基于RDA与GAMs模型的东海近岸海域浮游动物与温盐关系

为进一步探讨东海近岸海域浮游动物季节演替与温盐的变化关系,根据2013年5月(春季)、8月(夏季)和12月(冬季)东海近岸海域3个航次的浮游动物调查资料,利用冗余分析模型分析了优势种与温盐的变化关系,广义加性模型分析了生物多样性参数与温盐之间的关系。结果表明:(1)优势种季节演替较为明显,由春季2种演替成夏季10种,再更替为冬季5种,春季和冬季优势种的种类和生态类群相对单一,夏季较为丰富。(2)优势种时空分布是综合多层环境因子的结果,如春季中华哲水蚤(Calanus sinicus)与表层盐度和底层盐度正相关,夏季与表层温度和底层温度负相关,冬季与表层盐度正相关;春季五角水母(Muggiaea atlantica)与底层温度、底层盐度呈现较好的正相关;夏季盐度是决定暖水性和高温高盐性优势种分布的关键因子,且呈现较强的正相关;冬季真刺唇角水蚤(Labidocera euchaeta)、强壮滨箭虫(Aidanosagitta crassa)与表层温度关系密切,并呈现较强的负相关。(3)春季和冬季香农–威纳指数多样性指数与纬度呈负相关。(4)温度和盐度对生物多样性参数影响显著,但季节上又呈现出差异。     

Response of three krill species to hypoxia and warming: an experimental approach to oxygen minimum zones expansion in coastal ecosystems

To understand the adaptation of euphausiid (krill) species to oxygen minimum zones (OMZs), respiratory response and stress experiments combining hypoxia‐reoxygenation exposure with warming were conducted. Experimental krill species were obtained from the Antarctic (South Georgia area), the Humboldt Current System (HCS, Chilean coast) and the Northern California Current System (NCCS, Oregon). Euphausia mucronata from the HCS showed oxyconforming pO₂‐dependent respiration below 80% air saturation (18 kPa). Normoxic subsurface oxygenation in winter posed a ‘high oxygen stress’ for this species. The NCCS krill, Euphausia pacifica, and the Antarctic krill, Euphausia superba, maintained respiration rates constant down to low critical pO₂ values of 6 kPa (30% air saturation) and 11 kPa (55% air saturation), respectively. Antarctic krill had low antioxidant enzyme activities, but high concentrations of the molecular antioxidant glutathione (GSH) and was not lethally affected by 6 h exposure to moderate hypoxia. The temperate krill species (E. pacifica) had higher superoxide dismutase (SOD) values in winter than in summer, which relates to a higher winter metabolic rate. In all species, antioxidant enzyme activities remained constant during hypoxic exposure at the typical temperature for their habitat. Warming by 7 °C above habitat temperature in summer increased SOD activities and GSH levels in E. mucronata (HCS), but no oxidative damage occurred. In winter, when the NCCS is well mixed and the OMZ is deeper, +4 °C of warming combined with hypoxia represents a lethal condition for E. pacifica. In summer, when the OMZ expands upwards (100 m subsurface), antioxidant defences counteracted hypoxia and reoxygenation effects in E. pacifica, but only at mildly elevated temperature (+2 °C). In this season, experimental warming by +4 °C reduced antioxidant activities and the combination of warming with hypoxia again caused mortality of exposed specimens. We conclude that a climate change scenario combining warming and hypoxia represents a serious threat to E. pacifica and, as a consequence, NCCS food webs.     

