个人简介
教育经历:
2005年9月-2009年7月 东北师范大学城市与环境科学学院生态学专业,学士
2009年9月-2011年7月 东北师范大学城市与环境科学学院环境科学专业,硕士
2011年9月-2015年9月 Max-Planck Institute for Ornithology和Munich University联合培养生物学专业,博士
主要荣誉及奖励:
2016人类前沿科学博士后长期奖学金(HFSP Long-term Postdoctoral Fellowship)
工作经历:
2015年10月-2018年10月 Johns Hopkins University,博士后研究员
2018年10月至今 华中师范大学生命科学学院,教授
研究领域
我们主要以回声定位蝙蝠和小鼠为动物模型,结合动物行为测试(Behavioral Experiment)、电生理(Electrophysiology)、心理物理学(Psychophysics)及数学建模(Mathematical Modeling)等技术手段,研究动物声音通讯(Acoustic Communication)的神经生物学机制。研究内容涵盖动物发声的调控(Vocal Control)、声音在环境中的传递(Signal Transmission)和声音信号的接收(Signal Reception)三个方面。我们的最终目标旨在理解人类声语言(Speech)学习和控制的脑机制。
近期论文
查看导师新发文章
(温馨提示:请注意重名现象,建议点开原文通过作者单位确认)
1. J Luo*, S Macias, TV Ness, GT Einevoll, K Zhang, CF Moss, 2018, Neural timing of stimulus events with microsecond precision. PLoS Biology, 16(10):e2006422.
ScienceTrends后续报道:https://sciencetrends.com/how-an-echolocating-bats-brain-may-solve-the-microsecond-timing-problem/
2. J Luo, SR Hage*, CF Moss, 2018, The Lombard effect: from acoustics to neural mechanisms. Trends in Neurosciences, 41, 938-949.
3. J Luo*, CF Moss, 2017, Echolocating bats rely on audiovocal feedback to adapt sonar signal design. Proceedings of the National Academy of Sciences. 114, 10978–10983.
HFSP后续报道:http://www.hfsp.org/frontier-science/awardees-articles/bats-listen-themselves-instead-echo-returns-control-their-sonar-v
4. J Luo*, NB Kothari, CF Moss, 2017, Sensorimotor integration on a rapid time scale. Proceedings of the National Academy of Sciences. 114, 6605–6610.
ScienceDaily新闻报道:https://www.sciencedaily.com/releases/2017/06/170606112742.htm
HFSP后续报道:http://www.hfsp.org/frontier-science/awardees-articles/bats-rapidly-turn-volume-their-vocalizations-noisy-environments
5. J Luo*, A Lingner, U Firzlaff, L Wiegrebe, 2017, The Lombard effect emerges early in young bats: implications for the development of audio-vocal integration. Journal of Experimental Biology. 220, 1032–1037.
6. J Luo*, L Wiegrebe, 2016, Biomechanical control of vocal plasticity in an echolocating bat. Journal of Experimental Biology. 219, 878–886.
7. J Luo*, BM Siemers, K Koselj, 2015, How anthropogenic noise affects foraging. Global Change Biology. 29, 3278–3289.
European Commission – Environment专文报道:http://ec.europa.eu/environment/integration/research/newsalert/pdf/noise_from_human_activity_can_impair_foraging_in_bats_425na2_en.pdf
8. J Luo*, HR Goerlitz, H Brumm, L Wiegrebe, 2015, Linking the sender to the receiver: Vocal adjustments by bats to maintain signal detection in noise. Scientific Reports. 5, 18556.
Max-Planck-Society新闻报道:https://www.mpg.de/9816365/bats-echolocation-noise
9. J Luo, K Koselj, S Zsebők, BM Siemers, HR Goerlitz*, 2014, Global warming alters sound transmission: differential impact on the prey detection ability of echolocating bats. Journal of the Royal Society Interface. 11, 20130961.
入选Nature Climate Change研究亮点:https://www.nature.com/articles/nclimate2088
美国NationalGeographic新闻报道:https://news.nationalgeographic.com/news/climate-change-will-affect-ultrasonic-bat-signals/
ScienceShot新闻报道:http://www.sciencemag.org/news/2013/12/scienceshot-whats-climate-change-could-stifle-bat-chirps
10. J Luo*, B-M Clarin, IM Borissov, BM Siemers, 2014, Are torpid bats immune to anthropogenic noise? The Journal of Experimental Biology. 217, 1072–1078.
11. J Luo, T Jiang, G Lu, L Wang, J Wang, J Feng*, 2013, Bat conservation in China: should protection of subterranean habitats be a priority? Oryx. 47, 526–531.
12. J Luo, W Ou, Y Liu, J Wang, L Wang, J Feng*, 2012, Plasticity in echolocation calls of Myotis macrodactylus (Chiroptera: Vespertilionidae): implications for acoustic identification. Acta Theriologica. 57, 137–143.
13. J Luo, G Lu, J Feng*, 2012, Diurnal capture reduces the colony size of Hipposideros armiger (Chiroptera: Hipposideridae). Mammalia. 76, 447–449.