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1.
卓冉 《海洋世界》2011,(2):78-80
2010年11月11日,我国第27次南极考察队正式从深圳出发,前往南极执行科学考察任务,"雪龙"号也再次收托众望,拔航起程. "雪龙"号是我国第三代极地考察船,也是中国进行极地科考的唯一一艘功能齐全的破冰船,自1994年10月首航南极以来, "雪龙"号已先后26次赴南极、4次赴北极执行科学考察与补给运输任务.  相似文献   

2.
中国第3次北极科学考察利用"雪龙"号考察船,2008年7月11日从中国上海基地码头起航,先后完成了对日本海、俄霍茨克海、白令海、楚科奇海台、加拿大海盆、门捷列夫海脊等海区的观测考察,圆满完成了所拟定的各项科考计划,历时77 d,于2008年9月25日回到上海.  相似文献   

3.
<正>"雪龙"号极地考察船,是我国最大的极地考察船,也是我国目前唯一能在极地破冰前进的船只。在我国进行极区科学考察的任务中,"雪龙"号是科考队伍的核心。南极,一个纯洁而又充满危险的地区。《南极条约》的签订,让南校在这个纷扰的世界中独善其身,保留着自己原本的风貌。每年11月至次年3月,是南极考察的最佳时间。我国已经先后进行了29次南极考察。2013年11月7日,"雪龙"号再度从上海启程,开始了中国第30次南极科考的起程。谁也不会想到,"雪龙"号这次的远航,会在不久之后,吸引了全世界媒体的眼球……  相似文献   

4.
书海拾贝     
快速变化中的北极海洋环境张占海著科学出版社出版2003年7-9月,由国家海洋局主持,国家海洋局极地考察办公室组织实施了中国第二次北极科学考察。考察队由"雪龙"号科学考察破冰船承载,前往北极洋加拿大海盆,考察了北纬80°以南的大范围海域,对北极海洋、海冰、大气进行了全面考察。  相似文献   

5.
由国家海洋局组织实施的中国第二次北极科学考察于2003年7月15日乘“雪龙”号极地科学考察船从大连出发,9月26日乘“雪龙”号科学考察船回国。参加本次科学考察的中外科学家、后勤保障人员共108人,是近10年来国际上规模最大、学科最齐全的一次北极考察,获取了大量科学数据,不仅为了解北极变化及其对气候环境影响起到积  相似文献   

6.
《海洋世界》2010,(7):5-5
<正>继1999年、2003年、2008年三次北极科学考察之后,执行我国第四次北极科学考察任务的北极考察队已经组成。应厦门市人民政府邀请,我国第四次北极科学考察队(以下简称北极考察队)暨"雪龙"号科学考察船于6月25日从上海出  相似文献   

7.
9711号北上台风演变及暴雨过程的位涡诊断分析   总被引:8,自引:2,他引:6  
通过对 971 1号台风登陆北上穿过山东造成山东特大暴雨过程的湿位涡的分析 ,并从湿位涡的角度研究了台风演变及山东特大暴雨的形成机制 ,揭示了冷空气在台风演变及暴雨过程中的重要作用。结果表明 :倾斜涡度发展是暴雨产生和台风加强的重要机制之一 ,暴雨产生在 θe线陡立密集区内 ;湿位涡在这次暴雨过程中对流层低层具有 MPV1 <0 ,MPV2 >0的特征 ,此次暴雨产生在负的MPV1等值线密集区中 ;对流层上部及平流层下部高位涡的下传使得低层斜压性增大 ,引起低层的对流稳定度减小 ,促使气旋性涡度发展 ,有利于位势不稳定能量的释放 ,使得暴雨增幅 ,导致台风的加强并演变为温带气旋。  相似文献   

8.
利用31a(1979—2009)气候月平均的海平面气压(SLP)资料,提出1种与北半球中高纬度环流转变相适应的分季法。并根据这个客观分季方法,通过SEOF分析,发现大气环流主模态的季节演变有着典型的北极涛动(AO)空间结构,其时间系数在1990年代中期发生转型。500hPa上纬向波的涡度有着南北反位相的分布特征,冬季正涡度的区域对应着气旋性环流,其覆盖范围广,而夏季正涡度区域更偏北,可见AO在冬季增强,夏季减弱。北半球SLP异常的EOF分解第一模态为北极涛动(AO),第二模态是偶极异常(DA);将这2个模态称之为北半球中高纬度大气环流异常的优势模态。通过计算优势模态与海冰面积的超前滞后相关性,发现AO依然是控制海冰变化的前期大气环流异常的模态,而DA则可能是海冰快速变化后期大气环流的主导模态。  相似文献   

9.
《海洋世界》2010,(10):4-5
9月20日上午,中国第4次北极考察队乘坐“雪龙”号极地考察船凯旋。国家海洋局副局长陈连增、上海市人民政府副秘书长尹弘、国际极地年中国行动委员会主席、国家海洋局原局长张登义等亲临位于上海市中国极地研究中心曹路院区的中国极地考察国内基地码头迎接。  相似文献   

