6月份格陵兰海冰异常对黄河中上游7月份旱涝的影响

通过北极4个区的海水DQ%指数和全国160站7月份降水关系的诊断分析指出,6月份格陵兰海冰异常与黄河中上游7月份旱涝存在着明显的联系,6月份格陵兰海冰少(多)时,黄河中上游7月份易涝（旱）。产生这种联系的物理机制是6月份格陵兰海冰异常影响7月份欧亚大气环流,导致黄河中上游7月份降水产生异常。通过对相关场进行显著性检验,确认了6月份格陵兰海冰异常与黄河中上游7月份旱涝联系在统计上的可靠性。同时发现,有时随机数序列与气象要素场的相关场会达到很高的显著水平,而且这种相关场中的显著相关区的分布并不是杂乱无章的,而是成片分布的。这项工作指出了把对相关场的显著性检验与相关场成因的物理机制分析相结合的必要性。     

大西洋和太平洋海水在北冰洋表层的分布：循环的意义

大西洋和太平洋海水在北冰洋表层的分布：循环的意义Ｅ．ＰｅｔｅｒＪｏｎｅｓ等北冰洋、Ｎｏｒｄｉｃ海和拉布拉多海的淡水平衡对北半球深水生产力是至关重要的。北冰洋表层水和冰通过弗拉母海峡排出,它们有助于测定格陵兰和冰岛海域的对流区域的表层情况,表层水也通过...     

变暖背景下北极海冰减少在冬季北半球高纬大陆降雪增加中的作用

过去的几个冬季中,北美、欧洲、西伯利亚和东亚大部分地区经历了冷冬和强降雪,而这与北极海冰的快速减少有关。尽管北极海冰减少在冷冬和强降雪中的作用仍存在争议,但这种新兴的气候反馈在未来变暖背景下是否会持续仍值得关注。中等排放情境下的气候模式模拟结果揭示,欧洲东北部、亚洲中部北部、北美北部的冬季降雪增加会成为贯穿21世纪的一个稳健的特征。21世纪这些区域冬季降雪增加的主要原因是北极秋季海冰的减少（很大的外部强迫）,而冬季北极涛动的变化（北半球主要的自然变化形态）对降雪增加的作用很小。这一结果不仅体现在多模式平均上,而且每个单独模式的结果依然如此。我们认为海冰-降雪之间的强反馈作用可能已经出现,并且在接下来的几十年中这种强反馈作用可能会增强,北半球高纬地区的强降雪事件也会增加。     

Dominant climate factors influencing the Arctic runoff and association between the Arctic runoff and sea ice

By using the Arctic runoff data from R-ArcticNET V4.0 and ArcticRIMS, trends of four major rivers flowing into the Arctic Ocean, whose climate factor plays an important role in determining the variability of the Arctic runoff, are investigated. The results show that for the past 30 years, the trend of the Arctic runoff is seasonally dependent. There is a significant trend in spring and winter and a significant decreasing trend in summer, leading to the reduced seasonal cycle. In spring, surface air temperature is the dominant factor influencing the four rivers. In summer, precipitation is the most important factor for Lena and Mackenzie, while snow cover is the most important factor for Yenisei and Ob. For Mackenzie, atmospheric circulation does play an important role for all the seasons, which is not the case for the Eurasian rivers. The authors further discuss the relationships between the Arctic runoff and sea ice. Significant negative correlation is found at the mouth of the rivers into the Arctic Ocean in spring, while significant positive correlation is observed just at the north of the mouths of the rivers into the Arctic in summer. In addition, each river has different relationship with sea ice in the eastern Greenland Sea.     

