南极中山站近岸海冰生态学研究Ⅲ.冰藻优势种的季节变化及其与冰下浮游...

自１９９２年４月１２日至１２月３０日对中山以西同拉峡湾海冰和冰下水柱中藻类优势种组成和丰度进行了测定。４月份和１１月中旬至１２月中旬冰柱和水柱藻类丰度高达１０＾８－１０＾９ｖｃｅｌｌｓ／ｍ＾２。冰藻的普遍或季节性优势种主要包括Ａｍｐｈｉｐｒｏｒａ ｋｊｅｌｌｍａｎｉｉ，Ｂｅｒｋｅｌｅｙａｒｕｔｉｌａｎｓ，Ｎａｖｉｃｕｌａ ｇｌａｃｉｅｉ，Ｎｉｔｚｓｃｈｉａ ｂａｒｋｅｙｉ，Ｎ．ｃｙｌｉｎｄｒｕｓ，     

南极中山站近岸海冰生态学研究Ⅰ．1992年冰藻生物量的垂直分布及季节变化

从１９９２年４月至１２月对东南极中山站近岸当年冰生物量及其环境因子进行了观测。冰底有色层出现在４月下旬和１１月下旬，集中于冰底２～３ｃｍ，叶绿素ａ最高含量分别为８８．３ｍｇ／ｍ３和２８１０ｍｇ／ｍ３，相应的冰藻数量分别为３．５×１０６和１．２１×１０８个／升。柱总叶绿素ａ含量的季节性变化极为显著，尤其是以春季的大幅度快速增值为特征，变化范围为１．１７～５９．７ｍｇ／ｍ２，冰藻生物量主要分布在冰底，冬季期间则集中在冰底或冰的中上层。藻类优势种较为单一，秋季优势种为Ｎｉｔｚｓｃｈｉａｌｅｃｏｉｎｔｅｉ、Ｎ．ｂａｒｋｌｅｙｉ和Ｎ．ｃｙｌｉｎｄｒｕｓ；春季优势种为Ａｍｐｈｉｐｒｏｒａｋｊｅｌｍａｎｉ，Ｂｅｒｋｅｌｅｙａｒｕｔｉｌａｎｓ和Ｎ．ｌｅｃｏｉｎｔｅｉ。中山站近岸冰藻生物量的垂直分布和季节变化以及春季优势种的组成与东南极其它固冰区具有较强的相似性，与亚南极固冰区差异较大。     

北极拉普捷夫海春季冰藻和浮游植物群落结构及生物量分析

对1999年春季采集于北极拉普捷夫海东南部的冰藻和冰下浮游植物群落的种类组成进行了分析,并对丰度和生物量进行了统计和对比。藻种以硅藻占绝对优势,其中又以羽纹硅藻为主。优势种集中,主要包括海洋拟脆杆藻(Fragilariopsisoceanica)、圆柱拟脆杆藻(F.cylindrus)、寒冷菱形藻(Nitzschiafrigida)、普罗马勒菱形藻(N. promare)、带纹曲壳藻(Ach nanthestaeniata)、新寒冷菱形藻(Nitzschianeofrigida)、大洋舟形藻(Naviculapelagica)、范氏舟形藻(N. vanhoeffenii)、北极直链藻(Melosiraarctica)、北方舟形藻(N. septentrionalis)、新月细柱藻(Clindrothecaclosterium)和绿藻门的塔形藻(Pyramimonassp. )。微藻主要集中在冰底10cm,丰度为14. 6-1562. 2×104 cells·L-1,平均为639. 0×104 cells·L-1;生物量为7. 89-2093. 5μgC·L-1,平均为886. 9μgC·L-1,总体上比次冰底高1个数量级,比冰下表层水柱高2个数量级。冰底20cm冰柱的累计丰度和生物量平均分别为冰下20m水柱累计量的7. 7和12. 2倍,显示冰藻在春季海冰融化前在近岸生态系统中的重要作用。尽管各站位冰底和冰下表层水柱藻类群落的相似性普遍不高,但整个调查海域冰底和冰下水柱优势种极为相似,春季期间冰藻对冰下浮游植物群落的影响明显。由于     

南极中山近岸海水生态学研究Ⅰ.1992年冰藻生物量的垂直分布及季节变化

从１９９２年４月１２月对东南极中山近央求发年冰生物是及其环境因子进行了预测。冰底有色层出现在４月下旬和１１月下旬，集中于冰底２－３ｃｍ，叶绿素α最高含量分别为８８．３ｍｇ／ｍ＾３和２８１０ｍｇ／，＾３，相应的冰藻数量分别为３．５×１０＾６和１．２１×１０＾８个／升。     

