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1.
亚洲区域海—陆—气相互作用对全球和亚洲气候变化的作用研究进展 总被引:13,自引:4,他引:9
围绕全球变化研究国家重大研究计划项目“亚洲区域海—陆—气相互作用机理及其在全球变化中的作用”预定的总体研究内容和科学目标,项目执行两年多以来,取得了一系列阶段性科研成果.关于气候动力学方面,项目揭示了热带印度洋—西太平洋暖池的海温变化是全球热带气候年代际变化的重要驱动力,是全球尺度副热带干旱的重要调控器;发现热带东太平洋海温存在冷舌模态,它是一个海气耦合模态,阐明在全球变暖背景下其对ENSO型态变异的作用及影响东亚气候的机理;揭示了青藏高原热力强迫的异常特征及其气候效应;提出了水平非均匀基流中行星波传播的理论,研究了其在不同东亚夏季风背景下的传播特征.关于气候预测方法方面,提出了若干有物理基础的气候预测方法,如尺度分离的降尺度预测新方法、基于北大西洋涛动(NAO)-ENSO的东亚夏季风预测模型、基于南半球环状模的东亚气候预测模型等,为业务部门提供了重要参考.关于观测方面,项目在亚洲区域海气补充观测和海洋资料同化方面也取得突出进展,成功进行了南海18°N断面海洋综合观测,为形成我国第一条南海断面长期海气观测打下了基础.在国际合作方面,项目还继续推动和领导了“亚洲季风年”(AMY2007-2012)与“东亚气候模拟”国际计划,提升了我国在该领域的国际地位. 相似文献
2.
亚洲区域气候模式比较计划的进展 总被引:22,自引:2,他引:20
区域气候变化的信息是气候变化影响评估的基础。在发展全球气候模式的同时 ,发展高分辨的区域气候模式是获取区域气候变化信息的重要途径之一。作者介绍了由中国科学院大气物理研究所START全球变化东亚区域研究中心发起和主持 ,有中、美、韩、日和澳大利亚 1 0个研究组参加的亚洲区域气候模式比较计划的目的、意义、工作任务和试验设计等主要内容 ,给出了该国际比较计划第 1阶段 (连续 1 8个月积分 )和第 2阶段( 1 988~ 1 998年连续 1 0年积分 )的初步结果 ,讨论了区域气候模式在亚洲应用中的一些共性问题以及进一步研究的方向。 相似文献
3.
区域海气耦合模式是研究局地海气相互作用过程影响气候变率的重要平台,也是对全球气候模式进行"动力降尺度"的重要工具.本文介绍了LASG(State Key Laboratory of Numerical Modeling for Atmospheric Sciences and Geophysical Fluid Dynamics)/IAP(Institute of Atmospheric Physics)发展的区域海气耦合模式FROALS(Flexible Regional Ocean-Atmosphere-Land System model),并总结了过去五年围绕该区域海气耦合模式开展的研究工 作.FROALS的特点之一是有两个完全不同的大气模式分量和海洋模式分量选项,可以适应不同的模拟研究需 求.针对区域海气耦合模式在西北太平洋地区的模拟偏差,通过分步骤考察不同大气模式分量和不同海洋模式分量对模式模拟性能的影响,指出大气模式是导致区域海气耦合偏差的主要分量.通过改进对流触发的相对湿度阈值标准,有效地改善了此前区域海气耦合模式在亚洲季风区普遍出现的"模拟海温冷偏差".改进的FROALS对西北太平洋地区的大气和海洋环境有较好的模拟能力,合理地再现了西北太平洋地区表层洋流气候态和年际变率.较之非耦合模式,考虑区域海气耦合过程后,改进了东亚和南亚地区的降水和热带气旋潜势年际变率的模拟.最后,针对东亚—西北太平洋地区,利用FROALS对IAP/LASG全球气候模式模拟和预估的结果进行了动力降尺 度,得到了东亚区域50 km高分辨率区域气候变化信息.分析显示,FROALS模拟得到的东亚区域气候较之全球气候模式和非耦合区域气候模式结果具有明显的"增值",显示出区域海气耦合模式在该区域良好的应用前景. 相似文献
4.
