朱琴
近期热点
资料介绍
个人简历
朱琴,博士,广东工业大学环境生态工程研究院博士后。 教育经历2010.9-2017.6,博士生,荷兰代尔夫特理工大学,水利工程专业;华东师范大学,自然地理学专业,获双学位博士学位2006.9-2010.6,本科生,华东师范大学,物理学师范专业,获学士学位工作经历2018.9-今,广东工业大学,博士后2017.11-2018.6,荷兰皇家海洋研究院,博士后专利: [1] 张文祥;程武风;朱琴;章啸程;苏国宾;张赛赛;顾靖华;胡进;张丹;崔贺;赵中豪;陈晴;沈裕莘.一种多功能悬沙浓度标定系统:中国,ZL 2017 2 1812644.6[P].2018-10-26.研究领域
海岸地貌动力学海岸带生物-物理过程相互作用基于生态系统的海岸防护""近期论文
[1] Zhu, Q., van Prooijen, B.C., Maan, D.C., Wang, Z.B., Yao, P., Daggers, T., Yang S.L.*, 2019. The heterogeneity of mudflat erodibility. Geomorphology, 345, 106834. DOI: 10.1016/j.geomorph.2019.106834 [全文] [2] Zhu, Z.*, van Belzen, J., Zhu, Q., van de Koppel, J., Bouma, T.J., 2019. Vegetation recovery on neighboring tidal flats forms an Achilles' heel of saltmarsh resilience to sea level rise. Limnology and Oceanography. DOI: 10.1002/lno.11249 [全文][3] Yang, S.L.*, Fan, J.Q., Shi, B.W., Bouma, T.J., Xu, K.H., Yang, H.F., Zhang, S.S., Zhu, Q., Shi, X.F., 2019. Remote impacts of typhoons on the hydrodynamics, sediment transport and bed stability of an intertidal wetland in the Yangtze Delta. Journal of Hydrology, 575, 755-766. [全文][4] Maan, D.C.*, van Prooijen, B.C., Zhu, Q., Wang, Z.B., 2018. Morphodynamic Feedback Loops Control Stable Fringing Flats: Morphodynamic feedback loops on fringing flats. Journal of Geophysical Research: Earth Surface, . DOI: 10.1029/2018JF004659 [全文][5] Yang, H.F., Yang, S.L.*, Xu, K.H., Wu, H., Shi, B.W., Zhu, Q., Zhang, W.X., Yang, Z., 2017. Erosion potential of the Yangtze Delta under sediment starvation and climate change. Scientific Reports. DOI:10.1038/s41598-017-10958-y [全文][6] Zhu, Q., van Prooijen, B.C., Wang, Z.B., Yang, S.L.*, 2017. Bed-level changes on intertidal flat in response to waves and tides. Marine Geology, 385, 160-172. [全文][7] Zhu, Q., van Prooijen, B.C., Wang, Z.B., Ma, Y.X., Yang, S.L.*, 2016. Bed shear stress estimation on an open intertidal flat using in situ measurements. Estuarine, Coastal and Shelf Science, 182 (Part A), 190-201. [全文][8] Zhang, W.X., Zhu.Q., Hu, J., Gu, J.H., Yang, S.L.*, 2015. Experimental Study of the Multifrequency Acoustic Backscatter System using Field Sediment. Universal Journal of Geoscience, 3, 188–194. doi: 10.13189/ujg.2015.030602.[9] Liu, J.H., Yang, S.L.*, Zhu, Q., Zhang, J., 2014. Controls on suspended sediment concentration profiles in the shallow and turbid Yangtze Estuary. Continental Shelf Research, 90, 96–108. [全文][10] Zhu, Q., Yang, S.*, Ma, Y., 2014. Intra-tidal sedimentary processes associated with combined wave–current action on an exposed, erosional mudflat, southeastern Yangtze River Delta, China. Marine Geology, 347, 95–106. [全文][11] Shi, B.W., Yang, S.L.*, Wang, Y.P., Bouma, T.J.,Zhu, Q., 2012. Relating accretion and erosion at an exposed tidal wetland to the bottom shear stress of combined current-wave action. Geomorphology, 138, 380–389. [全文][12] 杨天, 杨世伦, 杨海飞, 朱琴,张文祥, 张朝阳, 王如生. 悬浮絮凝体特征及其影响因子的综合作用——以长江口内河槽和口门最大浑浊带为例, 2017 (4)149-159.[13] 苗丽敏, 杨世伦, 朱琴, 史本伟, 李鹏, 吴创收. 风暴过程中潮滩悬沙浓度和悬沙输运的变化及其动力机制[J]. 海洋学报, 2016, 38(5): 158-167.[14] 刘建华, 陈沈良, 杨世伦, 朱琴. 长江口门附近海域潮周期内悬沙质量浓度变化及其动力机制[J]. 海洋科学进展, 2014, 32(2): 188-199. 相关热点