北极海冰输出区域海冰运动变化特征及其与北极航道适航性的关系   总被引：1，自引：0，他引：1  

桂大伟  庞小平  雷瑞波  赵羲  Wang Jia 《海洋学报(英文版)》2019,38(8):101-110

随着北极地区气候变暖的加剧，北极海冰正在急剧消融，海冰的减少增加了北极地区航道的适航性。本文利用遥感数据反演得到的海冰运动产品对北极海冰输出区域以及东北航道以北区域的海冰运动特征进行了量化。结果显示，从北极中央海域向弗拉姆海峡以及格陵兰海流出海冰的南向位移量呈现出显著增长趋势，海冰的平均南向位移量在2007-2014年间达到1511 km，是2007年之前（617 km）的两倍以上，反映了北极穿极流（TDS）强度在不断增强。通过长时间序列分析发现，春季东北航道以北区域的海冰北向漂移速度在喀拉海呈现+0.04 厘米/秒/年的显著增长趋势（P<0.05）。海冰北向漂移对于东北航道的开通具有显著的影响，在拉普捷夫海与喀拉海，海冰北向运动速度与航道适航期的决定系数分别达到0.33（P<0.001）和0.15（P<0.05）。东西伯利亚海、拉普捷夫海以及喀拉海存在冰间湖区域的春季海冰面积变化与航道的适航期密切相关，海冰的北向漂移对拉普捷夫海和喀拉海的海冰面积减少也有显著影响，这说明北向漂移促进了海冰的离岸输送，造成海冰面积减少的同时形成冰间水道或冰间湖促使航道开通。为探究大气环流指数对海冰运动以及东北航道适航期的影响，本文利用大气再分析数据计算了中央北极指数（CAI）和北极大气偶极子异常（DA）指数。相关性分析表明，CAI比DA更能解释东北航道的适航期，而且CAI能够解释北极海冰输出区域海冰南向位移量变化的45%。最近10年，夏季正相位的CAI进一步加强，通过加强海冰离岸输运和冰间湖活动加剧了东北航道区域海冰变薄及其强度变弱，从而促进了东北航道的开通。  相似文献   

热带太平洋海温异常对北极海冰的可能影响   总被引：1，自引：1，他引：0  

罗蕊  祁莉  张文君  何金海 《海洋学报》2017,39(7):53-69

本文利用1950-2015年间Hadley环流中心海冰和海温资料及NCEP/NCAR再分析资料,研究了热带太平洋海温异常对北极海冰的可能影响,并从大气环流和净表面热通量两个角度探讨了可能的物理机制。结果表明,在ENSO事件发展年的夏、秋季节,EP型与CP型El Niño事件与北极海冰异常的联系无明显信号。而La Niña事件期间北极海冰出现显著异常,并且EP型与CP型La Niña之间存在明显差异。EP型La Niña发生时,北极地区巴伦支海、喀拉海关键区海冰异常减少,CP型La Niña事件则对应着东西伯利亚海、楚科奇海地区海冰异常增加。在EP型La Niña发展年的夏、秋季节,热带太平洋海温异常通过遥相关波列,使得巴伦支海、喀拉海海平面气压为负异常并与中纬度气压正异常共同构成类似AO正位相的结构,形成的风场异常有利于北大西洋暖水的输入,同时造成暖平流,偏高的水汽含量进一步加强了净表面热通量收入,使得巴伦支海、喀拉海海冰异常减少。而在CP型La Niña发展年的夏季,东西伯利亚海、楚科奇海关键区受其东侧气旋式环流的影响,以异常北风分量占主导,将海冰从极点附近由北向南输送到关键区,海冰异常增加,而净表面热通量的作用较小。  相似文献   

融冰季节北极破碎冰区热通量的初步研究   总被引：5，自引：1，他引：5  

史久新  赵进平  矫玉田 《海洋科学进展》2002,20(3):35-43

利用航空遥感数字影像的解析结果和实测气象，海洋和海冰资料，定量研究了夏季融冰期北极破碎冰区的热通量，计算了海洋对大气的热贡献，结果表明，在北极夏季海冰融化时，短波辐射远远大于感热和潜热通量，是表面热通量的决定因素，海洋对大气的热贡献主要由长波辐射决定，在观测期间，海洋对大气的热贡献为38～104Wm^-2，这部分热量的大小与海冰的密集度有关，当海冰密集度小于0.8时，海洋对大气的热贡献随海冰密度度的增大而减小，而当海冰密集度超过0.8以后，该热通量将随海冰密集度的增大而增大。  相似文献   

