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1.
Using the hydroacoustic method with a 200 kHz scientific echo sounding system,the diel vertical migration(DVM) of the sound-scattering layer(SSL) in the Yellow Sea Bottom Cold Water(YSBCW) of the southeastern Yellow Sea was studied in April(spring) and August(summer) of 2010 and 2011.For each survey,13–27 hours of acoustic data were continuously collected at a stationary station.The acoustic volume scattering strength(Sv) data were analyzed with temperature profile data.In the spring of both 2010 and 2011,the SSL clearly showed the vertical migration throughout the entire water column,moving from the surface layer at night to near the bottom during the day.Conductivity,temperature,and depth data indicated that the entire water column was well mixed with low temperature of about 8 C.However,the SSL showed different patterns in the summers of 2010 and 2011.In the summer of 2010(28 C at the surface),the SSL migrated to near the bottom during the day,but there were two SSLs above and below the thermocline at depth of 10–30 m at night.In the summer of 2011(20 C at the surface),the SSL extended throughout the entire water column at night,possibly owing to an abrupt change in sea weather conditions caused by the passage of a Typhoon Muifa over the study area.It was concluded that the DVM patterns in summer in the YSBCW area may be greatly influenced by a strengthened or weakened thermocline. 相似文献
2.
Acoustic Doppler current profiler (ADCP) receives echoes from sound scatterers, then their speed is calcu- lated by the Doppler effect. In the open ocean, most of these backscatterers are from the plankton. The sound scatterers descend down to depth at around dawn, their mean speed is 2.9 cm/s, then they ascend up to the surface layer at around dusk with a mean speed of 2.1 cm/s, in the Luzon Strait. The descending speed is faster, which suggests that this zooplankton population may accelerate its downward migration under the action of the gravity. The vertical distribution of a mean volume backscattering strength (MVB- S) in the nighttime has two peaks, which locate near the upper and lower boundary layers of halocline, respectively. However, the backscatterers only aggregate near the surface layer in the daytime. The diel ver- tical migration (DVM) of sound scatterers has several characteristic patterns, it is stronger in summer, but weaker in winter, and the maximum peak occurs in September. The DVM occurrence is synchronous with the seawater temperature increasing at around dawn and dusk, it may affect the ocean mixing and water stratification, 相似文献
3.
基于声学方法的南黄海浮游动物垂直迁移季节变化研究 总被引:2,自引:1,他引:1
为研究南黄海浮游动物垂直迁移的季节变化, 分析了2006 年至2007 年4 个季节布放潜标中声学测流仪的观测数据。结果是: 声学测流仪测量的后向散射强度呈现显著的日变化特征, 这是由浮游动物垂直迁移造成的; 在4 个季节中都出现这一凌晨向下、黄昏向上的垂直迁移, 但是垂直迁移发生的时间有季节变化。利用南黄海辐射通量的直接观测数据, 讨论了垂直迁移发生时间与光照的关系,结果表明垂直迁移的季节变化主要受光照的影响。这对于研究浮游动物垂直迁移机制有一定意义。 相似文献
4.
基于声学仪器与粒径分析仪研究东海浮游动物昼夜垂直迁移过程 总被引:1,自引:0,他引:1
浮游动物的昼夜迁移活动与其种群变动和摄食节律紧密联系,浮游动物昼夜移动的研究已经成为种群动力学研究的一个重要组成部分。2013年夏季在浙江东部近海,结合声学多普勒流速剖面仪(ADCP)和激光粒径分析仪(LISST-100)等仪器进行了一次定点周日连续观测。通过声学反演方法,得到后向散射强度剖面的时间变化,结合LISST-100得到的水体悬浮物粒径谱,研究了浮游动物垂直迁移及其习性。分析发现了可能是精致真刺水蚤的一次昼夜垂直迁移过程,其在夜间进入跃层附近进食,白天蛰伏于底层低温高盐的台湾暖流水中,垂向迁移速度达到了0.05 m/s。LISST-100观测还发现在夜间跃层边界处大粒径颗粒聚集和100~150 μm大小的颗粒物的减少,水体中不同粒径的悬浮颗粒物有明显的昼夜变化节律,推测水体中不同层次生物群落结构存在昼夜差异。 相似文献
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北半球夏季中高纬海洋声散射层分布研究 总被引:1,自引:0,他引:1
利用第八次北极调查走航ADCP后向散射强度数据,结合太阳高度、海冰密集度和实测水体环境参数数据,统计分析了中高纬海洋声散射层的时空变化特征。结果表明,纬度越高,声散射层在海表滞留时间越短,即使在极昼期间及全海冰覆盖海域,虽然其迁移幅度和后向散射强度减弱,但仍受太阳高度变化影响,且二者具有较强的时序相关性;在北极中央海域,不仅声散射层迁移活动较弱,且出现无明显散射层的情况,可能是因为该海域浮游动物和鱼类聚集度相对较低且迁移活动微弱,超出了本文所用ADCP的探测精度范围;从鄂霍次克海至白令海西南海域,往返ADCP数据均显示有两个后向散射强度上高下低,但垂直迁移时间同步的声散射层,且二者间距随纬度增加而逐渐减小并合为一体,这可能是由不同生活习性的海洋生物造成的。 相似文献
6.
