Toward a mesoscale hydrological and marine meteorological observation network in the South China Sea

Tuesday, June 16, 2015: 3:15 PM
Lei Yang1, Xin Wang2, Lili Zeng2, Rui Shi3, Yunkai He2, Qiang Xie2, Shengan Wang2, Ju Chen2, Jian Li2, Shiqiu Peng2 and Dongxiao Wang2, (1)SCSIO, Guangzhou, China, (2)SCSIO South China Sea Institute of Oceanology, Chinese Acaademy of Sciences, Guangzhou, China, (3)SCSIO, CAS, Guangzhou, China
Abstract:
Air–sea interaction in the South China Sea (SCS) has direct impacts on weather and climate of its surrounding areas at various spatiotemporal scales. In situ observation plays a vital role in exploring the dynamic characteristics of the regional circulation and air–sea interaction. Remote sensing and regional modeling are expected to provide high-resolution data for studies of air–sea coupling; however, careful validation and calibration using in situ observations is necessary to ensure the quality of these data. Through a decade of effort, a marine observation network in the SCS has begun to be established, yielding a regional observatory for the air/sea synoptic system.

Earlier observations in the SCS were scarce and narrowly focused. Since 2004, an annual series of scientific open cruises during late summer in the SCS have been organized by the South China Sea Institute of Oceanology (SCSIO), carefully designed based on the dynamic characteristics of the oceanic circulation and air–sea interaction in the SCS region. Since 2006, the cruise carried a radiometer and radiosondes on board, marking a new era of marine meteorological observation in the SCS. Fixed stations have been established for long-term and sustained records. Observations obtained through the network have been used to study regional ocean circulation and processes in the marine atmospheric boundary layer. In future, a great number of multi-institutional, collaborative scientific cruises and observations at fixed stations will be carried out to establish a mesoscale hydrological and marine meteorological observation network in the SCS.