Numerical Experiment for the Impact of the Ozone Hole over Antarctica on the Global Climate

A numerical experiment has been carried out with IAP (Institute of Atmospheric Physics) 9-layer general circulation model to investigate the influence of the Antarctic Ozone Hole on the global climate. The results show that the changes of total amount of ozone over higher latitude and polar region of the Southern Hemisphere affect not only the climate in the Southern Hemisphere, but also that in the Northern Hemisphere significantly. In the next spring, although the total amount of ozone over Antarctica has returned to the normal value, the influences of Ozone Hole still exist. Suppported by LASG and the National Key Project of Fundamental Research “Climate Dynamics and Climate Prediction Theory.≓     

南极臭氧洞对全球大气辐射加热场影响的数值模拟研究

为了探讨南极臭氧洞对全球气候的影响状况,我们用IAP_9层全球大气环流模式进行了南极臭氧洞气候效应的数值试验。本文分析了本次试验中南极臭氧洞引起的大气辐射加热场的变化,结果表明,南半球高纬和极地平流层臭氧含量的严重减少,不仅影响该地的大气辐射加热场,同时也使北半球平流层大气的辐射加热场发生改变。虽然对流层中层所受影响较少,但对流层下层南北半球的大气总辐射加热率的变化却相当明显,这些影响将使全球大气温度场产生明显变化。     

Stratospheric Ozone-induced Cloud Radiative Effects on Antarctic Sea Ice

Recent studies demonstrate that the Antarctic Ozone Hole has important influences on Antarctic sea ice.While most of these works have focused on effects associated with atmospheric and oceanic dynamic processes caused by stratospheric ozone changes,here we show that stratospheric ozone-induced cloud radiative effects also play important roles in causing changes in Antarctic sea ice.Our simulations demonstrate that the recovery of the Antarctic Ozone Hole causes decreases in clouds over Southern Hemisphere(SH)high latitudes and increases in clouds over the SH extratropics.The decrease in clouds leads to a reduction in downward infrared radiation,especially in austral autumn.This results in cooling of the Southern Ocean surface and increasing Antarctic sea ice.Surface cooling also involves ice-albedo feedback.Increasing sea ice reflects solar radiation and causes further cooling and more increases in Antarctic sea ice.     

近十五年全球臭氧变化

利用卫星观测臭氧总含量ＴＯＭＳ（第７版）资料,在剔除季节变化后对全球６０°Ｓ－６０°Ｎ范围首先进行了沿纬度分布的线性趋势和周期分析。结果表明：自本世纪７０年代末,各纬带上的臭氧总量都呈下降趋势,强度随纬度升高而加剧,并发现总体上北半球臭氧的下降趋势较南半球更加明显;同时证实了准两年振荡是臭氧变化中除年周期外最显著的周期。并对臭氧变化中的准两年振荡作了遥相关分析;发现准两年振荡在强度和位相上基本呈纬向分布并主要表现出赤道对称的特征。１３５～１７０°Ｅ地区臭氧总量变化所表现出的不同于其它地区的原因可能是这一地区常年频繁出现的对流活动;而臭氧总量下降趋势表现出的北半球同纬度地区均大于南半球的南北半球差异可能是由两半球人类活动的差异引起     

平流层臭氧变化对对流层气候影响的研究进展

平流层对对流层的作用是准确评估、预测对流层气候变化的一个重要方面。其中平流层成分尤其是臭氧的变化,可以改变平流层乃至对流层的辐射平衡,从而影响平流层、对流层的热动力过程。本文从辐射、动力2个角度介绍了平流层臭氧影响对流层气候变化的若干研究进展。平流层臭氧可以通过长短波辐射的方式对对流层大气造成辐射强迫,利用大气化学气候模式可以定量计算平流层臭氧变化引起的辐射强迫,但是辐射强迫的估算受模式中辐射传输模块本身缺陷的影响存在不确定性。动力方面,平流层臭氧变化产生的辐射效应可以改变温度的垂直和经向梯度,造成波折射指数的变化,进而影响平流层甚至对流层内波的折射与反射,通过上对流层下平流层区域内的波—流相互作用,对对流层气候产生影响。另外,南极臭氧损耗可通过大气环状模影响冬春季中高纬度对流层的天气气候,但是其影响的强度大小以及物理机制仍需进一步的确认。值得注意的是,北极平流层臭氧的变化与北半球中高纬度气候变化之间的关系相比南半球要更加复杂,需要更为深入的研究。     

