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孟加拉湾南部表层沉积物稀土元素组成及其物源指示意义 被引量:6
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作者 孙兴全 刘升发 +6 位作者 李景瑞 曹鹏 张辉 赵广涛 Somkiat Khokiattiwong Narumol Kornkanitnan 石学法 《海洋地质与第四纪地质》 CAS CSCD 北大核心 2020年第2期80-89,共10页
基于孟加拉湾南部98个表层沉积物的稀土元素组成及其空间分布特征,判别了研究区表层沉积物主要来源,并结合水动力环境等探讨了孟加拉湾南部区域沉积物输运方式。结果表明,研究区表层沉积物稀土元素总含量范围为67.62~180.67μg/g,其平... 基于孟加拉湾南部98个表层沉积物的稀土元素组成及其空间分布特征,判别了研究区表层沉积物主要来源,并结合水动力环境等探讨了孟加拉湾南部区域沉积物输运方式。结果表明,研究区表层沉积物稀土元素总含量范围为67.62~180.67μg/g,其平均值为100.85μg/g,且具有轻稀土富集、重稀土均一、明显的Eu负异常的特征。基于稀土元素主要参数,可将研究区分为两个区域,Ι区位于研究区西部,Ⅱ区位于研究区东部。根据球粒陨石标准化后的La/Yb-Sm/Nd物源判别图解可知,研究区表层沉积物的最主要来源为恒河-布拉马普特拉河搬运的喜马拉雅山侵蚀物质,其对整个研究区均有重要影响;次要来源为戈达瓦里河-克里希纳河输送的印度半岛物质,其主要影响范围为研究区西侧的Ι区。不同源区沉积物在研究区的输运过程主要受控于季节性表层环流,其驱动力为印度季风系统。 展开更多
关键词 孟加拉扇 稀土元素 物质来源 季风环流 东北印度洋
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China published ocean forecasting system for the 21st-Century Maritime Silk Road on December 10, 2018 被引量:3
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作者 Fangli Qiao Guansuo Wang +3 位作者 Somkiat Khokiattiwong Mohd Fadzil Akhir Wenxi Zhu Bin Xiao 《Acta Oceanologica Sinica》 SCIE CAS CSCD 2019年第1期1-3,共3页
1 The unique ocean forecasting system (OFS) based on FIO-COM The OFS is based on the surface wave-tide-circulation coupled ocean model developed by the First Institute of Oceanography (FIO-COM), Ministry of Natural Re... 1 The unique ocean forecasting system (OFS) based on FIO-COM The OFS is based on the surface wave-tide-circulation coupled ocean model developed by the First Institute of Oceanography (FIO-COM), Ministry of Natural Resources, China. The half-century challenge that ocean circulation models must address is that the forecasting/simulated sea surface temperature overheats while the sub-surface temperature is too cold, especially during the summer. Qiao et al.(2004, 2010, 2016) found that the non-breaking surface wave can generate turbulence through wave-turbulence interaction, and they developed the wave-induced mixing theory, which has been confirmed by observations, laboratory experiments and model numerical simulations. As validated by ocean circulation models from various research groups, including Geophysical Fluid Dynamics Laboratory (GFDL) in the US (Fan and Griffies, 2014), Uppsala University of Sweden (Wu et al., 2015), Laboratoire d’Etudes en Geophysique et Oceanographie Spatiale (LEGOS) in France (Malek and Babanin, 2014), Budapest University of Technology and Economics in Hungary (Peter and Kramer, 2016) and the Ocean University of China (Lin et al., 2006), the non-breaking surface waveinduced vertical mixing (Bv) can always dramatically improve the simulation capacity of various ocean circulation models. The First Institute of Oceanography (FIO) research group found that tidal-induced mixing plays a key role in the formation of coastal upwelling, in the bottom mixed layer and in areas with sea mounts (Lv et al., 2006, 2008). With the above breakthroughs, the first surface wavetide-circulation coupled model of FIO-COM was developed in 2013. It was adopted to produce a reanalysis dataset for the period of January 2014 to April 2016, and it has been used for the operational OFS since May 2016. A highly efficient parallel scheme was designed to use the full capacity of Taihu Light with 10 649 600 CPU cores (Qiao et al., 2016), which earned a finalist nomination for the international Association for Computing Machinery (ACM) Gordon Bell Prize. 展开更多
关键词 OFS FIO-COM China
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