Water masses in Thermaicos Gulf,north-western Aegean Sea

Physical oceanographic data were collected during September 1975 at stations in the shallow water (max. depth 45 m) embayments of Salonica Bay and Thermaicos Gulf, and comparisons are made with data collected during other seasons. The distribution of temperature and salinity in the water column indicated the following features: fresh surface water predominantly related to river discharge; an intermediate water mass, apparently formed by mixing between the fresh and open sea waters; a thermocline, and deep bottom water open sea characteristics. The summer distribution of density in the surface and bottom waters, and the seasonal variation in the pattern of surface salinity, suggested an anti-clockwise water circulation throughout the embayments.     

山东近海底层鱼类资源空间异质性

本文根据2016?2017年山东近海渔业资源底拖网季度调查数据,应用多项空间自相关指标和变异函数,分析了山东近海底层鱼类资源的空间自相关性与空间异质性.结果表明,山东近海底层鱼类资源呈现出显著的空间聚集格局,存在着空间自相关性,其中在春季、夏季和冬季的空间自相关性较强,在秋季的空间自相关性较弱.从空间分布上来看,底层鱼...     

舟山群岛外海域鱼类数量分布与环境因子的关系

根据2018年4月（春季）和10月（秋季）在舟山群岛外海域进行的渔业资源调查资料,分析了鱼类的种类组成、数量分布和优势种,并用典范对应分析方法分析了其与水文环境之间的关系。结果表明,舟山群岛外海域鱼类有106种,隶属于12目47科80属,春、秋季鱼类质量密度分别为210.50 kg/km2和829.06 kg/km2,尾数密度分别为8.08×103 ind/km2和165.94×103 ind/km2。春季鱼类资源密度在调查海域的西北部较高,东部较低,而秋季鱼类资源密度在东部海域较高,西北部海域较低。两个季节的鱼类优势种更替明显,春季优势种为黄鮟鱇（Lophius litulon）、日本红娘鱼（Lepidotrigla japonica）、细条天竺鲷（Apogon lineatus）,秋季为细条天竺鲷、日本发光鲷（Acropom japonicum）。鱼类种数呈现显著的季节和空间变化,但是都以西部以及西北部靠近近岸岛屿的海域种类数较高,大部分鱼类栖息在50～80 m水深海域。典范对应分析结果表明,表层温度、底层温度、表层盐度是影响调查海域鱼类种类组成和数量分布的主要环境因子。     

黄河口及邻近水域小型鳀鲱鱼类数量分布及其与环境因子的关系

小型鳀鲱鱼类多为浮游生物食性种类;又是多种高营养层次鱼类的饵料生物;作为生态系统中的重要类群;其数量分布对多种生物均具有重要影响。本文根据2013年6月、8月、10月和2014年2月、4月、5月在黄河口及邻近水域进行的渔业资源和环境调查数据;分析了该海域小型鳀鲱鱼类资源数量分布特征;并用广义可加模型研究了其数量分布与时空和环境因子等之间的关系。黄河口及邻近水域小型鳀鲱鱼类相对资源量呈现明显的季节变化;夏、秋季相对资源量明显高于冬、春季。小型鳀鲱鱼类相对资源量具有明显的空间变化;且在不同月份呈现不同的空间分布格局;在4月、5月、6月小型鳀鲱鱼类主要分布于近岸水域;在8月、10月小型鳀鲱鱼类分布外移且范围扩大。GAM分析表明;影响黄河口及邻近水域小型鳀鲱鱼类相对资源量时空分布的主要环境因子包括表层盐度、表层水温、水深和浮游植物丰度等。小型鳀鲱鱼类相对资源量随表层盐度的升高呈现升高的趋势;在盐度达到30时;小型鳀鲱鱼类相对资源量处于最高水平。随表层水温的升高相对资源量有升高趋势;当表层水温达到15℃后;小型鳀鲱鱼类相对资源量增加趋势减缓且丰度较大。小型鳀鲱鱼类相对资源量随浮游植物丰度的增大总体呈现上升趋势;而随水深的变化呈现先降低后升高的趋势。黄河口及邻近水域小型鳀鲱鱼类相对资源量的时空变化与鳀鲱鱼类产卵、索饵和越冬洄游有关;受到季节变化、黄河径流变化以及黄河调水调沙等引起的海洋环境因子变动的影响。     

