On the Differences and Climate Impacts of Early and Late Stratospheric Polar Vortex Breakup

The stratospheric polar vortex breakup (SPVB) is an important phenomenon closely related to the seasonal transition of stratospheric circulation. In this paper, 62-year NCEP/NCAR reanalysis data were employed to investigate the distinction between early and late SPVB. The results showed that the anomalous circulation signals extending from the stratosphere to the troposphere were reversed before and after early SPVB, while the stratospheric signals were consistent before and after the onset of late SPVB. Arctic Oscillation (AO) evolution during the life cycle of SPVB also demonstrated that the negative AO signal can propagate downward after early SPVB. Such downward AO signals could be identified in both geopotential height and temperature anomalies. After the AO signal reached the lower troposphere, it influenced the Aleutian Low and Siberian High in the troposphere, leading to a weak winter monsoon and large-scale warming at mid latitudes in Asia. Compared to early SPVB, downward propagation was not evident in late SPVB. The high-latitude tropospheric circulation in the Northern Hemisphere was affected by early SPVB, causing it to enter a summer circulation pattern earlier than in late SPVB years.     

Ocean–atmosphere Teleconnections Play a Key Role in the Interannual Variability of Seasonal Gross Primary Production in China

Since the 1950s, the terrestrial carbon uptake has been characterized by interannual variations, which are mainly determined by interannual variations in gross primary production (GPP). Using an ensemble of seven-member TRENDY (Trends in Net Land–Atmosphere Carbon Exchanges) simulations during 1951–2010, the relationships of the interannual variability of seasonal GPP in China with the sea surface temperature (SST) and atmospheric circulations were investigated. The GPP signals that mostly relate to the climate forcing in terms of Residual Principal Component analysis (hereafter, R-PC) were identified by separating out the significant impact from the linear trend and the GPP memory. Results showed that the seasonal GPP over China associated with the first R-PC1 (the second R-PC2) during spring to autumn show a monopole (dipole or tripole) spatial structure, with a clear seasonal evolution for their maximum centers from springtime to summertime. The dominant two GPP R-PC are significantly related to Sea Surface Temperature (SST) variability in the eastern tropical Pacific Ocean and the North Pacific Ocean during spring to autumn, implying influences from the El Ni?o–Southern Oscillation (ENSO) and the Pacific Decadal Oscillation (PDO). The identified SST and circulation factors explain 13%, 23% and 19% of the total variance for seasonal GPP in spring, summer and autumn, respectively. A clearer understanding of the relationships of China’s GPP with ocean–atmosphere teleconnections over the Pacific and Atlantic Ocean should provide scientific support for achieving carbon neutrality targets.     

东亚冬季风的年代际变化及其与全球气候变化的可能联系

对近年来中外关于东亚冬季风(EAWM)年代际变化问题研究进展做了回顾和评述,主要包括以下3个方面内容:(1)东亚冬季风明显受到全球气候变化的影响,从20世纪50年代开始,中国冬季气温经历了一次冷期(从20世纪50年代延续到80年代初中期),一次暖期(从20世纪80年代初中后期延续到21世纪初)和近10-15年(约从1998年开始)出现的气候变暖趋缓期(也称气候变暖停顿期)。(2)东亚冬季风主要表现出强-弱-强3阶段的特征,即从1950年到1986/1987年,明显偏强;从1986/1987年冬季开始,东亚冬季风减弱;约2005年之后,东亚冬季风开始由弱转强。与东亚冬季风的年代际变化特征相对应,东亚冬季大气环流以及中国冬季气温和寒潮都表现出一致的年代际变化。(3)东亚冬季风的年代际变化与大气环流和太平洋海表温度(SST)的区域模态变化密切相关。当北半球环状模/北极涛动(NAM/AO)和太平洋年代际振荡(PDO)处于负(正)位相,东亚冬季风偏强(弱),中国冬季气温偏低(高)。此外,北大西洋年代尺度振荡(AMO)对东亚冬季风也有重要影响,在AMO负位相时,对应东亚冷期(强冬季风),正位相对应暖期(弱冬季风)。因而海洋的年代际变化是造成东亚冬季风气候脉动的主要自然原因,而全球气候变暖对东亚冬季风强度的减弱也有明显影响。     

2012年春节期间广东罕见低温阴雨天气特点及成因

利用常规气象观测资料、NCEP/NCAR分析资料,以及国家气候中心的海温监测资料等,初步分析了2012年春节前后广东极端低温阴雨天气过程的特点和成因。结果表明,此次过程具有极端温度低、低温范围广、阴雨时间长的特征;此次罕见天气过程是在＂北极涛动＂负位相活动和显著＂拉尼娜＂事件背景下发生,与欧亚地区持续大气环流异常密切相关。乌拉尔山阻塞高压建立后,中高纬稳定的＂两脊一槽＂形势下,有利于短波槽东南移影响华南;同时,高原南侧的南支西风槽加深增强了低纬水汽往华南地区输送,冷暖空气在华南长时间交绥,造成了持续的低温阴雨过程。过程期间,粤北近地层极端气温低,但中层暖层无论从强度、厚度及持续时间均未有2008年明显,因此过程主要以＂低温＂和＂阴雨＂为主,并未发生类似2008年初的粤北持续大范围＂低温雨雪冰冻＂天气。     

The Binary Black Hole Scenario for the BL Lacertae Object AO 0235＋16

Recent analysis of the long term radio light curve of the extremely variable BL Lacertae object AO 0235+16 by Raiteri et al. have revealed the presence of recurrent outbursts with a period of ～ 5.7±0.5 yr. Periodicity analysis of the optical light curve also shows evidence for a shorter period. Here we discuss whether such a behavior can be explained by a binary black hole model where the accretion disk of one of the supermassive black holes is precessing due to the tidal effects of the companion. We estimate the mass of the accreting hole and analyze constraints on the secondary mass and the orbital parameters of the system. It is possible to provide a viable interpretation of the available multiwavelength data.     