南极中山站近岸海冰生态学研究 Ⅳ.海冰营养盐浓度的季节变化及其与生物量的关系

对１９９２年４月至１２月间中山站近岸海冰营养盐状况以及与生物量的关系进行了分析。为了能与海水中的营养盐进行对比,对海冰融化样的营养盐数据进行了同期冰下海水表层盐度的校正。结果显示,海冰中多数层次的硝酸盐浓度低于冰下表层海水的浓度,而磷酸盐和硅酸盐浓度则正好相反,亚硝酸盐浓度在观测期间均高于冰下表层海水的浓度。海冰营养盐浓度无明显的变化规律,呈现较大的波动,它可以是冰下表层海水的数分之一直至高出一个数量级,除显著的冰底水华期外并不构成冰藻生长的限制因素。海冰营养盐的分布与叶绿素ａ含量无明显的相关性。     

南极中山站近岸海冰生态学研究 Ⅱ．1992年冰下水柱浮游植物生物量的季节变化及其与环境因子的关系

自１９９２年４月１２日至１２月３０日对中山站附近内拉峡湾冰下水柱中浮游植物生物量以及环境因子的季节变化进行了测定。水中叶绿素ａ含量在０．０３－２１．４０ｍｇ／ｍ３之间波动，在覆冰期间，生物量基本上随深度的增加而下降；５－９月份各层次的生物量普遍低于０．５ｍｇ／ｍ３，８－９月份低于０．１ｍｇ／ｍ３。各层次中以水表含量的季节变化最为明显，成冰后在９月份形成低谷，于１２月中旬紧接着冰底水华的消失而形成单一峰值。生物量中微型浮游植物（＜２０μｍ）的比重在４－９月份的多数层次占有一半以上，１０月份后随着生物量的上升而下降，在水华期水表的比重最低，仅占总量的３．２％。其柱总生物量基本上与冰中生物量处于同一数量级，在冰藻水华期其量值甚至低于冰中生物量。营养盐（μｍｏｌ／Ｌ）的波动范围为ＰＯ４－Ｐ：０．３２－０．７９，ＳｉＯ３－Ｓｉ：２６．４７－６９．９２，ＮＯ３－Ｎ：１．４１－３１．７５，尽管水华期水表营养盐含量降至观测期间的最低点，但仍能满足冰下浮游植物的生长所需。光辐照度由于在冰水界面的量值仅为冰表入射光的不足５．３％至低于１％，成为水中产量最为可能的限制因子。     

南极普里兹湾晚第四纪以来硅藻组合及气候变化的研究

对南极普里兹湾ＮＰ９３－２和ＮＰ９５－１两柱样沉积硅藻进行了定量分析。两柱样分别可划分出３个和７个硅藻组合带。前者的优势种是Ｎｉｔｚｓｃｈｉａｃｕｒｔａ和Ｔｈａｌａｓｉｏｓｉｒａａｎｔａｒｃｔｉｃａ，次优势种是Ｎ．ｋｅｒｇｕｅｌｅｎｓｉｓ和Ｎ．ｒｉｔｓｃｈｅｒｉ；后者常见的优势种有Ｎ．ｋｅｒｇｕｅｌｅｎｓｉｓ，Ｎ．ｃｕｒｔａ，Ｄｅｎｔｉｃｕｌｏｐｓｉｓｓｐｐ．和Ｔ．ｌｅｎｔｉｇｉｎｏｓａ，常见的次优势种有Ｅｕｃａｍｐｉａｂａｂｌａｕｓｔｉｕｍ，Ｔ．ａｎｔａｒｃｔｉｃａ和Ｔ．ｇｒａｃｉｌｉｓ。利用Ｎ．ｃｕｒｔａ／Ｎ．ｋｅｒｇｕｅｌｅｎｓｉｓ比值并结合１４Ｃ测年数据，可将１５０００年以来南极气候的变化划分出８个古气候带，其中完好地记录了Ｈｅｉｎｒｉｃｈ１事件、波令－阿德罗暖期、新仙女木冰期、全新世低温期等重大的气候变化事件，而南极的全新世低温期是首次报道。     