基于Tweedie-GAM模型研究海州湾小黄鱼资源丰度与栖息环境的关系

本研究根据2011年及2013—2016年春季和秋季在海州湾及其邻近海域进行的底拖网调查数据,结合同步采集的底层海水温度、底层海水盐度、水深、底质类型,以及脊腹褐虾(Crangon affinis)、细螯虾(Leptochela gracilis)、鳀(Engraulis japonicus)、赤鼻棱鳀(Thrissa kammalensis)等小黄鱼(Larimichthys polyactis)主要饵料生物的资源丰度数据,采用条件数κ和方差膨胀因子(VIF)度量多重共线性的程度,选取关键环境因子,再应用基于Tweedie分布的广义可加模型(GAM)研究不同季节和不同生长阶段的小黄鱼资源丰度与环境因子的关系。多重共线性的检验表明,所有初始变量之间没有显著的多重共线性,均可作为解释变量代入模型。结果表明:不同季节和生长阶段,影响小黄鱼资源分布的主要因子及其偏差解释率各不相同,各变量所对应的适宜范围也不同。例如:影响春季小黄鱼幼体资源分布的主要因子有底层海水温度、底层海水盐度、水深和脊腹褐虾的分布,其中偏差解释率最大的因子为水深(16.09%);而影响春季成体资源分布的因子为底层海水温度、底层海水盐度、水深及脊腹褐虾和鳀的分布,其中偏差解释率最大的因子为底层海水盐度(13.56%)。本研究表明,海州湾及其邻近海域不同季节和不同生长阶段小黄鱼的资源分布与其自身的生态习性、海洋环境以及饵料生物的分布密切相关。     

岱衢洋拖网甲壳动物多样性的季节变化

根据2010年春季(5月)、夏季(8月)、秋季(11月)与2011年冬季(2月)对岱衢洋进行的共4个航次的底拖网渔业资源调查资料,对该海域的甲壳动物多样性进行了分析。结果表明,共捕获甲壳动物21种,其中虾类13种、蟹类7种、虾蛄类1种,隶属于2目14科18属;甲壳动物的生物量与尾数密度均以秋季为最高,春季则正好相反,且该两季的生物量与尾数密度间差异均显著(P<0.05);广温广盐种在种类数量、生物量与尾数密度方面均居主导地位;Margalef丰富度指数(D)、Shannon-Wiener多样性指数(H′)和Pielou均匀度指数(J′)的最小值均出现在冬季,表明该季甲壳动物群落的丰富度、多样性与均匀性都较低,另外,D值、H′值夏、秋两季高,冬、春两季低,与较外海域的情况正好相反,这主要是其对底层水温季节变化的一种响应。     

长山列岛邻近海域褐牙鲆资源丰度的时空分布及其与环境因子的关系

本文根据2016?2017年在长山列岛邻近海域开展的渔业资源和环境季度调查数据,利用两阶段广义可加模型分析了该海域褐牙鲆资源丰度的时空分布及其与相关因子之间的关系.结果表明,长山列岛邻近海域褐牙鲆资源丰度具有明显的季节变化,春、秋季资源丰度高于冬、夏季;褐牙鲆春、秋季主要分布在120.5°～122.5°E水域,夏、冬季...     

基于GAM和GWR模型分析环境因子对鱼类分布的影响

多鳞鱚（Sillago sihama）是山东近海重要的渔业种类之一。本研究根据2016年秋季（10月）在山东近海开展渔业资源底拖网调查取得的数据,分析该海域多鳞鱚的空间分布特征,并运用广义可加模型（GAM）和地理加权回归（GWR）模型探究影响其分布的因素及其与环境因子的非线性和空间非平稳性关系。GAM拟合结果显示,影响秋季多鳞鱚分布的环境因子主要有水深、底层水温和底层盐度,水深的偏差解释率最大,为23.50%。GWR模型拟合结果显示,多鳞鱚分布与水深和底层水温之间存在空间非平稳性关系。水深与多鳞鱚相对资源量呈负相关关系,底层水温与多鳞鱚相对资源量呈正相关关系。赤池信息准则和决定系数（R2）指标对比结果显示,GWR模型的表现优于GAM,在渔业生态数据分析中表现出较好的发展潜力。本研究为今后开展渔业生物空间分布提供了一种新的方法。     

Distribution pattern of pelagic amphipods and its affecting facors in the East China Sea

