白令海特征区域的表层沉积硅藻分布及其古海洋学意义

对白令海表层沉积物样品进行硅藻分析,共鉴定硅藻30属56种(含变种),并确定17种硅藻新记录,其中包括Kisseieviella carina等3种化石种。白令海表层沉积物中的硅藻优势种为Neodenticula seminae,Fragilariopsis cylindrus和Fragilariopsis oceanica,在白令海北部陆坡深水区附近以Neodenticula seminae为主,而在白令海北部陆架以Fragilariopsis cylindrus和Fragilariopsis oceanica为主。对硅藻结果进行聚类分析,可以划分出3个硅藻组合,硅藻组合Ⅰ代表海冰种硅藻组合,组合Ⅱ代表受阿拉斯加流影响的大洋浮游硅藻组合,组合Ⅲ代表上述两个硅藻组合之间的过渡组合。Fossula arctica是17种硅藻新记录之一,首次记录于白令海表层沉积物中,其百分含量分布趋势与Fragilariopsis cylindrus和Fragilariopsis oceanica的相近,在白令海北部陆架为11.7%~17.1%,而在陆坡深水区附近明显减少,是继Fragilariopsis cylindrus和Fragilariopsis oceanica之后白令海又一海冰指示种,并有望成为一种有效的海冰变化替代物运用于晚第四纪以来白令海海冰进退历史研究。     

普里兹湾及邻近海区表层沉积硅藻分布与环境分析

表层沉积物中硅藻的分布及组合特征对于研究相应的海洋环境有着重要的意义。东南极普里兹湾及其附近海域的22站表层沉积物中鉴定出硅藻36种,分属13属,其中Fragilariopsis curta在普里兹湾内占36.76%~66.36%,Fragilariopsis kerguelensis在湾外开阔水域占54.33%~70.95%。除趋势对应分析(DCA)显示研究区主要的10种硅藻分为开放水域种组合、近海冰种组合和海冰种组合,其表层沉积硅藻组合分布也分成3个区。作为硅藻极地开放海洋指示种的Fragilariopsis kerguelensis分布在普里兹湾外的深海平原,受湾内冰架水的限制,不能向湾内扩散;作为硅藻海冰指示种的Fragilariopsis curta主要分布在普里兹湾内的陆架上,受南极表层水和海冰的影响较重,在湾外受深水溶解作用而急剧减少;作为硅藻近海冰指示种的Thalassiosira antarctica的出现是受普里兹环流、冰架水和海冰的控制。研究区硅藻的组成和分布反映和验证了区域内环流的分布和扩散极限。     

枯水期钦州湾浮游植物群落结构组成与分布特征

应用浮游植物特征光合色素的分析方法,研究了2011年枯水期钦州湾浮游植物的结构组成与分布特征。结果表明:枯水期含量较高的浮游植物光合色素按含量高低依次为叶绿素a、岩藻黄素、叶绿素b、青绿素和多甲藻素,其他特征光合色素的含量很低。经CHEMTAX对光合色素转化计算,枯水期普遍检出的浮游植物类群为硅藻、青绿藻和甲藻,是枯水期浮游植物的优势类群,其生物量的平均值(±标准差)分别为(2.36±2.38)μg/L、(0.87±0.53)μg/L、(0.13±0.14)μg/L,变化范围为0.18~7.45μg/L、0.10~1.80μg/L和0.02~0.60μg/L。硅藻、青绿藻和甲藻占枯水期浮游植物生物量比例的平均值(±标准差)分别为59%±21%、30%±16%、6%±4%,占比变化范围为29%~96%、1%~53%和0.4%~14%,其他藻类所占比例很低。河口和外湾靠外海域两个区域以硅藻为优势类群,内湾及外湾近岸硅藻和青绿藻共同为优势类群。河流营养盐输入量和比例的不同决定了钦州湾河口海区浮游植物群落结构的差异,大面积贝类养殖导致了内湾至外湾近岸海区硅藻比例的降低,而外湾水温的增加引起暖水性硅藻大量增长成为优势类群,在温度进一步增加和营养盐持续输入等条件下存在会发生硅藻赤潮的风险。     

