上海国土资源
上海國土資源
상해국토자원
SHANGHAI LAND&RESOURCES
2014年
1期
71-76,87
,共7页
海洋环境监测%浮标观测站%监测网络布局%东海海区
海洋環境鑑測%浮標觀測站%鑑測網絡佈跼%東海海區
해양배경감측%부표관측참%감측망락포국%동해해구
marine environmental monitoring%buoy gauging station%monitoring network layout%East China Sea area
基于海洋环境监测现状与发展,针对目前东海区浮标站位较少、布局不均和观测功能设置不完善等限制了其在海洋预报、防灾减灾、维权执法等方面保障功能的提高问题,为满足东海区观测形势需要,结合重要流系和重要海洋现象监测、台风与风暴潮预警预报、海洋权益维护及保障等需求,设计了较为科学合理的东海区浮标观测网布局。在现有浮标观测系统的基础上增加18个浮标站位,其中包含11个10m浮标、7个3m浮标和3个潜标,新的东海区浮标观测网系统将与海洋(台)站、海上平台、海基床、岸基雷达等观测系统共同构建东海区实时立体海洋观测网。
基于海洋環境鑑測現狀與髮展,針對目前東海區浮標站位較少、佈跼不均和觀測功能設置不完善等限製瞭其在海洋預報、防災減災、維權執法等方麵保障功能的提高問題,為滿足東海區觀測形勢需要,結閤重要流繫和重要海洋現象鑑測、檯風與風暴潮預警預報、海洋權益維護及保障等需求,設計瞭較為科學閤理的東海區浮標觀測網佈跼。在現有浮標觀測繫統的基礎上增加18箇浮標站位,其中包含11箇10m浮標、7箇3m浮標和3箇潛標,新的東海區浮標觀測網繫統將與海洋(檯)站、海上平檯、海基床、岸基雷達等觀測繫統共同構建東海區實時立體海洋觀測網。
기우해양배경감측현상여발전,침대목전동해구부표참위교소、포국불균화관측공능설치불완선등한제료기재해양예보、방재감재、유권집법등방면보장공능적제고문제,위만족동해구관측형세수요,결합중요류계화중요해양현상감측、태풍여풍폭조예경예보、해양권익유호급보장등수구,설계료교위과학합리적동해구부표관측망포국。재현유부표관측계통적기출상증가18개부표참위,기중포함11개10m부표、7개3m부표화3개잠표,신적동해구부표관측망계통장여해양(태)참、해상평태、해기상、안기뢰체등관측계통공동구건동해구실시입체해양관측망。
With respect to the observational capacity of the network of marine environmental-monitoring buoys in the East China Sea, we focus on the issues of the number of buoys, the uneven distribution of buoys, and incomplete observation functionality. The present observational capacity of the marine environmental-monitoring buoys limits conifdence in marine forecasts, disaster prevention, and law enforcement. To meet the observational needs in the area of the East China Sea, combined with the requirements of typhoon storm forecasts and alerts, the protection of marine rights and interests, and the importance of the sea-current system and other marine phenomena, an improved distribution of buoys has been designed for the East China Sea. A total of 18 new monitoring stations were added to the existing system, and the new layout contains eleven 10-m buoys, seven 3-m buoys, and three submarine buoys. The new buoy observation system in the East China Sea, together with ocean stations, an offshore platform, a sea-bed observation system, and shore-based radar, constitutes a real-time, three-dimensional ocean observation network.