一、基本信息
张莹婷,女,1993年3月生,江苏常州人,副教授,农学博士,中国党员, 电子邮箱:ytzhang@163.com。湖北科技威廉希尔官方网站威廉希尔官方网站园林专业专职教师。入选 2025 年湖北省青年科技人才、2025 年湖北省创新人才计划。主要研究方向植物遗传育种与分子生物学,发表论文 30 余篇,其中以第一作者或通讯发表中科院一二区 SCI 论文 20 篇,累计 IF > 100;主持国家级及省级及以上项目 5 项;以第一发明人获国家授权专利 10 余项;Forests 专刊客座编辑;Genome Biology、BMC Genomic、Frontiers in Plant Science、Plos One等 10 余个 SCI 杂志特邀审稿人;多次参加国内外学术会议。
二、学习及工作经历
1.教育经历:
2022.9~2023.9 日本森林综合研究所(国家公派留学) 植物生理生态学
2019.9~2023.12 南京林业大学(博士) 林木遗传育种
2015.9~2018.6 南京林业大学(硕士) 园林植物与观赏园艺
2011.9~2015.6 江苏师范大学(本科) 园林
2.工作经历:
2025.11~至今 湖北科技威廉希尔官方网站威廉希尔官方网站 副教授(破格)
2024.3~2025.11 湖北科技威廉希尔官方网站威廉希尔官方网站 讲师
2025.5~至今 南京林业大学、金埔园林 博后
三、研究方向
桂花药用成分代谢调控;桂花衰老及抗逆性调控;植物高效栽培;基因功能验证
四、教学课程
树木学、测树学等课程
五、主要社会荣誉
入选2025 年湖北省青年科技人才,晨光托举工程(A 类);
入选 2025 年湖北省创新人才计划,青年科技人才培育专项;
2022 年校长奖学金
2022 年、2021 年博士国奖奖学金
2020 年、2021 年、2022 年叶培忠林木遗传育种奖学金
六、指导学生课题及获奖
2025年湖北省大学生创新训练计划省级一般项目(S202510927014),0.5万元,指导
七、论文及专利(*通讯作者)
近 5 年,以一作和通讯发表 SCI 20 余篇(其中中科院一区 5 篇,中科院二区 14 篇);授权专利 20 余项,其中以第一发明人授权发明专利 11 项。部分成果如下:
[1] Xia H, Zhang T, Wu Y, Zou J, Chen H, Zhang Y*. Integrated phenotypic, physiological, transcriptomic and metabolomic analyses uncover the mechanisms underlying root and leaf responses of Osmanthus fragrans to Pb toxicity. Journal of Hazardous Materials, 2026. (SCI 通讯, IF =11.3, 中科院一区 Top)
[2] Yan, Q.+, Xia, H.+, Huang, W., Li, Z., Zhang, T., Wu, Y., Chen, H., Zhang, Y.*, Zou, J.*. The OfJAZ gene family in Osmanthus fragrans: IV-OfJAZs regulate petal senescence via hormonal crosstalk. Industrial Crops & Products, 2026, 242: 122966. (SCI一通, IF =6.2, 中科院一区top)
[3] Zeng, X., Ma, W., Li, C., Li, Z., Wu, Y., Yang, J., Zou, J., Cai, X., Chen, H., Zhang, Q., Zhang, Y.*, Xia, H.*. Integrated transcriptomic, untargeted metabolomic, and lignin-targeted metabolomic insights into vascular cambium development in Osmanthus fragrans. Industrial Crops & Products, 2025, 238: 122393. (SCI一通, IF =6.2, 中科院一区top)
[4] Zhang, Y., Yang, J., Zeng, X., Cai, X., Li, Z., Zeng, J., Zhang, Q., Chen, H.,* Zou, J.* Exploring miRNA-target modules regulating flower opening and senescence in Osmanthus fragrans through integrated transcriptome, miRNAome, and degradome analysis. Industrial Crops and Products, 2025, 229, 120927 (SCI一作, IF = 6.2, 中科院一区top)
[5] Zhang, Y., Guo, Z., Yang, J., et al. Small RNA and degradome analyses reveal regulatory roles of miRNAs in vascular cambium development in Cryptomeria fortunei. Industrial Crops and Products, 2022, 187, 115428. doi: 10.1016/j.indcrop.2022.115428 (SCI一作, IF = 6.449, 中科院 1 区top)
[6] Wu Y, Yan Q, Zou J, Chen H, Zhang Y*, Xia H*. Integrated transcriptomic, untargeted and targeted metabolomic analyses reveal seasonal regulatory mechanisms of vascular cambium activity in woody plants: insights from Schima superba[J]. Frontiers in Plant Science, 2025, 16. (SCI一通, IF =4.1, 中科院二区)
