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利用1961年12月—2022年2月新疆冬季气温、北极海冰等资料,探讨北极海冰变化影响新疆冬季气温的物理模态、影响机制。结果表明,北极海冰的变化与新疆大部冬季气温呈正相关,北极海冰变化通过改变北半球大气高低空配置进而影响新疆冬季气温。另外,不同海区的海冰变化对新疆冬季气温的影响有显著区别:格陵兰海—丹麦海峡、拉普捷夫海—东西伯利亚海海冰异常偏多时,新疆大部冬季气温偏高。巴伦支海—喀拉海、鄂霍次克海—白令海峡、哈德孙湾—戴维斯海峡海冰异常偏多时,新疆大部冬季气温偏低。 相似文献
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北极海冰面积变化与大气遥相关型 总被引:4,自引:0,他引:4
本文综述了北极海注面积变化与大气遥相关型研究工作中的一些主要结果。诊断分析表明,北极海冰面积变化具有3-4年的振荡周期,大气中的遥相关型不仅与海冰面积变化的区域有关,还与海冰面积的振荡频率有关。海冰面积变化与大气遥相关型是互相维持的,一方的加强有利于另一方的加强,本文最后还对北极海冰和赤道中,东太平洋海温对北半年冬半年中纬度大气环流影响的相似性等问题进行了讨论。 相似文献
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本文利用美国华盛顿大学的PIOMAS海冰模式输出结果,分析了20世纪90年代以来北极海冰减少的动力和热力过程的特征,并探讨了海冰减少与北极大气环流模态之间的关系。结果表明:(1)通过弗拉姆海峡输出的多年冰的厚度自1995年以来有显著减少;(2)海冰的热力过程在20世纪90年代以后特别是21世纪以来是海冰减少的主导因素;(3)大气模态中的北极涛动(AO)和北极偶极子(AD)均对北极海冰的动力输出有影响,各自与海冰输出量的相关关系显著,并且AO和AD的多元线性回归能很好的拟合出海冰输出量的减少。 相似文献
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南北极海冰的时空变化特征 总被引:5,自引:0,他引:5
本文分析了南北极海冰多年平均覆盖资料,给出南北极海冰的年内变化特征,极地海冰最多最少月份的空间分布。计算了2月及9月海冰年际变化方差分布,并对2月及9月南北极海冰7个分区域覆盖面积作了EOF分解,为进行南北极海冰影响全球气候的数值试验提供了海冰变化的空间配置 相似文献
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国家气候中心气候系统模式BCC_CSM2.0最新耦合了美国Los Alamos国家实验室发展的海冰模式CICE5.0,为试验模式中与反照率相关参数的敏感性及其对模拟结果的影响,提高模式对北极海冰的模拟能力,选取海冰模式中3个主要参数进行了敏感性试验。利用以BCC_CSM2.0耦合框架为基础建立的海冰-海洋耦合模式,选取CORE资料为大气强迫场开展试验,试验的3个参数分别为冰/雪表面反射率、雪粒半径和雪粒半径参考温度。结果表明,参数取值的不同对北极海冰的模拟有显著的影响,优化后的取值组合极大提高了模式的模拟能力,主要表现在:(1)改善了对北极冬季海冰厚度的模拟,海冰厚度增大,与观测资料更为吻合;(2)显著提高了对北极夏季海冰密集度的模拟能力,从而模拟的北极海冰范围年际循环与观测更为一致。参数取值的优化改进了模式对海冰反照率的模拟,进而影响了冰面短波辐射的吸收和海冰表层的融化,最终提高了模式对海冰密集度和厚度的模拟效果。 相似文献
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本文利用1953—1977年北极海冰覆盖面积和洞庭湖平原初夏降水量资料,通过交叉相关函数的计算,发现10月北太平洋—北冰洋海冰面积变化与洞庭湖6月降水量成正相关,相关系数为+0.4882,通过信度α=0.05的检验。 相似文献
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Recent changes in the Arctic hydrological cycle are explored using in situ observations and an improved atmospheric reanalysis data set, ERA-Interim. We document a pronounced decline in summer snowfall over the Arctic Ocean and Canadian Archipelago. The snowfall decline is diagnosed as being almost entirely caused by changes in precipitation form (snow turning to rain) with very little influence of decreases in total precipitation. The proportion of precipitation falling as snow has decreased as a result of lower-atmospheric warming. Statistically, over 99% of the summer snowfall decline is linked to Arctic warming over the past two decades. Based on the reanalysis snowfall data over the ice-covered Arctic Ocean, we derive an estimate for the amount of snow-covered ice. It is estimated that the area of snow-covered ice, and the proportion of sea ice covered by snow, have decreased significantly. We perform a series of sensitivity experiments in which inter-annual changes in snow-covered ice are either unaccounted for, or are parameterized. In the parameterized case, the loss of snow-on-ice results in a substantial decrease in the surface albedo over the Arctic Ocean, that is of comparable magnitude to the decrease in albedo due to the decline in sea ice cover. Accordingly, the solar input to the Arctic Ocean is increased, causing additional surface ice melt. We conclude that the decline in summer snowfall has likely contributed to the thinning of sea ice over recent decades. The results presented provide support for the existence of a positive feedback in association with warming-induced reductions in summer snowfall. 相似文献
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A climate model experiment was conducted using the HadCM3 climate model and a scenario in which the atmospheric CO2 concentration was increased over 70 years from pre-industrial concentrations to 4 times this level and then stabilised for
more than a 1,000 years. During the period of stabilisation the global atmospheric surface temperatures continued to rise
as the deep oceans adjusted towards a new equilibrium. However, even after 1,000 years this new equilibrium had not been reached.
