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1.
1998 /1 999年南极夏季 ,作者随“雪龙船”在南极普里兹湾及其北部海区 (63° - 69°1 2′S ,70°30′- 75°30′E) 3条断面 2 4个测站进行浮游生物现存量和初级生产力的现场观测 ,研究叶绿素a浓度和初级生产力的分布特征。测区表层叶绿素a浓度为 0 .1 6 - 3 .99μg/dm3,普里兹湾内和湾西部四女士浅滩海域浓度在 3 .5μg/dm3以上 ;平面分布趋势从湾内向西北方向递减 ,深海区浓度在 0 .5μg/dm3以下。从垂向看叶绿素a浓度的最大值大多出现于 2 5m或 50m层 ,50m以下更深层的浓度随深度的增加而降低 ,2 0 0m层叶绿素a浓度分布范围为 0 .0 1 - 0 .95μg/dm3。粒径分级叶绿素a浓度以微小型浮游生物的贡献占优势 (56 % ) ,微型浮游生物的贡献占2 4 % ,微微型浮游生物的贡献占 2 0 %。测区潜在初级生产力为 0 .1 1~ 1 1 .67mgC/(m3·h) ,平均值为 2 .0 0± 2 .80mgC/(m3·h)。高生产力区位于普里兹湾 ,平均现场生产力达到 0 .86gC/(m2 ·d) ;依次为陆架区、陆坡区 ,深海区生产力较低 ,平均现场生产力为 0 .1 7gC/(m2 ·d)。光合作用同化数较低 (1 .53± 1 .1 1mgC/(mgChla·h) )。粒径分级初级生产力以微小型浮游生物的贡献占优势 (58% ) ,微型浮游生物的贡献占 2 6 % ,微微型浮游生物的贡献占 1 6 %。浮游植 相似文献
2.
The distribution feature of size-fractionated chlorophyll a and primary productivity in Prydz Bay and its north sea area during the austral summer 
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下载免费PDF全文 The investigation of size-fractionated chlorophyll a and primary productivity were carried out in three longitudinal sections (63°-69°12'S, 70°30'E, 73°E and 75(30'E) at December 18-26, 1998 and January 12-18, 1999 in Prydz Bay and its north sea area, Antarctica. The results showed that surface chlorophyll a concentration were 0. 16 -3. 99 μg dm-3. The high values of chlorophyll a concentration (more than 3.5 μg dm -3) were in Prydz Bay and in the west Ladies Bank. The average chlorophyll a concentration at sub-surface layer was higher than that at surface layer; its concentration at the deeper layers of 50 m decreased with increasing depth and that at 200 m depth was only 0. 01 -0. 95μg dm -3. The results of size-fractionated chlorophyll a showed that the contribution of the netplanktion to total chlorophyll a was 56% , those of the nanoplankton and the picoplankton were 24% and 20% respectively in the surveyed area. The potential primary productivity at the euphotic zone in the surveyed area wa 相似文献
3.
自1988年11月至1989年3月,对南极长城湾(62°13′S,58°57′W)中5个站位的水温、pH值、海水透明度、水下照度、水中和海冰中叶绿素含量、磷酸盐含量、亚硝酸盐和硝酸盐含量等理化要素,每月进行1至2次不定期的常规测定。在整个调查期间,海水温度变化范围在-1.6~2.2°C之间,pH值变化范围在8.0~9.1之间,海水中叶绿素a的变化范围在0.30~1.48mg/m3之间,叶绿素a的最大值出现在11月26日5号站的表层水中,海冰中叶绿素a的含量远远高于海水中的含量,海冰中叶绿素a的变化范围在2.55~56.84mg/m3之间。磷酸盐含量变化范围在1.023~2.187μgP/L,亚硝酸盐含量变化范围在0.093~0.186μgN/L之间,硝酸盐含量变化范围在13.308~26.584μgN/L之间。本文对以上结果作了初步探讨 相似文献
4.