海冰消融背景下北极增温的季节差异及其原因探讨   总被引：7，自引：2，他引：5  

武丰民  何金海  祁莉  李文铠 《海洋学报》2014,36(3):39-47

运用哈德莱中心第一套海冰覆盖率(HadISST1)、欧洲中心(ERA_Interim)的温度以及NCEP第一套地表感热通量、潜热通量等资料,研究了1979—2011年33a来北极海冰消融的季节特点和空间特征,并从反照率——温度正反馈与地表感热通量、潜热通量等方面分析了海冰减少对北极增温影响的季节差异。结果表明,北极海冰在秋季和夏季的减少范围明显大于冬季和春季,而北极地表升温却在秋季和冬季最显著,夏季最为微弱,且夏季的增温趋势廓线也与秋冬季显著不同。这主要是因为夏季是融冰季,海冰融化将吸收潜热。且此时北极低空大气温度高于海表温度,海水相当于大气的冷源。随着海冰的消融,更多的热量由大气传入海洋用于融冰和加热上层海水,这使得夏季的低空大气不能显著升温。而在秋冬季,海冰凝结释放潜热,且此时低空大气温度远低于海水温度,海冰的减少使得海水将更多热量释放到大气中导致低空大气显著增暖。海水对大气的这种延迟放热机制是北极低空在夏季增温不显著而在秋冬季增温显著的主要原因。此外,秋冬季的海冰减少与北极近地面升温具有非常一致的空间分布,北冰洋东南边缘和巴伦支海北部分别是秋季和冬季海气相互作用的关键区域。  相似文献   

夏季赤道中东太平洋海温和北极海冰异常对大气环流影响的数值模拟   总被引：4，自引：0，他引：4  

杨修群  谢倩  黄士松 《海洋学报》1995,17(1):24-31

利用菱形截断15波的9层全球大气环流谱模式设计了若干数值试验,分别研究了赤道中东太平洋海温偏暖、北极不同区域海冰偏多以及海温偏暖同时海冰偏多对夏季北半球大气环流的影响,结果表明北极海冰偏多和赤道中东太平洋海温偏暖,对夏季北半球大气环流具有同等效应,海冰和赤道海温任何一方的变异均可显着影响大气环流,其中亚洲-北美型和欧亚型遥相关是极冰和赤道海温影响北半球夏季大气环流异常的主要动力学途径。本文结果再一次证实了赤道和极地之间的热力差是决定大气环流的最基本因子。  相似文献   

北极喀拉海工程海冰冰情特征统计分析     

《海洋湖沼通报》2020,(3)

本文基于ICDC海冰密集度、冰厚及NSIDC冰速数据,分析了喀拉海工程海冰时空变化特征,并采用ECMWF大气强迫资料,进一步分析了影响喀拉海冰情的热力与动力因素。结果显示,喀拉海海冰冰情总体呈现由重变轻趋势;海冰时空变化显著,存在8个月的高密集度完全冰封期,冬季月份全海域冰厚高于60cm,夏季西南部冰厚低于20cm,冻结快,融化慢;油气代表点处冰厚频率分布呈双峰状,常冰向及强冰向以NW、NNW及SSE方向为主;冬季积温是决定融冻期海冰覆盖率特征和增长期冰厚指数的主要因素;自2005年起,喀拉海夏季几近无冰,经向风场与海冰覆盖率开始存在相关性。  相似文献   

