[1] Munk W H, Wunsh C. The Moon and mixing: Abyssal recipes II [J]. Deep Sea Research,1997, 42: 135-148.
[2] Lozovatsky I D, Fernando H J S. Turbulent mixing on a shallow shelf of the Black Sea [J]. Journal of Physical Oceanography,2002, 32(3): 945-956.
[3] Kang S K, Foreman M G G, Lie H J, et al. Two-layer tidal modeling of the Yellow and East China Seas with application to seasonal variability of the M2 tide [J]. Journal of Geophysical Research, 2002, 107(C3): 10.
[4] Ezer T. Entrainment, diapycnal mixing and transport in three-dimensional bottom gravity currents simulations using the Mellor-Yamada turbulence scheme [J]. Ocean Modelling, 2005, 9(2): 151-168.
[5] Gao Shu. Comments on the "NSF Margins Program Science Plans 2004" [J]. Marine Geology & Quaternary Geology, 2005, 25(1): 119-123. [高抒. 美国“洋陆边缘科学计划2004”述评 [J].海洋地质与第四纪地质,2005,25(1): 119-123.]
[6] Tang Qisheng, Su Jilan, Zhang Jing. Key progresses and sustainable mechanisms of ecosystem food production in the coastal ocean of China [J]. Advances in Earth Science, 2005, 20(12):1 280-1 287.[唐启升,苏纪兰,张经. 我国近海生态系统食物产出的关键过程及其可持续机理 [J]. 地球科学进展,2005,20(12):1 280-1 287.]
[7] Liu S M, Zhang J, Li R X. Ecological significance of biogenic silica in the East China Sea [J]. Marine Ecology Progress Series, 2005, 290: 15-26.
[8] Gao Shu, Li Anchun. Research of sedimentary progresses in marine environments: A prospect [J]. Marine Sciences, 2000, 24(2):1-3.[高抒, 李安春. 浅海现代沉积作用研究展望 [J]. 海洋科学,2000, 24(2):1-3.]
[9] Wild-Allen K, Lane A, Tett P. Phytoplankton, sediment and optical observations in Netherlands coastal water in spring [J]. Journal of Sea Research, 2002, 47: 303-315.
[10] Lochte K. Benthic processes and the Burial of Carbon[C]∥Fasham M J R, eds. Ocean Biogeochemistry—The Role of the Ocean Carbon Cycle in Global Change.Germany: Springer-Verlag, 2002:195-216.
[11] Hu Dunxin, Yang Zuosheng, eds. Key Processes of the Sea Flux in the East China Sea[M]. Beijing:Ocean Press,2001.[胡敦欣,杨作升著.东海海洋通量关键过程 [M]. 北京: 海洋出版社,2001.]
[12] Hu Dunxin, Han Wuying, Zhang Shen, et al. Land-Sea Interaction within the Changjiang, Zhujiang Estuaries and Their Adjacent water[M]. Beijing: Ocean Press,2001.[胡敦欣, 韩舞英, 章申, 等. 长江、珠江口及邻近海域陆海相互作用 [M]. 北京:海洋出版社. 2001.]
[13] Wang Fan, Xu Jiongxin, et al. Some Important Problems of Land-sea Interaction within the Changjiang, Huanghe Estuaries and Their Adjacent Water[M]. Beijing:Ocean Press,2004.[王凡,许炯心,等. 长江、黄河口及邻近海域陆海相互作用若干重要问题 [M]. 北京:海洋出版社, 2004.]
[14] Jonsson I G. Wave boundary layers and friction factors[C]∥Proc. 10th International Conference Coastal Engineering.Tokyo,1966:127-148.
[15] Sleath J F A. Turbulent oscillatory flow over rough beds[J]. Journal of Fluid Mechanics, 1987, 182: 369-409.
[16] Wang Yaping, Gao Shu, Jia Jianjun. Flow structure in the marine boundary layer and bedload transport: A Review[J]. Marine Geology & Quaternary Geology,2000,20(3):101-106. [汪亚平,高抒,贾建军. 海底边界层水流结构及底移质搬运研究进展[J]. 海洋地质与第四纪地质,2000,20(3):101-106.]
[17] Fugate D C, Friedrichs C T. Determining concentrartion and fall velocity of estuarine particle populations using ADV, OBS and LISST[J]. Continental Shelf Research, 2002, 22:1 867-1 886.
[18] Ferre B, Guizien K, Madron X D D, et al. Fine-grained sediment dynamics during a strong storm event in the inner-shelf of the Gulf of Lion (NW Mediterranean) [J]. Continental Shelf Research, 2005, 25(19/20):2 410-2 427.
[19] Styles R, Glenn M. Modeling bottom roughness in the presence of wave-generated ripples [J]. Journal of Geophysical Research,2002,107(C8):6.
[20] Lacy J R, Sherwood C R, Wilson D J, et al. Estimating hydrodynamic roughness in a wave-dominated environment with a high-resolution acoustic Doppler profiler [J]. Journal of Geophysical Research, 2005, 110(C6): 14.
