气候系统的热量收支

气候系统的热量收支Б．Ａ．КａЛａＨ；Ｂ．Ａ．ＰябｅＨкｏ；Ａ．Ｃ．Ｃａфｐａи由所谓的太阳常数（日地平均距离上的太阳辐射通量，其最大可能值在１３６８—１３７７瓦特／米２范围内）以及地球转轴的倾斜角度、地球轨道的偏心率和近日点的经度所决定的日射是气...     

城市气溶胶对边界层热量收支的影响

本文利用长、短波辐射模式和地面能量平衡模式，计算了烟雾层状况下的边界层和地面热量收支情况，计算表明，烟地务层的全天辐射效应使低层大气上部辐射能量收入为正，中下部辐射能量收入为负，总的结果是使低层大气稍稍冷却并使稳定增加，计算还表明，烟雾层造成的地面接收短波辐射能量的减少量可由大气逆辐射的增加量来补偿，烟雾层使得地面温度振幅变小。     

层状云中冰晶繁生过程对降水影响的数值模拟

在层状云雨滴分档模式中加入冰晶繁生过程,研究繁生过程对层状云微物理结构及降水过程的影响。结果表明:模式云发展到190 min时,冰晶繁生过程发生,繁生层内的冰粒子浓度由10-3L-1增加到7.3 L-1,随后迅速减少,250 min后趋近于无繁生的情况;繁生层及其下方的云水含量较繁生前相同时刻减少约0.05-0.2 g.m-3;190 min,2 400-4 800 m高度层内的水汽含量急剧减少0.1-1.0 g.m-3;190-230 min,2 400-5 000 m高度层的冰水含量较考虑繁生过程之前增加0.1-0.6 g.m-3,240-250 min,2 400-4 000 m高度层内的冰水含量较繁生前相同时刻减少了0.1-0.3 g.m-3。加入繁生过程之后,雨强极大值增加1.8 mm.h-1(6.6%)。由此得出结论:(1)繁生过程发生后,云中瞬时冰晶浓度增加,繁生层下方的云水含量减少,冰水含量先增加后减少,水汽含量减少;(2)繁生过程使得雨强极大值增大。     

初夏季风期中国大陆上热量与水汽的收支

利用天气尺度的控空与地面资料来计算１９８７、１９８８处１９８９年梅雨期前与梅雨期中国大陆上的热源与水汽汇。     

冰晶核化对雷暴云微物理过程和起电影响的数值模拟研究

本文在已有的二维对流云模式中采用了一种与气溶胶有关的冰晶核化方案替代原有的冰晶核化经验公式, 并选取个例, 分别就两种方案进行了模拟对比试验。模拟结果表明:(1)新方案所得冰晶比含水量主要分布在-0.1~-7.6℃温区之间, 高于原方案所得的-50.1~-24.2℃温区;在整个雷暴云的发展过程中新方案冰晶的分布高度、温度区间以及最大浓度值均大于原方案。(2)在新方案中, 温度相对较高的过冷区产生大量冰晶, 其争食云中水汽抑制了云滴、雨滴的增长。此外, 与原方案相比, 霰增长受雨滴大幅减小的影响进一步得到限制, 导致生成的霰小于原方案, 且空间分布具有较大区别。(3)两方案在雷暴云初期形成的电荷结构不同;在发展旺盛与消散阶段新方案中电荷空间分布区域和电荷量均大于原方案, 此外, 在不同时刻主正电荷区和主负电荷区的中心高度存在差异。本文对云微物理过程及起电的分析为后继探讨气溶胶与雷暴云起放电过程、电荷结构之间的相互关系提供了有利条件。     

2008年夏季风期间西沙海域海-气通量交换及热量收支

2008年4—10月在中国南海西沙永兴岛近海进行了第4次海-气通量观测试验,获得了整个夏季风期间近海面层湍流脉动量及辐射、表层水温、波浪及距水面3.5、7.0、10.5m高度温、湿、风梯度观测资料,根据涡动相关法和COARE3.0法计算结果研究了2008年南海西南季风爆发、发展、中断、衰退包括暴雨、台风、冷空气影响等天气过程中海-气通量交换和热量收支变化。结果表明:(1)季风爆发前的晴天太阳总辐射强,而海洋失热量较小,热量净收支为较大正值,海面温度迅速升高。季风爆发期太阳总辐射仍然较强,大气长波辐射也有所增强,而海面长波辐射变化很小,故海面净辐射收支仍为正值;(2)季风活跃期特别是降水阶段感热通量增大,季风中断阶段变小;季风活跃期虽然潜热通量增大,由于太阳短波辐射没有减少,海洋净热量收支稍有盈余;中断阶段潜热通量、感热通量减少,海洋吸热大于季风活跃期;降水阶段由于太阳短波辐射减小,感热通量增大,海洋热量收支出现较大负值,海面温度很快降低。季风衰退期风力减弱,湿度减小,潜热通量减小,海洋热量收入又出现较大正值,海面温度回升;(3)台风影响过程中潜热通量随着风速增强迅速增大;感热通量因降水情况不同而有差异,晴天时减小,大雨时剧烈增大;由于太阳短波辐射减少、潜热通量剧增,海洋热量净收支出现负值,促使海面温度迅速降低;(4)动量通量主要与海表面风速有关;动量通量τ与风速V的关系可以表示为τ=0.00171v~2-0.003809v+0.02213。     