整装待飞 不辱使命——中国海监北海航空支队应急飞行侧记

为贯彻落实党中央、国务院领导关于渤海环境保护的重要指示,进一步加强渤海海洋环境保护工作,确保渤海环境保护工作取得实效,国家海洋局刘赐贵局长于2012年6月15日率队乘中国海监飞机开展渤海海洋环境保护空中调研工作。执行此     

Sea ice characteristics between the middle Weddell Sea and the Prydz Bay, Antarctica during the austral summer of 2003

The antarctic sea ice was investigated upon five occasions between January 4 and February 15, 2003. The investigations included: (1) estimation of sea ice distribution by ship-based observations between the middle Weddell Sea and the Prydz Bay; (2) estimation of sea ice distribution by aerial photography in the Prydz Bay; (3) direct measurements of fast ice thickness and snow cover, as well as ice core sampling in Nella Fjord; (4) estimation of melting sea ice distribution near the Zhongshan Station; and (5) observation of sea ice early freeze near the Zhongshan Station. On average, sea ice covered 14.4% of the study area. The highest sea ice concentration (80%) was observed in the Weddell Sea. First-year ice was dominant (99.7%-99.8%). Sea ice distributions in the Prydz Bay were more variable due to complex inshore topography, proximity of the Larsemann Hills, and/or grounded icebergs. The average thickness of landfast ice in NeUa Fjord was 169.5 cm. Wind-blown snow redistribution plays an important role in affecting the ice thickness in Nella Fjord. Preliminary freezing of sea ice near the Zhongshan Station follows the first two phases of the pancake cycle.     

应用两次展开法求解系泊柱体慢漂运动方程

在深海中系泊的海洋平台,如Spar平台,水下部分为带有系泊的圆柱结构,其水平方向运动响应往往具有较低的自振频率,容易在低频波浪力(源于非线性的差频效应)作用下发生共振响应,使结构发生大幅水平慢漂。当浮体的瞬时位置大幅偏离初始位置时,基于初始平衡位置的摄动展开法会存在较大误差。针对这一问题,采用两次展开方法,对大幅慢漂运动开展时域模拟研究。对双色波作用下自由漂浮圆柱的大幅运动响应问题进行数值分析,并与采用基于初始平衡位置的摄动展开法的计算结果进行了对比。结果表明,采用新的两次展开法可以计算出波浪遭遇频率的变化和波浪漂移阻尼,而这无法从基于初始平衡位置的常规摄动展开法中得到,体现了两次展开法在分析大幅慢漂问题上的优势。     

冬季格陵兰以东区域海冰与北太平洋风暴轴的关系

对45个冬季格陵兰以东区域海冰密集度场与北太平洋500 hPa位势高度滤波方差场作奇异值(SVD)分析.结果表明:SVD得到的第1对空间典型分布反映了冬季格陵兰以东区域海冰异常与北太平洋风暴轴异常变化密切相关.进一步的合成分析显示:海冰异常导致大气环流调整,气压梯度、急流、850 hPa天气尺度涡动热量经向通量和垂直通量、局地斜压性均发生改变,从而对北太平洋风暴轴的强度及中心位置位移造成影响.     

基于卫星高度计的北极海冰厚度变化研究

A modified algorithm taking into account the first year(FY) and multiyear(MY) ice densities is used to derive a sea ice thickness from freeboard measurements acquired by satellite altimetry ICESat(2003–2008). Estimates agree with various independent in situ measurements within 0.21 m. Both the fall and winter campaigns see a dramatic extent retreat of thicker MY ice that survives at least one summer melting season. There were strong seasonal and interannual variabilities with regard to the mean thickness. Seasonal increases of 0.53 m for FY the ice and 0.29 m for the MY ice between the autumn and the winter ICESat campaigns, roughly 4–5 month separation, were found. Interannually, the significant MY ice thickness declines over the consecutive four ICESat winter campaigns(2005–2008) leads to a pronounced thickness drop of 0.8 m in MY sea ice zones. No clear trend was identified from the averaged thickness of thinner, FY ice that emerges in autumn and winter and melts in summer. Uncertainty estimates for our calculated thickness, caused by the standard deviations of multiple input parameters including freeboard, ice density, snow density, snow depth, show large errors more than 0.5 m in thicker MY ice zones and relatively small standard deviations under 0.5 m elsewhere. Moreover, a sensitivity analysis is implemented to determine the separate impact on the thickness estimate in the dependence of an individual input variable as mentioned above. The results show systematic bias of the estimated ice thickness appears to be mainly caused by the variations of freeboard as well as the ice density whereas the snow density and depth brings about relatively insignificant errors.