北极超强气旋活动及其大气环流特征     

丁瑞昌  黄菲 《海洋学报》2021,43(7):114-124

北极极端气旋过程能够反映北极气候变化特征并对北极水文气象要素的调节具有重要影响,其活动及大气环流形势特征值得关注。利用美国国家环境预报中心(National Centers for Environmental Prediction,NCEP)与美国国家大气研究中心(National Center for Atmospheric Research,NCAR)提供的逐日再分析资料定义北极超强气旋(Arctic Super Cyclone, ASC)过程,结合美国国家冰雪数据中心(National Snow and Ice Data Center, NSIDC)基于NCEP/NCAR再分析资料追踪识别的北半球气旋及特征资料,分析了ASC的活动特征及其大气环流特征。结果表明:判别ASC的北极最低气压5%阈值具有显著的冬季低夏季高的单峰型季节变化特征,冬季ASC的强度远强于夏季;ASC多从大西洋扇区经北欧海?巴伦支海?喀拉海输入到极区,也存在少部分极区原生或太平洋扇区输入;ASC多生成于两大洋急流轴或急流出口区北侧,极少数生成于大陆或中低纬度,且绝大多数在极区消亡难以回到中纬度。极区原生ASC频数占总数约1/3,整体没有显著增减趋势,但长生命史ASC频数以0.49次/(10 a)的趋势增多,表明其持续时间增长。ASC频数与北极涛动(Arctic Oscillation, AO)在冬季相关性很好,其大气环流形势回归场中极区海平面出现低压低温异常,高空极涡加深且两大洋急流偏北,中纬度急流主轴偏弱;ASC的生成发展不仅有利于AO向正位相转变,同时AO正位相下也有利于ASC活动的增强,ASC活动是AO位相变化的潜在指标。  相似文献   

北极海冰的变化特征   总被引：4，自引：0，他引：4  

郝春江  解思梅 《海洋湖沼通报》1994,(2):84-91

本文使用了北极海冰１９７２～１９８９年的资料，分析了北极海冰的区域特征、季节变化和长期变化的特征。发现由于北极海冰南侧被殴亚和北美大陆所包围，处于基本封闭状态，只有通过白令海峡与太平洋相连和格陵兰海和娜威海与大西洋相连的两个通道，其环境条件与南极海冰绝然不同，因此其特征也明显不同。１、季节变化小。净冰面积冬季是夏季的２倍左右，而南极海有６倍之差。２、海冰寿命较长。以多年冰为主，平均寿命为１．３年。  相似文献   

北极秋季海冰减少与亚洲大陆冬季温度异常   总被引：1，自引：1，他引：0  

LIU N  LIN Lin  WANG Yingjie  KONG Bin  ZHANG Zhanhai  CHEN Hongxia 《海洋学报(英文版)》2016,35(7):36-41

本文使用SVD等诊断分析方法探讨北极秋季海冰密集度与亚洲冬季温度异常之间的关系。结果表明,近30余年来,北极秋季海冰减少伴随着亚洲大陆冬季温度降低,但青藏高原地区、北冰洋和北太平洋沿岸除外。北极秋季海冰密集度减小激发欧亚大陆和北冰洋北部两个区域位势高度的改变,这种异常的变化模态从秋季持续到冬季。位势高度异常的负值中心位于巴伦支海和喀拉海。位势高度异常的正值中心位于蒙古区域。与重力位势高度异常伴随的风场异常为亚洲冬季温度降低提供自北向南的冷气流。随着北极海冰的不断减少,其与亚洲大陆冬季温度降低之间的关系将为气候长期预测提供参考。  相似文献   

北极海冰输出研究综述   总被引：1，自引：1，他引：0  

毕海波  杨清华  梁钰  王云鹤  张泽华  付敏  黄海军 《海洋科学》2018,42(10):110-124

北极海冰对全球气候变化起重要的指示作用。除了海水冻结和融化过程以外,通过弗拉姆海峡(Fram Strait)的海冰输出也是影响北极海冰质量变化的重要动力机制。观测数据中的多源卫星遥感数据(尤其是辐射计观测数据)在获取大尺度连续观测方面具有独特的优势,在研究北极海冰输出面积通量变化方面有着广泛应用。本文总结了北极弗拉姆海峡、其他通道(S-FJL、FJL-SZ、加拿大群岛、Nares海峡通道)海冰输出面积或体积通量,着重介绍了弗拉姆海峡不同年龄海冰输出情况,并总结和分析了影响北极海冰输运的大尺度大气活动模态。最后,本文阐明北极海冰输出方面现有研究的不足之处以及未来的突破方向。  相似文献   