卡尔曼滤波技术在海冰测量中的应用

海冰的运动和冰水界面的粗糙使海冰的测量起伏较大,文中介绍利用卡尔曼滤波技术实现对海冰测量数据的平滑,通过调整滤波器的参数,达到最佳滤波效果。     

烟台近海浮游植物的时空变化特征

2010 年4 月-2011 年3月对烟台近海（四十里湾和套子湾） 浮游植物群落结构时空变化特征展开了为期1年的双月 调查。在28 个站位的调查研究中,共发现浮游植物78 属187 种,其中硅藻50 属103 种,甲藻21 属73 种,褐胞藻5属7 种,绿藻1属3种,未定类1种。硅藻在数量与物种组成上为主要类群,分别占浮游植物总量的97.3 %与55.3 %,其次为甲 藻。浮游植物细胞丰度、多样性指数（H忆） 和均匀度指数（J） 呈现明显的季节特征：细胞丰度周年变动范围为0.6伊104~ 156.7伊104 cells/L,最高峰出现在夏季（8 月）,次高峰出现在春季（3,4 月）;多样性指数（H忆）的周年变动范围是1.23~ 2.55,均匀度指数（J）的周年变动范围是0.28~0.68,两者在夏初（6 月） 和秋季（10 月） 较高。浮游植物优势种在夏季以 硅藻-甲藻-褐胞藻联合为主,其余调查季节主要以硅藻为主。应用聚类分析分析了6个航次浮游植物群落结构的平面分布格 局。四十里湾和套子湾细胞丰度在整个调查期间无显著差异,而在秋季（10 月） 和冬季（12 月） 存在显著差异。春初（3 月）,四十里湾与套子湾浮游植物群落结构差异显著,其他调查季节两湾浮游植物并无显著差异。     

冬季海南岛五个海湾浮游植物光合色素分布的比较研究

为了研究海南岛周边海湾浮游植物群落分布特征,于2010年12月在海南岛周边5个海湾(海口湾、澄迈湾、洋浦-新英湾、陵水新村湾、三亚大东海)进行生态调查,分析了调查区域表层水的光合色素分布特征、浮游植物群落结构以及环境因素,对浮游植物不同类群的影响。本次调查共检出17种光合色素,岩藻黄素和叶绿素a是含量最高的两种色素,平均值分别达到0.410?g/L和0.278?g/L。CHEMTAX分析表明,调查海湾浮游植物类群主要包括硅藻、甲藻、蓝藻、青绿藻、隐藻等;浮游植物类群以硅藻为主,其次是隐藻与青绿藻。海南岛北部3个海湾(海口湾、澄迈湾、洋浦-新英湾)的硅藻比例低于南部2个海湾(陵水新村湾、三亚大东海),但其隐藻比例高于南部海湾。RDA结果显示,不同门类的浮游植物受环境因子影响的模式不同:定鞭藻、金藻、蓝藻与盐度、温度呈较强正相关,而与硅酸盐呈较强负相关;硅藻与盐度、温度呈较强正相关,与DIN、硅酸盐、磷酸盐呈负相关;甲藻、绿藻与DIN、磷酸盐呈较强正相关并与其他环境因子相关性较小;隐藻、青绿藻与硅酸盐呈较强正相关,与盐度、温度呈极强负相关。     

南流江河口区春季浮游植物群落结构组成与分布特征

通过2016年3月底现场航次11个站点的调查,应用反相高效液色谱（RP-HPLC）并结合二极管阵列检测器分析技术,分析了春季广西南流江河口区浮游植物光合色素组成,进而由CHEMTAX软件估算全粒级浮游植物的群落结构。结果表明:春季含量较高的浮游植物特征光合色素含量以叶绿素b最高,其次为岩黄藻素;浮游植物的优势类群为隐藻,其次为绿藻和硅藻,它们分别平均占据了浮游植物生物量的54.95%、23.36%和17.37%,其他藻类所占比例很低。南流江河口区浮游植物群落结构东西部入海分支有较大差异:东部分支营养盐较西部分支低,隐藻所占生物量比例最高,其次为绿藻和硅藻,浮游植物群结构与分布受营养盐因素影响较大;西部分支营养盐含量明显比东部分支高,绿藻和硅藻的所占比例有所提升,隐藻的生物量所占比则有所下降,浮游植物群落结构与分布受非营养盐因素的影响较大。南流江河口区浮游植物生物量和群落结构除了受营养盐影响外,还与浊度、盐度等密切相关,表明南流江浊度增加已明显影响着生态系统结构与功能,需要密切关注和进一步研究。     