北黄海夏、冬季叶绿素和初级生产力的空间分布和季节变化特征

依据2006～2007年夏、冬两季的北黄海海洋综合调查资料,分析了叶绿素和初级生产力的空间分布和季节变化特征,并浅析了其主要影响因素.夏季北黄海Chl a的平均含量为30.75 mg·m-2(7.64～92.57 mg·m-2),冬季平均含量为18.72 mg·m-2(3.04～50.55 mg·m-2),与夏季相比显著偏低(P<0.05).夏季Chl a浓度的垂直分布呈现较为明显的分层现象,最大值基本出现在次表层;冬季大部分海域垂直分布均匀.夏季水柱初级生产力含量的平均值为471.2 mg·m-2·d-1(70.1～1 308.2 mg·m-2·d-1),其分布大致呈现近岸海域高、东部开阔海域较低的格局;冬季平均值为125.4 mg·m-2·d-1(72.6～245.5 mg·m-2·d-1),约为夏季的1/4,且分布较均匀.北黄海夏季磷酸盐可能成为限制浮游植物生长的因素,而冬季无机氮和磷酸盐可能同时成为限制因子.夏季和冬季的海表温度与表层Chl a浓度之间均呈负相关关系,R2分别为0.44(P=0.01,n=73)和0.41(P=0.01,n=71).     

基于肥满度-最大养殖收益的底播养殖虾夷扇贝(Patinopecten yessoensis)养殖容量评估及养殖区区划

养殖容量评估是合理规划养殖区的基础。基于虾夷扇贝养殖生态系统模型,模拟了2006年12月至2017年11月不同放苗密度下底播养殖虾夷扇贝的生长情况。在考虑肥满度对虾夷扇贝养殖收益的影响下,计算最大养殖收益及其对应的最适放苗密度和养殖容量,并通过最大养殖收益及其年际差异的聚类分析结果进行养殖区区划。结果表明:考虑扇贝肥满度的养殖收益能很好的抵消扇贝品质对养殖收益的影响;底播养殖虾夷扇贝的养殖容量和最适放苗密度有明显的时空差异,獐子岛和小长山岛之间并向长海海域东北部延伸的条带海域是高收益区;中收益区在高收益区南北两侧;低收益区位于研究区西北部和南中收益区南部;研究区南部由于饵料匮乏导致扇贝生长缓慢,为不适宜养殖区。开阔海域养殖容量也是有限的,片面增加放苗密度并不能达到增产增收的效果。研究结果可为合理规划和管理养殖区提供参考。     

Seasonal variation of antioxidant and biotransformation enzymes in barnacle, Balanus balanoides, and their relation with polyaromatic hydrocarbons

Seasonal variations in the antioxidant enzymes (catalase, superoxide dismutase [SOD], NADH-DT diaphorase), biotransformation enzyme, glutathione-S-transferase (GST) and microsomal lipid peroxidation in digestive tissue of barnacle, Balanus balanoides, from polluted and non-polluted populations have been evaluated. Relationships with accumulated polyaromatic hydrocarbon (PAH) concentration in barnacle tissues and environmental parameters (water temperature, salinity, dissolved oxygen concentration, water pH) were determined. As a general trend, maximum antioxidant enzyme and GST activities were detected in the pre-monsoon period or summer (March-June) followed by a gradual decrease during the monsoon (July October) with a minimum in the post-monsoon period or winter (November February). This pattern was similar to tissue concentrations of PAHs, resulting in a significant positive correlation with antioxidant enzymes, mainly catalase and SOD. Microsomal lipid peroxidation exhibited an almost reverse trend of seasonal variation to that of antioxidant enzyme activities indicating an enhanced susceptibility of barnacle tissues to oxidative stress. Among the environmental parameters, only water temperature seemed to have a significant effect on observed variations of antioxidant enzymes and GST activities. The barnacles from polluted and non-polluted populations exhibited seasonal differences in the activities of all the enzymes studied, particularly catalase, SOD and GST, suggesting the possibility of some biochemical adaptation in organisms from a chronically polluted environment. The results indicated that antioxidant defense components, catalase and SOD, are sensitive parameters that could be useful biomarkers for the evaluation of contaminated aquatic ecosystems. The results also suggested the potentiality of barnacle, B. balanoides, as a bioindicator organism against organic pollution.     

