东海ARGO浮标的投放战略

Q4 Engineering
박종진, 박종숙
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引用次数: 0

摘要

本研究旨在确定东海ARGO浮体的最佳数量,以最大限度地发挥其应用价值。考虑了东海的优势时空尺度、区域大小和典型浮子寿命。等压面温度的平均空间去相关尺度达到60 km左右。为了获得具有去相关尺度的独立ARGO剖面,所需的最小浮标数平均约为82个。考虑到浮子的使用寿命,每年应该部署大约27个浮子来维护82个ARGO浮子阵列。为了获得ARGO浮子数据的空间均匀分布,对东海各海盆中ARGO浮子的平均停留时间和分散率(流域面积/停留时间)进行了评价。更快(更慢)的分散速率需要更多(更少)的ARGO浮标来保持空间上均匀的浮标数量。根据分析,各盆地的漂浮物数量的最佳比例可能是1:2:4,对应于郁陵盆地:大和盆地:日本盆地。为了保持相对均匀的ARGO观测网络,有必要根据浮子路径和利用当前活跃的ARGO浮子轨迹数据和再分析数据估计的弥散率参数,制定长期的部署策略计划。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
동해 ARGO 플로트의 투하 전략
This study was carried out to determine the optimal number of ARGO floats in the East Sea in order to maximize their applications. The dominant spatio-temporal scale, size of the domain, and the typical float lifetimes in the East Sea were taken into consideration. The mean spatial de-correlation scale of temperature on isobaric surfaces reaches about 60 km. The minimum necessary number of floats is about 82 on average in order to secure independent ARGO profiles with the de-correlation scale. Considering the float lifetimes, about 27 floats per year should be deployed to maintain the 82 ARGO float array every year. To obtain spatially uniform distribution of ARGO float data, mean residence time and dispersion rate (basin area/residence time) of ARGO floats were evaluated in each basin of the East Sea. A faster (slower) dispersion rate requires more (less) ARGO floats to maintain the spatially uniform number of floats. According to the analysis, it is likely that the optimal ratio of the number of floats for each basin is 1:2:4 corresponding to Ulleung Basin:Yamato Basin:Japan Basin. In order to maintain relatively uniform ARGO observing networks, it is necessary to establish a long-term plan for deployment strategy based on float pathways and the dispersion rate parameters estimated by using currently active ARGO float trajectory data as well as reanalysis data.
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来源期刊
Ocean and Polar Research
Ocean and Polar Research Engineering-Ocean Engineering
CiteScore
0.80
自引率
0.00%
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0
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