本文对2006年12月、2007年5月和6月在南黄海两个连续站S1-4和S3-3采集的梭形纽鳃樽的昼夜垂直移动进行了研究。结果表明, 在不同季节不同海域该种昼夜垂直移动行为略有差异。在S1-4站位, 12月份梭形纽鳃樽复体从未到达底层(50—70m), 在0—50m的水层中表现出不规则的昼夜垂直移动。从中午(12:00)到傍晚(18:00)主要分布在表层, 之后移动到较深的水层(10—30m), 而单体由于数量较少而未进行昼夜垂直移动分析; 5、6月份, 该种单体和复体都出现了明显的反向昼夜垂直移动, 即白天迁移到表层, 夜间向底层迁移, 5月份尤为明显。在S3-3站位, 12月份和5月份梭形纽鳃樽的单体和复体几乎在整个水层都有分布。12月份梭形纽鳃樽复体在夜间有向下移动的趋势, 在06:00时到达最底层, 白天主要分布在20m以上的水层中。5月份梭形纽鳃樽单体和复体昼夜垂直移动不明显, 但主要分布在10—20m的水层中。 相似文献
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Diurnal Cycle of Sound Scatterers and Measurements of Turbidity Using ADCP in Beppu Bay 总被引:2,自引:0,他引:2
Xiao-Hua Zhu Yoshio Takasugi Masayuki Nagao Eisuke Hashimoto 《Journal of Oceanography》2000,56(5):559-565
From September 20 to 22 in 1994, the vertical profiles of echo intensity and three-component velocities were measured with a bottom-mounted 300 kHz broadband acoustic Doppler current profiler (ADCP) in Beppu Bay in the Seto Inland Sea of Japan. A very strong thermocline was observed from 50 to 60 m. A pronounced diurnal cycle of backscatter strength (BS) was found above the thermocline. However, it was not found under the thermocline where there was a lack of dissolved oxygen. We suggest that the diurnal cycle of BS is caused by the vertical migration of zooplankton. The downward and upward migration occurred in early morning and late afternoon, respectively. The migration speeds estimated from BS isopleth displacements were about 1 cm s–1. Further, the contribution of turbidity (Tur) to BS was examined by separating out the effect of migrating zooplankton. There was a significant correlation between BS and turbidity under the thermocline. The maximum contributions of the Tur, migrating zooplankton and non-migrating plankton on BS were estimated at 3, 12, 25 dB, respectively. These data suggest that when using an ADCP to estimate Tur, it is very important to consider carefully the backscatter signal from zooplankton. 相似文献
8.
《Deep Sea Research Part I: Oceanographic Research Papers》2007,54(4):608-636
Temporal variability of acoustically estimated zooplankton biomass at the Bermuda Testbed Mooring (BTM) site in the Sargasso Sea (at 31°43′N, 64°10′W) is described for time scales from less than an hour to the seasonal cycle primarily using data obtained between August 1996 and November 2000, and from May 10 to November 13, 2003. Concurrent high frequency BTM observations of meteorological, physical, and bio-optical variables are used to interpret processes contributing to the zooplankton variability. Zooplankton biomass estimates are derived from regressions of backscatter intensity data measured with an upward looking 153-kHz acoustic Doppler current profiler (ADCP) and zooplankton net tow data collected near the BTM site as part of the Bermuda Atlantic Time-series Study (BATS). Our data show clear event-scale variations. Peaks are associated with annual spring blooms involving mixed layer shoaling and in some cases passages of mesoscale eddy features. Biomass peaks are often coincident with maxima seen in BTM chlorophyll fluorescence measurements (inferred phytoplankton biomass). Some storm events do not appear to manifest in significant perturbations of zooplankton distributions; however, Hurricane Fabian (2003) greatly impacted these distributions. Estimates of zooplankton biomass and relative vertical velocity show the vertical structure of daily migration patterns. Seasonal variations in migration patterns are also evident, with diel changes in zooplankton biomass most pronounced in spring and least pronounced in winter. In summary, our high temporal resolution time series of estimated zooplankton biomass in the open ocean provide information on scales inaccessible through conventional monthly ship-based sampling. These data have implications for upper ocean ecology and the vertical transport of carbon and nitrogen through the diel migration of zooplankton. 相似文献
9.