北极中央区经向水汽输送的主要通道     

徐道欢  杜凌  马靖凯  史荒原 《海洋学报(英文版)》2020,42(5):55-64

Atmospheric moisture transport plays an important role in latent heat release and hydrologic interactions in the Arctic. In recent years, with the rapid decline in sea ice, this transport has changed. Here, we calculated the vertically integrated atmospheric moisture meridional transport(AMTv) from two global reanalysis datasets, from1979–2015, and found moisture pathways into the central Arctic. Four stable pathways showed an occurrence frequency greater than 70%, and these pathways exhibited a perennial seasonal pattern in the atmosphere above the Laptev Sea Pathway(LSP), Canadian Arctic Archipelago Pathway(CAAP), both sides of the Greenland plateau. Another seasonal pathway appeared above the east of the Chukchi Sea(CSP) during the melting/freezing months(March to September). Through these pathways, AMTv contributed a total moisture exchange of60%–80%—averaged over a 75°N circle—and focused on the low troposphere. Transports across the LSP, CSP and CAAP pathways likely create an enclosed moisture route. Meridional moisture fluxes are intensified in the Pacific sector of Arctic(PSA), especially during melting/freezing months. AMTv interannual variabilities are illustrated mainly in the Laptev Sea and the east Greenland pathway. Results indicate that accompanying a tendency for a stronger Beaufort Sea High in this sea level pressure field, AMTv through PSA pathways, switched from output to input, and approximately 960 km~3 of equivalent liquid water was transferred into the central Arctic during each decade. The detrended AMTv increment is highly correlated with the rapid decline of old ice areas(correlation coefficient is –0.78) for their synchronous fluctuations in the 1980 s and the last decade.  相似文献   

西伯利亚极地海域表层沉积硅藻分布特征及其与海洋环境变量的相关性研究          下载免费PDF全文

李显富  刘焱光  邱悦  黄元辉  徐皓  李冬玲 《海洋与湖沼》2023,54(2):362-374

北冰洋西伯利亚陆架海是北极气候快速变化最为显著的海域之一,而沉积硅藻作为极地海洋生态系统的重要组成部分,对环境变化具有敏感的响应。对楚科奇海、东西伯利亚海和拉普捷夫海表层沉积物开展了硅藻组成鉴定,利用典型对应分析方法分析了硅藻属种与1986～2015年环境变量之间的关系。结果表明,夏季和秋季海冰密集度、表层海水盐度是影响研究区表层硅藻分布特征最主要的因素。此外,根据表层站位与环境变量的典型对应分析,可将西伯利亚极地海域划分为4个区域,分别为海冰硅藻组合带、暖水硅藻组合带、沿岸硅藻组合带和混合硅藻组合带。这些表层站位的分区与相应区域的海流模式有明显的相关性,海冰硅藻组合带仅分布于研究区北部的高纬度地区;暖水硅藻组合带位于受白令水和太平洋海水的分支——阿拉斯加沿岸水影响为主的区域;拉普捷夫海南部的沿岸硅藻组合带则受到河流径流和西伯利亚沿岸流的强烈影响;混合硅藻组合带受极地冷水、海冰覆盖、太平洋暖水和陆地径流的共同影响。  相似文献   

Severe winter weather as a response to the lowest Arctic sea-ice anomalies     

CHEN Hongxi  LIU N  ZHANG Zhanhai 《海洋学报(英文版)》2013,32(10):11-15

Possible impact of reduced Arctic sea-ice on winter severe weather in China is investigated regarding the snowstorm over southern China in January 2008. The sea-ice conditions in the summer （July-September） and fall （September-November） of 2007 show that the sea-ice is the lowest that year. During the summer and fall of 2007, sea ice displayed a significant decrease in the East Siberian, the northern Chukchi Sea, the western Beaufort Sea, the Barents Sea, and the Kara Sea. A ECHAM5.4 atmospheric general circula- tion model is forced with realistic sea-ice conditions and strong thermal responses with warmer surface air temperature and higher-than-normal heat flux associated with the sea-ice anomalies are found. The model shows remote atmospheric responses over East Asia in January 2008, which result in severe snowstorm over southern China. Strong water-vapor transported from the Bay of Bengal and from the Pacific Ocean related to Arctic sea-ice anomalies in the fall （instead of summer） of 2007 is considered as one of the main causes of the snowstorm formation.  相似文献   