Some seasonal water temperature patterns in the Hauraki gulf,New Zealand

The changing pattern of water temperature in the Hauraki Gulf at approximately two‐monthly intervals during one and one‐half seasonal cycles in 1965–66 was determined from sea surface temperatures and bathythermograph profiles.

Surface and bottom temperatures ranged from 22.0°c and 20.5°c respectively in March to 12.5°c and 13.0°c in July‐September. Seasonal temperature ranges and short‐term variations were greatest in the shallow south‐west Gulf.

In winter the Gulf water was coolest close to shore. It was typically isothermal in depth but a temperature inversion of approximately l°c frequently formed, probably because of the combination of strong winds and an increased outflow of cool, low salinity water from harbours and bays. A similar inversion in Colville Channel may have been caused by more complex tidal and/or ocean current conditions.

In spring and summer the Gulf became thermally stratified, with warmest temperatures in the shallow areas. Thermoclines were generally irregular in position and size, and probably represented solar heating and minor current boundaries rather than a distinct separation of major water masses. In late summer and autumn bottom temperatures increased and almost equalled the maximum surface temperature.

During autumn surface water temperatures close to land decreased rapidly to return the Gulf to its winter isothermal condition.

Local factors (wind, rainfall, tides, depth of water, and proximity to land) probably influence sea temperatures in the Gulf. Seawards of a line from Cape Rodney to Cape Colville oceanic conditions prevail; water temperatures are more constant and increase to seaward in both winter and summer.

Oceanic and Gulf waters meet and mix in the Rodney‐Colville area, and Gulf water is transported east through Colville Channel. The extent of oceanic water penetration into the Gulf at depth is unknown.     

Response of excised gill tissue from the New Zealand scallop Pecten novaezelandiae to suspended silt

The role of turbidity in scallop mortality was investigated for two size classes of Pecten novaezelandiae (70 ± 2 mm and 20 ± 1 mm shell height), by using the “crawl” velocity of excised pieces of gill tissue as an indicator of the response to suspended silt. The crawl velocity of 3 × 5 mm pieces of gill tissue was measured in six different silt concentrations (0.025, 0.05, 0.1, 0.2, 0.3. 0.5% silt, by dry weight) and two size classes (< 10 μm and 10–30 um) of silt. Results of the study indicate that juvenile (20 mm shell height) scallops may be less tolerant of suspended silt than larger (70 mm shell height) scallops and that both size classes may be less tolerant of fine (< 10 μm) silt/clay sized particles than coarse (10–30 μm) particles. These conclusions are supported in part by data from the mortality of whole 20 mm scallops exposed to two size classes (< 10 μm and 10–30 μm) and three concentrations (0.05, 0.3, 0.6%, by dry weight) of silt. Increasing concentrations and decreasing particle size of the suspended silt resulted in reduced gill piece crawl velocity and an increase in the mortality rate of the whole scallops. These results suggest controls on human‐induced disturbance of bottom sediments, such as bottom trawling and dredging, may benefit any further scallop bed enhancement programmes by the avoidance of deterioration in water quality and mechanical damage to scallop spat.     

山东近海高眼鲽种群结构及资源分布

根据秋(2016年10月)、冬(2017年1月)、春(2017年5月)和夏(2017年8月)4个季节在山东近海的底拖网调查数据,对高眼鲽(Cleisthenes herzensteini)种群结构和资源分布的季节差异进行研究。结果表明,高眼鲽的平均体长在秋、冬季较大,而平均体质量则在夏、秋季较大。当体长大于15 cm时,体质量呈现较大的季节变化,体质量增长率在夏季最大。采用von Bertalanffy生长方程表示其生长特性,生长参数L∞为37.85 cm、K为0.28、t0为-0.57。通过Pauly经验公式求得高眼鲽的自然死亡系数为0.54。体长转换的渔获曲线求得总死亡系数为1.69,进而求得现阶段的捕捞死亡系数为1.15,开发率高达68.05%,并求得开捕年龄为1.48龄,开捕体长为12.68 cm。年龄组成为1~5龄,其中1龄与2龄个体分别占总数的45.15%与40.23%。各季节中,只有夏季样品的雌雄性比与1∶1差异显著(p<0.05),且雌性的数量显著多于雄性。50%性成熟体长为22.35 cm,性成熟比例和平均性成熟系数最高的季节出现在夏季。高眼鲽主要分布在底层水温为6.45~19.06℃、底层盐度为31.82~33.10和50 m等深线以深的海域,其平均渔获量在秋季远多于其他季节,在冬季陡然下降,随后缓慢上升。山东近海高眼鲽显现出体长分布狭窄、饵料条件恶化、产卵期延迟和过度捕捞等现象,休渔期前后资源量变化剧烈。     