厦门潘涂对虾养殖垦区浮游植物的生态特征

1995年6月至1996年5月对厦门市潘涂对虾养殖垦区的浮游植物进行了调查，鉴定虾池浮游植物82属300种。其中，硅藻229种（底栖种类为主），甲藻30种，绿藻30种，蓝藻5种，隐藻和裸藻各3种。发现虾池浮游植物数量上以硅藻、绿藻和甲藻为主，并且多属于微型和超微型种类、调查虾池浮游植物的生态特征与邻近海区有较大的差别。文中还对浮游植物生态特征及其与保持虾池水质环境稳定性关系方面作了初步探讨。     

雪热传导系数与穿过海冰的热通量研究

雪热传导系数是海冰质量平衡过程中的重要物理参数，决定了穿透海冰的热传导通量。北冰洋海冰质量平衡浮标观测获得多年冰上冬季温度链剖面可以明显地区分冰雪界面。本文考虑到冰雪界面处温度随时间变化，再根据冰雪界面热传导通量连续假定，提出了新的雪热传导系数计算方法。受不同环境因素影响，多年冰上各个浮标的雪热传导系数在0.23~0.41 W/（m·K）之间，均值为（0.32±0.08） W/（m·K）。北冰洋多年冰上冬季穿过海冰的热传导通量最大发生在11月至翌年3月，约14~16 W/m2。结冰季节，来自海冰自身降温的热量对穿过海冰向大气传输的热量贡献逐月减少，从9月100%减小到12月的35%，翌年的1月至3月稳定在10%左右。夏季，短波辐射通能量通过热传导自上而下加热海冰，海冰上层温度高于下层，热量传播方向与冬季反向，往海冰内部传递。直到9月短波辐射完全消失，气温下降，热量再次转变为自下往上传递。从冰底热传导来看，夏季出现海冰向冰水界面传递热量现象。由于雪较好的绝热性，冰上覆雪极大地削弱了海冰上层热传导通量，从而减缓了秋冬季节的结冰速度。尽管受雪厚影响，多年冰上层热传导通量与气温依旧具有很好的线性关系，气温每降低1℃，热传导通量增加约0.59 W/m2。     

南极海冰微型生物的研究概况

海冰生物,主要指生长和繁殖在海冰表层、底层以及冰内的微型动、植物。从1847年胡克(Hooker)首次在南极海冰上发现硅藻,迄今已有一百三十多年。南极海冰微型生物的研究大致可分两个时期:本世纪六十年代以前为一个时期,这一时期的研究侧重分类学和生物地理学方面;六十年代以后转到了以自然生态学为主兼及其他学科方面的研究。近年的研究成果表明,海冰微型生物,尤其是硅藻,在南极海洋生态系统中起着极为重要的作用——参与了南大洋和极区海域的能量和物质循环。这一循环系统的结构及内在关联可用图1表     

2008年夏季西北冰洋表层水浮游植物群落结构的色素表征及其对不同水团的响应

本文依托2008年夏季中国第三次北极科学考察航次,对西北冰洋海盆区和楚科奇海陆架营养盐及光合色素进行了测定和分析。根据海水理化性质将研究海区分为5个区,并使用CHEMTAX软件（Mackery et al.,1996）讨论了西北冰洋不同海区浮游植物群落组成结构及其与环境因子之间的关系。结果显示在楚科奇海陆架区,太平洋入流显著影响浮游植物生物量和群落结构。高营养盐Anadyr水团以及白令陆架水控制海域,表现出高Chl a且浮游植物以硅藻为主,相反,低营养盐如阿拉斯加沿岸流控制海域,Chl a生物量低且以微型,微微型浮游植物为主。在外陆架海区,海冰覆盖情况影响着水团的物理特征及营养盐浓度水平,相应地显著影响浮游植物群落结构。在海冰覆盖区域,硅藻生物量站到总Chl a生物量的75%以上;在靠近门捷列夫深海平原海区,受相对高盐的冰融水影响（MW-HS）,营养盐浓度和Chl a浓度相对海冰覆盖区略高,浮游植物结构中微型、微微型藻类比重增加,硅藻比例则降至33%;南加拿大海盆无冰海区（IfB）,表层水盐度最淡,营养盐浓度最低,相应地显示出低Chl a生物量,表明海冰消退,开阔大洋持续时间延长,将导致低生物量及激发更小型浮游植物的生长,并不有利于有机碳向深海的有效输出。     

