Three kind of application of ADCP is reported for long-term monitoring in coastal sea.(1)The routine monitoring of water qualities. The water quality and ADCP echo data (600 kHz) observed in the long-term are analgzed...Three kind of application of ADCP is reported for long-term monitoring in coastal sea.(1)The routine monitoring of water qualities. The water quality and ADCP echo data (600 kHz) observed in the long-term are analgzed at MT (Marine Tower) Station of Kansai International Airport in the Osaka Bay, Japan. The correlation between the turbidity and echo intensity in the surface layer is not good because air bubbles generated by breaking wave are not detected by the turbidity meter, but detected well by ADCP. When estimating the turbidity consists of plankton population from echo intensity, the effect of bubbles have to be eliminated. (2) Monitoring stirring up of bottom sediment. The special observation was carried out by using following two ADCP in the Osaka Bay, One ADCP was installed upward on the sea. The other ADCP was hanged downward at the gate type stand about 3 m above from the bottom. At the spring tide, high echo intensities indicating the stirring up of bottom sediment were observed. (3) The monitoring for the boundary condition of water mixing at an estuary. In summer season, the ADCP was set at the mouth of Tanabe Bay in Wakayama Prefecture, Japan. During the observation, water temperature near the bottom showed remarkable falls with interval of about 5-7 d. When the bottom temperature fell, the inflow current with low echo intensity water appears at the bottom layer in the ADCP record. It is concluded that when occasional weak northeast wind makes weak coastal upwelling at the mouth of the bay, the combination of upwelling with internal tidal flow causes remarkable water exchange and dispels the red tide.展开更多
为了研究黄海近海鱼类活动规律,采用自主研制的科研型鱼探仪于2015年11月22日至12月5日对调查海域的鱼类活动进行了首次声学调查,统计分析鱼类活动规律。在调查海域布放4套鱼探仪设备对鱼类进行定点长时间监测,并将采集到的鱼类回波数...为了研究黄海近海鱼类活动规律,采用自主研制的科研型鱼探仪于2015年11月22日至12月5日对调查海域的鱼类活动进行了首次声学调查,统计分析鱼类活动规律。在调查海域布放4套鱼探仪设备对鱼类进行定点长时间监测,并将采集到的鱼类回波数据利用水声技术进行分析和处理,得到调查海域单体鱼类目标强度在垂直方向上的分布、鱼类目标强度大小的分布以及鱼类在不同水层和不同时间段的活动情况。结果显示,调查海域冬季鱼类主要活动在4~10 m的中上水层,鱼类分布随着水层深度的逐步增加而急剧减少;从9∶00至13∶00鱼类活动频度呈增大趋势,并在13∶00至14∶00频度达到顶峰(约为38%),随后频度减弱;统计得到该海域鱼类目标强度主要以-49^-40 d B占比最高,目标强度大于-40 d B的鱼类均匀分布在整个水层,目标强度小于-40 d B的鱼类主要分布在4~10 m浅水层。研究表明,采用水声技术能够实现对鱼类活动的监测;调查海域的鱼类目标强度分布比较集中,鱼类在深度上的分布主要集中于中上水层,鱼类在不同时间段的活动情况随水温变化而变化,温度升高鱼类活动频度增加,反之则降低。由此可知,该海域鱼类的种类以暖水物种为主。展开更多
文摘Three kind of application of ADCP is reported for long-term monitoring in coastal sea.(1)The routine monitoring of water qualities. The water quality and ADCP echo data (600 kHz) observed in the long-term are analgzed at MT (Marine Tower) Station of Kansai International Airport in the Osaka Bay, Japan. The correlation between the turbidity and echo intensity in the surface layer is not good because air bubbles generated by breaking wave are not detected by the turbidity meter, but detected well by ADCP. When estimating the turbidity consists of plankton population from echo intensity, the effect of bubbles have to be eliminated. (2) Monitoring stirring up of bottom sediment. The special observation was carried out by using following two ADCP in the Osaka Bay, One ADCP was installed upward on the sea. The other ADCP was hanged downward at the gate type stand about 3 m above from the bottom. At the spring tide, high echo intensities indicating the stirring up of bottom sediment were observed. (3) The monitoring for the boundary condition of water mixing at an estuary. In summer season, the ADCP was set at the mouth of Tanabe Bay in Wakayama Prefecture, Japan. During the observation, water temperature near the bottom showed remarkable falls with interval of about 5-7 d. When the bottom temperature fell, the inflow current with low echo intensity water appears at the bottom layer in the ADCP record. It is concluded that when occasional weak northeast wind makes weak coastal upwelling at the mouth of the bay, the combination of upwelling with internal tidal flow causes remarkable water exchange and dispels the red tide.
文摘为了研究黄海近海鱼类活动规律,采用自主研制的科研型鱼探仪于2015年11月22日至12月5日对调查海域的鱼类活动进行了首次声学调查,统计分析鱼类活动规律。在调查海域布放4套鱼探仪设备对鱼类进行定点长时间监测,并将采集到的鱼类回波数据利用水声技术进行分析和处理,得到调查海域单体鱼类目标强度在垂直方向上的分布、鱼类目标强度大小的分布以及鱼类在不同水层和不同时间段的活动情况。结果显示,调查海域冬季鱼类主要活动在4~10 m的中上水层,鱼类分布随着水层深度的逐步增加而急剧减少;从9∶00至13∶00鱼类活动频度呈增大趋势,并在13∶00至14∶00频度达到顶峰(约为38%),随后频度减弱;统计得到该海域鱼类目标强度主要以-49^-40 d B占比最高,目标强度大于-40 d B的鱼类均匀分布在整个水层,目标强度小于-40 d B的鱼类主要分布在4~10 m浅水层。研究表明,采用水声技术能够实现对鱼类活动的监测;调查海域的鱼类目标强度分布比较集中,鱼类在深度上的分布主要集中于中上水层,鱼类在不同时间段的活动情况随水温变化而变化,温度升高鱼类活动频度增加,反之则降低。由此可知,该海域鱼类的种类以暖水物种为主。