谱逼近方法在东亚夏季降水区域模式模拟中的适用性研究:区域大小和位置的影响 总被引:6,自引:2,他引:4
利用区域气候模式 MM5V3 对1991、1998和2003年的东亚夏季降水进行了模拟.首先通过6个嵌套区域大小、位置的敏感性试验,研究了区域气候模式在东亚地区的模拟对嵌套区域的敏感性.在此基础上研究了谱逼近方案对降低此敏感性的作用.结果表明:(1)区域气候模式MM5V3能够基本模拟出东亚夏季极端降水的分布特征和强度变... 相似文献
5.
区域气候模式REMO对东亚季风季节变化的模拟研究 总被引:8,自引:2,他引:6
将欧洲区域气候模式REMO首次应用于东亚区域,利用该模式对1980年和1990年东亚季风季节变化进行了模拟研究,并将模拟结果与NCEP再分析资料进行比较,以检验该模式对东亚季风的模拟能力.研究表明,区域气候模式REMO能够较好地模拟出东亚地区高、低空的大气环流特征,模拟的高度场、流场和温度场与NCEP再分析资料场都比较一致.模拟结果显示了东亚季风的月变化和季节转换特征.模拟的降水场与GPCC降水资料的对比结果表明,REMO能较为成功地模拟出东亚地区降水的空间分布,并能较好地反映降水的季节变化及主要降水趋势,夏季降水模拟偏大,整个区域平均的降水量偏差约为18%左右. 相似文献
6.
利用海气耦合的全球气候模式CSIRO-Mk3.6分析比较了全球和亚洲人为气溶胶对东亚各季节气候的不同影响。结果表明,全球和亚洲外人为气溶胶使得东亚地区年平均地表温度分别下降0.9℃和0.55℃。亚洲区域气溶胶强迫决定了东亚近地面降温的时空分布特征,而亚洲区域外气溶胶进一步增强了我国北方夏季的近地面降温。各个季节对流层中上层的降温主要受区域外气溶胶的影响,并引起东亚高空急流强度和位置的变化,造成夏季和秋季明显的经向环流异常。同时,亚洲气溶胶影响各季节东亚低层环流场的响应,使得东亚陆地降水减少,而区域外气溶胶则主要影响冬季中高纬度和夏、秋季南海地区的低层风场。总体上,亚洲区域内、外人为气溶胶会增强我国冬、夏季风低层环流,并共同决定南海地区的降水变化。 相似文献
7.
文章提出了一个四维经验正交函数(4D-EOF)方法,原理是三维经验正交函数(3D-EOF)与扩展经验正交函数(EEOF)简单的组合,此方法不仅提供空间水平分布特征场及其对应的月际变化特征和年际变化特征,而且还提供空间垂直结构特征。利用这个新方法分析东亚季风国际区域模式比较计划(RMIP)MM5V3模拟的1989—1998年10a积分结果———包括中国大部分区域(4941个格点,格距60km)月平均100,500,700,1000hPa4个位势高度场(模拟场)及其距平场;同时分析对应的NCAR/NCEP再分析资料(观测场),进而对比两者检验模式模拟东亚季风气候及其变化能力。对比分析结果表明:对于月平均高度场的第一特征向量场,模式能比较准确地模拟出平均气候场的分布及其垂直相当正压性的结构特征;对于月平均高度距平场第一、二特征向量场,模式对于距平场的模拟也较成功,垂直方向有明显的相当正压性特征;月平均高度场及其距平场相应的月际变化和年际变化特征也在模拟中得到较好的反映。本研究表明:4D-EOF具有综合检验数值模式模拟气候及其变化的能力,而MM5V3模拟20世纪90年代东亚气候及其变化能力是令人满意的。 相似文献
8.
全球气候模式BCC-CSM2-MR(Beijing Climate Center-Climate System Model version 2-Medium Resolution)由国家(北京)气候中心自主研发并参与了第六阶段国际耦合模式比较计划,该模式在BCC-CSM1.1m版本基础上对大气辐射传输、深对流过程及重力波等方面进行了优化,因此,该模式对东亚地区降水和气温模拟能力的改进亟需进一步评估。本文主要基于不同格点观测数据集与中国区域站点观测数据,系统对比分析BCC-CSM2-MR、BCC-CSM1.1m两个模式版本对东亚地区季节平均降水(气温)和日极端降水(气温)的模拟能力。结果表明:(1)相比BCC-CSM1.1m,BCC-CSM2-MR改进了对东亚大部分区域季节平均降水的模拟能力,尤其是青藏高原地区夏季平均降水,明显提高了对中国东南地区、朝鲜半岛及日本降水月际变化的模拟性能;(2)BCC-CSM2-MR对东亚地区季节平均气温模拟能力改进不明显,且对东亚大部分区域气温月际变化的模拟误差大于BCC-CSM1.1m;(3)对日极端降水(气温),BCC-CSM2-MR的模拟能力优于B... 相似文献
9.