10.
《海洋世界》2012,(10):7
9月27日,中国第五次北极科学考察队乘"雪龙"号科学考察船完成考察任务后返回位于上海的中国极地考察国内基地码头。中国第5次北极科学考察历时93天,实现了我国北冰洋科学考察的多个"首次"。本航次航行18600余海里,"雪龙"号科学考察船首次穿越北极航道往返大西洋和太平  相似文献   

11.
The reproduction of dynamic processes in the stratosphere at extratropical latitudes is considered in calculations of the atmospheric module of the global climate model of the Institute of Numerical Mathematics, Russian Academy of Sciences, with an upper boundary of 0.2 hPa (~60 km) for the period from 1979 to 2008 in comparison with the data observational. Changes in temperature, zonal wind, activity of planetary waves, heat fluxes in the lower stratosphere, and sudden stratospheric warmings with the displacement and splitting of the polar vortex, as well as the distribution of associated circulation anomalies in the troposphere, are analyzed.  相似文献   

12.
Izvestiya, Atmospheric and Oceanic Physics - The Arctic stratosphere winter season of 2020–2021 was characterized by a weakened stratospheric polar vortex as a result of a major sudden...  相似文献   

13.
The meridional energy transport into high latitudes of the Northern Hemisphere is an important climate-forming factor in the Arctic. This work presents the results of calculating the meridional energy flux across 70° N based on the Integrated Global Radiosonde Archive (IGRA) data from the radio sounding of the atmosphere. The long-term mean energy flux over the period 1992–2007 in the layer from the Earth’s surface to 30 hPa is 70.6 W m?2. The fraction of the sensible heat flux is 23.2 W m?2, i.e., 33% of the total energy flux; the fraction of the latent heat flux is 28.0 W m?2 (40% of the total energy flux); the fraction of the potential energy is 20.0 W m?2 (27%); and the fraction of the kinetic energy is 0.53 W m?2, i.e., less than 1% of the total energy flux. The vertical structure of the flux shows that the main energy transport into the Arctic takes place in the middle troposphere-lower stratosphere layer, whereas the energy is transported mainly out of the Arctic in the lower troposphere, which agrees well with the schematic notion about the polar circulation cell. The spatial structure of the flux shows that the key regions with a positive (directed into the Arctic) energy flux are located in the vicinity of 160° E (the northwestern part of Eurasia, Pacific sector) and 50° W (Greenland sector). The regions with a negative (directed out of the Arctic) energy flux are located near 120° W (Canadian Arctic Archipelago) and from 20° E to 90° E (Atlantic sector). In the period from 1992 to 2007, the meridional energy transport into the Arctic weakened by ?0.26 W m?2 yr?1. The changes were mutually correlated; namely, positive and negative energy fluxes weakened in amplitude, almost without changing their locations.  相似文献   

14.
Dynamical features of the East Greenland Current (EGC) are synthesized from a survey conducted by the Swedish icebreaker Oden during the International Arctic Ocean - 02 expedition (AO-02) in May 2002 with emphasis on the liquid freshwater transport and Polar Surface Water. The data include hydrography and lowered acoustic doppler current profiler (LADCP) velocities in eight transects along the EGC, from the Fram Strait in the north to the Denmark Strait in the south. The survey reveals a strong confinement of the low-salinity polar water in the EGC to the continental slope/shelf—a feature of relevance for the stability of the thermohaline circulation in the Arctic Mediterranean. The southward transport of liquid freshwater in the EGC was found to vary considerably between the sections, ranging between 0.01 and 0.1 Sverdrup. Computations based on geostrophic as well as LADCP velocities give a section-averaged southward freshwater transport of 0.06 Sverdrup in the EGC during May 2002. Furthermore, Oden data suggest that the liquid freshwater transport was as large north of the Fram Strait as it was south of the Denmark Strait.  相似文献   

15.
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   

16.
北极夏季大气垂直结构与空间分布特征   总被引:1,自引:1,他引:0  
低层大气垂直物理剖面是研究大气边界层过程、模拟大气环流过程和进行天气预报的关键参数,海洋特别是北冰洋地区是气象实测资料的稀疏区甚至是空白区。因此,中国第6次北极科学考察期间(2014年7月21日至9月11日),我们使用GPS低空探空系统,对北极地区的大气垂直结构和边界层特征进行了观测实验。实地观测结果表明:(1)递减率对流层顶(LRT)和冷点对流层顶(CPT)均能准确的判断该地区对流层顶的高度和温度,NCEP再分析资料在较低纬度能够很好的反应对流层顶变化特征,但是在海冰密集的北极地区(海冰密集度达9成以上)则相对较差,所以很有必要在该区域开展探空观测研究。(2)在高空存在一个明显的低温区和高空急流,低温区和高空急流中心区的海拔高度与对流层顶高度一致;在晴天和少云天气,对流层顶高度变化不大;在多云和阴雨天气,随着纬度的升高对流层顶高度逐渐降低。在晴天和少云天气相比多云和阴雨天气,高空急流区的强度较弱,垂直和水平均范围较小。(3)CPT和高空急流的高度随着纬度有降低的趋势,75°N以北的区域降低显著;对流层垂直温度递减率随着纬度呈现出逐渐增大的趋势。(4)观测期间,在海拔3km以下均存在多个逆温层。其中风速切变在逆温层的消失或者减弱过程中起着重要作用,而在80°N以北区域,对流层顶逆温(TIL)明显小于其他区域。表明极点附近对流层与平流层之间的物质和能量交换相比其他区域更加强盛。  相似文献   