[21] Burchard H, Bolding K, Rippeth T P, et al. Microstructure of turbulence in the northern North Sea: A comparative study of observations and model simulations [J]. Journal of Sea Research, 2002, 47: 223-238.
[22] McCandliss P R, Jones S E, Hearn M, et al. Dynamics of suspended particles in coastal waters (southern North Sea) during a spring bloom [J]. Journal of Sea Research, 2002, 47: 285-302.
[23] Jagoa C F, Jones S E, Latter R J, et al. Resuspension of benthic fluff by tidal currents in deep stratified waters, northern North Sea [J]. Journal of Sea Research, 2002, 48: 259-269.
[24] Lee J Y, Tett P, Jones K, et al. The PROWQM physical biological model with benthic pelagic coupling applied to the northern North Sea [J]. Journal of Sea Research, 2002, 48: 287-331.
[25] Voulgaris G, Meyers S T. Temporal variability of hydrodynamics, sediment concentration and sediment settling velocity in a tidal creek [J]. Continental Shelf Research, 2004, 24:1 659-1 683.
[26] Qin Yunshan. Primary study on the topography and sediment type in China shelf sea[J]. Oceanologia et Limnologia Sinia, 1963, 5(1): 71-86. [秦蕴珊. 中国陆架海的地形及沉积类型的初步研究 [J]. 海洋与湖沼, 1963, 5(1): 71-86.]
[27] Chen Jiyu, Yun Caiying, Yu Zhiying. Development and Variation of the Chinese Coastal Zone[M]. Shanghai: Shanghai Scientific and Techincal Publishers,1989.[陈吉余, 恽才英, 虞志英. 中国海岸带发育过程与演变规律 [M]. 上海: 上海科学技术出版社, 1989.]
[28] Shi Zhong. Estuarine and coastal bottom boundary layer and fine sediment processed [J]. Marine Science,2000, 24(11):26-30. [时钟. 河口海岸底部边界层和细颗粒泥沙过程 [J]. 海洋科学,2000, 24(11): 26-30.]
[29] Dong Lixian, Su Jilan, Wang Kangshan. Tidal current and its relationship with sediment transport in the Bohai and Yellow sea[J]. Acta Oceanologica Sinica, 1989, 11(1): 102-114. [董礼先,苏纪兰,王康善. 黄渤海潮流场及其与沉降搬运的关系 [J]. 海洋学报,1989, 11(1):102-114.]
[30] Gao S,Park Y A,Zhao Y Y,et al. Transport and resuspension of fine-grained ediment over the Southeastern Yellow sea[C]∥Proceedings of the Korea-China International Seminar on Holocene and Late Pleistocene Environments in the Yellow Sea Basin,1996:83-98.
[31] Liu Zhenxia, Xia Dongxing, Wang Kuiyang. Tidal depositional systems and patterns of China’s continental shelf [J]. Oceanologia et Lomnologia Sinia, 1998, 29(2): 141-147.[刘振夏, 夏东兴, 王揆洋. 中国陆架潮流沉积体系和模式[J]. 海洋与湖沼, 1998, 29(2): 141-147.]
[32] Zhu Yurong. The controlling role of tidal current regime in the distribution patterns of bottom sediments in the continental shelves of the Bohai sea, Yellow sea and East China sea[J]. Marine Geology & Quaternary Geology,2001, 21(2): 7-13.[朱玉荣. 潮流场对渤、黄、东海陆架底质分布的控制作用[J]. 海洋地质与第四纪地质, 2001, 21(2): 7-13.]
[33] Cao Z Y, Li Y, Dong L X. The bottom boundary layer observation and using at Tidal Model in Hangzhou Bay[C]∥Hangzhou: Proceeding of International Conference on Tidal Dynamics and Environment Research. 2002.
[34] Song Jinming. Sediment-water Interface Chemistry[M]. Beijng: Ocean Press, 1997. [宋金明. 中国近海沉积物—海水界面化学 [M]. 北京:海洋出版社, 1997.]
[35] Dong Lixian, Zhang Jing, Xu Weiyi. Modelling of nutrient dynamics in a macro-tidal bay from south China[C]∥Zhang Jing, eds. Land-Sea Interaction in Chinese Coastal Zones. Beijing: Ocean Press,1998:91-131.
[36] Souza A J, Alvarez L G, Dickey T. Tidally induced turbulence and suspended sediment[J]. Geophysical Research Letters, 2004, 31: L20309.
[37] Ivanovich M, Harmon R S. Uranium-series Disequilibrium:Application to Earth, Marine and Environmental science [M]. Oxford: Clarendon Press, 1992:334-486.
[38] Huang Yipu. Isotopic chemistry in the area of Nansha Islands[M]. Beijing: Ocean Press,1996.[黄奕普. 南沙群岛海域的同位素海洋化学[M]. 北京:海洋出版社, 1996.]
|