基于10米浮标载体的锚链式剖面观测系统实践之一——自容式采集方式

发布时间：2018-06-19 14:33

  本文选题：剖面观测 + 锚链式　； 参考：《海洋科学》2016年08期

【摘要】：为了对我国近海海域进行剖面观测,获取到多层位水体的多要素观测数据,尝试依托中国近海海洋观测研究网络东海站10 m浮标系统的锚系,采用在锚系上挂载自容式组合传感器方式,获取到8个观测周期共412 d的有效剖面观测数据,观测层位分布于10,20,30 m 3个水层;通过结合浮标获取的表层温度数据与3个水层的对比分析表明,锚链式剖面观测方案在实用性和可推广性方面具有显著优势,是基于海面浮标载体进行剖面观测的有益尝试,可在我国构建的海洋浮标观测网络上进行广泛应用,将为我国近海海洋科学研究提供弥足珍贵的水面-水体全序列系统观测数据资料,从而为近海海洋科学研究取得突破性进展提供重要的数据支撑。
[Abstract]:In order to obtain the multi-element observation data of the multi-layer water body in the offshore waters of China, the anchor system of the 10m buoy system of the East China Sea Station based on the China Offshore Ocean observation and Research Network is attempted. By means of self-contained sensor mounted on the anchor system, the effective data of 412d observation data of 8 observation periods were obtained, and the observed layers were distributed in 3 water layers of 10 ~ 2030 m. The comparison and analysis of surface temperature data obtained by buoy and three water layers show that the anchor chain profile observation scheme has remarkable advantages in practicability and extensibility, and it is a useful attempt to carry out profile observation based on sea surface buoy carrier. It can be widely used in the ocean buoy observation network constructed in our country, which will provide valuable systematic observation data for the offshore marine scientific research in China. Therefore, it provides important data support for the breakthrough of offshore marine scientific research.
【作者单位】： 中国科学院海洋研究所;
【基金】：中国科学院战略性先导科技专项(A类)资助(XDA11020306-2)~~
【分类号】：P715.2
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本文编号：2040203