姓名：李心钰

通信地址：北京市海淀区清华东路35号北京林业大学

邮政编码：100083

邮箱：lixinyubjfu@bjfu.edu.cn

一、教育背景

2018.01－2020.12，哥本哈根大学，生物系统学，博士

2014.09－2020.07，北京林业大学，野生动植物保护与利用，博士

2010.09－2014.07，北京林业大学，生物科学，学士

二、工作经历

2022.10 至今，北京林业大学，yabocom(中国)官方网站，讲师

2020.09－2022.09，中国农业大学，植物保护流动站，博士后

三、研究方向

林业有害生物防控，昆虫系统学及进化生物学

四、研究项目

[1]      国家自然科学基金，青年科学基金，蝽次目昆虫食性相关特征的适应演化，2022.01－2024.12，30万元，主持

[2]      科技基础资源调查专项，《中国动物志》编研，中国动物志昆虫纲双翅目麻蝇科（二），2022.10－2027.09，25万元，主持

[3]      博士后科学基金，面上项目，常见蝽次目昆虫触角感受器多样性及嗅觉基因的功能进化，8万元，2021.11－2022.10，主持

五、发表论文

[1]      Wang, Q., … Li, X. Y., … Zhang, D., Elgar, M. A. (2023) Short-term particulate matter contamination severely compromises insect antennal olfactory perception. Nature communications 14, 4112.

[2]      Zha, S., Wang, Z., Tian, L., Zhao, Y., Bai, X., Chen, Z., Cai, W., Li, X.Y.*, Li, H.* (2023) Scanning electron microscopy of antennae and mouthparts of Mezira yunnana Hsiao (Hemiptera: Aradidae): specialized microstructures reflecting adaptation to mycetophagy. Insects, 14, 333.

[3]      Xu, W., Li, X. Y., Wang, Q., Zhang, C., Yang, M., Zhou, T., Li, K., Zhang, D. (2022) Insights into the antennal characteristics and olfactory strategy of the endangered rhino stomach bot fly Gyrostigma rhinocerontis (Diptera: Oestridae). Insects, 13, 889.

[4]      Gao, F. D., Tian, L, Li, X. Y., Zhang, Y. Q., Wang, T. F., Ma, L., Song, F., Cai, W. Z., Li, H. (2022) Proteotranscriptomic Analysis and toxicity assay suggest the functional distinction between venom gland chambers in twin-spotted assassin bug, Platymeris biguttatus. Biology, 11, 464.

[5]      Li, X. Y.^#, Tian L., Li, H., Cai, W. Z. (2021). Ultrastructural variations of antennae and labia are associated with feeding habit shifts in stink bugs (Heteroptera: Pentatomidae). Biology, 10, 1161.

[6]      Li, X. Y. ^#, Pape, T., Colwell D. Dewhurst C., Zhang, D. (2021). Three-dimensional characterization of first instar horse and rhinoceros stomach bot fly larvae (Oestridae: Gasterophilinae: Gasterophilus, Gyrostigma): novel morphology and evolutionary implications. Zoological Journal of the Linnean Society, 193: 939–952.、

[7]      Li, X. Y. ^#, Pape, T., Zhang, D. (2020). Taxonomy, phylogeny and evolution of the bumblebee bot flies (Oestridae: Hypodermatinae: Portschinskia Semenov). Zoological Journal of the Linnean Society, 190, 942–973.

[8]      Li, X. Y. ^#, Yan, L., Pape, T., Gao, Y., Zhang, D. (2020). Evolutionary insights into bot flies (Insecta: Diptera: Oestridae) from comparative analysis of the mitochondrial genomes. International Journal of Biological Macromolecules, 149: 371–380.

[9]      Li, X. Y. ^#, Pape, T., Zhang, D. (2019). Taxonomic review of Gasterophilus (Oestridae, Gasterophilinae) of the world, with updated nomenclature, keys, biological notes, and distributions. ZooKeys, 891, 119–156.

[10]   Li, X. Y^#., Pape, T., Zhang, D. (2019). Gasterophilus flavipes (Oestridae: Gasterophilinae): A horse stomach bot fly brought back from oblivion with morphological and molecular evidence. PLoS One, 14(8), e0220820.

[11]   Li, X. Y. ^#, Chen, Y. O., Wang, Q. K., Li, K., Pape, T., Zhang, D. (2018). Molecular and morphological characterization of third instar Palaearctic horse stomach bot fly larvae (Oestridae: Gasterophilinae, Gasterophilus). Veterinary Parasitology, 262(15), 56–74.

[12]   Wang, R. R., Li, X. Y., Szwedo, J., Stroiński, A., Liang, A. P., Bourgoin, T. (2016). Testing Tropiduchini Stål 1866 (Hemiptera: Tropiduchidae) monophyly, a young inter‐tropical taxon of mainly insular species: taxonomy, distribution patterns and phylogeny, with the description of a new genus from Papua New Guinea. Systematic Entomology, 42, 359–378.

[13]   Zhang, D. ^#, Li, X. Y. ^#, Liu, X. H., Wang, Q. K., Pape, T. (2016) The antenna of horse stomach bot flies: morphology and phylogenetic implications (Oestridae, Gasterophilinae: Gasterophilus Leach). Scientific Reports, 6, 34409.

[14]   Wang, Q. K. ^#, Yang, Y. Z. ^#, Li, X. Y. ^#, Li, K., Zhang, D. (2016). Comparative ultrastructure of pretarsi in five calyptrate species. Parasitology Research, 115(6), 2213–2222. 2016-02-26

[15]   Liu, X. H. ^#, Liu, J. J. ^#, Li, X. Y. ^#, Zhang, D. (2016). Antennal sensory organs of Scathophaga stercoraria (Linnaeus, 1758) (Diptera: Scathophagidae): ultramorphology and phylogenetic implications. Zootaxa, 4067(3), 361–372.

[16]   Li, X. Y. ^#, Liu, X. H., Ge, Y. Q., Zhang, D. (2015). Scanning electron microscopy of antennal sensory organs of the cattle grub, Hypoderma lineatum (Diptera: Oestridae). Parasitology Research, 114(10), 3865–3871.

[17]   Liu, X. H. ^#, Li, X. Y. ^#, Li, K., Zhang, D. (2015). Ultrastructure of antennal sensory organs of horse nasal-myiasis fly, Rhinoestrus purpureus (Diptera: Oestridae). Parasitology Research, 114(7), 2527–2533.

[18]   孙婧婧, 王孟卿, 张长华, 唐艺婷, 李心钰, 张礼生, 李虎. (2022) 蠋蝽对亚洲玉米螟幼虫的捕食作用. 植物保护学报, 49(4), 1187–1193.

[19]   孙婧婧, 王孟卿, 唐艺婷, 李心钰, 张礼生, 李虎. (2022) 蠋蝽对棉铃虫幼虫的捕食功能反应. 植物保护学报, 48(5), 1081–1087.

[20]   庞秀楠, 刘贤慧, 刘根廷, 李心钰, 王企珂, 张东. (2020) 有瓣蝇类触角感受器形态与功能研究进展. 环境昆虫学报, 42(2), 370–382.