河口海岸水动力、泥沙运动以及地貌特征

潮滩生态动力过程、碳循环以及地貌演变

港口、海岸工程

论文与著作

期刊论文 

• SCI期刊论文

[1]Tao, J., Wang, Z. B., Zhou, Z.*, Xu, F., Zhang, C., & Stive, M. J. F. ( 2019). A morphodynamic modeling study on the formation of the large‐scale radial sand ridges in the Southern Yellow Sea. Journal of Geophysical Research: Earth Surface, 124. https://doi.org/10.1029/2018JF004866 

[2]Zhou Z., Coco G., Townend I., Gong Z., Wang Z.B., and Zhang C.K. (2018) On the stability relationships between tidal asymmetry and morphologies of tidal basins and estuaries. Earth Surface Processes and Landforms, 43(9): 1943-1959, doi: 10.1002/esp.4366.

[3]Gong Z., Zhao K.*, Zhang C.K, Dai W., Coco G., Zhou Z. * (2018) The role of bank collapse on tidal creek ontogeny: A novel process-based model for bank retreat, Geomorphology. 311, 13-26, doi: 10.1016/j.geomorph.2018.03.016.

[4]Zhou Z., Chen L.Y., Townend I., Coco G., Friedrichs C., and Zhang C.K. (2018) Revisiting the relationship between tidal asymmetry and basin morphology: A comparison between 1D and 2D models. Journal of Coastal Research, Special Issue No. 85: 151-155, doi: 10.2112/SI85-031.1.

[5]Winterwerp J.C., Zhou Z., Battista G., Van Kessel T., Jagers B., Van Maren B., and Van der Wegen M. (2018). Efficient consolidation model for morphodynamic simulations in low SPM-environments. Journal of Hydraulic Engineering. 144(8): 04018055(1-14), doi: 10.1061/(ASCE)HY.1943-7900.0001477.

[6]Xu, F., Coco, G., Zhou, Z., Tao, J., & Zhang, C. (2017). A numerical study of equilibrium states in tidal network morphodynamics. Ocean Dynamics, 67(12), 1593-1607, doi: 10.1007/s10236-017-1101-0.

[7]Chen, X. D., Zhang, C. K., Zhou, Z., Gong, Z., Zhou, J. J., Tao, J. F., Paterson, D. M. & Feng, Q. (2017). Stabilizing effects of bacterial biofilms: EPS penetration and redistribution of bed stability down the sediment profile. Journal of Geophysical Research: Biogeosciences, 122(12): 3113-3125. doi:10.1002/2017JG004050.

[8]Gong, Z., Jin, C., Zhang, C., Zhou, Z., Zhang, Q., & Li, H. (2017). Temporal and spatial morphological variations along a cross-shore intertidal profile, Jiangsu, China. Continental Shelf Research, 144: 1-9, doi: 10.1016/j.csr.2017.06.009.

[9]Dai W., Li H., Zhou Z., Cybele S., Lu C., Zhao K., Zhang X., Yang H. and Li D. (2018) UAV photogrammetry for elevation monitoring of intertidal mudflats. Journal of Coastal Research, Special Issue for International Coastal Symposium 2018. Special Issue No. 85, pp. 236–240, doi: 10.2112/SI85-048.1.

[10]Tao, J., Xu, F., Yao, P., Zhou, Z., and Zhang, C., 2018. The variations of sediment transport patterns in the radial sand ridges along the Jiangsu coast, China over the last 30 years. In: Shim, J.-S.; Chun, I., and Lim, H.S. (eds.), Proceedings from the International Coastal Symposium (ICS) 2018 (Busan, Republic of Korea). Journal of Coastal Research, Special Issue No. 85, pp. 216–220, doi: 10.2112/SI85-044.1.

[11]Zhou Z., Coco G., Townend I., Olabarrieta M., van der Wegen M., Gong Z., D’Alpaos A., Gao S., Jaffe B. E., Gelfenbaum G., He Q., Wang Y., Lanzoni S., Wang Z. B., Winterwerp H. and Zhang C.K. (2017) Is “Morphodynamic Equilibrium” an oxymoron. Earth-Science Reviews, 165:257–267, doi: 10.1016/j.earscirev.2016.12.002.