1 IntroductionAmphipoda, an order of marine pelagic shell-fish, belongs to class Crustacea, subclass Malacost-raca (Chen and Shi,2002). Species of this ordercan be found all over the world, especially in tropi-cal and subtropical oceans. As fish diets, th…     

Seasonal Variation of Stratification in the Gulf of Thailand

Intensive hydrographic observations were carried out in the western part of the Gulf of Thailand and the east coastal sea of Peninsular Malaysia in September 1995 and April–May 1996. The characteristics of seasonal variation of oceanic condition in that area are discussed basis of an analysis of observed water temperature, salinity and density distributions in these cruises and NAGA cruises (Yanagi and Takao, 1998a). Stratification is most developed in March–May mainly due to large sea surface heating and weak sea surface wind, which weakened until September–October, vanishing in December–January. The horizontal distribution of bottom cold, saline and heavy water masses, which are found during the stratified season, is governed by the tidal mixing and the water depth. Water exchange between the Gulf of Thailand and the South China Sea becomes large in March–May due to a coupled effect of the intensified estuarine circulation and the Ekman transport by the southwest monsoon. This revised version was published online in August 2006 with corrections to the Cover Date.     

Production and transport of long-chain alkenones and alkyl alkenoates in a sea water column in the northwestern Pacific off central Japan

Sinking particles collected from year-long time-series sediment traps at 1674, 4180, 5687 and 8688 m depths, the underlying bottom sediment at 9200 m depth, and suspended particles from surface and subsurface waters in the northwestern North Pacific off Japan were analyzed for long-chain alkenones and alkyl alkenoates (A&A) which are derived mainly from Gephyrocapsacean algae, especially Emiliania huxleyi and Gephyrocapsa oceanica. Alkenone temperature records in sediment trap samples at 1674 m were almost similar to observed sea surface temperatures (SST) with a time delay of one half to one full month. However, alkenone temperatures in trap samples were about slightly lower than measured SST in late spring to early fall. The lowering might be caused by formation of the seasonal thermocline. Nevertheless, these temperature drops observed in trap samples were smaller than those actually observed in a subsurface layer off central Japan. Vertical profiles of A&A concentrations and alkenone temperatures in suspended particles collected from the subsurface waters in early fall indicated that these compounds were produced mostly in a surface mixed layer above the depth of the chlorophyll maximum even in warm seasons. These results suggested that alkenone temperatures strongly reflected SST rather than the temperatures of thermocline waters in these study areas even in such a warm season. Pronounced maxima in A&A fluxes found in sediment trap samples at 1674 m in late spring to summer showed that A&A productions were highest during the periods of spring bloom, according to a time delay between alkenone temperatures and observed SST. Seasonal patterns of alkenone records in trap samples at 4180 and 5687 m could also preserve SST signals well, suggesting that A&A in deep sea waters were mainly derived from primary products in the surface layer. A&A fluxes tended to decrease with water depth, and the ratios of A&A to particulate organic carbon (POC) rapidly decreased in underlying bottom sediment. This clearly indicates that A&A were decomposed and diluted by other refractory organic materials in either the water column or the sediment–water interface. However, A&A compositions were consistently uniform between the trap samples and the underlying bottom sediments, so that A&A could not qualitatively alter during early diagenetic processes.     

海州湾南部海域不同季节虾类数量及其分布特征

根据2009年5月、9月和12月对海州湾南部海域3个航次的渔业资源调查资料,对该海域十足目虾类的数量和分布的特征进行了初步研究,且探讨了优势种、温度、盐度、水深等因素对以上特征的影响。结果表明,5月虾类资源量最高,9月最低,12月较9月有所回升,分别以戴氏赤虾Metapenaeopsis dalei和日本鼓虾Alpheus japonicus、细巧仿对虾Parapenaeopsis tenella和刀额新对虾Metapenaeus ensis、日本鼓虾等为主要优势种。5月和9月虾类平面分布趋势均为西北外侧和东南水域较低,南面沿岸较均匀,东部和中部出现最高值;12月北面和南面近岸资源量较低,其他水域较均匀,最高值出现在东部水域。逐步回归分析表明,海州湾虾类资源量与底盐间存在显著相关关系,其他水文因素无显著相关关系。此外,优势种生态习性、赤潮和径流等是影响海州湾虾类数量和分布变化的主要因素。     