中国第 1 6次南极考察期间 ,作者随雪龙船于 1 999年 1 1月 2 2日至 2 0 0 0年 1月 1 8日从澳洲西南部到达东南极普里兹湾 ,后经南印度洋 -南大西洋 -德雷克海峡 -南大西洋 -南印度洋返回普里兹湾。航渡中定时采集表层海水 ,进行水温、盐度、营养盐、浮游生物现存量和光合作用速率的现场观测 ,研究环绕南极海域表层水叶绿素 a和初级生产力的分布特征。结果表明 ,南大洋表层水营养物质、浮游生物现存量和初级生产力分布具明显的区域性特征 ,南极辐合带以南的南极水营养盐浓度高于亚南极水和亚热带水。叶绿素 a浓度与营养物质的分布趋势一致 ,南极水、亚南极水和亚热带水的平均叶绿素 a浓度分别为 1 .77、1 .40和 0 .2 1 μg/dm3。在环绕南极的大洋中 ,南大西洋海域营养物质丰富 ,海水最为肥沃 ,叶绿素 a浓度和初级生产力高于南印度洋和德雷克海峡。在短期往返东南极 -西南极 -东南极的航渡观测中 ,由于南极夏季水温的升高 ,陆缘冰融化 ,冰藻释放 ,长城湾至普里兹湾的西 -东向航渡中观测的初级生产力、浮游植物细胞丰度、叶绿素 a浓度和光合作用同化数分别比普里兹湾至长城湾的东 -西向航渡中高 1 45%、1 1 3%、68%和 1 8%。与 1 0年前的观测结果比较 ,南大西洋仍为高生物量和高生产力海区 ;1 999/2 0 0 0 相似文献
5.
Oxygen isotopic composition and its application to the study of tracing oceanographical process in Bering Sea and Chukchi Sea 下载免费PDF全文
下载免费PDF全文 In this paper, the 18 O distribution of surface water from the central sea areas of the Bering Sea and the Chukchi Sea was studied. The δ 18 O value of surface water from the Bering Sea is averagely -0.5‰; the δ 18 O contents of the Chukchi Sea are distributionally lower in northeast and higher in southwest; the δ 18 O value at the margin of Canadian Basin is -2.8‰, and averagely -0.8‰ in the southern area of the Chukchi Sea. The δ 18 O vertical distribution in some deep water stations from the Chukchi Sea and the Bering Sea is also studied. In the southern margin of Canadian Basin, the δ 18 O value is -2‰ -3‰ for surface layer and rises to 0 at 100 m depth layer. In the Bering Sea, the δ 18 O is about -0.5‰ for surface layer and increases to 0 at the depth of 300 m. The NO tracer can reflect obviously three water masses vertically distributed in the central Bering Sea: the upper Bering water mass, the middle Bering water mass and the deep Pacific water mass. The distributive ranges of NO and temperature for the various water masses are T<7℃, NO>780 μmol/dm 3 and T≥7℃, NO>650 μmol/dm 3 for upper Bering water mass, T<4℃, 550相似文献
6.
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。 相似文献
7.
《Polar Science》2014,8(3):306-313
Atmospheric dimethylsulfide (DMS) was measured to investigate the variation in its concentration over sea ice free oceans and sea ice regions of the Southern Ocean, using a proton transfer reaction-mass spectrometer (PTR-MS) on board the icebreaker Shirase from 1 December 2009 to 16 March 2010. In general, DMS concentrations over sea ice regions were very low compared with those over the sea ice free ocean. However, abrupt increases in DMS concentrations occurred over sea ice regions while the ship was moving and crushing the sea ice. Undoubtedly, the elevated DMS concentrations were caused by large DMS emissions from gaps in the ice made by the ship. During the period when Shirase had anchored off Syowa Station (69°00.4′S, 39°35.3′E), Antarctica, DMS concentrations were not detected. At this time, the surrounding sea of East Ongul island, on which Syowa Station is located, was completely covered with multi-year fast ice. Sea ice probably inhibits DMS emission from the ocean to the atmosphere. In addition, there was no evidence that chlorophyll a concentration in the sea water or wind speed above the sea surface affect atmospheric DMS concentrations over the sea ice free ocean regions. 相似文献
8.