[12]Chen, X. D., Zhang, C. K., Paterson, D. M., Thompson, C. E. L., Townend, I. H., Gong, Z., Zhou, Z. and Feng, Q. (2017), Hindered erosion: The biological mediation of non-cohesive sediment behaviour. Water Resources Research 53(6): 4787-4801, doi:10.1002/2016WR020105

[13]Townend I., Wang Z. B., Stive M., & Zhou Z. (2016). Development and extension of an aggregated scale model: part 1 – background to ASMITA. China Ocean Engineering, 30(4), 483-504, doi: 10.1007/s13344-016-0030-x.

[14]Townend I., Wang Z. B., Stive M., & Zhou Z. (2016). Development and extension of an aggregated scale model: part 2 — extensions to ASMITA. China Ocean Engineering, 30(5), 651-670, doi: 10.1007/s13344-016-0042-6

[15]Zhou Z., van der Wegen M., Jagers B., and Coco G. (2016) Modelling the role of self-weight consolidation on the morphodynamics of accretional mudflats. Environmental Modelling & Software, 76, 167-181, doi: 10.1016/j.envsoft.2015.11.002.

[16]Zhou Z., Ye Q., and Coco G. (2016) A one-dimensional biomorphodynamic model of tidal flats: Sediment sorting, marsh distribution, and carbon accumulation under sea level rise. Advances in Water Resources, 93, 288-302, doi: 10.1016/j.advwatres.2015.10.011.

[17]Zhou Z., Coco G., van der Wegen M., Gong Z., Zhang C.K., and Townend I.  (2015) Modeling sorting dynamics of cohesive and non-cohesive sediments on intertidal flats under the effects of tides and wind waves. Continental Shelf Research, 104, 76-91, doi: 10.1016/j.csr.2015.05.010. 

[18]Zhou Z., Coco G., Jiménez , M., Olabarrieta M., van der Wegen M., and Townend I.  (2014) Morphodynamics of river-influenced back-barrier tidal basins: The role of landscape and hydrodynamic settings. Water Resources Research, 50(12), 9514-9535, doi:10.1002/2014WR015891. 

[19]Jiménez M., Castanedo S., Zhou Z., Coco G., Medina R. and Rodriguez-Iturbe I. (2014) Scaling properties of tidal networks. Water Resources Research, 50(6), 4585-4602, doi:10.1002/2013WR015006. 

[20]Zhou Z., Olabarrieta M., Stefanon L., D'Alpaos A., Carniello L. and Coco G. (2014) A comparative study of physical and numerical modeling of tidal network ontogeny. Journal of Geophysical Research: Earth Surface, 119(4), 892-912, doi:10.1002/2014JF003092. 

[21]Zhou Z., Stefanon L., Olabarrieta M., D'Alpaos A., Carniello L. and Coco G. (2014) Analysis of the drainage density of experimental and modelled tidal networks. Earth Surface Dynamics, 2(1), 105-116, doi:10.5194/esurf-2-105-2014.

[22]Coco G., Zhou Z., van Maanen B., Olabarrieta M., Tinoco R. and Townend I. (2013) Morphodynamics of tidal networks: advances and challenges. Marine Geology, 346, 1-16, doi:10.1016/j.margeo.2013.08.005. 

[23]Zhou Z., de San Roman B. L. and Nicholls, R. (2013) An OpenMI-based combined model for alongshore sediment transport and shoreline change. Maritime Engineering, 166(4), 175 -186, doi:10.1680/maen.2012.14. 

[24]Xu F., Tao J.F., Zhou Z., Coco G., and Zhang C.K. (2016) Mechanisms underlying the regional morphological differences between the northern and southern radial sand ridges along the Jiangsu Coast, China. Marine Geology, 371, 1-17, doi:10.1016/j.margeo.2015.10.019

[25]Zhang Q., Gong Z., Zhang C. K., Zhou Z. and Townend I. (2016) Hydraulic and sediment dynamics at times of very shallow water on intertidal mudflats: the contribution of waves. Journal of Coastal Research, SI75, 507-511, doi: 10.2112/SI75-102.1

[26]Fan Xu, Giovanni Coco, Jianfeng Tao, Zeng Zhou*, Changkuan Zhang, Stefano Lanzoni, Andrea D'Alpaos (2019) On the Morphodynamic Equilibrium of a Short Tidal Channel. Journal of Geophysical Research: Earth Surface, 124: 639-665, doi: 10.1029/2018JF004952

[27]Chen, X. D., Zhang, C. K., Paterson, D. M., Townend, I. H., Jin, C., Zhou, Z., Gong, Z., and Feng, Q. (2019) The effect of cyclic variation of shear stress on non‐cohesive sediment stabilisation by microbial biofilms: The role of “biofilm precursors”. Earth Surface Processes and Landforms, https://doi.org/10.1002/esp.4573.