During the first 600 years, Arctic and Antarctic winter sea ice thickness and area covered declined with a significant impact
on the global radiation budget. After this period the area of the Arctic covered by sea ice entered a 150 years period during
which time it underwent a series of oscillations. Following the oscillation the centre of the Arctic basin became ice free
throughout the year. A sensitivity experiment demonstrates that although the sea ice extent can be greatly reduced through
the artificial heating of the mixed layer, prior to the onset of the oscillatory phase the ice recovers over 15 years. Understanding
the causes of this oscillatory phase may elucidate the mechanisms of variability in the Arctic in the present climate and
in future policy relevant scenarios. We have investigated the atmospheric and oceanic forcing on the ice during the oscillatory
phase, and find that the behaviour is linked to a redistribution of Arctic Ocean heat stores. 相似文献
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秋季北极海冰对中国冬季气温的影响 总被引:7,自引:0,他引:7
利用海冰资料、中国地面气候资料、环流特征量资料及NCEP/NCAR再分析资料,研究了秋季北极海冰变化对中国冬季平均气温、日气温变率以及异常低温天气的影响。分析结果表明,秋季北极海冰异常偏多年中国冬季常为暖冬;异常偏少年中国冬季常为冷冬,且异常低温天气出现频率更高,常发生低温灾害事件。秋季北极海冰通过影响后期的北半球极涡、东亚冬季风和西伯利亚高压进而影响中国冬季的平均气温,且通过影响冬季异常强西伯利亚高压的出现频次,影响中国冬季异常低温天气的发生频次。合成分析结果表明,秋季北极海冰异常偏少年的冬季,中国以北亚欧大陆高纬度的偏北风较强,且中国及其以北的中高纬度地区空气异常偏冷,导致极地和高纬度的冷空气易向南爆发,造成中国冬季气温偏低,异常低温天气频发。 相似文献
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Changing sea ice conditions and marine transportation activity in Canadian Arctic waters between 1990 and 2012 总被引:2,自引:0,他引:2
Larissa Pizzolato Stephen E. L. Howell Chris Derksen Jackie Dawson Luke Copland 《Climatic change》2014,123(2):161-173
Declining sea ice area in the Canadian Arctic has gained significant attention with respect to the prospect of increased shipping activities. To investigate relationships between recent declines in sea ice area with Arctic maritime activity, trend and correlation analysis was performed on sea ice area data for total, first-year ice (FYI), and multi-year ice (MYI), and on a comprehensive shipping dataset of observed vessel transits through the Vessel Traffic Reporting Arctic Canada Traffic Zone (NORDREG zone) from 1990 to 2012. Links to surface air temperature (SAT) and the satellite derived melt season length were also investigated. Between 1990 and 2012, statistically significant increases in vessel traffic were observed within the NORDREG zone on monthly and annual time-scales coincident with declines in sea ice area (FYI, MYI, and total ice) during the shipping season and on a monthly basis. Similarly, the NORDREG zone is experiencing increased shoulder season shipping activity, alongside an increasing melt season length and warming surface air temperatures (SAT). Despite these trends, only weak correlations between the variables were identified, although a step increase in shipping activity is apparent following the former summer sea ice extent minimum in 2007. Other non-environmental factors have also likely contributed to the observed increase in Arctic shipping activity within the Canadian Arctic, such as tourism demand, community re-supply needs, and resource exploration trends. 相似文献
