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1.
The seasonal prediction of sea surface temperature(SST) and precipitation in the North Pacific based on the hindcast results of The First Institute of Oceanography Earth System Model(FIO-ESM) is assessed in this study.The Ensemble Adjusted Kalman Filter assimilation scheme is used to generate initial conditions, which are shown to be reliable by comparison with the observations. Based on this comparison, we analyze the FIO-ESM 6-month hindcast results starting from each month of 1993–2013. The model exhibits high SST prediction skills over most of the North Pacific for two seasons in advance. Furthermore, it remains skillful at long lead times for midlatitudes. The reliable prediction of SST can transfer fairly well to precipitation prediction via air-sea interactions.The average skill of the North Pacific variability(NPV) index from 1 to 6 months lead is as high as 0.72(0.55) when El Ni?o-Southern Oscillation and NPV are in phase(out of phase) at initial conditions. The prediction skill of the NPV index of FIO-ESM is improved by 11.6%(23.6%) over the Climate Forecast System, Version 2. For seasonal dependence, the skill of FIO-ESM is higher than the skill of persistence prediction in the later period of prediction. 相似文献
2.
CMIP5模式对南海SST的模拟和预估 总被引:4,自引:1,他引:3
分析了32个CMIP5模式对南海历史海表温度(SST)的模拟能力和不同排放情景下未来SST变化的预估。通过检验各气候模式对南海历史SST增温趋势和均方差的模拟,发现大部分模式都能较好地模拟出南海20世纪历史SST的基本特征和变化规律,但也有部分模式的模拟存在较大偏差。尽管这些模拟偏差较大的模式对SST多模式集合平均的影响不大,但会增加未来情景预估的不确定性。剔除15个模式后,分析了南海SST在RCP26、RCP45和RCP85三种排放情景下的变化趋势,发现在未来百年呈明显的增温趋势,多模式集合平均的增温趋势分别为0.42、1.50和3.30℃/(100a)。这些增温趋势在空间上变化不大,但随时间并不是均匀变化的。在前两种排放情景下,21世纪前期的增温趋势明显强于后期,而在RCP85情景下,21世纪后期的增温趋势强于前期。 相似文献
3.
2020年冬季(2020年12月至2021年2月),赤道中东太平洋海表温度持续下降,形成了一次拉尼娜事件。2021年春季,海表温度回升,转为中性状态。最新观测发现,2021年秋季以来海表温度再次降低,冬季是否会再次形成拉尼娜事件,其对我国冬季的气候有何影响? 本文利用自然资源部第一海洋研究所发展的短期气候预测系统FIO-CPSv2.0,以2021年10月1日为起报时间,对冬季气候进行了预测。结果表明,赤道中东太平洋冷异常将在11月达到鼎盛,形成一次弱拉尼娜事件,2022年1月将转为中性状态。在连续2年出现拉尼娜现象的气候背景下,2021年11月,除青藏高原、西南地区、东南沿海及台湾气温偏高外,我国大部分地区气温将偏低。12月之后,我国北方气温偏高而南方气温偏低的概率较大。此外,降水预测结果显示,初冬,南方降水偏多,而华北、东北部分地区降水偏少。2022年1月南方降水将偏少,而华北和东北降水将偏多。不同集合之间降水预测结果存在较大差异,表明降水预测结果仍有较高不确定性。 相似文献
4.