我国西北地区21世纪季节气候变化情景分析 总被引:36,自引:2,他引:34
使用各国政府间气候变化专门委员会(IPCC)数据分发中心提供的7个全球海气耦合气候系统模式(CCC、CCSR、CSIRO、DKRZ、GFDL、HADL、NCAR)的模拟结果,对我国西北地区未来21世纪考虑温室气体增加(GG)和温室气体与硫化物气溶胶共同影响(GS)时,冬夏季的气候变化情景进行了分析.模式集成结果分析表明,我国西北地区的变暖趋势与全球、东亚和中国一致,但变暖幅度明显高于全球、东亚和中国.对未来100年各个季节线性倾向的分析表明,西北地区GG和GS时都是冬季变暖最大,可高达5~8℃/100a,且整个西北地区中新疆地区为最大变暖区.21世纪由于人类活动,西北地区最低温度和最高温度都将明显升高,其线性趋势可达4~6℃/100 a.由于全球气候模式对区域尺度的模拟存在较大的不确定性,未来需要作更多的深入研究. 相似文献
10.
对季节气候预测的进展进行了评述,主要集中在动力季节预测方面.全文共分四部分:(1)季节预报的科学基础;(2)动力( GCM)季节预报的进展;(3)东亚季节预报水平低的原因分析;(4)从国际气候预测未来发展规划国家气候中心气候预测的前景.根据上述结果,最后提出了中国气象局季节预测发展的建议. 相似文献
11.
季风亚洲区域集成研究(Monsoon Asia Integrated Regional Study,简称MAIRS)是国际全球变化研究计划(GEC)和地球系统科学联盟(ESSP)的一个子计划,是全球变化邻域第一个由中国科学家提出,并组织实施的国际计划,历时10余年。MAIRS明确提出:不同于过去和正在进行的任何一个关于季风的研究计划,MAIRS研究的主题是人类与季风系统的相互作用。本文从四个方面回顾了这个计划的历程:(1)2003~2006年的可行性研究。包括区域集成研究概念的提出、亚洲区域全球变化研究的快速评估、以及在此基础上确定MAIRS的总体科学目标和起草MAIRS的科学计划。(2)2006年正式发布的MAIRS科学计划的主要内容。包括季风亚洲区域面临的环境变化和研究挑战、集成研究的科学问题、四个最脆弱区域的确定以及计划执行的方法和手段等。(3)2006~2016年MAIRS计划的执行情况。包括组织结构、科学活动、研究项目和成果、以及国际合作网络的建立。(4)MAIRS的国际影响和未来发展。MAIRS与未来地球国际计划(Future Earth)。 相似文献
12.
用 IAP/LASG GOALS模式模拟CO2增加引起的东亚地区气候变化 总被引:19,自引:0,他引:19
Two simulations, one for the control run and another for the perturbation run, with a global coupled ocean-atmosphere-land system model (IAP / LASG GOALS version 4) have been carried out to study the global warming, with much detailed emphasis on East Asia. Results indicate that there is no climate drift in the control run and at the time of CO2 doubling the global temperature increases about 1.65℃. The GOALS model is able to simulate the observed spatial distribution and annual cycles of temperature and precipitation for East Asia quite well. But, in general, the model underestimates temperature and overestimates rainfall amount for regional annual average. For the climate change in East Asia, the temperature and precipitation in East Asia increase 2. l℃ and 5% respectively, and the maximum warming occurs at middle-latitude continent and the maximum precipitation increase occurs around 25°N with reduced precipitation in the tropical western Pacific. 相似文献
13.