9.
在 1 999年 1 2月 - 2 0 0 0年 2月“雪龙”号科学考察船往返于中山站和长城站期间 ,进行了大气及海表层 CO2 分压的连续测量。研究结果表明 ,在 80°W- 0°- 80°E之间 ,南大洋基本上是大气 CO2 的汇 ,尤其在 45°W- 3 0°W及 1 0°W- 1 0°E之间 ,是 CO2 的强汇区 ,往返的两次观测结果十分相似。观测发现 ,南大洋 1月份吸收大气 CO2 的能力近两倍于 1 2月份 ,这是由于该海域1月的生产力比 1 2月份高 ,因而反映了初级生产对大气 CO2 吸收的显著影响。利用最新的 K值计算方法表明 ,1月份二氧化碳的入海通量为 3 .98mol/(m2 · a) ,1 2月份的为2 .1 3 mol/(m2 · a) ,综合两个月的值平均 ,南大洋夏季 CO2 的平均通量为 3 .0 6 mol/(m2 · a) ,是南半球夏季一个重要的汇区 相似文献
10.
198 9/1 990年夏季作者在中国第六次南极考察环极航行中 ,对南大洋不同海区的浮游植物细胞大小分级叶绿素 a和初级生产力、颗粒有机碳及有关环境参数进行了测定。结果表明 ,在南极水域中以南大西洋最为肥沃 ,叶绿素 a浓度平均超过 2 μg/dm3 ,POC的平均浓度也最高 (>1 0 0 μg/dm3 ) ,而德雷克海峡和南印度洋较低。叶绿素 a和 POC的空间变异具有同步的波动。分级叶绿素 a结果表明 ,在肥沃的南大西洋以细胞 >2 0 μm的绢滤浮游生物 (主要是小型浮游生物 )所占比重最高 (6 5 %) ,而在较贫瘠的南印度洋则以微微型浮游生物 (<2 μm)最高 (47%)。分级初级生产力的结果表明 ,在南大西洋和德雷克海峡对总初级生产力的贡献以微微型浮游生物为最大 ,微型浮游生物和小型浮游生物的贡献大致相当。微微型浮游生物相对高的光合作用生理活性显示了它们在南大洋海洋生态系中的重要性。与南极水域相比 ,亚南极和亚热带水域较为贫瘠。 相似文献
11.
根据2002年及2006年南大洋普里兹湾浮游动物和环境调查资料,对普里兹湾磷虾幼体及被囊类纽鳃樽的分布和丰度进行了初步研究。结果表明,陆架以北深海水域(水深>1000 m)磷虾幼体主要由长臂樱磷虾Thysanoessa macrura和大磷虾Euphausia superba组成,其中长臂樱磷虾幼体的分布范围更广、丰度更高。2006年与2002年相比海冰回退时间早,测区海水的平均温度和叶绿素a浓度较高,大磷虾及长臂樱磷虾幼体的丰度相对更大,成熟度更高。近岸区域磷虾幼体主要由晶磷虾Euphausia crystallorophias组成,在2002年近岸冰情严重时丰度较小,仅为95.6尾/1000 m3,2006年近岸出现冰间湖时,晶磷虾幼体丰度高达43966.6尾/1000 m3,主要以无节幼体及原蚤状幼体CI期为主。测区纽鳃樽Salpa thompsoni丰度很低,2002年仅在最北部1个站位出现,密度为10个/1000 m3,2006年在陆坡及陆架坡折3个站位出现,平均丰度为146.7个/1000 m3。海冰消融时间、冰间湖、饵料浓度等环境因子对普里兹湾磷虾幼体及纽鳃樽的分布和丰度产生重要影响。 相似文献
12.