北极臭氧垂直分布和天气尺度变化的观测研究

北极地区臭氧对北极气候和环境系统起着重要作用。研究其分布和变化有助于了解北极的气候和环境及其对全球气候系统的影响,有助于气候和环境变化的数值预报。中国北极科学探测1999在北冰洋楚可奇海域成功的进行了大气臭氧观测。通过在中国“雪龙”号破冰船甲板上（于1999年8月18-24日在75°N,160°W附近处）释放大气臭氧探空仪获得了高分辨率的大气垂直结构和臭氧分布资料,可以进行大气尺度的大气臭氧变化研究。分析大气监测资料、TOMS臭氧总量资料和NCEP大气环流资料表明,大气臭氧总量随着对流层顶的低一高一低变化呈高一低一高的变化过程。研究还表明,大气柱的臭氧总量与13公里以下的大气臭氧含量关系密切,而在约20公里处的大气臭氧浓度最大值的变化与整个气柱臭氧的关系不大。500 hPa天气形势图上一个弱一强一弱的西南天气型造成的弱臭氧平流可能是这次臭氧变化的主要原因。     

A modeling study of effective radiative forcing and climate response due to tropospheric ozone

This study simulates the effective radiative forcing(ERF) of tropospheric ozone from 1850 to 2013 and its effects on global climate using an aerosol–climate coupled model, BCC AGCM2.0.1 CUACE/Aero, in combination with OMI(Ozone Monitoring Instrument) satellite ozone data. According to the OMI observations, the global annual mean tropospheric column ozone(TCO) was 33.9 DU in 2013, and the largest TCO was distributed in the belts between 30°N and 45°N and at approximately 30°S; the annual mean TCO was higher in the Northern Hemisphere than that in the Southern Hemisphere;and in boreal summer and autumn, the global mean TCO was higher than in winter and spring. The simulated ERF due to the change in tropospheric ozone concentration from 1850 to 2013 was 0.46 W m~(-2), thereby causing an increase in the global annual mean surface temperature by 0.36℃, and precipitation by 0.02 mm d~(-1)(the increase of surface temperature had a significance level above 95%). The surface temperature was increased more obviously over the high latitudes in both hemispheres, with the maximum exceeding 1.4?C in Siberia. There were opposite changes in precipitation near the equator,with an increase of 0.5 mm d~(-1)near the Hawaiian Islands and a decrease of about-0.6 mm d~(-1)near the middle of the Indian Ocean.     

南半球臭氧变化气候效应的数值模拟

采用一个陆气耦合的９层谱模式模拟了南半球臭氧减少所产生的气候效应。数值试验结果表明,南半球臭氧的减少不仅对南半球温度场的 大气环流有影响,而且对北半球的温度场结构和大气环汉也有一定的影响。其气候效应具有全球性。南半球臭氧减少总体上可以使平流层中层以上大气降温、平流层低层增温、对流层顶附近降温。此外,在北半球冬半年期间,南半球臭氧的减少可使南北半球的副热带西风急流都减弱,极锋急流都增强;在北半球夏半     

Ozone anomalies in spring over Russia

During more than half-century ozone observations in the high latitudes of the Northern Hemisphere, the significant anomalies of total ozone (TO) with the duration of a month and more were observed in March 1995, 1996, 1997, and 2011 (in 1997 and 2011, they were the most significant and the longest). The maximum total ozone deficit zone over the land was observed over the northern coast of East Siberia. The ozone loss in the anomalies in 1997 and 2011 were associated with the unusual behavior of the circumpolar vortex which was unusually deep, stable, and durable in these years that resulted in the abnormal low temperature in the stratosphere in the high latitudes of the Northern Hemisphere. In subpolar latitudes, the temperature in the lower stratosphere during the period from December 2010 to February 2011 was lower than in 1997. In 2011 due to the durable springtime anomaly, almost over the whole territory of Russia the average annual ozone values turned out to be significantly lower than in the previous decade. The total ozone deficit in the circumpolar vortex in spring 1997 and 2011 amounted to about 140 DU. The formation of large TO anomaly in 2011 indicates that the long-term evolution of ozone layer conditions is a part of the long-term evolution of the Earth climate system.     