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This study examines pre-industrial control simulations from CMIP5 climate models in an effort to better understand the complex relationships between Arctic sea ice and the stratosphere, and between Arctic sea ice and cold winter temperatures over Eurasia. We present normalized regressions of Arctic sea-ice area against several atmospheric variables at extended lead and lag times. Statistically significant regressions are found at leads and lags, suggesting both atmospheric precursors of, and responses to, low sea ice; but generally, the regressions are stronger when the atmosphere leads sea ice, including a weaker polar stratospheric vortex indicated by positive polar cap height anomalies. Significant positive midlatitude eddy heat flux anomalies are also found to precede low sea ice. We argue that low sea ice and raised polar cap height are both a response to this enhanced midlatitude eddy heat flux. The so-called "warm Arctic, cold continents" anomaly pattern is present one to two months before low sea ice, but is absent in the months following low sea ice, suggesting that the Eurasian cooling and low sea ice are driven by similar processes. Lastly, our results suggest a dependence on the geographic region of low sea ice, with low Barents–Kara Sea ice correlated with a weakened polar stratospheric vortex, whilst low Sea of Okhotsk ice is correlated with a strengthened polar vortex. Overall, the results support a notion that the sea ice, polar stratospheric vortex and Eurasian surface temperatures collectively respond to large-scale changes in tropospheric circulation. 相似文献
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北极海冰融化影响东亚冬季天气和气候的研究进展以及学术争论焦点问题 总被引:3,自引:1,他引:2
北极历来是影响东亚冬季天气、气候的关键区域之一。北极表面增暖要比全球平均快2~3倍,即所谓北极的放大效应。随着全球增暖的持续以及北极海冰的持续融化,北极的生态环境正在发生显著的变化,进而可能对北半球中、低纬度的天气、气候产生影响。本文概述了有关北极海冰融化影响冬季东亚天气、气候的主要研究进展,特别是自2000年以来,北极海冰异常偏少影响东亚冬季气候变率以及极端严寒事件的可能途径、存在的科学问题,以及学术界的争论焦点。秋、冬季节是北极海冰快速形成时期,此时北极海冰对大气环流的影响要强于大气对海冰的影响。近二十年来的研究结果表明,北极海冰异常偏少,不仅影响北冰洋局地的气温和降水变化,而且通过复杂的相互作用和反馈过程,对北半球中、低纬度的天气、气候产生影响。北极海冰通过以下两个可能机制来影响东亚冬季的天气、气候:(1)北极海冰的负反馈机制;(2)由海冰异常偏少引起的平流层-对流层相互作用机制。秋、冬季节北极海冰持续异常偏少,特别是,巴伦支海-喀拉海海冰异常偏少,既可以加强冬季西伯利亚高压(东亚冬季风偏强),也可以导致冬季风偏弱。导致海冰影响不确定性的部分原因是:(1)夏季北极大气环流状态影响北极海冰异常偏少对冬季大气环流的反馈效果;(2)冬季大气环流对北极海冰异常偏少响应的位置、强度不同造成的。秋、冬季节北极海冰持续异常偏少,在适宜的条件下(例如,前期夏季北极大气环流的热力和动力条件,有利于加强北极海冰偏少对冬季大气的反馈作用),可以激发出有利于冬季亚洲大陆极端严寒过程的大气环流异常。目前学术界争论焦点主要集中在以下两个方面:(1)关于北极增暖、北极海冰融化对中纬度区域影响的争论;(2)关于1980年代后期以来,冬季欧亚大陆表面气温呈现降温趋势的原因。目前,有关北极海冰融化影响冬季欧亚大陆次季节变化以及极端天气、气候事件的过程和机制,我们认知非常有限,亟需开展深入细致的研究。 相似文献
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A. P. Nagurnyi 《Russian Meteorology and Hydrology》2009,34(9):613-617
The area integral of the sea ice thickness in the Arctic Basin is estimated from the measurements of sea ice surface fluctuations
at drift-ice stations. The 1970–1990 linear trend is indicative of an approximately 10-cm reduction in the average sea ice
thickness over the entire Arctic Basin, which makes 3% of the average ice thickness (about 3 m). Seasonal changes made 40
cm. The amplitude of variations of the average ice thickness in that period is 20 cm with a period of changes of approximately
6–8 years. The observations were interrupted during 1991–2003 and then resumed in 2004. During 1990–2005, the old ice thickness
over the entire Arctic Basin decreased, on average, by 110 cm. 相似文献