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1.
季节性流感的多元激发理论及其包含气象和社会行为因素的数学模型 总被引:4,自引:0,他引:4
ZHOU Steven Zhixiang 《热带气象学报》2009,25(6):706-716
为了解流感的季节性和爆发的生物力学机制,在收集、分析、计算全球各地流感监测资料的基础上,建立了流感传播的多元激发理论及相应的数值模式,并运用该模式对全球各大洲不同气候带的季节性流感和周际流感进行了数值模拟和预报尝试。模式近似解的数学表达式以及模式输出与实况高度吻合的模拟结果证明:流感的发病率呈高度自相关,同时受生物、气象环境和社会-行为因素支配;流感的爆发是各种因素协同作用的结果。动力共振、太阳辐射、降水、露点温度变化、行为和干预效应以及人群对优势流行毒株的免疫力是支配流感季节性和每周活动变化的关键因素。具体表现为,对于所有气候区,流感发病率都是降水日数的指数函数,日照时数的1/4次方的负指数函数。在温带和寒带地区,季节性流感的发病率是露点温度的负指数函数。在热带地区,则是露点与其年平均值绝对偏差的指数函数。研究提示:早期干预(例如适时和广泛接种疫苗、迅速隔离病例、停学、遏制早期病例总数等)是控制和预防季节性流感的关键;适量的日光照射或在雨季和日照短的季节补充维生素D、增加户外活动、发布高危天气预警、设定适中的室内露点温度是值得高度重视的预防策略。模式的模拟结果在很大程度上揭示了流感季节性的机理和证明了著名医学家和诺贝尔奖获得者RobeRt EdgaR Hope-Simpson在上世纪提出的流感季节性成因的猜想。模拟结果还表明,模式对每周流感发病率具有一定的预报能力。该理论和模型很可能适用于当前的甲型流感大流行和其它传染性疾病,可被进一步开发应用。 相似文献
2.
Precession-related forcing of seasonal insolation changes in the northern hemisphere (NH) alternates between maximum NH seasonality (summer perihelion–increased insolation; winter aphelion–decreased insolation) and minimum NH seasonality (summer aphelion, and winter perihelion). With maximum NH seasonality, climate models simulate stronger NH summer monsoons that bring increased precipitation to North Africa and South and East Asia, in agreement with the in-phase relation of precipitation and NH summer insolation found in many paleoclimatic records. However paleoclimatic records in parts of the Mediterranean, the Middle East, and the interior of Asia also indicate increased moisture at times of maximum NH seasonality, a change not always clearly linked to stronger summer monsoons—either because these regions are at or beyond the boundaries of the present-day monsoon or because the observations allow multiple causal interpretations, or both. This study focuses on the possible role of changes in NH winter climate in explaining these wetter episodes. Using climate model simulations, we show that the ‘NH winter aphelion–decreased NH winter insolation’ orbital configuration is linked to the Mediterranean storm track and increased winter rains in the Mediterranean, the Middle East, and interior Asia. We conclude that wetter periods at precession time scales in these particular regions may have resulted either from increased wintertime storm track precipitation, or from a combination of increased winter and summer rainfall. Given this seasonal ambiguity, both possibilities need to be considered. 相似文献
3.
Very extreme seasonal precipitation in the NARCCAP ensemble: model performance and projections 总被引:1,自引:1,他引:0
Michael F. Wehner 《Climate Dynamics》2013,40(1-2):59-80
Seasonal extreme daily precipitation is analyzed in the ensemble of NARCAPP regional climate models. Significant variation in these models’ abilities to reproduce observed precipitation extremes over the contiguous United States is found. Model performance metrics are introduced to characterize overall biases, seasonality, spatial extent and the shape of the precipitation distribution. Comparison of the models to gridded observations that include an elevation correction is found to be better than to gridded observations without this correction. A complicated model weighting scheme based on model performance in simulating observations is found to cause significant improvements in ensemble mean skill only if some of the models are poorly performing outliers. The effect of lateral boundary conditions are explored by comparing the integrations driven by reanalysis to those driven by global climate models. Projected mid-century future changes in seasonal precipitation means and extremes are presented and discussions of the sources of uncertainty and the mechanisms causing these changes are presented. 相似文献
4.
中国降水的季节性 总被引:1,自引:0,他引:1
本文使用一套基于中国气象局所属的2416个台站数据所得的高分辨降水资料,对1961~2013年中国降水季节性进行了研究。就全国平均而言,各季节降水占全年降水百分率最高的为夏季(56.5%),春季(19.3%)和秋季(18.9%)次之,冬季(5.3%)最少;针对不同地区,各季节降水百分率存在很大差异,例如华南春季降水最多、东北至高原一线秋季降水大于春季降水。春、夏两季降水百分率高值(低值)区域略呈现出降水百分率减少(增多)趋势,秋季整体上略微减少,冬季则显著增加;季节降水百分率的变率整体表现为夏季大而冬季小,其西部的变率与地形为显著负相关,东部变率的大值区位置随季节变化;秋冬两季的降水百分率变率有显著增加,各季节不同地区变率的变化趋势存在明显差异。 相似文献
5.
