姓名:张鸽
职称:教授
邮箱:gezhang.bee@gmail.com
个人简介
张鸽,男,博士,教授。研究方向为蜜蜂生态营养学和毒理学。在主流期刊Journal of Applied Ecology、Environmental Science & Technology、Journal of Hazardous Materials、PNAS等发表SCI论文19篇。近三年主持美国农业部项目、美国蜂业协会项目(Project Apis m.)等4项。担任Environmental Entomology副主编和Environments客座编辑。为10余家一流期刊Nature Sustainability、Agriculture, Ecosystems & Environment 、Journal of Hazardous Materials、Science of The Total Environment等进行同行评审。
教育经历
2021-2024,博士后,昆虫系,Washington State University
2020-2021,博士后, 昆虫、植物病理与杂草科学系, New Mexico State University
2015- 2020,农学博士 , 昆虫系 , Iowa State University
2011 - 2014,农学硕士 , 动物营养系,山东农业大学
2007 - 2011 , 农学学士 , 威尼斯wns·8885556, 山东农业大学
工作经历
2025 - 至今 , 教授 , 山东农业大学威尼斯wns·8885556
2024 - 2025 , 助理教授 , Washington State University昆虫系
研究领域
1.生态环境与蜜蜂营养健康
2.农药毒理与蜜蜂解毒机制
3.蜜蜂疫病传播及防控
发表文章
1.Zhang, Ge, Kuesel, R. W., Olsson, R., Reed, R., Liu, X., & Hopkins, B. (2024). Pesticide exposure patterns in honey bees during migratory pollination. Journal of Hazardous Materials, 480, 135910.
2.Zhang, Ge, Dilday, S., Kuesel, R. W., & Hopkins, B. (2023). Phytochemicals,
Probiotics, Recombinant Proteins: Enzymatic Remedies to Pesticide Poisonings in
Bees. Environmental Science & Technology, 58(1), 54-62.
3.Zhang, Ge, Murray, C. J., St. Clair, A. L., Cass, R. P., Dolezal, A. G., Schulte, L. A., ... & O’Neal, M. E. (2023). Native vegetation embedded in landscapes dominated by corn and soybean improves honey bee health and productivity. Journal of Applied Ecology, 60(6), 1032-1043
4.Zhang, Ge, Kersten, M., Owen, A., & Skidmore, A. (2023). Honey bee foraging and pesticide exposure in a desert urban agroecosystem. Ecotoxicology and Environmental Safety, 249, 114472.
5.Liu, F., Zhang, Ge.*, Zhang, C., Zhou, W., Xu, X., Shou, Q., ... & Dai, P. (2023). Pesticide exposure and forage shortage in rice cropping system prevents honey bee colony establishment. Environmental Research, 219, 115097. (* 共同一作)
6.Zhang, Ge, Olsson, R. L., & Hopkins, B. K. (2023). Strategies and techniques to mitigate the negative impacts of pesticide exposure to honey bees. Environmental Pollution, 318, 120915.
7.St. Clair, A. L., Zhang, Ge, Dolezal, A. G., O’Neal, M. E., & Toth, A. L. (2022) Agroecosystem landscape diversity shapes wild bee communities independent of managed honey bee presence. Agriculture, Ecosystems and Environment, 27, 107826.
8.Zhang, Ge, St. Clair, A. L., Dolezal, A. G., Toth, A. L., & O’Neal, M. E. (2022). Can native plants mitigate climate-related forage dearth for honey bees (Hymenoptera: Apidae)?. Journal of economic entomology, 115(1), 1-9.
9.Zhang, Ge, St. Clair, A. L., Dolezal, A. G., Toth, A. L., & O’Neal, M. E. (2021). North American prairie is a source of pollen for managed honey bees (Hymenoptera: Apidae). Journal of Insect Science, 21(1), 17.
10.Hall, M. J., Zhang, Ge, O’Neal, M. E., Bradbury, S. P., & Coats, J. R. (2021). Quantifying neonicotinoid insecticide residues in milkweed and other forbs sampled from prairie strips established in maize and soybean fields. Agriculture, Ecosystems & Environment, 325, 107723.
11.Zhang, Ge, St. Clair, A. L., Dolezal, A., Toth, A. L., & O’Neal, M. (2020). Honey bee (Hymenoptera: Apidea) pollen forage in a highly cultivated agroecosystem: limited diet diversity and its relationship to virus resistance. Journal of economic entomology, 113(3), 1062-1072.
12.St. Clair, A. L., Zhang, Ge, Dolezal, A. G., O’Neal, M. E., & Toth, A. L. (2020). Diversified farming in a monoculture landscape: effects on honey bee health and wild bee communities. Environmental entomology, 49(3), 753-764.
13.Liu, F., Zhang, Ge*, Qin, J., Jiang, W., Luo, Q., Xu, X., ... & Dai, P. (2020). Lowering forest habitat does not reduce forage availability to the eastern honey bees in summer and fall. Apidologie, 51(4), 609-619.
14.Dolezal, A. G., Clair, A. L. S., Zhang, Ge, Toth, A. L., & O’Neal, M. E. (2019). Native habitat mitigates feast–famine conditions faced by honey bees in an agricultural landscape. Proceedings of the National Academy of Sciences, 116(50), 25147-25155.