Alkalinity of sea ice in the high-latitudinal arctic according to the surveys performed at north pole drifting station 34 and characterization of the role of the arctic ice in the CO<Subscript>2</Subscript> exchange

The variability of the total alkalinity in the sea ice of the high-latitudinal Arctic from November 2005 to May 2006 is considered. For the bulk of the one- and two-year sea ice, the alkalinity dependence on the salinity is described as TA = k × Sal, where k is the salinity: alkalinity ratio in the under-ice water. The given relationship is valid within a wide salinity range from 0.1 psu in the desalinated fraction of two-year ice to 36 psu in the snow on the young ice surface. Geochemically significant deviations from the relationship noted were observed exclusively in the snow and the upper layer of one-year ice. In the upper layer of one-year ice, an alkalinity deficiency is observed (ΔTA ～ ?0.07 mequiv/kg, or ?15%). In the snow on the surface of the one-year ice, an alkalinity excess is formed under the desalination (ΔTA is as high as 1.3 mequiv/kg, 380%). The deviations registered are caused by the possibility of carbonate precipitation in the form of CaCO₃ · 6H₂O under the seawater freezing. It is shown that the ice formation and the following melting might cause a loss of the atmospheric CO₂ of up to 3 × 10¹² g C/year.     

2010年西北冰洋浮游植物区域差异与环境关系

Global warming has caused Arctic sea ice to rapidly retreat,which is affecting phytoplankton,the primary producers at the base of the food chain,as well as the entire ecosystem.However,few studies with large spatial scales related to the Arctic Basin at high latitude have been conducted.This study aimed to investigate the relationship between changes in phytoplankton community structure and ice conditions.Fifty surface and 41 vertically stratified water samples from the western Arctic Ocean(67.0°–88°26′N,152°–178°54′W) were collected by the Chinese icebreaker R/V Xuelong from July 20 to August 30,2010 during China's fourth Arctic expedition.Using these samples,the species composition,spatial distribution,and regional disparities of phytoplankton during different stages of ice melt were assessed.A total of 157 phytoplankton taxa(5 μm) belonging to 69 genera were identified in the study area.The most abundant species were Navicula pelagica and Thalassiosira nordenskioeldii,accounting for 31.23% and 14.12% of the total phytoplankton abundance,respectively.The average abundance during the departure trip and the return trip were 797.07×10~2 cells/L and 84.94×10~2 cells/L,respectively.The highest abundance was observed at Sta.R09 in the north of Herald Shoal,where Navicula pelagica was the dominant species accounting for 59.42% of the abundance.The vertical distribution of phytoplankton abundance displayed regional differences,and the maximum abundances were confined to the lower layers of the euphotic zone near the layers of the halocline,thermocline,and nutricline.The species abundance of phytoplankton decreased from the low-latitude shelf to the high-latitude basin on both the departure and return trips.The phytoplankton community structure in the shallow continental shelf changed markedly during different stages of ice melt,and there was shift in dominant species from centric to pennate diatoms.Results of canonical correspondence analysis(CCA) showed that there were two distinct communities of phytoplankton in the western Arctic Ocean,and water temperature,ice coverage and silicate concentration were the most important environmental factors affecting phytoplankton distribution in the surveyed sea.These findings will help predict the responses of phytoplankton to the rapid melting of Arctic sea ice.     