[7] Yang, J., Cai, X., Chen, X., Zeng, X., Li, Z., Wu, Y., Chen, H., Zhang, Y., Zou J.,*. Genome-wide identification and functional characterization of lncRNA-mRNA networks during petal opening and senescence in Osmanthus fragrans. Horticulturae, 2026. (一通, SCI, IF = 3.0, 中科院二区)
[8] Zhang, Y., Yan, Q., Xia, H., Yang, J., Zeng, X., Li, Z., Cai, X., Zou, J.*, Chen H*. Validation of suitable reference microRNAs for qRT-PCR in Osmanthus fragrans under abiotic stress, hormone and metal ion treatments. Front. Plant Sci. 2025, 16:1517225. doi: 10.3389/fpls.2025.1517225 (SCI一作, IF = 4.1, 中科院 2 区top)
[9] Zhang, Y., Yan, Q., Xia, H., Zeng, X., Yang, J., Cai, X., Li, Z., Chen H*, Zou, J.*. Selection of suitable reference lncRNAs for gene expression analysis in Osmanthus fragrans under abiotic stresses, hormone treatments, and metal ion treatments. Front. Plant Sci. 2025, 15:1492854. doi: 10.3389/fpls.2024.1492854 (SCI一作, IF = 4.1, 中科院 2 区top)
[9] Zhang, Y., Wei, G., Xue, J., Xu, J*. CfSGR1 and CfSGR2 from Cryptomeria fortunei exhibit contrasting responses to hormones and abiotic stress in transgenic Arabidopsis. Plant Physiology and Biochemistry, 2024. (SCI一作, IF = 6.1, 中科院 2 区top)
[10] Zhang, Y., Yang, L., Hu, H., et al. Transcriptome and metabolome changes in Chinese cedar during cold acclimation reveal the roles of flavonoids in needle discoloration and cold resistance. Tree physiology, 2022, 42(9): 1858-1875. doi: 10.1093/treephys/tpac046 (SCI一作, IF =4.561, 中科院 2 区top)
[11] Zhang, Y.,+ Yang L.,+ Yang, J., et al. Transcriptome and metabolome analyses reveal differences in terpenoid and flavonoid biosynthesis in Cryptomeria fortunei needles across different seasons. Frontiers in Plant Science, 2022, 13, 862746. doi: 10.3389/fpls.2022.862746 (SCI一作, IF = 6.627, 中科院 2 区top)
[12] Zhang, Y.,+ Yang L.,+ et al. CfAPX, a cytosolic ascorbate peroxidase gene from Cryptomeria fortunei, confers tolerance to abiotic stress in transgenic Arabidopsis. Plant Physiology and Biochemistry, 2022, 172, 167-179. doi: 10.1016/j.plaphy.2022.01.011 (SCI一作, IF = 5.437, 中科院 2 区)
[13] Zhang, Y., Hu, H., Yang, J., et al. Physiological, transcriptomic and metabolomic analyses of overwintering Cryptomeria fortunei needles. Forests, 2022, 13, 1249. doi: 10.3390/f13081249 (SCI一作, IF = 3.282, 中科院 2 区)
[14] Zhang, Y., Cui, J., Hu, H., et al. Integrated four comparative-omics reveals the mechanism of the terpenoid biosynthesis in two different overwintering Cryptomeria fortunei phenotypes. Frontiers in Plant Science, 2021, 12, 740755. doi: 10.3389/fpls.2021.740755 (SCI一作, IF = 5.753, 中科院 2 区top)