1991／1992年夏季南极普里兹湾邻近海域网采浮游植物的聚类分析

本文报道了１９９１／１９９２年南极夏季在普里兹湾邻近海域浮游植物调查的研究结果。经鉴定共有浮游植物３门２６属７８种；其平均细胞丰度为１２０±１７４×１０５个／ｍ３，密集区分布在６２°Ｓ、７８°～１０３°Ｅ，这一海域其细胞丰度在１１０×１０５～８６４×１０５个／ｍ３之间。根据浮游植物种类组成和细胞丰度百分比的聚类分析，测区浮游植物群落中可划分为四个聚合类群：菱形藻（Ｎｉｔｚｓｃｈｉａ）与赖氏针杆藻（Ｓｙｎｅｄｒａｒｅｉｎｂｏｌｄｉ）、长环毛藻（Ｃｏｒｅｔｈｒｏｎｃｒｉｏｐｈｉｌｕｍ）与翼根管藻（Ｒｈｉｚｏｓｏｌｅｎｉａａｌａ－ｔａ）和翼根管藻与赖氏针杆藻占优势的聚合类群及由海冰习性的菱形藻与近岸性角刺藻（Ｃｈａｅｔｏｃｅｒｏｓ）占优势组成的中山站近岸单一生态类群。文中还讨论了浮游植物丰度与环境因子的关系并对过去数年南极浮游植物的调查结果进行了比较     

南极普利兹湾夏季不同层次海冰及冰下海水古菌丰度和多样性

为了解南极普里兹湾夏季不同层次海冰及冰下海水中古菌丰度及群落组成,利用荧光原位杂交(filter in situ hybridization, FISH)技术对海冰及海水样品中古菌进行定量研究,通过构建16S rRNA基因文库对不同层次海冰及冰下海水中古菌进行多样性分析,并结合环境因子进行相关性分析。荧光原位杂交结果表明,古菌的平均丰度随着海冰层次的下降呈下降趋势,初步推断可能受海冰中铵离子影响所致;16S rRNA基因文库分析结果表明,仅在海冰底部样品中检测到古菌,且全部16S rRNA基因序列为泉古菌（Crenarchaeota）,与来源于北极海水、海冰中古菌16S rRNA基因序列相似性最高,属于泉古菌海洋类群I（Marine Group I Crenarchaeota）;冰下海水古菌多样性较高,主要归属于泉古菌Marine Group I和广古菌（Euryarchaeote）Marine Group II 、III。     

南极长城湾夏季浮游植物变化特征

用南极长城湾水域１９９２～１９９５年三个夏季（１２月～３月）网采浮游植物样品,分析了浮游植物种类组成和数量分布。共鉴定浮游植物７２种,其中三个夏季都采到的共有种３３种,占总种数的４５．８３％;各年夏季浮游植物细胞数量平均值分别为６８７３．８２×１０４个／ｍ３、２０８．４８×１０４个／ｍ３和１０２７．３６×１０４个／ｍ３。主要优势种有聚生角毛藻（Ｃｈａｅｔｏｃｅｒｏｓｓｏｃｉａｌｉｓ）、海链藻属（Ｔｈａｌａｓｉｏｓｉｒａｓｐｐ．）、脆杆藻属（Ｆｒａｇｉｌａｒｉａｓｐｐ）、珍珠异极藻（Ｇｏｍｐｈｏｎｅｍａｍａｒｇａｒｉｔｘ）和扁面角毛藻（Ｃｈａｅｔｏ－ｃｅｒｏｓｃｏｍｐｒｅｓｕｓ）等。结果表明,各夏季种类组成基本相似;数量有明显的年际变化;湾内和湾口数量变化趋势一致     

南极中山站及毗邻地区湖泊与冰雪COD_(Mn)研究

在 CHINARE- 1 5考察期间对中山站及毗邻地区的湖泊和冰雪进行了采样。它们的CODMn指数与中国《地面水环境质量标准》相比 ,可分为三类 :一类水质所占比重最大 ,大约为56% ,二类和三类分别为 37%、7%。各类水体的 CODMn指数主要为自然源所贡献 ,人为污染不明显。湖水的 CODMn指数是生物生长状况、有机质含量、盐度和水体氧化还原程度的综合体现 ,新鲜降雪样的 CODMn指数指示了该地区的大气洁净度。     

Abundance,biomass and composition of spring ice algal and phytoplankton communities of the Laptev Sea(Arctic)