The physical structures of snow and sea ice in the Arctic section of 150°-180°W during the summer of 2010

The physical structures of snow and sea ice in the Arctic section of 150°-180°W were observed on the basis of snow-pit, ice-core, and drill-hole measurements from late July to late August 2010. Almost all the investigated floes were first-year ice, except for one located north of Alaska, which was probably multi-year ice transported from north of the Canadian Arctic Archipelago during early summer. The snow covers over all the investigated floes were in the melting phase, with temperatures approaching 0℃ and densities of 295-398 kg/m3 . The snow covers can be divided into two to five layers of different textures, with most cases having a top layer of fresh snow, a round-grain layer in the middle, and slush and/or thin icing layers at the bottom. The first-year sea ice contained about 7%-17% granular ice at the top. There was no granular ice in the lower layers. The interior melting and desalination of sea ice introduced strong stratifications of temperature, salinity, density, and gas and brine volume fractions. The sea ice temperature exhibited linear cooling with depth, while the salinity and the density increased linearly with normalized depth from 0.2 to 0.9 and from 0 to 0.65, respectively. The top layer, especially the freeboard layer, had the lowest salinity and density, and consequently the largest gas content and the smallest brine content. Both the salinity and density in the ice basal layer were highly scattered due to large differences in ice porosity among the samples. The bulk average sea ice temperature, salinity, density, and gas and brine volume fractions were-0.8℃, 1.8, 837 kg/m3 , 9.3% and 10.4%, respectively. The snow cover, sea ice bottom, and sea ice interior show evidences of melting during mid-August in the investigated floe located at about 87°N, 175°W.     

北极河流径流对北冰洋环流的影响

北极河流径流是北冰洋淡水的最大来源，其变化会对北冰洋中的诸多过程有重要影响。本文基于全球高分辨率海洋?海冰耦合模式的模拟结果，研究北冰洋温盐、海冰以及环流对北极河流径流的敏感性。通过对比有气候态北极河流径流输入的控制实验结果和径流完全关闭的敏感性实验结果，研究发现北极径流对北冰洋温度、盐度、海冰以及海洋环流等有显著的影响。关闭北极河流径流后，在河口附近的陆架上温度降低、盐度升高，且导致500 m深度处温度下降以及盐度升高；河口附近的陆架处，海冰密集度与海冰厚度增加。关闭北极河流径流也对北冰洋内的环流有影响:由于缺少来自欧亚大陆的北极径流的输入，穿极漂流与东格陵兰流流速减小且盐度增加；关闭北极径流导致近岸海表面高度降低，沿欧亚陆架的北冰洋边界流减弱，白令海入流增强。通过对比关闭北极径流实验与控制实验的温度和盐度剖面，发现关闭北极径流后大西洋层温度降低，各陆架海盐跃层的梯度减小，盐跃层厚度减小。     

Variation of freshwater components in the Canada Basin during 1967–2010

As a conservative tracer, oxygen isotopes in seawater are widely used for water mass analysis, along with temperature and salinity. In this study, seawater oxygen-18 datasets in the Canada Basin during 1967–2010 were obtained from the four cruises of the Chinese National Arctic Research Expedition(1999, 2003, 2008, and 2010) and the NASA database. Fractions of sea ice meltwater and river runoff were determined from the salinity-18O system. Our results showed that the river runoff decreased from the south to the north in the Canada Basin. The enhanced amount of river runoff observed in the southern Canada Basin may originate from the Mackenzie River, transported by the Beaufort Gyre. The river runoff component showed maximum fractions during 1967–1969, 1978–1979, 1984–1985, 1993–1994, and 2008–2010, indicating the refresh time of the river runoff was 5.0–16.0 a in the Canada Basin. The temporal variation of the river runoff was related to the change of the Arctic Oscillation(AO) index, suggesting the freshwater stored in the Canada Basin was affected by surface sea ice drift and water mass movement driven by atmospheric circulation.     