南麂列岛海洋自然保护区虾类群落结构及其多样性

南麂列岛海洋自然保护区是国务院批准建立的我国首批5个国家级海洋自然保护区之一,素以海洋生物,特别是贝藻类生物资源丰富、种类繁多而著称,俗称"贝藻王国",也是众多渔业资源繁殖、索饵、生长的良好场所。本文根据2013年11月、2014年2、5、9月在南麂列岛海洋自然保护区开展渔业资源底拖网调查所获得的虾类资料,对南麂列岛海洋自然保护区的虾类种类组成、优势种、物种数量空间分布及多样性、相似性等群落结构特征的影响因素进行了研究。结果得知,调查海域共鉴定出虾类种类25种,隶属于9科17属,不同季节优势种更替较显著,虾类种数各季节间变化较为稳定,岛礁区的虾类种类数高于沿岸区,夏季多样性低于其他季节,虾类种类数和多样性指数平面分布相似,地形、水深和水系等环境因素对虾类群落结构影响较大;分布在南麂列岛调查海域的虾类以季节性的广温广盐性种类为主,虾类一般生活在有利于索饵、成长的泥沙底质沿岸区,夏季受台湾暖流、食物链中的鱼类捕食关系影响,其生物多样性较低,虾类多样性分布随水深变化明显,这可能主要是由于调查海域的主要优势种虾类活动范围与水深有关。     

Aragonite undersaturation in Gwangyang Bay,South Korea: Effects of fresh water input

Dissolved inorganic carbon (DIC) and alkalinity were precisely measured for surface and bottom waters in Gwangyang Bay, Korea, during the four seasons to assess seasonal variations of aragonite saturation state (Ω_arag). Both the surface and bottom waters were undersaturated with respect to aragonite during summer but were supersaturated during the other seasons. The summertime undersaturation of the surface waters with respect to aragonite may have been a result of the dilution effect caused by higher seasonal river runoff. In the bottom waters, the average DIC concentration increased by 40.6 μmol kg^?1 from spring to summer, while the average alkalinity decreased by 74.7 μeq kg^?1. As a result, the alkalinity/DIC ratio decreased from 1.07 in spring to 1.01 in summer and pH also decreased from 7.91 to 7.48, which resulted in the summertime undersaturation of the bottom waters.     

粤西近岸海域浮游植物群落的生态特征

作者基于2011年9月(丰水期)和2012年1月(枯水期)粤西近岸30米以浅海域的调查资料,分析该海域浮游植物的种类组成、优势种、丰度及其群落结构多样性。结果表明,调查海域共鉴定浮游植物4门41属116种,硅藻为最主要优势类群。丰水期与枯水期共有种类40种,物种相似性指数为34.48%,表明2个调查季节种类组成变化较大,存在明显的季节性差异。枯水期优势种仅1种,为金藻门(Chrysophyta)的球形棕囊藻(Phaeoecystis globosa),优势度高达0.496;丰水期优势种有4种,其中以硅藻门的旋链角毛藻(Chaetoceros curvisetus)优势度较高(0.249)。浮游植物丰度表现出时间和空间异质性,丰度总体呈现近岸站位高于离岸站位,此外,丰水期浮游植物丰度湛江沿岸站位高于其他调查站位,枯水期浮游植物丰度则由西南部向东北部递减,总体而言,枯水期浮游植物丰度比丰水期高。群落结构多样性为枯水期西南部海域明显低于东北部海域,丰水期站位间多样性无明显变化规律,相比之下,丰水期群落物种多样性水平相对较高。相关分析表明:浮游植物丰度与p H、悬浮物呈正相关,与丰水期水温和枯水期盐度呈负相关。     

胶州湾水域有机农药HCH的分布及水质标准

根据1986年4、7和10月的胶州湾水域调查资料,通过对有机农药HCH在胶州湾水域的分布、来源和季节变化的分析,研究结果表明：HCH含量在整个胶州湾水域都非常低,在这1 a中都〈0.100μg/L,在胶州湾水域HCH含量都优于国家一类海水水质标准,水质在HCH含量方面更加清洁;水体中HCH的表层含量已经没有季节变化,这...     

