姓名:张亚

职称:副教授

电话:0553-3869297

邮箱:zhangya@ahnu.edu.cn

主要学习工作经历

2018年国外获得博士学位

2019年至今在安徽师范大学365体育亚洲登录平台工作

2018年至2019年在国外从事博士后研究工作

主要社会兼职

IAWA中国分会会员,安徽省植物学会会员

主要研究内容

主要从事木本植物木质部超微结构和功能、被子植物木质部抗栓塞的能力与机理研究。从被子植物木质部超微结构出发,阐明被子植物木质部中栓塞的发生与扩散机理,同时将被子植物木质部导管间纹孔膜作为一种多孔介质,研究其三维立体结构参数,揭示不同物种木质部的抗栓塞能力差异,进而为理解生态系统中不同物种的抗旱性差异提供新视角。

主要研究课题

1. 国家自然科学基金青年项目,木质部纹孔膜超微结构变化对阔叶混交林优势种抗栓塞性的影响机制,32001105,2021.01-2023.12,主持。

2. 国家自然科学基金青年项目,地上部分吸水在复苏植物“起死回生”过程中的作用——以锈色蛛毛苣苔为例,313003332014.01-2016.12,参与

3. 中国科学院热带森林生态学重点实验室开放课题项目,复苏植物锈色蛛毛苣苔木质部栓塞化修复机制——以木质部超微结构为视角,20-CAS-TFE-03,2021.01-2022.12,主持。

4. 安徽省人社厅基金,木质部纹孔膜在一种复苏植物干燥和复水中的结构变化,2020LCX0292020.07-2021.12,主持

主要研究成果

一、代表性论文及论著:(#共同第一作者,*通讯作者)

1. Zhang Y*, Pereira L, Kaack L, Liu JB, Jansen S. (2024). Gold perfusion experiments support the multi-layered, mesoporous nature of intervessel pit membranes in angiosperm xylem. New Phytologist. https://doi.org/10.1111/nph.19608

2. Zhu B#, Guo PP#, Wu SS, Yang QJ, He F, Gao X, Zhang Y*, Xiao JX*. (2024). A better fruit quality of grafted blueberry than own-rooted blueberry is linked to its anatomy. Plants-Basel, 13(5), 625. https://doi.org/10.3390/plants13050625

3. 张亚#, 刘家宝#, 王婷, 王宇碟, 张溪溪, 杜冬生*, 朱先灿*. (2023) 不同叶习性树种木质部功能性状相似且与其导管间纹孔结构密切相关.植物生理学报, 59(12):2289-2298. DOI:10.13592/j.cnki.ppj.100785.

4. Liu JB, Wang YD, Wang T, Zhang XX, Du DS, Zhu XC*, Guo W*, Zhang Y*. (2023). The xylem functional traits of eight subtropical tree species is closely related to the intervessel pits ultrastructure. Trees-Structure and Function, 38, 13-26. https://doi.org/10.1007/s00468-023-02459-5

5. Zhang Y, Wang H, Hu MH, Cai R, Miao YQ, Zhu XC*. (2022). Heavy metals potentially drive co-selection of antibiotic resistance genes by shifting soil bacterial communities in paddy soils along middle and lower Yangtze River, Pedosphere, online

6. Fu PL*#, Zhang Y#, Zhang YJ, Finnegan P, Yang SJ, Fan ZX*. (2022). Leaf gas exchange and water relations of the woody desiccation tolerant Paraboea rufescens during dehydration and rehydration, AoB Plants, 14(4), 1-10. https://doi.org/10.1093/aobpla/plac033

7. Zhang Y*#, Liu JB#, Zhang XX. (2022). A more drought resistant stem xylem of southern highbush than rabbiteye blueberry is linked to its anatomy. Agronomy-Basel, 12(5), 1244. https://doi.org/10.3390/agronomy12051244

8. Wu M, Zhang Y*, Oya T, Marcati CR, Pereira L, Jansen S. (2020). Root xylem in three woody angiosperm species is not more vulnerable to embolism resistance than stem xylem. Plant and Soil, 450, 479-495, https://doi.org/10.1007/s11104-020-04525-0

9. Zhang Y*, Carmesin C, Kaack L, Klepsch MM, Kotowska MM, Matei T, Schenk HJ, Weber M, Walther P, Schmidt V, Jansen S. (2020). High porosity with tiny pore constrictions and unbending pathways characterize the 3D structure of intervessel pit membranes in angiosperm xylem. Plant, Cell and Environment, 43(1), 116-130, http://doi.org/10.1111/pce.13654

10. Klepsch M*#, Zhang Y#, Kotowska M, Lamarque LJ, Nolf M, Schuldt B, Torres-Ruiz JM, Qin DW, Choat B, Delzon S, Scoffoni C, Cao KF, Jansen S. (2018). Is xylem of angiosperm leaves less resistant to embolism than branches? Insights from microCT, hydraulics, and anatomy. Journal of Experimental Botany, 69(22), 5611-5623.

11. Zhang Y*, Lamarque LJ, Torres-Ruiz JM, Schuldt B, Karimi Z, Li S, Qin D, Bittencourt P, Burlett R, Cao K, Delzon S, Oliveira R, Pereira L, Jansen S. (2018). Testing the plant pneumatic method to estimate xylem embolism resistance in stems of temperate trees. Tree Physiology, 38(7), 1016-1025.

12. Zhang Y*, Klepsch M, Jansen S. (2017). Bordered pits in xylem of vesselless angiosperms and their possible misinterpretation as perforation plates. Plant, Cell and Environment, 40(10), 2133-2146.

13. 张亚, 杨石建, 孙梅, 曹坤芳*. (2014). 基部被子植物气孔性状与叶脉密度的关联进化. 植物科学学报, 32(4), 320-328. (封面文章)

二、专利:

暂无

三、主要获奖情况:

暂无