[15] Zhang, Y., Yang, J., Zhu, L., et al. Identification of microRNAs and their target genes related to needle discoloration of evergreen tree Chinese cedar (Cryptomeria fortunei) in cold winters. Planta, 2021, 254, 1-21. doi: 10.1007/s00425-021-03685-2 (SCI一作, IF = 4.116, 中科院 2 区)
[16] Zhang, Y., Xue, J., Zhu, L., et al. Selection and optimization of reference genes for microRNA expression normalization by qRT-PCR in Chinese Cedar (Cryptomeria fortunei) under multiple stresses. International Journal of Molecular Sciences, 2021, 22, 7246. doi: 10.3390/ijms22147246 (SCI一作, IF = 5.923, 中科院 2 区top)
[17] Zhang, Y., Zhu, L., Xue, J., et al. Selection and verification of appropriate reference genes for expression normalization in Cryptomeria fortunei under abiotic stress and hormone treatments. Genes, 2021, 12, 791. doi: 10.3390/genes12060791 (SCI一作, IF = 4.096, 中科院 3 区)
[18] Zhang, Y., Zhang, M., Hu, H., et al. Cloning and cold-resistance analyses of CfICE1 gene in Cryptomeria fortunei. Plant Physiology and Biochemistry, 2021, 162, 456–467. doi: 10.1016/j.plaphy.2021.03.020 (SCI一作, IF = 4.270, 中科院 2 区)
[19] Zhang, Y., Zhu, Q., Guo, Z., et al. Individual Cryptomeria fortunei Hooibrenk clones show varying degrees of chilling stress resistance. Forests, 2020, 11, 189. doi: 10.3390/f11020189 (SCI一作, IF = 2.633, 中科院 3 区)
[20] Zhang, Y., Yang, J., Guo, Z., et al. Comparative analyses and phylogenetic relationships between Cryptomeria fortunei and related species based on complete chloroplast genomes. Phyton, 2020, 89, 1-30. doi: 10.32604/phyton.2020.011211. (SCI一作, IF = 1.039, 中科院 4 区)
[21] Zhang, Y., Tsuruta M., Kawasaki T., Han Q. Diurnal dynamics of leave nonstructural carbohydrates in different plant function type oak trees. ESJ70, 2023.
[22] Zhang, Y., Xue J., Wei G., et al. Genome-wide identification of the CjCCO gene family in Japanese cedar, and over-expression of CjCCD4a and CjCCD4d confers ABA, salt and drought tolerance in transgenic Arabidopsis. Plant Growth Regulation, 2025. doi:10.1007/s10725-025-01338-y (SCI一作, IF = 3.5, 中科院 3 区)
[23] Xia, H.,+ Zhang, Y.+ Chen, X., Zeng, X., and Cai, X., et al. Genome-wide identification of osmanthus fragrans histone modification genes and analysis of their expression during the flowering process and under azacytidine and ethylene treatments. Plants, 2024. doi:10.3390/plants13060777(SCI共一, IF = 4.6, 中科院 2 区)
[24] Wei, G.,+ Zhang, Y.+, Yang, Y., Yang, J., and Xu, J*. (2024). Cfchlm, from cryptomeria fortunei, promotes chlorophyll synthesis and improves tolerance to abiotic stresses in transgenic Arabidopsis thaliana. Forests. doi:10.3390/f15040628 (SCI共一, IF = 2.4, 中科院 2 区)
[25] 张莹婷, 杨秀莲, 等. 2种石蒜花芽分化与碳水化合物、抗氧化物酶及内源激素变化的关系.安徽农业大学学报, 2019, 46, 342-349.