华北积层混合云中冰晶形状、分布与增长过程的飞机探测研究

利用中国国家科技支撑计划重点项目环北京地区3架飞机联合云探测试验数据,分析了2009年4月18日和5月1日两次积层混合云中冰晶形状、分布与增长过程。结果表明：飞机在0—-16℃范围的云层内观测到的冰晶形状主要包括板状、针柱状、柱帽状、辐枝状和不规则状。云中低层的冰晶形状受云顶温度影响,云顶温度不同,冰晶形状不同,当云顶温度高于-8℃时,云中低层的冰晶以板状和针柱状为主;当云顶温度低于-13℃时,在云中低层可观测到辐枝状冰晶;当云顶温度低于-18℃时,在云中低层可观测到柱帽状冰晶。同时冰晶形态还受其所处云中位置的影响,在积层混合云中的嵌入对流区含有更多的凇附状冰晶;在融化层以上,冰晶的增长过程主要包括凝华、凇附和聚合过程,在垂直方向上,随着高度降低云中过冷水增多,冰晶的凇附增长也相应增强。积层混合云中的对流区和层云区粒子谱下落拓宽速率有明显差别,在4.8—4.2 km（-11.6—-8℃）高度层,对流区粒子谱拓宽速率为3 mm/km,而层云区为3.67 mm/km,层云中粒子拓宽增长的速率略高于对流区;而在4.2—3.6 km（-8—-5℃）高度层,对流区的粒子谱拓宽速率为6.67 mm/km,层云区为2.33 mm/km,对流区的粒子拓宽增长速率是层云区的近3倍,主要原因是对流区低层的过冷水含量较高。     

“93.5”黑风暴发展期中尺度期热量和水汽收支诊断

１９９３年５月４—６日（“９３．５”）在我国西北地区发生了一次极具破坏力的“黑风暴”。为了诊断这次黑风暴发展期的热量和水汽收支，使用了具有高分辨ＰＢＬ参数化及４０ｋｍ细网络的ＭＭ４对该例控制模拟的输出资料和热量与水汽收支方程。对视热源（Ｑ１）和视水汽汇（Ｑ２）的诊断结果指出，Ｑ１的垂直积分在黑风暴的前部和后部分别呈现一条显著的加热带和冷却带。在黑风暴区，Ｑ１和Ｑ２的区域平均垂直廓线揭示，黑风暴的Ｑ１加热主要发生在对流层的上部，而其中部加热主要出现在发展初期；与Ｑ１相应，Ｑ２在低空和中空分别发生明显的增湿变冷和变干加热。这些结果不仅与因黑风暴过程而观测到的强剧强降温率一致，而且也为改进和发展用于模拟和预报黑风暴的中尺度数值模式提供了一些物理依据     

冰晶粒子不同形状假定对辐射收支和气候的影响

将包含多形状冰晶粒子的冰云辐射参数化方案应用于全球气候模式中,详细讨论了冰云粒子从球形假定到多形状假定的变化对辐射场和气候场的影响。结果显示,冰晶粒子形状假定的引入对冰云光学厚度、辐射通量和加热率以及温度场均有明显的影响。采用新的冰云方案使得全球平均云光学厚度值降低0.28（23%）;热带地区降低最为明显,其差异绝对值可达1.02,而在中高纬度陆地地区,两者的冰云光学厚度差别较小。冰晶粒子形状假定改变将导致全球平均的大气顶出射长波辐射通量增加5.52 W/m2（2.3%）。与观测资料的比较表明,多形状冰晶粒子假定明显减小了球形粒子假定对长波出射辐射的低估。对大气加热率廓线的模拟显示,多形状冰晶粒子假定会减弱短波辐射对大气的加热作用,同时增强长波辐射对大气的冷却作用;在热带对流层中高层,这两种影响尤为显著。冰晶粒子形状假定的改变对温度场有明显的影响,热带地区的对流层高层大气温度降低幅度可超过1.5 K。研究表明,冰晶粒子形状假定的改变对模拟的辐射和温度场均有重要的影响。      