全球平均经圈环流的基本特征及其与臭氧关系研究

本文利用1957年9月到2002年8月,共540个月的ERA-40的经向风和臭氧质量混合比月平均资料,分析研究了平均经圈环流(MMC)和Hadley环流强弱特征变化及其与臭氧变化的关系.分析指出:(1)平均经圈环流与臭氧分布在垂直方向上有很好的对应和相关关系,平均经圈环流是形成臭氧水平、垂直的气候平均态分布,季节变化,年代际变化的重要因素;(2)垂直方向上北半球臭氧浓度的变化比南半球的变化更明显;(3)典型相关分析表明平均经圈环流与臭氧浓度变化在不同的高度和纬度上有不同的相关关系,臭氧与Hadley和Ferrel环流存在密切的相关关系,特别是Hadley环流,这表明Hadley环流在全球大气臭氧的变化中起重要作用.     

Impact of the Montreal protocol and its amendments on the rate of change of global radiative forcing

Increases in chlorinated and brominated halocarbons are believed to be responsible for the depletion of stratospheric ozone observed over much of the globe in the past decade or so. Ozone depletion is in turn believed to lead to a negative radiative forcing, tending to cool the stratosphere and the surface. We show that the increasing atmospheric concentrations of ozone-depleting halocarbons and onset of related ozone depletion likely led to a negative forcing of the climate system in the 1980s that slowed significantly the rate of change of total anthropogenic radiative forcing due to the combined effect of all greenhouse gases over that decade. Within the next decade, emissions of these halocarbons are expected to rapidly decrease, with corresponding impacts on ozone and radiative forcing. As the emissions of ozone-depleting gases are reduced and eventually phased out, the rate of ozone depletion is expected to decrease and eventually reverse. All other things being equal, we show that the change from deepening ozone depletion in the 1980s to ozone increases in the future should lead to a pronounced increase in the decadal rate of change of anthropogenic greenhouse forcing of the next few decades, perhaps to levels unprecedented in this century.     

青藏高原臭氧的ENSO

通过对臭氧卫星观测资料及大气环流资料的分析，研究了青藏高原上空臭氧年际变化中的 ＥＮＳＯ信号，并与同纬度无山区及赤道地区进行比较。研究指出：在 Ｅ１ Ｎｉｎｏ年（ＳＯＩ指数为负）青藏高原臭氧总量增加，在 Ｌａ Ｎｉｎａ年（ＳＯＩ指数为正）青藏高原臭氧总量减小。本文同时讨论了与ＥＮＳＯ事件有关的大气环流物质输送。     

青藏高原臭氧的ENSO

通过对臭氧卫星观测资料及大气环流资料的分析,研究了青藏高原上空臭氧年际变化中的ENSO信号,并与同纬度无山区及赤道地区进行比较.研究指出:在ElNino年(南方涛动指数为负),青藏高原臭氧总量偏大,在LaNina年(南方涛动指数为正),青藏高原臭氧总量偏小.同时讨论了与ENSO事件有关的大气环流物质输送.     

The Relationship between Total Ozone and Local Climate at Kunming Using Dobson and TOMS Data

This paper uses Dobson spectrometer total ozone data,Total Ozone Mapping Spectrometer(TOMS) data and radiosonde reports from Kunming,which is located in southwest China,from 1980 to 2008 to analyze the total ozone-climate relationship.The total ozone decadal long-term trend and abrupt change were studied using enhanced Dobson data whose missing data were amended by the TOMS data.Stepwise linear regression was used for the selection of the key factors that influence total ozone,including temperatures,geopotential heights,depressions of the dew point,wind velocities,and total solar radiation.The relationship between the selected factors and total ozone was analyzed using the methods of stepwise regression and partial least squares regression(PLSR).Results showed that although the PLSR method was slightly better and more reasonable to study the relationship than stepwise regression,while the two regression results were only slightly different.It was also suggested that local climate,especially local circulation and temperature,were important for the variations in total ozone,and the local climate could almost linearly explain 80% of the variance of total ozone.The relationship also indicated that the abrupt change of total ozone in the year 1994 may be related to abrupt local climate change.     

