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The variation of turbulent diapycnal mixing at 18°N in the South China Sea stirred by wind stress 总被引:1,自引:0,他引:1
The spatial and temporal variations of turbulent diapycnal mixing along 18°N in the South China Sea(SCS) are estimated by a fine-scale parameterization method based on strain, which is obtained from CTD measurements in yearly September from 2004 to 2010. The section mean diffusivity can reach ~10~(–4)m~2/s, which is an order of magnitude larger than the value in the open ocean. Both internal tides and wind-generated near-inertial internal waves play an important role in furnishing the diapycnal mixing here. The former dominates the diapycnal mixing in the deep ocean and makes nonnegligible contribution in the upper ocean, leading to enhanced diapycnal mixing throughout the water column over rough topography. In contrast, the influence of the wind-induced nearinertial internal wave is mainly confined to the upper ocean. Over both flat and rough bathymetries, the diapycnal diffusivity has a growth trend from 2005 to 2010 in the upper 700 m, which results from the increase of wind work on the near-inertial motions. 相似文献
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海洋是生命的摇篮、资源的宝库和国家安全的屏障,是未来人类可持续发展的重要战略空间。到目前为止,广袤深邃的海洋只有5%的区域被人类探索,加快海洋科技创新、提高海洋资源开发能力、保护海洋生态环境是实现“关心海洋、认识海洋、经略海洋”的根本,事关国家发展的命脉。海洋问题的复杂性使其无法通过单一学科的研究得以解决。目前,我国海洋科学的研究已逐步从过去的跟跑阶段进入并跑阶段,但原始创新能力明显不足。本文回顾分析了我国海洋科学领域的研究进展与发展态势,对标找出与世界先进国家的差距,展望了今后的发展方向,指出围绕海洋多尺度相互作用与气候变化、健康海洋、海洋生命过程、跨圈层流固耦合、快速变化的极地系统、海岸带可持续发展等重大科学前沿,加强顶层设计和战略布局,开展跨尺度、跨圈层的多学科交叉研究,组织并发起我国主导的国际大科学计划,从而显著提升我国在海洋科学研究领域的国际影响力,切实提高保障国家安全和服务社会经济发展需求的能力,为建设海洋强国、构建人类命运共同体提供重要科技支撑。 相似文献
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