<正> Abundance,biomass and composition of the ice algal and phytoplank-ton communities were investigated in the southeastern Laptev Sea in spring 1999.Diatoms dominated the algal communities and pennate diatoms dominated the dia-tom population.12 dominant algal species occurred within sea ice and underlyingwater column,including Fragilariopsis oceanica,F.cylindrus,Nitzschiafrigida,N.promare,Achnanthes taeniata,Nitzschia neofrigida,Naviculapelagica,N.vanhoef fenii,N.septentrionalis,Melosira arctica,Clindrothecaclosterium and Pyrarnimonas sp.The algal abundance of bottom 10 cm sea icevaried between 14.6 and 1562.2×10~4 ceils l~(-1)with an average of 639.0×10~4cells l~(-1),and the algal biomass ranged from 7.89 to 2093.5μg C l~(-1)with an av-erage of 886.9μg C l~(-1),which were generally one order of magnitude higherthan those of sub-bottom ice and two orders of magnitude higher than those ofunderlying surface water.The integrated algal abundance and biomass of lower-most 20 cm ice column were averagely 7.7 and 12.2 times as those of upper 20 mwater column,respectively,suggesting that the ice algae might play an importantrole in maintaining the coastal marine ecosystem before the thawing of sea ice.Icealgae influenced the phytoplankton community of the underlying water column.However,the“seeding”of ice algae for phytoplankton bloom was negligible be-cause of the iow phytoplankton biomass within the underlying water column.     

南极海冰区冰藻类群及兴衰过程

本文总结了国际上对南极冰藻类群及其生理生态特性的多年研究成果 ,结合我国科学家在南极长城站以及在戴维斯和中山站的越冬研究 ,阐述了南极海冰区的冰藻类群及其形成机理 ,对冰藻的形成、存活、旺发和消亡过程进行讨论 ,并对大洋浮冰区和近岸固定冰区冰藻类群的生态特性进行对比 ,提出了今后有待进一步深入研究的领域     

Ice algae in the Barents Sea: types of assemblages, origin, fate and role in the ice-edge phytoplankton bloom

Ice algal accumulations were recognised by their vertical distribution in the ice, as surface, interior and bottom assemblages. The latter were quantitatively the most important in the Barents Sea and in particular the sub-ice assemblage floating towards, or attached to, the undcr-surface of the sea ice. Colonisation of the ice takes place by a "sieving" of the water between closely spaced platelets on the ice under-surface. Once associated with the ice, the assemblage undergoes a succession terminated by the dominance of ice specialists. In a horizontal S-N section through the ice, three distinct zones may be recognised: at the ice edge the recently colonised ice has a layer of algae up to a few millimeters in thickness consisting primarily of planktonic species. Further into older first year ice the algal layer becomes thicker and is typically dominated by the pennate diatom Nilzschia frigida Grunow. Below multi-year ice in the central polar basin decimetre-thick mats of algae are found, consisting almost exclusively of the centric diatom Melosira arclica (Ehrenberg) Dickie and a few associated, mostly epiphytic, species. The predominantly planktonic sub-ice assemblages at the ice edge can grow under stable conditions as soon as the light becomes adequate in the spring, and they are able to multiply actively for one to two months before planktonic growth is possible. The sub-ice plankton assemblage thus forms an inoculum released to the stabilising water when the ice starts melting. This may explain how a phytoplankton bloom can develop explosively at the ice edge as soon as the ice melting commences, at a time when the number of algal cells in the water column is still very low.     

Vertical distribution and seasonal variation in ice algae biomass in coastal sea ice off Zhongshan Station， East Antarctica

何剑锋，陈波ＶｅｒｔｉｃａｌｄｉｓｔｒｉｂｕｔｉｏｎａｎｄｓｅａｓｏｎａｌｖａｒｉａｔｉｏｎｉｎｉｃｅａｌｇａｅｂｉｏｍａｓｓｉｎｃｏａｓｔａｌｓｅａｉｃｅｏｆｆＺｈｏｎｇｓｈａｎＳｔａｔｉｏｎ，ＥａｓｔＡｎｔａｒｃｔｉｃａ￥Ｈｅｊｉａｎｆｅｎｇａｎ...     

Temporal variations in the abundance and sinking flux of diatoms under fast ice in summer near Syowa Station, East Antarctica

To investigate the fate of ice algae released from sea ice, we investigated the abundance, species composition, and sinking flux of diatoms in the water column under fast ice near Syowa Station, Antarctica during the summer of 2005/2006. The diatom assemblage in the water column consisted of chain-forming planktonic species, in contrast to the under-ice assemblage dominated by pennate species reported from this site in the past; this dissimilarity suggests the presence of an unconsolidated platelet ice layer under the congelation ice, within which planktonic species can bloom. Among the dominant diatoms, Porosira pseudodenticulata and Pseudo-nitzschia cf. turgiduloides were dominant in the water column, and their water column stocks were higher than their mass sedimentation. These species apparently maintain their populations in the surface layer, as their production remains in the water column. In contrast, Fragilariopsis kerguelensis and Thalassiosira australis were scarce in the water column but rich in the flux, indicating active sinking and export of their production to the benthic ecosystem. This distinction in buoyancy control and sinking characteristics of the dominant diatoms on release from the fast ice influences the diatom species composition and carbon flow under the ice.