• EI期刊论文

[28]龚政, 耿亮, 吕亭豫, 周曾, 严佳伟, 张长宽 (2017). 开敞式潮滩-潮沟系统发育演变动力机制——Ⅱ.潮汐作用. 水科学进展(02): 231-239. 

Gong Z., Geng L., Lyu T.Y., Zhou Z., Yan J.W., and Zhang C.K. (2017). Mechanisms underlying the dynamics evolution of an open-coast tidal flat-creek system: II: influence of tidal range. Advances in water science, (02): 231-239.

[29]戴玮琦,李欢,龚政,张长宽,周曾.无人机技术在潮滩地貌演变研究中的应用[J/OL].水科学进展:1-14[2019-06-25].http://kns.cnki.net/kcms/detail/32.1309.P.20190417.1445.010.html.

[30]龚政, 吕亭豫, 耿亮, 周曾, 徐贝贝, 张长宽 (2017). 开敞式潮滩-潮沟系统发育演变动力机制——Ⅰ.物理模型设计及潮沟形态. 水科学进展(01): 86-95.

Gong Z., Lyu T.Y., Geng L., Zhou Z., Xu B.B., and Zhang C.K. (2017). Mechanisms underlying the dynamics evolution of an open-coast tidal flat-creek system: I: physical model design and tidal creek morphology. Advances in water science, (01): 86-95.

[31]陆倩, 龚政, 周曾, 张长宽 (2016). 淤泥质海岸入海河口闸下港道河相关系. 水科学进展(05): 751-762.

Lu Q., Gong Z., Zhou Z., and Zhang C.K. (2016). Hydro-geometric relation of tidally-influenced channels downstream of floodgates along muddy coasts. Advances in water science, (05): 751-762.

[32]龚政，白雪冰，靳闯，赵堃，周曾，张长宽，基于植被和潮动力作用的潮滩剖面演变数值模拟，水科学进展，2018, 29(6): 877-886. 

[33]张长宽，徐孟飘，周曾*，龚政，康彦彦，李欢 (2018). 潮滩剖面形态与泥沙分选研究进展. 水科学进展，29(2): 269-282. 

Zhang C.K., Xu M.P., Zhou, Z*., Gong Z., Kang Y.Y., and Li H. (2018). Advances in cross-shore profile characteristics and sediment sorting dynamics of tidal flats. Advances in water science, 29(2): 269-282.

[34]龚政, 黄诗涵, 徐贝贝, 朱思谕, 张岩松 and 周曾, 2019. 江苏中部沿海潮滩对台风暴潮的响应. 水科学进展, 30(02): 243-254

• 其他期刊论文

[35]Jiménez M., Castanedo S., Zhou Z., Coco G., Medina R. and Rodriguez-Iturbe I. (2014) On the sensitivity of tidal network characterization to power law estimation.  Adv. Geosci., 39, 69-73, doi:10.5194/adgeo-39-69-2014.

会议论文或摘要

[1]Xie D., Schwarz C., Brückner M., Zhou Z., and van Maanen. (2019) The fate of mangrove assemblages in the face of changing coastal system (EGU2019), April 7-12, 2019, Vienna, Austria.（摘要）

[2]Ying Zhang, Zeng Zhou, Liang Geng, Giovanni Coco, Jianfeng Tao, Changkuan Zhang, 2018. Simulating the formation of tidal channels along an open-coast tidal flat: The effects of initial perturbation. Coastal Engineering Proceedings, [S.l.], n. 36, p. papers.84, dec. 2018. ISSN 2156-1028. Available at: <https://icce-ojs-tamu.tdl.org/icce/index.php/icce/article/view/8664/7468>. Date accessed: 01 mar. 2019. doi: 10.9753/icce.v36.papers.84. （ei全文）

[3]Lei Chen, Zeng Zhou*, Mengpiao Xu, Fan Xu, Jianfeng Tao, Changkuan Zhang, 2018. Exploring the influence of land reclamation on sediment grain size distribution on tidal flats: A numerical study. Coastal Engineering Proceedings, [S.l.], n. 36, p. papers.85, dec. 2018. ISSN 2156-1028. Available at: <https://journals.tdl.org/icce/index.php/icce/article/view/8669>. Date accessed: 01 mar. 2019. doi: 10.9753/icce.v36.papers.85.（ei全文）

[4]Zhou Z., Chen L.Y., Townend I., Coco G., Friedrichs C., and Zhang C.K. (2018) Revisiting the relationship between tidal asymmetry and basin morphology: A comparison between 1D and 2D models, The 15th International Coastal Symposium (ICS2018), May 13-18, 2018, Busan, South Korea. 