青藏高原气候变化的若干事实及其年际振荡的成因探讨

利用1961-2012年青藏高原88个气象台站逐月气温、降水以及温室气体等气候系统监测资料和CMIP5输出的未来气候变化情景数据,分析了近52年来青藏高原气候变化暖湿化的若干事实,揭示了其年际振荡与温室气体、高原加热场、高原季风、AO等气候系统因子的关系,预测了未来20~40年青藏高原可能的气候变化趋势。研究表明：近52年来青藏高原在总体保持气候变暖的趋势下自2006年以来出现了某些增暖趋于缓和的迹象,较全球变化滞后了8年左右;降水量的增加在青藏高原具有明显的普遍性和显著性,气候变湿较变暖具有一定的滞后性,降水量变化的5年短周期日趋不显著,而12年、25年较长周期逐渐明显且仍呈增多趋势。由于温室气体、气溶胶持续增加、高原夏季风趋强、ENSO事件和太阳辐射减少,青藏高原气候持续增暖但有所缓和;春季高原加热场增强、高原夏季风爆发提前且保持强劲,使得高原春、夏季和年降水量增加,而秋、冬季AO相对稳定少动,东亚大槽强度无明显变化,高原冬季风变化不甚显著,导致了高原秋、冬季降水量无明显变化。未来20~40年青藏高原仍有可能继续保持气温升高、降水增加趋势。     

北欧海主要海盆海面热通量的多年变化

北欧海有暖流和寒流注入,又发生大量回流,水团特性异常复杂。由于北欧海的环流受地形控制,其水团的分布与4个海盆的分布有密切的关系。本文研究各个海盆热通量变化的差异,以研究获取对北欧海海气相互作用区域差异的认识。北欧海的热量夏季以太阳短波辐射为主,冬季以来自海洋的长波辐射、感热和潜热通量为主。海盆间的差异主要体现在格陵兰海,其变化幅度短波辐射高出50%,长波辐射高出大约40%,潜热高出大约60%,感热高出近4倍。可能的原因是,格陵兰海强烈的感热和潜热释放导致海温降低,气温也受北极冷空气的影响,形成与暖流区迥异的自然环境。过去30年发生了2次显著的热量减少事件。其中,1987年的事件很可能与冰岛的火山喷发有关,火山喷发对短波辐射的影响长达一年之久,导致感热和潜热也同步减少。1998年格陵兰海的潜热和感热明显减少,与北极海冰输出导致的海温偏低有显著关系。文章分析了4个主要海盆热通量的变化与北极涛动(AO)指数的关系。结果表明,发生在冰岛海的向下短波辐射和发生在格陵兰海的感热和潜热与AO相关度较高,体现了与AO的密切关系。这些热通量与AO指数的滑动相关系数表明,1992年以前冰岛海的短波辐射与AO的相关性非常高,而格陵兰海的感热和潜热在1993年后与AO高度相关,是值得深入研究的现象。本文的结果支持以下观点:北欧海对北极涛动的贡献主要是格陵兰海的感热和潜热释放通过冰岛低压区的上升气流影响冰岛低压的云量,从而影响到达的太阳辐射而导致大气环流的变化。     

AO OMD解读

随着GIS技术的发展，用基于COM标准的ArcObject（AO）进行GIS开发成为一种有效的途径。对AO编程、开发GIS，一个重要的关键点在于开发者具有读懂AO Object Model Diagrams（OMD）的能力。本文从如下3个角度：牢记OMD图例、标记，深刻领会OMD内蕴的地学之道和熟记OMD层次结构，来帮助GIS开发人员阅读、理解AO OMD。同时对OMD中蕴藏的GIS基本线进行了图解。     

Annual and semiannual oscillations of stratospheric ozone

The global structures of annual oscillation (AO) and semiannual oscillation (SAO) of stratospheric ozone are examined by applying spherical harmonic analysis to the ozone data obtained from the Nimbus-7 solar backscattered UV-radiation (SBUV) measurements for the period November 1978 to October 1980. Significant features of the results are: (1) while the stratospheric ozone AO is prevalent only in the polar regions, the ozone SAO prevails both in the equatorial and polar stratospheres; (2) the vertical distribution of the equatorial ozone SAO has a broad maximum of the order of 0.5 (mixing ratio in g/g) and the maximum appears earlier at high altitude (shifting from May [and November] at 0.3 mb [60 km] to November [and May] at 40 mb); (3) above the 40 km level, the maximum of the polar ozone SAO shifts upward towards later phase with altitude with a rate of approximately 10 km/month in both hemispheres; (4) vertical distributions of the polar ozone AOs and SAOs show two peaks in amplitude with a minimum (nodal layer) in between and a rapid phase change with altitude takes place in the respective nodal layers; and (5) the heights of the ozone AO- and SAO-peaks decrease with latitude. The main part of AOs and SAOs of stratospheric ozone including hemispheric asymmetries is ascribable to: (i) temperature dependent ozone photochemistry in the upper stratosphere and mesosphere, (ii) variations of radiation field in the lower stratosphere affected by the annual cycle of solar illumination and temperature in the upper stratosphere and (iii) meridional ozone transport by dynamical processes in the lower stratosphere.