[26] 张莹婷;张规富;闫庆宇;谭云飞;尹鹏翔;曾进等. 桂花花瓣开放与衰老过程中lncRNA内参基因及其引物和应用. CN118581272B (发明专利, 第一发明人)
[27] 张莹婷;陈洪国;杨洁;邹晶晶;闫庆宇;李泽卿;蔡璇. 桂花不同组织的lncRNA内参基因及其引物和应用. CN 118895378 B (发明专利, 第一发明人)
[28] 张莹婷;陈洪国;蔡璇;李泽卿;杨洁;曾祥玲;邹晶晶;曾进. 桂花非生物胁迫条件下 lncRNA 内参基因及其引物和应用. CN 118932099 B (发明专利, 第一发明人)
[29] 张莹婷;邹晶晶;曾祥玲;蔡璇;陈洪国;李泽卿;尹鹏翔. 桂花激素处理下的lncRNA内参基因及其引物和应用. CN 119144746 B (发明专利, 第一发明人)
[30] 张莹婷;陈洪国;杨洁;邹晶晶;李泽卿;蔡璇;曾祥玲. 桂花金属离子胁迫下1ncRNA内参基因和应用. CN 118910311 B (发明专利, 第一发明人)
[31] 张莹婷;陈洪国;李泽卿;邹晶晶;蔡璇;曾祥玲;杨洁. 桂花非生物胁迫miRNA内参基因及其引物和应用. CN 119433072 B (发明专利, 第一发明人)
[32] 张莹婷;邹晶晶;杨洁;陈洪国;蔡璇;曾祥玲;李泽卿. 桂花金属离子胁迫下miRNA内参基因及其引物和应用. CN 119433070 B (发明专利, 第一发明人)
[33] 张莹婷;邹晶晶;蔡璇;陈洪国;李泽卿;杨洁;闫庆宇. 桂花激素处理miRNA内参基因及其引物和应用. CN 119082348 B (发明专利, 第一发明人)
[34] 张莹婷;陈洪国;张规富;邹晶晶;曾祥玲;李泽卿;杨洁;蔡璇. 桂花花瓣开放与衰老过程中miRNA内参基因及其引物和应用. CN 119082352 B (发明专利, 第一发明人)
[35] 张莹婷;邹晶晶;曾祥玲;杨洁;陈洪国;李泽卿;谭云飞. 桂花不同组织miRNA内参基因及其引物和应用. CN 119020473 B (发明专利, 第一发明人)
[36] 张莹婷, 崔洁冰, 徐进. 一种提高柳杉实生苗成活率的种植方法. ZL 2020 1 0616099.3(发明专利,第一发明人)
[37] 徐进, 张莹婷, 张萌. 一种柳杉 CfICE1 基因及其应用. ZL 2020 1 0616253.7(发明专利,第二发明人,导师第一)
[38] 徐进, 张莹婷, 等. 一种柳杉抗寒性快速鉴定与评价的方法. ZL 2020 1 0617581.9 (发明专利,第二发明人,导师第一)
[39] 张莹婷, 徐进. 一种便于液氮冷冻的载玻片.CN 211528016 U
[40] 张莹婷, 徐进. 一种多功能试管架. CN 211706872 U
[41] 张莹婷, 徐进. 一种简易可拆卸式容量瓶架. CN 211800940 U
[42] 张莹婷, 徐进. 一种可调节的扦插打孔装置. CN 211509768 U
[43] 张莹婷, 徐进. 一种实验双面刀片的简易保护壳. CN 211333317 U
[44] 张莹婷, 徐进. 一种适用于高杆类花卉的杂交袋装置. CN 211510152 U
[45] 张莹婷, 徐进. 一种遮光透气的实验袋. CN 211322166 U
八、主要科研及教研项目
主持国家及省部级项目 5 项:
[1] 国自然青年基金,OfEIL7介导乙烯和茉莉酸信号互作调控桂花花瓣衰老的分子机制研究(32401647),30 万元,主持;
[2] 2025 年湖北省创新人才计划(青年科技人才培养专项),桂花观赏性提升关键技术研究——基于花朵衰老机制解析与延花期种质创制研究(2025DJA045),2025.8.4-2.27.8.4,30万元,主持;
[3] 2025 年湖北省青年晨光托举工程 A 类,2025.9-2026.8,5 万,主持;
[4] 湖北科技威廉希尔官方网站博士启动资金项目资助“OfEIL2 参与乙烯调节调控桂花花瓣衰老的分子机制研究(BK202503)”,20 万元,主持;
[5] 校级教改:应用型高校科研与教学协同发展模式的创新与实践——以智慧林业专业为例,0.3万,主持;
[6] 江苏省大学生创新项目“节约型理念在徐州市园林建设中的应用研究”(201310320090X),0.3万元,2013.6-2015.6,主持;
[7] 江苏省研究生创新项目“基于多组学研究低温下柳杉叶片的呈色及抗寒机制”(KYCX21_0918),1.5万元,2021.6-2023.6,主持。
九、主要社会兼职
Forest 专刊客座编辑
Genome biology、BMC plant biology、Planta、Frontiers in Plant Science、BMC genomics、Plants、forests、Cells、Scientific Reports、plos one、JGBG、等 10 余 SCI 杂志特邀审稿人;
日本生态学会会员