Regional dynamical downscaling with CCLM over East Asia 总被引:1,自引:1,他引:0
Dinan Wang Christoph Menz Thorsten Simon Clemens Simmer Christian Ohlwein 《Meteorology and Atmospheric Physics》2013,121(1-2):39-53
Inspired by the framework of the Coordinated Regional Climate Downscaling Experiment (CORDEX), the hindcast (1971–2000) and projection (2021–2050) simulations based on a resolution of $0.44^\circ$ over the East Asia domain are performed with the regional climate model COSMO-CLM (CCLM). The simulations are driven by ERA-40 reanalysis data and output of the global climate model ECHAM5. This is the first time that the CCLM is adapted and evaluated for the East Asia Monsoon region; the setup is considered a starting point for further improvements in this region by the CCLM community. The evaluation results show that the CCLM is able to reasonably capture the climate features in this region, especially the monsoon dynamics on small scales. However, total precipitation in the northern part of the domain, over the Tibetan Plateau, and over east Indonesia has a pronounced wet bias. The projected climate change under the A1B scenario indicates an overall annual surface temperature increase of 1–2 K, but no significant precipitation changes. 相似文献
14.
Wetting tendency in the Central Mekong Basin consistent with climate change-induced atmospheric disturbances already observed in East Asia 总被引:1,自引:0,他引:1
Regional and local trends in rainfall intensity, frequency, seasonality, and extremes were analyzed in the central Mekong Basin in continental Southeast Asia over the period 1953–2004 using the modified Mann–Kendall test, accounting for long-term persistence and the regional average of the Kendall’s statistic. Regionally significant and insignificant wetting tendencies of the dry and wet seasons, respectively, were found to be consistent with rainfall alterations in the neighboring southeastern part of China and attributed by previous studies to the weakening of the East Asia Summer and Winter Monsoons. These observations suggest the existence of causal links between global warming and rainfall changes observed in continental Southeast Asia. Although these changes most likely did not alter agricultural production, they confirm the need to account for climate change impacts when assessing water resources availability in this region under rapid economic development. 相似文献
15.
The START initiative (co-sponsored by IGBP, WCRP and HDP) has as its primary objective development of regional frameworks to support regional research related to global change, associated capacity building and synthesis scientific assessments related to policy development. START now has six regional networks under development in South-East Asia, Northern Africa, East Asia, South Asia, the Meditteranean, and Southern Africa. Issues before START include the coordination of regional activities with that of sponsoring programmes, the need for a more elaborated HDP, and the development of thematic programming that will secure multi-donor, multi-year support. 相似文献
16.
Dong-Kyou Lee Dong-Hyun Cha Chun-Sil Jin Suk-Jin Choi 《Asia-Pacific Journal of Atmospheric Sciences》2013,49(5):655-664
In this study, regional climate changes for seventy years (1980–2049) over East Asia and the Korean Peninsula are investigated using the Special Reports on Emission Scenarios (SRES) B1 scenario via a high-resolution regional climate model, and the impact of global warming on extreme climate events over the study area is investigated. According to future climate predictions for East Asia, the annual mean surface air temperature increases by 1.8°C and precipitation decreases by 0.2 mm day?1 (2030–2049). The maximum wind intensity of tropical cyclones increases in the high wind categories, and the intra-seasonal variation of tropical cyclone occurrence changes in the western North Pacific. The predicted increase in surface air temperature results from increased longwave radiations at the surface. The predicted decrease in precipitation is caused primarily by northward shift of the monsoon rain-band due to the intensified subtropical high. In the nested higher-resolution (20 km) simulation over the Korean Peninsula, annual mean surface air temperature increases by 1.5°C and annual mean precipitation decreases by 0.2 mm day?1. Future surface air temperature over the Korean Peninsula increases in all seasons due to surface temperature warming, which leads to changes in the length of the four seasons. Future total precipitation over the Korean Peninsula is decreased, but the intensity and occurrence of heavy precipitation events increases. The regional climate changes information from this study can be used as a fruitful reference in climate change studies over East Asia and the Korean peninsula. 相似文献
17.