Eva Falck 《Polar research》2001,20(2):193-200
Measurements of nitrate and phosphate taken in the Northeast Water Polynya (NEWP) during the summer of 1993 have been used to identify the contribution of waters of Atlantic and Pacific origin in the polynya. Since waters from the northern Pacific exhibit a deficit in nitrate relative to phosphate due to denitrification in low oxygen waters, the relationship between nitrate and phosphate can be used to distinguish between oceanic waters of Pacific and Atlantic origin. The Pacific Water enters the Arctic Ocean through Bering Strait and flows along the northern coasts of Alaska and Canada. Some of this water exits through Fram Strait and may therefore enter the polynya which is situated above the continental shelf off the north-eastern coast of Greenland. Compared to data from the Greenland Sea, which only show a N–P relationship of typical Atlantic Water, the data from the Northeast Water Polynya show that the upper waters of the polynya bear a clear signal of waters of Pacific origin. In the surface mixed layer an average of about 90% is found to have Pacific N–P characteristics. Below the surface mixed layer the amount of Pacific derived water decreases through the halocline and from about 150 m to the bottom only typical Atlantic Water is found. 相似文献
13.
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。 相似文献
14.
《Polar Science》2014,8(4):370-384
An anomalous phytoplankton bloom was recorded in the Indian Ocean sector of the Antarctic Zone (AZ) of the Southern Ocean (SO) during the austral summer, 2011. Possible mechanisms for the triggering of such a large bloom were analyzed with the help of in situ and satellite data. The bloom, which formed in January 2011, intensified during February and weakened by March. High surface chlorophyll (Chl) concentrations (0.76 mg m−3) were observed in the area of the bloom (60°S, 47°E) with a Deep Chlorophyll Maximum (DCM) of 1.15 mg m−3 at a depth of 40–60 m. During 2011, both the concentration and spatial extent of sea ice were high on the western side of the bloom, between 0°E and 40°E, and enhanced freshwater influx was observed in the study area as a result of melting ice. A positive Southern Annular Mode (SAM) (with a resultant northward horizontal advection) and an intense La Niña during 2010–2011 are possible reasons for the high sea-ice concentrations. The enhanced Chl a observed in the study region, which can be attributed to the phytoplankton bloom, likely resulted from the influx of nutrient-laden freshwater derived from melting sea ice. 相似文献
15.
During August 1999, we investigated sea ice characteristics; its distribution, surface feature, thickness, ice floe movement, and the temperature field around inter-borders of air/ice/seawater in the Chukchi Sea. Thirteen ice cores were drilled at 11 floe stations in the area of 72°24′ 77°18′N, 153°34′ 163°28′W and the ice core structure was observed. From field observation, three melting processes of ice were observed; surface layer melting, surface and bottom layers melting, and all of ice melting. The observation of temperature fields around sea ice floes showed that the bottom melting under the ice floes were important process. As ice floes and open water areas were alternately distributed in summer Arctic Ocean; the water under ice was colder than the open water by 0.4 2.8℃. The sun radiation heated seawater in open sea areas so that the warmer water went to the bottom when the ice floes move to those areas. This causes ice melting to start at the bottom of the ice floes. This process can balance effectively the temperature fluctuating in the sea in summer. From the crystalline structure of sea ice observed from the cores, it was concluded that the ice was composed of ice crystals and brine-ice films. During the sea ice melting, the brine-ice films between ice crystals melted firstly; then the ice crystals were encircled by brine films; the sea ice became the mixture of ice and liquid brine. At the end of melting, the ice crystals would be separated each other, the bond between ice crystals weakens and this leads to the collapse of the ice sheet. 相似文献
16.