Methane in the water and bottom sediments of the mouth area of the Severnaya Dvina River during the winter time

The spatial distribution of methane in the water and bottom sediments of the mouth area of the Severnaya Dvina River shows quite a similar character during the ice-cover and summer periods. It is characterized by the increase of the gas content from the head of the mouth area towards the delta with maximum values at the sites subjected to permanent anthropogenous impact. The difference consists in the higher level of the methane content in the bottom sediments during the winter period. At the same time, the excess of the winter to summer concentrations in the water was registered only at the stations within the impact area of the sources of anthropogenous contamination. As in the summer, the bottom sediments have a prevailing role in the formation of the level of the methane content in the water of the mouth area. The linear dependence between the concentrations of the total hydrogen sulfide and methane in the surface layer of the riverine sediments is probably caused by the parallel and nonconcurrent proceeding of the generation of these gases, which are controlled by the bacterial communities being not inhibitory to each other.     

Lethal and sublethal effects of short term acute doses of Kuwait Crude Oil and a dispersant Corexit 9527 on bay scallops, Argopecten irradians (Lamarck) and two predators at different temperatures

Investigations of short term acute exposure of bay scallops, Argopecten irradians and two scallop predators, the oyster drill Urosalpinx cinerea and the common starfish Asterias forbesi, to oil, dispersant, and oil-dispersant mixtures (Kuwait Crude Oil and Corexit 9527) suggested that predator and prey have different lethal susceptibilities. Scallops were most sensitive to dispersant and dispersant mixed with oil, starfish were only sensitive to dispersant while the oyster drill seemed unaffected even though all were exposed to dilutions of identically prepared stock solutions. Scallops were least susceptible during winter months and most susceptible at summer temperatures. Treatment had less effect on predators than on scallops at summer temperatures. Sublethal concentrations of dispersant and oil-dispersant mixtures diminished the behavioural ability of scallops to recognise drills and starfish. The degree of effect increased with temperature. Predator detection of prey at the same concentrations was more complex. The feeding response or posturing reflex of starfish was significantly slowed by all treatments. In contrast, drills were unaffected in their recognition of scallop effluent in a choice chamber after treatment.     

黄海南部和东海小黄鱼资源分布差异性研究

根据2006年6月～2007年4月黄海南部和东海底拖网监测调查资料,比较分析了2个海域小黄鱼资源密度指数(CPUE)分布、环境因子特征、CPUE与环境因子相关关系的差异.研究结果表明,黄海南部和东海小黄鱼资源密度指数分布除了秋季分布有显著差异之外(t′_((33))=2.69,P=0.011),其余季节分布均无显著差异(春季:t′_((43))=1.68,P=0.104;夏季:t′_((60))=0.31,P=0.756 7;冬季:t′_((43))=1.74,P=0.089);夏季的底层盐度分布和水深分布没有明显差异,在其他季节,黄海南部和东海的底层水温、底层盐度和水深分布等环境特征的差异明显,均达到极显著(P<0.01)或显著(P<0.05)水平;资源密度与环境因子回归分析和AIC模型选择中,2个海域夏季的小黄鱼资源密度受到有显著性影响的环境因子数最多,而冬季受到有显著性影响的环境因子最少.综合推断,黄海南部和东海小黄鱼具有不同空间分布特征和环境分布特征,2个海域的小黄鱼分属于不同种群,但在2个海域交界处有混栖种群.     

