项、地方产业服务项目多项。相关研究发表文章50余篇、申请专利多项、参编规划教材1部、专著多部。联系邮箱:364462907@qq.com。Google Scholar 主页:https://scholar.google.com/citations?user=jny_eVcAAAAJ&hl=zh-CN
一、代表性成果(可含承担项目、发表论文、论著、获奖等)
(一)承担项目
1. 国家自然科学基金委员会, 青年科学基金项目(C类), 光降低“二段式”栽培番红花生殖生长期球茎物质消耗的生理生化机制, 2022-01-01 至 2024-12-31, 主持。2. 四川省科技厅, 四川省科技教育联合基金面上项目, 2024NSFSC2111, 基于光合-呼吸失衡和物质转运受阻的高温影响黄连品质形成机制研究, 2024-11 至 2026-12, 主持。
3. 立即博备用网址_立即博赌场-游戏平台, “杏林学者”学科人才科研提升计划, QJRC2023016, 高温抑制黄连品质形成的机制研究, 2023-11 至 2026-08, 在研, 主持。
4. 国家自然科学基金委员会, 面上项目, 基于“靶态”表型组与Stacking集成学习解析番红花“叶-种球”表里关系构建种球质量预测模型, 2023-01-01 至 2026-12-31, 在研, 参与。
(二)发表论文
1. Zhou, T.; Chang F.; Li, X.; et al. Role of auxin and gibberellin under low light in enhancing saffron corm starch degradation during sprouting. International journal of Biological Macromolecules, 2024, 279: 135234. (一区TOP)
2. Peng, M.; Liu, Z.; Zhou T#.; et al. LED blue light enhances the accumulation and synthesis of steroidal alkaloids in Fritillaria unibracteata Hsiao et K. C. Hsia in vitro. Industrial Crops and Products, 2024, 216: 118836. (一区TOP)
3. Zhou, T.; Qiu, X.; Zhao, L.; et al. Optimal light intensity and quality increased the saffron daughter corm yield by inhibiting the degradation of reserves in mother corms during the reproductive stage. Industrial Crops and Products, 2022, 176: 114396. (一区TOP)
4. Ke, W.; Li, Y.; Zhou, T#.; et al. Relatively high light inhibits reserves degradation in the Coptis chinensis rhizome during the leaf expansion by changing the source-sink relationship. Frontiers in Plant Science, 2023, 14: 1225895. (二区TOP)
5. Yang, W.; Li, X.; Zhou, T#.; et al. Low light reduces saffron corm yield by inhibiting starch synthesis. Frontiers in Plant Science, 2025, 16, 1544054. (二区TOP)
6. Wen, F.; Chen, S.; Zhou, T#.; et al. The synthesis of Paris saponin VII mainly occurs in leaves and is promoted by light intensity. Frontiers in Plant Science, 2023, 14: 1199215. (二区TOP)
7. Chen, S.; Chang, F.; Zhou, T#; et al. 13C6-Glucose Labeling associated with LC-MS: Identification of plant primary organs in secondary metabolite synthesis. Journal of Visualized Experiments, 2024, (205), e66578.
8. Zhou, T.; Wang, L.; Sun, X.; et al. Improved post-silking light interception increases yield and P-use efficiency of maize in maize/soybean relay strip intercropping. Field Crops Research, 2021, 262: 108054. (一区TOP)
9. Zhou, T.; Wang, L.; Sun, X.; et al. Light intensity influence maize adaptation to low P stress by altering root morphology. Plant and Soil, 2020, 447: 183-197. (一区TOP)
10. Zhou, T.; Wang, L.; Yang, H.; et al. Ameliorated light conditions increase the P uptake capability of soybean in a relay-strip intercropping system by altering root morphology and physiology in the areas with low solar radiation. Science of the Total Environment, 2019, 688: 1069-1080. (一区TOP)
11. Zhou, T.; Li, W.; Du, Y.; et al. Rhizosphere soil bacterial community composition in soybean genotypes and feedback to soil P availability. Journal of Integrative Agriculture, 2019, 18(10): 2230-2241. (一区TOP)
12. Zhou, T.; Li, W.; Liu, W.; et al. Interactions between light intensity and phosphorus nutrition affect the P uptake capacity of maize and soybean seedling in a low light intensity area. Frontiers in plant science, 2019, 10: 395063. (二区TOP)
13. Zhou, T.; Du, Y.; Liu, W.; et al. Genotypic differences in phosphorus efficiency and the performance of physiological characteristics in response to low phosphorus stress of soybean in southwest of China. Frontiers in Plant Science, 2016, 7: 230342. (二区TOP)