由于海岛资料相对匮乏,对其气象条件的分析工作较为零散,对海岛气候分布特征尚缺乏清晰的认识。本文利用浙江及周边岛屿26个站点的观测资料,通过均值、标准差和相关系数等统计方法定量评估了NCEP/NCAR-Reanalysis 1(NCEP-1),ERA-Interim和JRA-55三种再分析气温数据在浙江周边海岛的可信度。结果表明:3种再分析数据均能够重现近地面气温的年循环特征,但再分析数据得到的冬季气温偏高,而在夏季,NCEP-1相对于其他2种再分析数据重构的气温显著偏低。从相关系数、标准偏差等多个统计指标来看,ERA-Interim再分析数据对浙江周边岛屿气温的再现能力较好。积温的分析结果表明,基于ERA-Interim计算的26个测站的平均积温和标准差分别为5 818和498℃,与实测5 728和324℃最为接近,JRA-55的平均积温偏差最大,NCEP-1标准差偏差最大。从26个测站积温的空间分布来看,基于ERA-Interim得到的积温空间分布基本上重现了浙江周边岛屿积温带受纬度和海陆分布影响的特征;JRA-55再分析数据次之,因三门健跳至岱山的部分海岛上积温比实测资料偏高,从而导致积温南北分布与实测不一致;而NCEP-1存在明显的偏差,在27°~28°N区积温偏低,在29°~30°N区积温却偏高,甚至超过了6 000℃,这使得根据NCEP-1得到的积温带南北分布与实测差别较大。整体而言,针对气温的分析研究,ERA-Interim再分析数据对浙江周边岛屿地区具有较好的适用性,可以作为地表温度的替代数据。 相似文献
5.
利用GOES(Geostationary Operational Environmental Satellite)-9红外卫星云图和NCEP(National Centers for Environmental Prediction) 发行的 FNL(Final Analyses) 客观分析资料以及潜热通量资料,对2005年12月4日发生在日本海上空的1个极地低压的时空特征进行了研究.首先根据卫星云图特征,对该极地低压的演变过程进行了分析,可以划分为初始、发展、成熟和衰亡4个阶段.极地低压发展前,大气的斜压性较强,高空伴随有很强的冷平流.在卫星云图上,成熟时的极地低压伴随有螺旋云系,并有明显的眼区,眼区为无风区,且眼区中心附近有很强的上升气流.该极地低压具有暖心结构,眼区周围的气压梯度很大,大风区位于低压中心的西侧.在极地低压发展和成熟阶段,其中心附近的潜热通量可达到220 Wm2. 相似文献
6.
气候模式中海洋数据同化对热带降水偏差的影响 总被引:1,自引:1,他引:0
本文采用海洋卫星观测海表温度(SST)和海面高度异常(SLA)数据,对国家海洋局第一海洋研究所地球系统模式FIO-ESM(First Institute of Oceanography Earth System Model version 1.0)中海洋模式分量进行了集合调整卡尔曼滤波(EAKF)同化,对比分析了大气环流、湿度和云量对海洋数据同化的响应,探讨了海洋同化对热带降水模拟偏差的影响。结果表明:海洋数据同化能有效改善海表温度和上层海洋热含量的模拟,30°S~30°N纬度带内年平均SST的绝均差降低60%。同化后大气模式模拟的赤道两侧信风得到明显改善,上升气流在赤道以北热带地区增强而在赤道以南热带地区减弱,热带降水模拟的动力结构更为合理,水汽和云量分布也更切合实际。热带年平均降水的空间分布和强度在同化后均得到改善,赤道以南的纬向年平均降水峰值显著降低,降水偏差明显减小,同化后30°S~30°N纬度带内年平均降水绝均差降低35%。 相似文献
7.
2007和2012年北极最小海冰范围空间分布不同的原因分析 总被引:1,自引:0,他引:1
Satellite records show the minimum Arctic sea ice extents(SIEs) were observed in the Septembers of 2007 and2012, but the spatial distributions of sea ice concentration reduction in these two years were quite different.Atmospheric circulation pattern and the upper-ocean state in summer were investigated to explain the difference.By employing the ice-temperature and ice-specific humidity(SH) positive feedbacks in the Arctic Ocean, this paper shows that in 2007 and 2012 the higher surface air temperature(SAT) and sea level pressure(SLP)accompanied by more surface SH and higher sea surface temperature(SST), as a consequence, the strengthened poleward wind was favorable for melting summer Arctic sea ice in different regions in these two years. SAT was the dominant factor influencing the distribution of Arctic sea ice melting. The correlation coefficient is –0.84 between SAT anomalies in summer and the Arctic SIE anomalies in autumn. The increase SAT in different regions in the summers of 2007 and 2012 corresponded to a quicker melting of sea ice in the Arctic. The SLP and related wind were promoting factors connected with SAT. Strengthening poleward winds brought warm moist air to the Arctic and accelerated the melting of sea ice in different regions in the summers of 2007 and 2012. Associated with the rising air temperature, the higher surface SH and SST also played a positive role in reducing summer Arctic sea ice in different regions in these two years, which form two positive feedbacks mechanism. 相似文献
8.