一个区域海洋——海冰——大气耦合模式中的北极气候偏差：年结果检验     

LIU Xiying 《海洋学报(英文版)》2014,33(9):56-67

The Coupling of three model components, WRF/PCE （polar climate extension version of weather research and forecasting model （WRF））, ROMS （regional ocean modeling system）, and CICE （community ice code）, has been implemented, and the regional atmosphere-ocean-sea ice coupled model named WRF/PCE- ROMS-CICE has been validated against ERA-interim reanalysis data sets for 1989. To better understand the reasons that generate model biases, the WRF/PCE-ROMS-CICE results were compared with those of its components, the WRF/PCE and the ROMS-CICE. There are cold biases in surface air temperature （SAT） over the Arctic Ocean, which contribute to the sea ice concentration （SIC） and sea surface temperature （SST） biases in the results of the WRF/PCE-ROMS-CICE. The cold SAT biases also appear in results of the atmo- spheric component with a mild temperature in winter and similar temperature in summer. Compared to results from the WRF/PCE, due to influences of different distributions of the SIC and the SST and inclusion of interactions of air-sea-sea ice in the WRF/PCE-ROMS-CICE, the simulated SAT has new features. These influences also lead to apparent differences at higher levels of the atmosphere, which can be thought as responses to biases in the SST and sea ice extent. There are similar atmospheric responses in feature of distribution to sea ice biases at 700 and 500 hPa, and the strength of responses weakens when the pressure decreases in January. The atmospheric responses in July reach up to 200 hPa. There are surplus sea ice ex- tents in the Greenland Sea, the Barents Sea, the Davis Strait and the Chukchi Sea in winter and in the Beau- fort Sea, the Chukchi Sea, the East Siberian Sea and the Laptev Sea in summer in the ROMS-CICE. These differences in the SIC distribution can all be explained by those in the SST distributions. These features in the simulated SST and SIC from ROMS-CICE also appear in the WRF/PCE-ROMS-CICE. It is shown that the performance of the WRF/PCE-ROMS-CICE is determined to a l  相似文献   

北极各海域海冰覆盖范围的变化特征   总被引：2，自引：1，他引：1  

陈萍  赵进平 《海洋学报(英文版)》2017,36(8):9-19

Sea ice in the Arctic has been reducing rapidly in the past half century due to global warming.This study analyzes the variations of sea ice extent in the entire Arctic Ocean and its sub regions.The results indicate that sea ice extent reduction during 1979–2013 is most significant in summer,following by that in autumn,winter and spring.In years with rich sea ice,sea ice extent anomaly with seasonal cycle removed changes with a period of 4–6 years.The year of 2003–2006 is the ice-rich period with diverse regional difference in this century.In years with poor sea ice,sea ice margin retreats further north in the Arctic.Sea ice in the Fram Strait changes in an opposite way to that in the entire Arctic.Sea ice coverage index in melting-freezing period is an critical indicator for sea ice changes,which shows an coincident change in the Arctic and sub regions.Since 2002,Region C2 in north of the Pacific sector contributes most to sea ice changes in the central Aarctic,followed by C1 and C3.Sea ice changes in different regions show three relationships.The correlation coefficient between sea ice coverage index of the Chukchi Sea and that of the East Siberian Sea is high,suggesting good consistency of ice variation.In the Atlantic sector,sea ice changes are coincided with each other between the Kara Sea and the Barents Sea as a result of warm inflow into the Kara Sea from the Barents Sea.Sea ice changes in the central Arctic are affected by surrounding seas.  相似文献   