Seasonal abundance and distribution of pelagic tunicates (Chordata: Thaliacea) in the central South China Sea

1IntroductionTunicates(Chordata:Thaliacea)are large pe-lagic gelatinous zooplankton.They can be used as in-dicator species for ocean currents and water bodies(Chen et al.,1980;Chen et al.,1988;Lin,1988,1990;Lin and Zhang,1993;Thompson,1948).They also play…     

渤、黄、东海悬浮物质量浓度冬、夏季变化的数值模拟

采用HAMSOM三维正压水动力模型结合粒子追踪的悬浮颗粒物输运模型模拟了渤、黄、东海悬浮物质量浓度冬、夏季变化。模拟结果显示,潮流和底质对悬浮物质量浓度的分布有决定性的作用,沉积物再悬浮对悬浮物质量浓度分布影响大,冬季尤为显著。莱州湾中西部和渤海湾南部悬浮物终年维持高质量浓度,古黄河口冬季再悬浮物的质量浓度高于其它季节的。长江口附近悬浮物终年维持高质量浓度,夏季长江口东北悬浮物的质量浓度高于冬季的,浙江沿岸冬季悬浮物的质量浓度高于夏季的。     

闽江口及其附近海域棘头梅童鱼资源的研究

利用2006～2007年4个季节的底拖网捕捞渔获调查数据,对闽江口及附近海域底拖网鱼类中的棘头梅童鱼的资源状况进行了分析.结果表明：棘头梅童鱼在春季和冬季的渔获质量所占比例较高,分别为3.2%和4.8%;而夏季和秋季的渔获质量所占比例较低,分别为1.8%和1.5%.优势体长组为110～120mm;4个季节的资源密度波动于1.44～38.61kg/km2之间,其平均值为16.14kg/km2.4个季节的平均资源现存量约为58.09t,其中冬季资源量最大（138.99t）;资源密度在春、冬季明显高于夏、秋季;资源分布与水温、水深及盐度等环境因子关系密切.其喜栖息于低温、低盐和浅水海域,秋、冬季分布较广,部分出现离岸及南移现象.文中还应用ELEFAN技术分析了棘头梅童鱼的Von Bertalanffy生长参数（K）、极限体长（L∞）、总死亡系数（Z）、自然死亡系数（M）和开发率（E）,各指标值分别为0.60、183.75mm、2.42、0.69和0.71.这说明其生长较为迅速,但捕捞死亡率过高,已出现过度捕捞现象,应该加强保护以实现资源可持续再生与利用.     

山东半岛东北部海域悬浮体季节分布及控制因素

基于2018年山东半岛东北部海域冬、夏两季悬浮体浓度、浊度及水温和盐度调查资料,分析了研究区水体悬浮体浓度的季节性变化,探讨了其控制因素.结果表明:夏季浊度在0.2～37.8FTU之间变化,冬季浊度在1.5～100.1FTU之间变化,均表现为底高表低、东高西低的特征.夏季水温分层明显,表现为表层高、底层低的特征,盐度整...     

Vertical distributions of nitrogen,phosphorus and iron in Beppu Bay

Beppu Bay is a shallow basin located at the western end of the Seto Inland Sea with a sill depth ofca. 40 m. The bottom water (belowca. 65 m in summer andca. 70 m in winter) was anoxic and contained high concentrations of hydrogen sulfide, phosphate and ammonium. Maximum concentrations of nitrate and nitrite appeared near the top of the thermocline, suggesting the occurrence of bacterial nitrification in this layer and of bacterial denitrification in the anoxic bottom water. Concentrations of particulate phosphorus and particulate iron were highest near the bottom of the thermocline. The distribution of phosphorus in this bay is probably controlled by a dissolution-diffusion-precipitation cycle of iron or its hydrous oxides.     