利用1909—2008年共100年间的国际综合海洋-大气资料集(International Comprehensive Ocean-Atmosphere Data Set,ICOADS)对北太平洋和东亚海域海雾的发生频率及海雾发生时主要气象要素特征进行了分析。研究发现,北太平洋海雾主要发生在中高纬度海域,从北海道到阿留申群岛以南的海域是海雾发生频率较大的地区,海雾发生频率的最大值在40%以上,而在低纬度海域海雾频率几乎为零。4~8月是北太平洋上发生海雾较为频繁的季节,4~7月中国近海海雾主要发生在黄海、东海和渤海海域。6月份山东半岛以南海域海雾最大频率可达20%,进入8月后,海雾频率突然降低到5%以下。海雾发生时,千岛群岛以东海域风向主要以南风为主,其次为东南风和西南风居多,海上风速在4.4~12.3m·s-1之间。海雾发生时气温通常接近于露点温度,甚至有部分低于露点温度。海雾发生前,千岛群岛以东海域上气海温差多在-1~3℃之间。 相似文献
9.
Water vapor transport and cross-equatorial flow over the Asian-Australia monsoon region simulated by CMIP5 climate models 总被引:1,自引:0,他引:1
The summer mean water vapor transport (WVT) and cross-equatorial flow (CEF) over the Asian-Australian monsoon region simulated by 22 coupled atmospheric-oceanic general circulation models (AOGCMs) from the World Climate Research Programme’s Coupled Model Intercomparison Project Phase 5 (CMIP5) were evaluated. Based on climatology of the twentieth-century simulations, most of models have a reasonably realistic representation of summer monsoon WVT characterized by southeast water vapor conveyor belt over the South Indian Ocean and southwest belt from the Arabian Sea to the East Asian. The correlation coefficients between NCEP reanalysis and simulations of BCC-CSM1-1, BNU-ESM, CanESM2, FGOALS-s2, MIROC4h and MPI-ESM-LR are up to 0.8. The simulated CEF depicted by the meridional wind along the equator includes the Somali jet and eastern CEF in low atmosphere and the reverse circulation in upper atmosphere, which were generally consistent with NCEP reanalysis. Multi-model ensemble means (MME) can reproduce more reasonable climatological features in spatial distribution both of WVT and CEF. Ten models with more reasonable WVT simulations were selected for future projection studies, including BCC-CSM1-1, BNU-ESM, CanESM2, CCSM4, FGOALS-s2, FIO-ESM, GFDL-ESM2G, MRIOC5, MPI-ESM-LR and NorESM-1M. Analysis based on the future projection experiments in RCP (Representative Concentration Pathway) 2.6, RCP4.5, RCP6 and RCP8.5 show that the global warming forced by different RCP scenarios will results in enhanced WVT over the Indian area and the west Pacific and weaken WVT in the low latitudes of tropical Indian Ocean. 相似文献
10.
上层海洋通过海气交换影响大气-海洋耦合系统,海浪引起的垂向混合影响上层海洋结构,从而在气候预测过程中发挥着重要的作用。本文基于国家海洋局第一海洋研究所地球系统模式(FIO-ESM),以2016年为例,分别开展了耦合和关闭海浪模式情况下的短期气候预测实验,分析浪致混合对北太平洋海表温度(SST)季节性预测的影响。通过对模式预测的SST异常(SSTA)进行定量评估发现,浪致混合能够显著降低北太平洋高纬度海区预测误差,在(45°N,150°E)附近海区SSTA改善可达1℃,气候模式能够更好地预测SSTA的经向分布特征,特别是能够准确地反映25°~45°N海区SSTA分布特征。通过分析有浪和无浪两个实验的热收支贡献发现,垂向混合是导致上层海洋温度差异的主导影响因子。海浪通过改变垂向混合,使2016年北太平洋SST在高纬度海区大幅降低,在低纬度海区略有升高,最终提升了模式对北太平洋SST的季节性预测能力。 相似文献