2005年7月北极地区大气环流特征的数值研究     

马艳  陈尚  刘琳 《海洋学报》2008,30(6):30-38

利用一个极地中尺度数值模式(Polar MM5)对北极地区大气环流进行了2005年7月17-19日48 h的中尺度数值模拟研究。数值分析表明,2005年7月19日500 hPa高度上,北冰洋上空北极点以东由一个冷低压控制,在极点以西则是一个暖性高压系统,在地面图上对应的则是一个气旋性环流和反气旋性环流;整个极区呈现出高(反气旋)-低(气旋)-低(气旋)-高(反气旋)的波动分布型态。选择了5个北极地区探空站与相应温度场和风场的数值模拟结果进行了对比;气象变量统计分析和垂直分布表明了数值模式很好地再现了观测大气特征,表现为小的模式偏差和较高的相关系数。在Barrow站2 m处空气温度,感热通量和潜热通量具有明显的日变化特征,PolarMM5还有效地反映出此处极地逆温层和下降风的垂直结构特征。  相似文献   

Cooling in the western Bering Sea in 1999: quick propagation of La Niña signal or compensatory processes effect?     

V. I. Radchenko  G. V. Khen  A. M. Slabinsky 《Progress in Oceanography》2001,49(1-4)

In 1999, synoptic and hydrological conditions in the western Bering Sea were characterized by negative SST and air temperature anomalies, extensive ice coverage and late melting. Biological processes were also delayed. In 1999, the average zooplankton biomass was 1.76 g/m³, approximately half the average 3.07 g/m³ in 1998. Pacific salmon migrated to the northeastern Kamchatka streams two weeks later. This contrasts with 1997 (spring and summer) and 1998 (summer) when positive SST anomalies were widely distributed throughout the northwestern Bering Sea shelf. Since the second half of the 1990s, seasonal atmospheric processes developed over the western Bering Sea that were similar to those of the cold decades of the 1960–1970s. A meridional atmospheric circulation pattern began to replace zonal transport. Colder Arctic air masses have shifted over the Bering Sea region and shelf water temperatures have cooled considerably with the weakening of zonal atmospheric circulation. Temperature decreased in the cold intermediate layer during its renewal in winter. Besides, oceanic water inflow intensified into the Bering Sea in intermediate layers. Water temperature warmed to 4°C and a double temperature maximum existed in the warm intermediate layer in late summer in both 1997 and 1998. Opposing trends of cold water temperature and a warm intermediate layer led to an increase of vertical gradients in the main thermocline and progressing frontogenesis. It accelerates frontal transport and can be regarded as a chief cause of increased water exchange with the Pacific Ocean.  相似文献   

Sediment dynamics in the Eurasian Arctic Ocean during the last deglaciation — The clay mineral group smectite perspective   总被引：1，自引：0，他引：1  

Christoph Vogt  Jochen Knies   《Marine Geology》2008,250(3-4):211-222

This study focuses on sedimentological investigations of sediment cores recovered during the international Arctic′91, expeditions with the German research ice breaker RV “Polarstern” to the European sector of the Arctic Ocean. Here, we deduce the last glacial/interglacial changes in transport mechanism and sedimentation from the clay mineral group smectite. We choose the smectites as an example of how sediment mineralogy can be linked with particular source regions (the Kara and Laptev seas), distinct transport mechanism (sea ice and surface currents) and sedimentation processes. Smectite contents in Arctic sediments discussed for two time slices, including the Last Glacial Maximum (LGM), and the last deglaciation (Termination I), reveal the highest variability subsequent to the retreat of the Eurasian ice sheets. Our results show that smectite anomalies in the Eurasian Basin are associated with distinct meltwater pulses and occurred around 13.5–13.0 ¹⁴C ka B.P. Compelling evidence is provided that these anomalies are deduced from sea-ice entrained sediments from the eastern Kara Sea that entered the Arctic Ocean after ice-sheet break-up and eventually flooding of the Kara Sea. We propose that smectite anomalies in sediments of the eastern Arctic Ocean can be utilized to identify deglacial events and to help decipher configurations of the Eurasian ice sheets. The identification of smectite maxima along the modern sea-ice edge in the Eurasian Basin further indicates biologically enhanced sedimentation from melting sea ice allowing the reconstruction of seasonally open water in the region. Hence, considering the poor preservation conditions of primary paleoceanographic proxies in the Arctic Ocean, the clay mineral contents, particularly the smectite group, may be one alternative tool for paleoclimatic reconstruction in the Eurasian Basin.  相似文献