Seok Lee Heung-Jae Lie Cheol-Ho Cho Sok Kuh Kang William J. Teague Kyung-Il Chang Kyu-Min Song Kyung-Hee Oh 《Ocean Science Journal》2011,46(2):73-84
The vertical structure of the M2 tidal current in the Yellow Sea is analyzed from data acquired using an acoustic Doppler current profiler. The observed vertical
profiles of the M2 tidal current are decomposed into two rotating components of counter-clockwise and clockwise, and restructured using a simple
one-point model with a constant vertical eddy viscosity. The analyzed results show that the internal fictional effect dominates
the vertical structure of the tidal current in the bottom boundary layer. In the Yellow Sea, the effect of the bottom friction
reduces the current speed by about 20–40% and induces the bottom phase advance by about 15–50 minutes. In the shallower coastal
regions, the effects of bottom topography are more prominent on the vertical structure of tidal currents. The vertical profile
of the tidal current in summer, when the water column is strongly stratified, is disturbed near the pycnocline layer. The
stratification significantly influences the vertical shear and distinct seasonal variation of the tidal current. 相似文献
10.
东、黄海典型海域叶绿素a含量的垂向变化与周日波动 总被引:10,自引:0,他引:10
2000年10月21至11月5日对东海与黄海典型海区进行了叶绿素a浓度的现场周日观测,地理环境和水文状况的差异使各海区的垂向变化与日波动表现各自的特征:东海观测站位在垂向上的分布比较单一,多数呈上混合层均匀分布型并在跃层以上递减;长江口受潮流影响大,偶而在底层峰值,而南黄海观测站位垂向布出现了均匀分布型与次表层双峰型两种,受潮流等影响,叶绿素a浓度的日变化在各海区间及各自的垂向上都有所差异;出现层化的测站,跃层以上日波动层以下明显;在E7测站的表层和长江口测站的底层都以半日周期为,而南黄海测站以全日周期为主。 相似文献
11.
基于2020年8月至11月在南海北部获取的声学多普勒流速剖面仪观测数据,利用后向散射强度数据估算得到相对体积散射强度并用其表征浮游动物生物量的相对大小,对相对体积散射强度的半月变化与具有半月周期的潮流动能进行相关性分析,进而分析天文大潮对声学估算的浮游动物生物量的影响。结果表明:半月周期的相对体积散射强度与潮流动能之间呈负相关关系,即天文大潮时,潮流动能较强,水体相对体积散射强度较低,浮游动物生物量则较小,天文小潮时则情况相反。初步推测其原因为:天文大潮时,强潮流一方面导致浮游动物生存环境恶化,使其生物量下降,另一方面也改变了浮游动物垂直迁移特性,浮游动物迁移到近海底处使其难以被观测。 相似文献
12.
基于南海北部浮标和潜标的声学多普勒流速剖面仪(ADCP)数据,通过一套几何算法计算了台风海鸥(1415)期间ADCP的空间变化和流速误差,并进行数据校正。浮标上,台风过后ADCP的水平位移最大可达2.61 km,水平流速误差最大可达0.27 m/s,垂向流速误差最大仅为5×10-4 m/s;温跃层流速校正值在台风过后显著大于流速测值,这表明水平校正对于温跃层流速的质量控制很重要。潜标上,ADCP最大垂向位移增量为179 m,最大绳子倾角为35°,最大水平位移为1.5 km; ADCP水平流速误差和倾角误差都很小,在数据校正中可忽略不计,但对台风过后中层流速的垂向校正不能忽略。 相似文献
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14.