气候噪声和气候系统的分维

根据相空间嵌入定理，按照Grassberger和Procaccia提出的计算分数维的方法，利用近百年来南、北半球地面气温资料，估算了气候吸引子的分数维，计算结果表明:气候吸引子的分数维南半球为3.3～3.7，北半球为3.2～3.7。它提供了气候吸引子的自相似结构的基本信息，表明模似气候系统最少需要4个独立变量。另外，还讨论了气候噪声对估算维数的影响。     

近30a北极平流层臭氧的季节和年际变化特征

综合利用1978-2011年TOMS（Total Ozone Mapping Spectrometer）和OMI（Ozone Monitoring Instrument）臭氧总量资料,MLS（Microwave Limb Sounder）臭氧廓线资料以及NCEP/NCAR再分析气象场资料,对比研究了近30a南北极臭氧总量的年际变化和季节变化差异,重点分析了2010/2011年冬末春初北极臭氧出现的异常损耗现象,探讨北极春季臭氧低值产生的原因。结果表明：与南极地区一年四季都保持一个臭氧低值中心明显不同,北极臭氧总量的减少则是伴随着整个春夏季（4-8月）,在秋季（10月）达到最低值,冬季（11月-次年2月）北极臭氧快速恢复,这主要是由于南北半球极地地区环流差异和温度差异造成的。南北两极年均O3总量呈下降趋势,两极地区O3总量年际变化最大的季节是春季。近30a,北极在1997和2011年春季（3-4月）分别达到极低值355DU和361DU,但近年来两极臭氧年际变化趋势不明显。2011年春季,北极地区出现的较严重臭氧低值现象从3月中旬至4月中旬持续了近1个月,2010/2011年冬春季平流层低温和臭氧低值对应关系很好。     

On the climate response to zero ozone

Although ozone appears in the Earth’s atmosphere in a small abundance, it plays a key role in the energy balance of the planet through its involvement in radiative processes. Its absorption of solar radiation leads to the temperature increase with height defining the tropopause and the stratosphere. Moreover, excluding water vapor, O₃ is the third most important contributor (after CO₂ and CH₄) to the greenhouse radiative forcing. Thus, the total removal of O₃ content in an Earth-like atmosphere may cause interesting response of the climate system that deserves further investigation. The present paper addresses this issue by means of a global climate model where the atmosphere is coupled with a passive ocean of a given depth. The model, after reaching the statistical equilibrium under present climate conditions, is perturbed by a sudden switch off of the O₃ content. Results obtained for the new equilibrium suggest that the model gets in a colder state mainly because of the water vapor content decrease. Most of the cooling occurs in the Southern Hemisphere while in the Northern Hemisphere the ice cap melts quite consistently. This process appears to be governed by the northward cross-equatorial heat transports induced by changes in the general circulation.     

北半球100 hPa等压面经向风与臭氧总量年变化

本文用多年平均的北半球100hPa经向风和臭氧总量资料分析了两者的关系,结果发现:臭氧总量的变化与100 hPa经向风密切相关,与100 hPa面上北风相对应的是臭氧高值区,与南风对应的是低值区,前者支配后者.充分说明了臭氧总量变化主要受低层平流层环流影响.     

气候系统模式FGOALS-s2对南半球气候的模拟和预估

针对参加“国际耦合模式比较计划”(CMIP5)的IAP/LASG气候系统模式FGOALS-s2,评估了其对南半球气候平均态的模拟能力,在此基础上,预估了未来不同“典型浓度路径”(RCPs)情景下南半球气候的变化特征.对20世纪历史气候模拟结果的分析表明,模式能够合理再现南半球大气环流气候态分布特征,包括6～8月平均(JJA)南半球双西风急流现象,只是模拟的北支急流偏弱、南支急流偏强.未来气候预估试验中,不同RCPs情景下南半球温度变化以增暖为主要特征,陆地增温大于海洋,只有南大西洋—印度洋海盆存在局部变冷.综合四种不同情景,未来随着温室气体浓度的增加,南半球中纬度高压带将显著加强,绕极低压带将加深.降水呈现出增多的特征,12月到来年2月平均(DJF)强于JJA,海洋强于陆地,只有南印度洋和南太平洋中部局部降水减少.未来不同RCPs情景下,马斯克林高压表现出先减弱后增强的特征,而澳大利亚高压则呈现出先增强后减弱的特征.南极涛动(AAO)的变化表现为:RCP2.6和RCP4.5情景下AAO都表现为先增强后减弱,RCP6.0和RCP8.5情景下都为一致的增强趋势,这主要与四种情景中模拟的未来温度变化结构不同有关.例如在RCP6.0和RCP8.5情景下,南半球高纬高层温度增暖趋势小于中纬地区,使得经向温度梯度增大,中纬度西风加强,60°S以南位势高度减小,最终令AAO增强.