侯金波,男,2021年毕业于美国加州大学河滨分校(University of California Riverside),取得地质科学(Geological Sciences)博士学位。
办公室: 镇江楼(现工院)B116
E-mail: hou@nju.edu.cn
专注于早期生命演化,以布尔吉斯页岩型(Burgess Shale-type)和黄铁矿化型(Pyritization)特异埋藏化石宝库中的软体结构为研究重心,利用多种、交叉证据揭示早期生命演化的细节。结合解剖学、计算模拟、纯理论研究等深入挖掘早期生命(如后生动物三叶虫)的生理功能和机制,为寒武纪大辐射(Cambrian radiation)提供生物本身的内在发展证据。此外,担任领域内如古生物学报、Nature、Science Advances等著名学术期刊审稿人。
三叶虫是早期生命的典型代表,保存了非常丰富的化石证据而成为模式型研究动物。近几年,对美国纽约州北部Beecher’s trilobite beds产出得Triarthrus eaotni和加拿大哥伦比亚Burgess Shale Biota产出得Olenoides Serratus进行了系列性的研究工作,解决了三叶虫长期争议的呼吸结构等生理研究难题。
最近研究成果:
Hou, J.-B., Hopkins, M. J. (2024). New evidence for five cephalic appendages in trilobites and implications for segmentation of the trilobite head. Palaeontology, 67, e12723. https://doi.org/10.1111/pala.12723
Wang, Z., Edgecombe, G. D., Hou, J.-B. (2024). Function of flow wakes for queuing trilobites: Positioning rather than drag reduction – Criteria for drag force assessment in palaeontological CFD simulations. Palaeogeography, Palaeoclimatology, Palaeoecology, 646, 112239. https://doi.org/10.1016/j.palaeo.2024.112239
Hou, J.-B., Hughes, N. C., Hopkins, M. J., Shu, D. (2023). Gill function in an early arthropod and the widespread adoption of the countercurrent exchange mechanism. Royal Society Open Science, 10, 230341. https://doi.org./10.1098/rsos.230341
Hou, J.-B., Hughes, N. C., Hopkins, M. J. (2023). Gill grooming in middle Cambrian and Late Ordovician trilobites. Geological Magazine, 160, 905-910. https://doi.org./10.1017/S001675682300002X
Hou, J.-B., Hughes, N. C., Hopkins, M. J. (2021). The trilobite upper limb branch is a well-developed gill. Science Advances, 7, eabe7377. https://doi.org./10.1126/sciadv.abe7377