2009年冬、夏季南海北部超微型浮游生物的分布特征及其环境相关分析

2009年2月(冬季)和8月(夏季)在南海北部海域(nSCS)采用流式细胞术对聚球藻、原绿球藻、超微型光合真核生物3类超微型光合浮游生物和异养浮游细菌的丰度和碳生物量的时空分布特征进行了研究,并分析了其与环境因子之间的关系。结果表明,夏季聚球藻和原绿球藻的平均丰度高于冬季,超微型光合真核生物和异养浮游细菌的丰度反之,为冬季高于夏季。聚球藻、超微型光合真核生物和异养浮游细菌在富营养的近岸陆架海域丰度较高,而原绿球藻高丰度则出现在陆坡开阔海域。在垂直分布上,聚球藻主要分布在跃层以上,跃层以下丰度迅速降低;原绿球藻高丰度主要出现在真光层底部;超微型光合真核生物在水层中的高值同样出现在真光层底部,且与Pico级份叶绿素a浓度分布一致;异养浮游细菌在水体中的分布与聚球藻类似。这些分布格局的差异,取决于环境条件的变化和4类超微型浮游生物生态生理适应性的差异。在超微型光合浮游生物群落中,各类群碳生物量的贡献因季节和海域类型的不同而发生变化:聚球藻在夏季近岸陆架区占超微型光合浮游生物总碳生物量的41%,原绿球藻在陆坡开阔海成为主要贡献者(50%),超微型光合真核生物碳生物量以冬季为高(在近岸陆架区占比68%)。冬、夏季异养浮游细菌碳生物量均高于超微型光合浮游生物碳生物量。     

长江口及其邻近海域磷的分布变化特征

根据2004年4个航次的调查资料,研究了长江河口内及其临近海域磷酸盐和总磷的分布变化特征。结果表明,磷酸盐和总磷的浓度分布都是河口附近高,外海低,但其最大值不在河口内,而在口门外。河口内磷酸盐秋、冬季浓度高,春、夏季低;总磷夏、秋季浓度高,春季和冬季低。口门外磷酸盐和总磷浓度分布都是冬、夏季高,春、秋季低。磷酸盐夏季浓度变化大,分层明显,冬季变化小,垂直分布均匀。总磷春季表、底层浓度接近,其余季节表层都低于底层。通过磷酸盐和总磷与盐度、悬浮体的相关关系研究表明,磷酸盐在河口转移过程中,还受到生物活动、水体垂直对流以及缓冲作用等多种因素的影响。总磷在很大程度上受颗粒磷的控制。     

山东沿岸夏季栉孔扇贝大规模死亡原因分析

在对夏季高温期山东沿海栉孔扇贝大规模死亡现状调查的基础上,从山东沿岸栉孔扇贝养殖业发展的历史,生态,环境和种质等方面分析了栉孔扇贝大规模死亡的原因,认为大规模死亡的根本原因是长期订养殖导致养殖环境的老化或恶化及栉孔扇贝抗逆能力下降,而在夏季高温期,海区饵料明显不足,栉孔扇贝本身消耗增大,养殖水体自身污染加剧及病原体大量滋生更为直接的原因。     

台湾岛东西两岸的海流

本文收集、整理和分析台湾岛东、西两岸的海流资料，获得以下主要结果；（１）台湾东岸的黑潮路径，无论是表层或深层，都是冬季偏酉（距台湾东岸较近），夏季偏东，春、秋两季的介于冬、夏季的路径之间。（２）台湾东岸黑潮的流速，具有夏、春强而冬弱的特点。（３）台湾西岸近海的海流，除表层受风的影响较大外，１０ｍ层开始，尤其是近底层，冬、夏两季皆以北向或东北向流为主，呈现出一派北向流的路径。这与传统观念不同。