17.
An analysis of spectra of wave disturbances with zonal wave numbers 1 ≤ k ≤ 10 is carried out using winter (November to March) ERA-Interim reanalysis geopotential data in the troposphere and stratosphere for 1979–2016. Contributions of eastward-traveling (E), westward-traveling (W), and stationary (S) waves are estimated. The intensification of wave activity is observed in the tropical troposphere and stratosphere and in the upper stratosphere of the entire Northern Hemisphere. The intensification of wave activity in the tropics and subtropics is noted for waves of all types (E, W, and S), while in the middle and higher latitudes it is related mainly to stationary and eastward waves. Near the subtropical tropopause, the energy of stationary waves has increased in recent decades. In addition, in the tropical and subtropical troposphere and in the subtropical lower stratosphere, the energy of the eastward-traveling waves in El Niño years may be one and a half times or twice the energy in La Niña years. The spectrally weighted zonal wave numbers for waves of all types (E, W, and S) are the largest in the upper subtropical troposphere. The spectrally weighted zonal wave number for W and S waves is correlated with the Atlantic Multidecadal Oscillation index and varies by 15% in 1979–2016 (on an interdecadal time scale). The spectrally weighted wave period is larger in the stratosphere than in the troposphere. It is maximal in the middle extratropical stratosphere. The spectrally weighted wave periods correlate with the activity of sudden stratospheric warmings. The sign of this correlation depends on the latitude, atmospheric layer, and zonal wave number.  相似文献   

18.
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.  相似文献   

19.
Distinctions between the longitudinal structures of circulation in the stratosphere and mesosphere/lower thermosphere of the Northern and Southern hemispheres are investigated on the basis of the temperature and geopotential distributions obtained with a SABER instrument (TIMED satellite) in the months of February and August in 2002–2005. The positions of the winter cyclone and polar vortex at stratospheric and mesospheric heights in 2002–2005 are compared to the climatic data over 1978–1998. At stratospheric heights, the mean position of the polar vortex’s center over several years changed insignificantly during the specified years (several degrees in latitude and longitude) in both the Southern and Northern hemispheres. At mesosphere/lower thermosphere heights, the polar vortex occupies the same position in the Southern Hemisphere each year during 2002–2005, and this position agrees with the estimates for 1996–1997. Parameters of stationary planetary waves with the zonal wave number 1 (SPW1) in the fields of temperature, geopotential, and wind are calculated from data on the temperature and geopotential. The height profiles of SPW1 amplitudes and phases calculated from the SABER instrument data for August in the Southern Hemisphere are in good agreement with the profiles of amplitudes and phases obtained from the direct wind measurements with HRDI and WINDII instruments. A strong interannual variability of SPW1 parameters is observed in the Northern Hemisphere. The calculation of the Eliassen-Palm flux and its divergence has shown that SPW1 penetrates into the mesosphere mainly from the stratosphere and slows down the zonal mean flux. However, in the Southern Hemisphere, there is a regular additional SPW1 source with the center at a height of about 65 km and a latitude of 55°S. Such a SPW1 source is, on average, absent in the Northern Hemisphere during 2002–2005; however, in some years (for example, in February 2004), its existence is possible.  相似文献   

20.
北冰洋中心区海冰漂流与大气过程   总被引:3,自引:3,他引:0  
利用北冰洋中心区漂流自动气象站(DAWS)2012年9月—2013年2月的观测数据,分析了北极点周围海冰漂流轨迹和速度及相关大气过程。结果显示,北冰洋中心区海冰具有不稳定漂流过程。2012年9月1日—2013年1月6日,DAWS所在海冰从西向西北方向漂流,2013年1月6日以后稳定地向东南方向漂流,平均移速为0.06m/s,最大达到0.4m/s。海冰漂流方向的突变和加速与穿极气旋和急流的影响有关。净辐射常出现短期突变过程,导致海冰从大气吸收能量,减缓了海冰的辐射冷却。爆发性增温过程的最大幅度达到30℃,是由强穿极气旋和伴随的暖湿气流向北极中心区输送引起,这种现象在中低纬度十分罕见。增温过程的作用是高空大气向冰面输送热量,导致海冰破裂,海冰硬度的脆变,减缓海冰厚度的增长,这种过程可能是北极海冰面积和厚度减少重要过程。  相似文献   

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