昼夜垂直移动对黄海中南部小黄鱼可捕系数的影响 总被引:2,自引:1,他引:1
鱼类的昼夜垂直移动是影响渔业资源调查可捕系数的重要因素之一,对调查获得的各种渔获物资源量指数(abundance index,AI)进行校正,对优化估计物种的空间分布和资源量估算有重要作用。本文以黄海中南部小黄鱼为例,利用2006-2009年和2011年黄海秋季底拖网渔业资源调查数据,应用地理统计二阶广义线性混合模型,量化了昼夜时段对黄海中南部小黄鱼AI的影响。不同昼夜时段对AI的随机效应系数表明,在黄海中南部秋季渔业资源调查中,底拖网对小黄鱼的可捕系数存在明显的昼夜变化:在午夜23点到凌晨3点间,可捕系数最低;凌晨3点后,可捕系数逐渐增大,直至9点达到峰值;在中午10点至下午16点,可捕系数小幅度降低后保持相对稳定,随后急剧下降;傍晚19点以后,可捕系数处于相对较低水平,直至午夜23点后降至最低水平。本研究通过地理统计二阶广义线性混合模型,去除了昼夜垂直移动对小黄鱼可捕系数的影响,预测的小黄鱼空间密度分布与其AI实际观测值以及渔场空间格局基本一致。另外,模型估计的2006-2009年和2011年秋季黄海中南部小黄鱼的总资源量指数相对扫海面积法的估计值精确度更高,且其变动趋势与黄海中南部沿岸两省(山东和江苏)小黄鱼次年总渔获量的变动情况一致。 相似文献
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夏季黄海表面冷水对大气边界层及海雾的影响 总被引:3,自引:0,他引:3
海表面温度(SST)是海气界面上的1个物理量,受到海洋潮汐、海底地形等因素影响,并对海洋大气边界层有着重要的影响.夏季的黄海,由于黄海冷水团的存在和陆架锋的影响,或是潮汐混合的作用导致海水的垂直混合,使海表面温度的分布产生复杂的结构.通过对卫星观测的海表面温度数据分析,发现在夏季黄海有几个SST冷中心的存在:辽东半岛以及山东半岛的顶端、朝鲜半岛的西侧、山东半岛南侧、江苏外海和黄海南部等.本文利用一系列船舶观测资料、卫星遥感数据、再分析数据分析等,并运用数值模拟研究黄海的冷中心对其上大气的影响.在冷区之上,大气稳定度增加,抑制了近海面大气的垂直混合,使海表面风速减弱.通过对船测数据的分析,在冷区位置有海雾多发区的存在,黄海南部冷区上的海雾发生频率达到15%以上.Weather Research and Forecasting(WRF)模式的数值模拟表明,冷中心降低上空的温度,使海表面风速减弱,形成厚度达500m的逆温层,为海雾的形成创造了有利的条件.与船测数据结果所不同的是黄海南部冷中心之上的海雾发生频率可以达到30%,去掉冷区影响的试验表明冷区较冷的海表面温度最多可以使海雾的发生频率增加15%以上. 相似文献
18.
南沙群岛海区毛颚动物的昼夜垂直移动 总被引:10,自引:2,他引:10
对1997年11月和1999年4月、7月在南沙群岛海区3个昼夜连续测站采集的毛颚动物样品进行了研究。结果表明,这些水域的毛颚动物的昼夜垂直移动可以划分为3个类型:种类作显著移动,不作显著移动和仅在夜晚移动。作为昼夜垂直移动显著的种类,又可以把它们划分为:(1)种类在整个水柱移动;(2)种类在上层(0-60m)移动;(3)种类在中层(60-100m)移动。作为昼夜垂直移动不明显的种类,又可以把它们分为:(1)种类分布在于上层(0-60m)。(2)种类分布于底层(100-200m)。种类在白天下降或附着在海底物体上,仅在夜晚移动。光照,水温,食物和种类特征是影响本水域毛颚动物昼夜垂直移动的重要因素。 相似文献
19.
Seonghun Kim Kyounghoon Lee Won Duk Yoon Hyungbeen Lee Kangseok Hwang 《Ocean Science Journal》2016,51(1):59-65
Nemopilema nomurai jellyfish, which are believed to complete their development in the East China Sea, have started migrating into the Yellow Sea in recent years. We obtained biomass estimates of this species in the Yellow Sea using bottom trawl fishing gear and sighting surveys over a 5-year period. These methods are effective for obtaining N. nomurai jellyfish density estimates and information about the community distribution near the bottom or surface of the sea. To verify the vertical distributions of giant jellyfish between, we used hydroacoustic equipment, including an optical stereo camera system attached to a towed sledge and an echo counting method with scientific echosounder system. Acoustic and optical data were collected while the vessel moved at 3 knots, from which the distribution and density of N. nomurai jellyfish were analyzed. Subsequently, the camera system was towed from a 7 m mean depth to sea level, with the detection range of the acoustic system extending from an 8 m depth to the bottom surface. The optical and acoustic methods indicated the presence of vertical distribution of 0.113 (inds/m3) and 0.064 (inds/m3), respectively. However, the vertical distribution indicated that around 93% of individuals occurred at a depth range of 10–40 m; thus, a 2.4-fold greater density was estimated by acoustic echo counting compared to the optical method. 相似文献
20.
A new method to estimate phase speed and vertical velocity of internal solitary waves in the South China Sea 总被引:2,自引:0,他引:2
A new method of estimating the phase speed and vertical velocity of internal solitary waves (ISW) based on dynamic governing equations using Acoustic Doppler Current Profiler (ADCP) data was developed. This method was applied to a representative ISW case, which was captured in the South China Sea in the 2007 summer experiment. The result shows that this ISW had a phase speed of approximately 2.6?m?s?1. This method provides an excellent alternative in estimating the phase speed of ISWs, especially useful in the absence of vertical stratification needed in solving the Korteweg–de Vries (KdV)-type equation, e.g., long-term mooring observation. Analyses show that the new method is fairly self-consistent, and it can be applied when only a part of the ISW observations is available. The computed vertical velocity of the ISW using the new method has a good agreement with the ADCP observations both in magnitude and pattern. 相似文献