[5]Tao, J., Xu, F., Yao, P., Zhou, Z., and Zhang, C., 2018. The variations of sediment transport patterns in the radial sand ridges along the Jiangsu coast, China over the last 30 years. The 15th International Coastal Symposium (ICS2018), May 13-18, 2018, Busan, South Korea.

[6]Dai W., Li H., Zhou Z., Cybele S., Lu C., Zhao K., Zhang X., Yang H. and Li D. (2018) UAV photogrammetry for elevation monitoring of intertidal mudflats. The 15th International Coastal Symposium (ICS2018), May 13-18, 2018, Busan, South Korea.

[7]张长宽，龚政，陈永平，陶建峰，康彦彦，周晶晶，周曾*（2017）潮滩演变研究进展及前沿问题.第十八届中国海洋（岸）工程学术讨论会论文集. 中国舟山, 759-766. （论文）

[8]Zeng Zhou, Mengpiao Xu, Changkuan Zhang and Giovanni Coco (2017). Modeling the role of storms on tidal flat sorting dynamics, The 10th Symposium River, Coastal and Estuarine Morphodynamics (RCEM2017), September 14-21, Padova, Italy.

[9]Xu F., Coco G., Tao J., Zhou Z. and Zhang C (2017) On the initial formation and long-term equilibrium of tidal channels, The 10th Symposium River, Coastal and Estuarine Morphodynamics (RCEM2017), September 14-21, Padova, Italy.

[10]Xu B., Gong Z., Zhang Q., Zhou J., Zhou Z. and Zhang C (2017) Field Observations of Short-term Sediment Dynamic Processes on Intertidal Zone of Jiangsu Coast, China, The 10th Symposium River, Coastal and Estuarine Morphodynamics (RCEM2017), September 14-21, Padova, Italy.

[11]van der Wegen M., de Vet L., Zhou Z., Coco G. and Jaffe B. (2017) Modeling tidal morphodynamics at the channel-mudflat interface, The 10th Symposium River, Coastal and Estuarine Morphodynamics (RCEM2017), September 14-21, Padova, Italy.

[12]Chen X.D., Zhang C.K., Gong Z., Zhou Z. and Feng Q. (2017) Sediment bed stability re-distributed by bacterial biofilms, The 10th Symposium River, Coastal and Estuarine Morphodynamics (RCEM2017), September 14-21, Padova, Italy.

[13]Zeng Zhou, Jianfeng Tao, Zheng Gong, Leicheng Guo, and Mick van der Wegen (2016). Long-term morphodynamics: Can we neglect salinity difference? The 18th Physics of Estuaries and Coastal Seas Conference (PECS2016), September 9-14, Scheveningen, Netherlands. (abstract)

[14]Kun Zhao, Zheng Gong, Zeng Zhou, Yunwei Wang, and Changkuan Zhang (2016). Morphodynamic evolution of tidal creeks: A numerical model considering bank collapse. The 18th Physics of Estuaries and Coastal Seas Conference (PECS2016), September 9-14, Scheveningen, Netherlands. (abstract)

[15]Tao Jianfeng , Kuai Yu, Zhou Zeng, Zhang Changkuan (2016). Morphodynamic modelling of radial sand ridges in the Southern Yellow Sea: Formation and grain-size sorting. The 18th Physics of Estuaries and Coastal Seas Conference (PECS2016), September 9-14, Scheveningen, Netherlands. (abstract)

[16]Zheng Gong, Liang Geng, Tingyu Li, Zeng Zhou and Changkuan Zang (2016). Physical modelling of tidal network evolution: the influence of tide asymmetry and spring-neap tides. The 18th Physics of Estuaries and Coastal Seas Conference (PECS2016), September 9-14, Scheveningen, Netherlands. (abstract)