Crucial physical characteristics of sea ice in the Arctic section of 143°–180°W during August and early September 2008

Sea-ice physical characteristics were investigated in the Arctic section of 143°-180°W during August and early September 2008. Ship-based observations show that both the sea-ice thickness and concentration recorded during southward navigation from 30 August to 6 September were remarkably less than those recorded during northward navigation from 3 to 30 August, especially at low latitudes. Accordingly, the marginal ice zone moved from about 74.0°N to about 79.5°N from mid-August to early September. Melt-pond coverage increased with increasing latitude, peaking at 84.4°N, where about 27% of ice was covered by melt ponds. Above this latitude, melt-pond coverage decreased evidently as the ice at high latitudes experienced a relatively short melt season and commenced its growth stage by the end of August. Regional mean ice thickness increased from 0.8 (±0.5) m at 75.0°N to 1.5 (±0.4) m at 85.0°N along the northward navigation while it decreased rapidly to 0.6 (±0.3) m at 78.0°N along the southward navigation. Because of relatively low ice concentration and thin ice in the investigated Arctic sector, both the short-term ice stations and ice camp could only be set up over multiyear sea ice. Observations of ice properties based on ice cores collected at the short-term ice stations and the ice camp show that all investigated floes were essentially isothermal with high temperature and porosity, and low density and salinity. Most ices had salinity below 2 and mean density of 800-860 kg/m~3 . Significant ice loss in the investigated Arctic sector during the last 15 a can be identified by comparison with the previous observations.     

北冰洋浮游生物空间分布及其季节变化的模拟

低营养级浮游生物生态动力过程对环境变化的响应非常敏感。随着全球气候变化加剧，北冰洋正在经历快速的环境变化。厘清北冰洋低营养级浮游生物季节分布与变化特征是探究北冰洋生态系统对环境快速变化响应的前提，也是评估北极海区固碳能力的重要依据。基于此，本文构建了海洋–海冰–生物地球化学循环模型，并对北冰洋叶绿素浓度以及浮游生物结构的时空变化特征进行了模拟，结果表明:(1)北冰洋表层叶绿素浓度的峰值主要出现在5月，且太平洋一侧叶绿素浓度高于大西洋一侧；随着海水层化，表层受营养盐限制的海区呈现次表层叶绿素浓度最大值现象，且由陆架向海盆，次表层叶绿素浓度最大值层逐渐加深；9月，叶绿素浓度高值重回水体上层，太平洋一侧海区表层叶绿素浓度呈现较为明显的次峰值。(2)由于太平洋和大西洋入流营养盐浓度及结构的不同，北冰洋表层浮游生物群落结构存在明显空间差异。太平洋一侧，硅藻和中型浮游动物占优，硅藻在5月和9月出现生物量峰值，微型浮游植物在3月、5月和6月维持相对较高生物量；而大西洋一侧，在早春－春末夏初－夏秋经历了微型浮游植物－硅藻－微型浮游植物的演替，总体而言，微型浮游植物和微型浮游动物占优。此外，两侧海区浮游动物浓度峰值相较浮游植物滞后约半月。     

Spring and summer phytoplankton communities in the Chukchi and Eastern Beaufort Seas

Phytoplankton pigments and size-fractionated biomass in the Chukchi and Beaufort Seas showed spatial and temporal variation during the spring and summer of 2002. Cluster analysis of pigment ratios revealed different assemblages over the shelf, slope and basin regions. In spring, phytoplankton with particle sizes greater than 5 μm, identified as diatoms and/or haptophytes, dominated over the shelf. Smaller (<5 μm) phytoplankton containing chlorophyll b, most likely prasinophytes, were more abundant over the slope and basin. Due to extensive ice cover at this time, phytoplankton experienced low irradiance, but nutrients were near maximal for the year. By summer, small prasinophytes and larger haptophytes and diatoms co-dominated in near-surface assemblages in largely ice-free waters when nitrate was mostly depleted. Deeper in the water column at 1–15% of the surface irradiance larger sized diatoms were still abundant in the upper nutricline. Phytoplankton from the shelf appeared to be advected through Barrow Canyon to the adjacent basin, explaining similar composition between the two areas in spring and summer. Off-shelf advection was much less pronounced for other slope and basin areas, which are influenced by the low-nutrient Beaufort gyre circulation, leading to a dominance of smaller prasinophytes and chlorophytes. The correlation of large-sized fucoxanthin containing phytoplankton with the higher primary production measurements shows promise for trophic status to be estimated using accessory pigment ratios.