拉斯曼丘陵在渐新世已被冰盖覆没,晚渐新世冰盖厚度最大,自中新世开始,冰盖逐渐减薄后退,但该丘陵仍为冰盖占据。更新世冰川作用规模不及第三纪。18kaB.P.该丘陵区覆冰厚度超过170m,冰盖前缘仅增厚30m左右。冰盖后退出露基岩约在10.0kaB.P.前后,自9.41~6.5kaB.P.,冰川以2~3m/a的速率后退,岛屿区全部出露;自6.5~5.0kaB.P.,冰川后退速率减为1.0~1.5m/a,丘陵区裸露50%以上;约自5.0kaB.P.开始,丘陵区几乎全部出露,冰川冰盖范围与今基本相同。 相似文献
17.
The fabrics and crystals of Bohai one year ice show that the noncontinuous ice growth rate enables the level ice layers with different amount of air bubbles to be formed in lower part of an ice sheet which was clearly seen from CT technology; typical grain ice and columnar ice occur in the grey ice which grows in stable water; thaw refrozen ice and rafted ice have their specific crystal characters. On the Arctic sea ice, the ice core located at 72°24.037′N, 153°33.994′W and 2.2 m in length was a 3 year ice floe and a new sort of crystal was found, which is defined as refrozen clastic pieces. The crystal profile of the ice core 4.86 m in length located at 74°58.614′N, 160°31.830′W shows the evidence that ice ridge changed into hummock. 相似文献
18.
Jörg Haarpaintner 《Polar research》1999,18(2):175-182
Persistent polynyas have been observed over several winters in Storfjorden, situated between Spitsbergen and Barentsøya/Edgeøya in the south of the Svalbard archipelago. Polynyas are in general active regions with respect to ocean-atmosphere heat exchange, presenting strong convection phenomena and as such being involved in important water mass formation and having an impact on the marine ecosystem. Hydrographic observations have revealed very dense (cold and saline) brine-enriched bottom waters leaving the continental shelf as gravity driven plumes into the deep sea west of Spitsbergen. Satellite observations, using ERS-2 SAR imagery, reveal the evolution of the Storfjorden polynya during winter 1997/98. After forming a complete ice cover until mid-January, Storfjorden responds dynamically to northerly winds by opening a large latent heat polynya. It occupies at its largest extent a region of up to 6000 km2 of open water, thin ice and brash ice. Comparable in size to other large Arctic polynyas, the Storfjorden polynya might have the same or even greater importance in the thermohaline circulation and bottom water mass formation. Ice production is estimated at 30 km3 in Storfjorden, rejecting around 700 Mt (Megatons) of salt that can raise the salinity in Storfjorden by 0.9-1.0 PSU. First studies and the winter 1997/98 evolution of this polynya are presented in this paper. 相似文献
19.
新疆北部夏季降水与海温异常的关系 总被引:1,自引:1,他引:0
利用1960—2004年新疆北部36个气象站月降水资料和美国国家气候数据中心重建的1960—2004年全球2°×2°月平均海洋表面温度资料,研究了新疆北部夏季降水与海温异常的关系。研究表明,新疆北部夏季降水变化与ENSO事件关系不密切,而与前期冬末—春季的5个海温敏感区密切联系,这5个海温敏感区分别为北印度洋、西太平洋暖池及黑潮区、热带中东太平洋、北大西洋和热带大西洋。前期春季海温异常与新疆北部夏季降水变化联系最显著,表现为显著正相关关系。研究为预测新疆北部夏季降水提供了有益的因子。 相似文献
20.
现代南极大陆冰缘地理地貌,形成于18000年以来全球气候变化,南极大陆冰盖的退缩,以及随后的大陆均衡抬升和海平面变化等过程。研究表明,在维斯德福尔特丘陵地,这一过程仍在继续,并导致该区许多海生盐湖自然环境和理化因子的改变,以及湖中生物的种群结构的变化和群落演替。本文通过对这些现象的剖析,阐明了南极大陆冰缘环境变迁的客观存在,为进一步研究南极乃至全球气候变化提供生态学佐证。 相似文献