冰晶性质对卷云辐射特征影响的模拟研究

介绍了SBDART辐射模式和libRadtran程序包,并利用这两个模式模拟分析了当卷云内冰晶性质如有效半径、冰晶含量以及形状变化时,卷云反照率的变化。模拟分析表明,在相同条件下,不同形状冰晶构成的卷云反照率有所不同,同种冰晶构成的卷云在不同波长的反照率也不同。总的来说,不论是由何种形状冰晶构成的卷云,随着卷云内冰晶含量增大,有效半径减小,卷云反照率增大。这些工作将有助于增进对lib Radtran程序包和卷云性质的了解。     

Torrential rainfall responses to ice microphysical processes during pre-summer heavy rainfall over southern China

In this study,the effects of key ice microphysical processes on the pre-summer heavy rainfall over southern China during 3-8 June 2008 were investigated.A series of two-dimensional sensitivity cloud-resolving model simulations were forced with zonally uniform vertical velocity,zonal wind,horizontal temperature,and water vapor advection data from the National Centers for Environmental Prediction(NCEP)/Global Data Assimilation System(GDAS).The effects of key ice microphysical processes on the responses of rainfall to large-scale forcing were analyzed by comparing two sensitivity experiments with a control experiment.In one sensitivity experiment,ice crystal radius,associated with depositional growth of snow from cloud ice,was reduced from 100 μm in the control experiment to 50 μm,and in the other sensitivity experiment the efficiency of the growth of graupel from the accretion of snow was reduced to 50% from 100% in the control experiment.The results show that the domain-mean rainfall responses to these ice microphysical processes are stronger during the decay phase than during the onset and mature phases.During the decay phase,the increased mean rain rate resulting from the decrease in ice crystal radius is associated with the enhanced mean local atmospheric drying,the increased mean local hydrometeor loss,and the suppressed mean water vapor divergence.The increased mean rain rate caused by the reduction in accretion efficiency is related to the reduced mean water vapor divergence and the enhanced mean local hydrometeor loss.     

大气河对南极冰盖及海冰的影响

南极冰盖与海冰对全球气候具有重要影响。大气河作为高纬度地区经向水汽输送的重要途径,其对南极冰盖与海冰的影响在近年来愈发受到重视。南极大气河通常形成于高压脊(阻塞高压)与温带气旋之间的强向极经向输送带内。低频的大气河活动为南极带来强降雪,有利于冰盖质量增加。然而,强暖湿水汽侵入同时会导致表面融化、冰架崩解和极端高温,对冰盖质量存在潜在负贡献。大气河携带极端暖湿水汽与强风通过热力与动力过程导致海冰密集度下降。目前,大气河的识别算法仍不完善,其对液态降水的直接影响、与南大洋的相互作用等仍不清楚,需要进一步明晰大气河对南极冰盖与海冰的影响机制,以准确预估未来大气河对南极冰盖物质平衡与海冰变化的作用。     

On the upper oceanic heat budget in the south china sea:Annual cycle

l.Intr0ducti0nInrecentyCarstheSouthChinaSea(SCS)hasbecomeoneofthemostimP0rtantregionsinthelocalair-seainteractionresearchbecauseofitssPecialgeographicPOsitionandsemi-encloseddeepbasincharacteristics.TheimP0rtanceoftheSCSisembodiedmainlyinwhichisoneofthekeyheatandmoisturesourcesofatmosphericcirculationineasternAsia.TheonsetandmaintenanceoftheSCSmonsoonarecloselyconnectedwiththelargeheattransportfromtheSCStoair(Yan,l997).Thestudyonspatial-temporalvariationofair-seaheatexchangeintheSCS…     

RADIATIVE AND MICROPHYSICAL EFFECTS OF ICE CLOUDS ON A TORRENTIAL RAINFALL EVENT OVER HUNAN, CHINA

The radiative and microphysical effects of ice clouds on a torrential rainfall event over Hunan,China in June 2004 are investigated by analyzing the sensitivity of cloud-resolving model simulations.The model is initialized by zonally-uniform vertical velocity,zonal wind,horizontal temperature and vapor advection from National Centers for Environmental Prediction(NCEP) /National Center for Atmospheric Research(NCAR) reanalysis data.The exclusion of radiative effects of ice clouds increases model domain mean surface rain rates through the increase in the mean net condensation associated with the increase in the mean radiative cooling during the onset phase and the increases in the mean net condensation and the mean hydrometeor loss during the mature phase.The decrease in the mean rain rate corresponds to the decreased mean net condensation and associated mean latent heat release as the enhanced mean radiative cooling by the removal of radiative effects of ice clouds cools the mean local atmosphere during the decay phase.The removal of microphysical effects of ice clouds decreases the mean rain rates through the decrease in the mean net condensation during the onset phase,while the evolution of mean net condensation and the mean hydrometeor changes from decrease to increase during the mature phase.The reduction in the mean rain rate is primarily associated with the mean hydrometeor change in the absence of microphysical effects of ice clouds during the decay phase.     