[17]Fan Xu, Giovanni Coco, Changkuan Zhang, Jianfeng Tao, and Zeng Zhou (2016). A morphodynamic study on the equilibrium of tidal channels. The 18th Physics of Estuaries and Coastal Seas Conference (PECS2016), September 9-14, Scheveningen, Netherlands. (abstract)

[18]Maitane Olabarrieta , W. Rockwell Geyer , Zhendong Cao, Zeng Zhou and Giovanni Coco (2016). Relative contribution of barotropic and baroclinic processes to the subtidal bottom-shear stress: possible implications for the morphodynamic evolution of estuaries. The 18th Physics of Estuaries and Coastal Seas Conference (PECS2016), September 9-14, Scheveningen, Netherlands. (abstract)

[19]Mick van der Wegen , Lodewijk de Vet , Zeng Zhou, Giovanni Coco, Bruce Jaffe (2016). Modeling morphodynamics at the channel-mudflat interface. The 18th Physics of Estuaries and Coastal Seas Conference (PECS2016), September 9-14, Scheveningen, Netherlands. (abstract)

[20]Jin, C., Gong, Z., Zhang, C., Zhou, Z., & Li, H. (2015). The role of surface and subsurface processes on the morphodynamics of a vegetated mudflat. Proceedings of the Twenty-Fifth International Ocean and Polar Engineering Conference, 1317–1324. (ei paper)

[21]Olabarrieta M., Coco G. and Zhou Z. (2013) Effect of external overtides on tidal basin hydro-morphodynamic feedbacks, CERF 2013, USA. (abstract)

[22]Zhou Z., Coco G., Olabarrieta M. and van der Wegen M. (2013) On the transition between tide- and river-dominated back-barrier estuarine environments. in Zhaoyin Wang, Joseph Hun-Wei Lee, Jizhang Gao and Shuyou Cao (eds.), Proceedings of the 35th IAHR World Congress, Tsinghua University Press, Beijing. China. (paper)

[23]Olabarrieta M., Coco G., Zhou Z. and Castanedo S. (2013) Effects of externally and internally generated overtides on tidal basin hydro-morphodynamic feedbacks. The 8th IAHR symposium on River, Coastal and Estuarine Morphodynamics (RCEM 2013), Santander, Spain. (abstract)

[24]Jiménez M., Zhou Z., Castanedo S., Coco G., Medina R. and Rodriguez-Iturbe I. (2013) Tidal channel networks: hydrodynamic controls of their topological structure. The 8th IAHR symposium on River, Coastal and Estuarine Morphodynamics (RCEM 2013), Santander, Spain. (abstract)

[25]Zhou Z., Olabarrieta M., Stefanon L., D'Alpaos A., Carniello L. and Coco G. (2013) Morphodynamic modelling of tidal networks and comparison with laboratory experiments.  The 8th IAHR symposium on River, Coastal and Estuarine Morphodynamics (RCEM 2013), Santander, Spain. (abstract)

[26]Zhou Z. and Lopez de San Roman B. (2011) Development and application of a combined model for longshore sediment transport and beach response. in Z. Wang, (ed.), Proceedings of the 7th IAHR symposium on River, Coastal and Estuarine Morphodynamics (RCEM 2011), Tsinghua Unviersity Press, Bejing, China. (paper)

2018.01           河海大学“大禹学者计划”第三层次培养对象

2017.12           Elsevier-Advances in Water Resources期刊年度审稿突出贡献证书

2017.02           教育部，科学技术进步奖二等奖(排名：5/15): “南黄海潮滩演变与开发保护关键技术研究及应用”，编号2016-249，（龚政,陶建峰,张长宽,康彦彦,周曾,陈君,李欢,葛小平,王韫玮,丁贤荣,丁坚,张茜,靳闯,耿亮,徐凡）

2015.03           西班牙优秀博士论文(Cum Laude)

2014.12           Elsevier-Continental Shelf Research期刊年度审稿突出贡献证书

2012.03-2015.03   西班牙政府“引智”(Attracting Talents International)项目博士基金

2009.08-2011.07   欧盟Erasmus Mundus (CoMEM)硕士项目奖学金

2011.09           第七届IAHR-RCEM国际会议最佳报告奖

2011.07           荷兰Delft理工大学及英国Southampton大学优秀硕士毕业生(Cum Laude)