Assessment of future climate change over East Asia due to the RCP scenarios downscaled by GRIMs-RMP 总被引:1,自引:1,他引:0
Ji-Woo Lee Song-You Hong Eun-Chul Chang Myoung-Seok Suh Hyun-Suk Kang 《Climate Dynamics》2014,42(3-4):733-747
This study assesses future climate change over East Asia using the Global/Regional Integrated Model system—Regional Model Program (RMP). The RMP is forced by two types of future climate scenarios produced by the Hadley Center Global Environmental Model version 2 (HG2); the representative concentration pathways (RCP) 4.5 and 8.5 scenarios for the intergovernmental panel on climate change fifth assessment report (AR5). Analyses for the current (1980–2005) climate are performed to evaluate the RMP’s ability to reproduce precipitation and temperature. Two different future (2006–2050) simulations are compared with the current climatology to investigate the climatic change over East Asia centered in Korea. The RMP satisfactorily reproduces the observed seasonal mean and variation of precipitation and temperature. The spatial distribution of the simulated large-scale features and precipitation by the RMP is generally less reflective of current climatic conditions than that is given by the HG2, but their inter-annual variations in East Asia are better captured by the RMP. Furthermore, the RMP shows higher reproducibility of climate extremes including excessive heat wave and precipitation events over South Korea. In the future, strong warming is distinctly coupled with intensified monsoonal precipitation over East Asia. In particular, extreme weather conditions are increased and intensified over South Korea as follows: (1) The frequency of heat wave events with temperature greater than 30 °C is projected to increase by 131 and 111 % in the RCP 8.5 and 4.5 downscaling, relative to the current climate. (2) The RCP 8.5 downscaling shows the frequency and variability of heavy rainfall to increase by 24 and 31.5 %, respectively, while the statistics given by the RCP 4.5 downscaling are similar to those of the current climate. 相似文献
18.
不同区域气候模式对中国地区温度和降水的长期模拟比较 总被引:19,自引:9,他引:19
利用亚洲区域模式比较计划RMIP第二阶段五个区域模式和一个变网格全球模式,对中国地区1988年12月~1998年11月十年模拟的平均温度和降水结果,分析比较了不同区域气候模式对中国地区温度和降水的模拟能力。研究结果表明:几乎所有模式都能模拟出中国地区多年平均温度和降水的基本空间分布形态,但模式模拟的温度普遍偏低,在大部分区域,大多数模式模拟的降水偏多,而且不同模式之间存在较大差别。模式能较好地反映出中国地区温度的年际变化,对夏季降水的年际变化模拟较差,对冬季模拟较好。 相似文献
19.
Anwesa Bhattacharya Rae Seol Park Young Cheol Kwon 《Asia-Pacific Journal of Atmospheric Sciences》2018,54(4):545-561
Over the North East Asia, extreme anomalous precipitation were observed in 2013 and 2014. During 2013 summer the precipitation was found to be higher (two standard deviation) than the climatological mean of the region; whereas during 2014, which was a borderline El Niño year, precipitation was found to be lower (one standard deviation). To understand the differences of these two anomalous years the Global/Regional Integrated Model system (GRIMs) has been used. The study found that low land-surface temperature and high sea-surface temperature over ocean caused a smaller land-sea contrast of surface temperature between East Asia and North West Pacific Ocean in 2014, which could have caused an eastward shift of mean monsoon circulation in that year compared to the circulation in 2013. Due to a change in the lower level circulation and wind field over East Asia the evaporation and moisture transport patterns became very different in those two years. In 2013, this study found high latent heat flux over Eastern China, which implies an increased surface evaporation over that region, and the moisture transported to the north by the mean monsoon circulation; whereas, there was no correlated transport of moisture to the North East Asia during 2014. The precipitable water over North East Asia has a stronger correlation with the latent heat flux over southern land region than that from Ocean region in the eastern side in both the years. A new approach is proposed to estimate the sub-grid scale hydrometeors from GRIMs, overestimated in the existing model. 相似文献
20.
By KRISTIN RYPDAL NATHAN RIVE TERJE K. BERNTSEN ZBIGNIEW KLIMONT TORBEN K. MIDEKSA GUNNAR MYHRE RAGNHILD B. SKEIE 《Tellus. Series B, Chemical and physical meteorology》2009,61(4):625-641
Abatement of particulate matter has traditionally been driven by health concerns rather than its role in global warming. Here we assess future abatement strategies in terms of how much they reduce the climate impact of black carbon (BC) and organic carbon (OC) from contained combustion. We develop global scenarios which take into account regional differences in climate impact, costs of abatement and ability to pay, as well as both the direct and indirect (snow-albedo) climate impact of BC and OC. To represent the climate impact, we estimate consistent region-specific values of direct and indirect global warming potential (GWP) and global temperature potential (GTP). The indirect GWP has been estimated using a physical approach and includes the effect of change in albedo from BC deposited on snow. The indirect GWP is highest in the Middle East followed by Russia, Europe and North America, while the total GWP is highest in the Middle East, Africa and South Asia. We conclude that prioritizing emission reductions in Asia represents the most cost-efficient global abatement strategy for BC because Asia is (1) responsible for a large share of total emissions, (2) has lower abatement costs compared to Europe and North America and (3) has large health cobenefits from reduced PM10 emissions. 相似文献