Calculation of Ice Crystal Diffraction

The diffraction angular distributions are calculated for different ice crystals (e.g,solid and hollow hexagonal columns,solid plates and single hexagonal bullet) randomly oriented in space,based on the theory of Cai and Liou.Results of solid column and plate are compared with those from formulas of Wendling et al and Liou.The resull comparison shows that all three procedures discussed in this paper have good agreement.After considering the coin putation time and comparison results,it is suggested that the formula of Wendling et al.can be used to calculate the solid column diffraction,and the formula of Liou can be used to calculate the plate diffraction.The comparison also shows that the diffraction results of solid columu,hollow column and single bullet ice particles randomly oriented in space are very close.     

Sensitivity of open-water ice growth and ice concentration evolution in a coupled atmosphere-ocean-sea ice model

A coupled atmosphere-ocean-sea ice model is applied to investigate to what degree the area-thickness distribution of new ice formed in open water affects the ice and ocean properties. Two sensitivity experiments are performed which modify the horizontal-to-vertical aspect ratio of open-water ice growth. The resulting changes in the Arctic sea-ice concentration strongly affect the surface albedo, the ocean heat release to the atmosphere, and the sea-ice production. The changes are further amplified through a positive feedback mechanism among the Arctic sea ice, the Atlantic Meridional Overturning Circulation (AMOC), and the surface air temperature in the Arctic, as the Fram Strait sea ice import influences the freshwater budget in the North Atlantic Ocean. Anomalies in sea-ice transport lead to changes in sea surface properties of the North Atlantic and the strength of AMOC. For the Southern Ocean, the most pronounced change is a warming along the Antarctic Circumpolar Current (ACC), owing to the interhemispheric bipolar seasaw linked to AMOC weakening. Another insight of this study lies on the improvement of our climate model. The ocean component FESOM is a newly developed ocean-sea ice model with an unstructured mesh and multi-resolution. We find that the subpolar sea-ice boundary in the Northern Hemisphere can be improved by tuning the process of open-water ice growth, which strongly influences the sea ice concentration in the marginal ice zone, the North Atlantic circulation, salinity and Arctic sea ice volume. Since the distribution of new ice on open water relies on many uncertain parameters and the knowledge of the detailed processes is currently too crude, it is a challenge to implement the processes realistically into models. Based on our sensitivity experiments, we conclude a pronounced uncertainty related to open-water sea ice growth which could significantly affect the climate system sensitivity.     

土壤热异常影响地表能量平衡的个例分析和数值模拟

The statistical relationship between soil thermal anomaly and short-term climate change is presented based on a typical case study. Furthermore, possible physical mechanisms behind the relationship are revealed through using an off-line land surface model with a reasonable soil thermal forcing at the bottom of the soil layer.In the first experiment, the given heat flux is 5 W m-2 at the bottom of the soil layer (in depth of 6.3 m)for 3 months, while only a positive ground temperature anomaly of 0.06℃ can be found compared to the control run. The anomaly, however, could reach 0.65℃ if the soil thermal conductivity was one order of magnitude larger. It could be even as large as 0.81℃ assuming the heat flux at bottom is 10 W m-2. Meanwhile, an increase of about 10 W m-2 was detected both for heat flux in soil and sensible heat on land surface, which is not neglectable to the short-term climate change. The results show that considerable response in land surface energy budget could be expected when the soil thermal forcing reaches a certain spatial-tem poral scale. Therefore, land surface models should not ignore the upward heat flux from the bottom of the soil layer. Moreover, integration for a longer period of time and coupled land-atmosphere model are also necessary for the better understanding of this issue.     

Variations of sea ice temperature from CHINARE 2003 and its application on sea ice model evaluation

Variation of vertical profiles of sea ice temperature and adjacent atmosphere and ocean temperatures were measured by ice drifting buoys deployed in the northeast Chukchi Sea as part of the 2003 Chinese Arctic Research Expedition.The buoy observations (September 2003 to February 2005) show that the cooling of the ice began in late September,propagated down through the ice,reaching the bottom of the ice in December,and continued throughout the winter.In winter 2003/04,some obvious warmings were observed in the upper portion of the ice in response to major warmings in the overlying atmosphere associated with the periodicity of storms in the northeast Chukchi Sea.It is found that the melt season at the buoy site in 2004 was about 15% longer than normal.The buoy observed vertical ice temperature profiles were used as a diagnostic for sea ice model evaluation.The results show that the simulated ice temperature profiles have large discrepancies as compared with the observations.