Temporal and spatial distribution of the two closely related Acartia species A. omorii and A. hudsonica (Copepoda,Calanoida) in a small inlet water of Japan

Temporal and spatial distributions of Acartia omorii and Acartia hudsonica were investigated in Maizuru Bay, middle Japan, from 1977 to 1978. In both years, adults of the two species appeared synchronously 17 days after the bottom temperature cell to 20°C in November; the numbers of both species sharply decreased when the bottom temperature rose to 20°C in late June and disappeared in early or mid-July. These facts indicate that a bottom temperature of 20°C is critical for the recruitment of the populations of these species. Acartia hudsonica was more limited to the inner position of the bay than A. omorii; spatial segregation may be explained not only by preference for different hydrographic conditions, but also by interspecific competition between the two species. In temperate waters, co-existing Acartia species belonging to the same subgenus appear to be segregated only in space while those of different subgenera usually exhibit a seasonal segregation. Pacific populations of A. hudsonica appear to be more restricted to inlet waters and estuaries than Atlantic populations, probably owing to the presence of the closely related sympatric species in the Pacific.     

南海暖水形态特征

利用Levitus资料 ,分析了南海各月某些标准层上的海温水平分布、南北向温度断面垂直分布 ,阐述了南海暖水水平和断面温度分布的阶段性特征 ,给出了南海暖水中心点 ( 1 1 3°E ,8°N)海温垂直结构特征。使用 3次自然样条函数 ,将格点资料插值到每米的深度上 ,求出各格点 2 8℃海温的深度 ,得出各月 2 8℃等温包络面。结果表明 :4～ 1 1月份 2 8℃等温包络面呈现大小不等和深浅不同的盆状 ,其各月的变化形象化地表示了暖水的演变过程。分析南海暖水中心点各标准层温度的季节变化表明 :30m以上海水温度季节变化基本一致 ,冬季 1月最低 ,春季 5月最高 ,次高出现在 1 0月份 ;50m海水温度最低值延至 3月份 ,最高在 7月份 ,次高也在 1 0月份。 2 8℃等温包络面所包体积的季节变化是一个较为规则的单峰型     

黄渤海底层温、盐度与其垂直平均值的统计关系

文中根据黄渤海区1959～1982年间水温和盐度垂向剖面历史资料,建立了在给定水深下底层温、盐度与其对应的垂向平均值间的线性关系,进而对所获得的系数建立其与水深和时间(月份)间非线性关系,最终发展了底层温、盐度与其平均值、水深和时间的普适经验关系式T_H(S_U)=f(T_A(S_A),H,t),为建立避开来自海面的热量、质量和动量在垂向上分配的复杂过程的简易底层温、盐度二维数值预报模式莫定基础。     

Seasonal physical–chemical structure and acoustic Doppler current profiler flow patterns over multiple years in a shallow, stratified estuary, with implications for lateral variability

The overall goal of this study was to strengthen understanding of the hydrographic structure in shallow estuaries as influenced by seasonal and depth-dependent variability, and by variability from extreme meteorological events. The mesohaline Neuse Estuary, North Carolina, U.S.A., which was the focus, receives surface inputs from upriver and tributary freshwater sources and bottom inputs from downriver high-salinity sound water sources, resulting in varying degrees of stratification. To assess depth-dependent, estuary-wide changes in salinity, a multiple time series was created using data from four discrete depths (surface and 1, 2, and 3 m±0.25 m). The database was developed from weekly to biweekly sampling of the entire water column, and included side-channel as well as mid-channel data. We characterized seasonal differences in halocline depth affecting the hydrographic structure of the mesohaline estuary and site-specific variation in nutrient concentrations, based on a comprehensive eight-year physical/chemical database. The first two years of the record showed an expected seasonal signal and included events that impacted the surface layer from freshwater inputs. Remaining years had greater variability over seasons and depths, with freshening events that affected all depths. Halocline depth was compared at specific locations, and a “snapshot” view was provided of the relative depth of these water masses within the estuary by season. We also examined flow patterns at the same cross-estuary sites over a three-year period, using a boat-mounted acoustic Doppler current profiler (ADCP) with bottom-tracking capability. Composite visualizations constructed with single-transect ADCP data revealed a classical estuarine circulation pattern of outflow at the surface/southern shore and inflow at the bottom/northern shore. Although this pattern deviated under extreme climatological events and was sometimes variable, the estuary generally exhibited a high probability of direction of flow. Wind fields, hurricanes, and small-scale, high-precipitation events represented significant forcing variables.