基于6个CMIP6模式的日降水量数据,采用降尺度方法将其统一分辨率到0.25°×0.25°,选取5个极端降水指数从降水气候态、极端性、季节性三个角度对新疆区域1961—2014年历史期降水模拟效果评估。结果表明,降尺度CMIP6模式能较好再现新疆区域降水的空间分布特征,最大年均降水量误差小于30 mm,夏季降水模拟效果最佳相关系数均高于0.8。模式在春秋季对降水的模拟效果差异较小,标准差比值均在1.00 ~ 1.25之间,ACCESS-CM2模拟效果最佳。模式集合均值能模拟出观测降水增多趋势,但低估了降水的年际变率,模拟结果提示新疆80年代的降水转折可能与人类活动有关。在降水极端性和季节性方面,降尺度数据对新疆的极端降水和季节性降水均有较好的模拟性能,降尺度数据对季节性降水的模拟能力(与观测均值误差小于0.001)比原始分辨率的数据(与观测误差大于0.005)效果更好。 相似文献
6.
近41年中国不同季节降水气候分区及趋势 总被引:9,自引:7,他引:9
利用中国486个测站1960—2000年逐日降水观测资料,采用分层聚类和相似分析方法,兼顾降水的年内季节变化和年际变化,对中国降水进行了气候区划。利用动态分析分层聚类过程中组内和组间平均相关系数的差异指标法,为不同季节降水研究找到了适合的分区方案。在年降水分区方案中,得到中国降水的三级气候分区:11区、28区和54区。用同样的方法得到各月、季降水的分区方案。在分析过程中发现:在同样相似条件下,夏季(及夏季各月)分区数明显多于其它季(月);11个Ⅰ级分区年降水具有明显的区域性特征。分析结果在一定程度上说明了所用分区方法的客观性。 相似文献
7.
We present an analysis of a regional simulation of present-day climate (1981–1990) over southern South America. The regional
model MM5 was nested within time-slice global atmospheric model experiments conducted by the HadAM3H model. We evaluate the
capability of the model in simulating the observed climate with emphasis on low-level circulation patterns and surface variables,
such as precipitation and surface air mean, maximum and minimum temperatures. The regional model performance was evaluated
in terms of seasonal means, seasonal cycles, interannual variability and extreme events. Overall, the regional model is able
to capture the main features of the observed mean surface climate over South America, its seasonal evolution and the regional
detail due to topographic forcing. The observed regional patterns of surface air temperatures (mean, maxima and minima) are
well reproduced. Biases are mostly within 3°C, temperature being overestimated over central Argentina and underestimated in
mountainous regions during all seasons. Biases in northeastern Argentina and southeastern Brazil are positive during austral
spring season and negative in other seasons. In general, maximum temperatures are better represented than minimum temperatures.
Warm bias is larger during austral summer for maximum temperature and during austral winter for minimum temperature, mainly
over central Argentina. The broad spatial pattern of precipitation and its seasonal evolution are well captured; however,
the regional model overestimates the precipitation over the Andes region in all seasons and in southern Brazil during summer.
Precipitation amounts are underestimated over the La Plata basin from fall to spring. Extremes of precipitation are better
reproduced by the regional model compared with the driving model. Interannual variability is well reproduced too, but strongly
regulated by boundary conditions, particularly during summer months. Overall, taking into account the quality of the simulation,
we can conclude that the regional model is capable in reproducing the main regional patterns and seasonal cycle of surface
variables. The present reference simulation constitutes the basis to examine the climate change simulations resulting from
the A2 and B2 forcing scenarios which are being reported in a separate study. 相似文献
8.
Indices for temperature and precipitation extremes are calculated on the basis of the global climate model ECHAM5/MPI-OM simulations
of the twentieth century and SRES A1B and B1 emission scenarios for the twenty-first century. For model evaluation, the simulated
indices representing the present climate were compared with indices based on observational data. This comparison shows that
the model is able to realistically capture the observed climatological large-scale patterns of temperature and precipitation
indices, although the quality of the simulations depends on the index and region under consideration. In the climate projections
for the twenty-first century, all considered temperature-based indices, minimum Tmin, maximum Tmax, and the frequency of tropical
nights, show a significant increase worldwide. Similarly, extreme precipitation, as represented by the maximum 5-day precipitation
and the 95th percentile of precipitation, is projected to increase significantly in most regions of the world, especially
in those that are relatively wet already under present climate conditions. Analogously, dry spells increase particularly in
those regions that are characterized by dry conditions in present-day climate. Future changes in the indices exhibit distinct
regional and seasonal patterns as identified exemplarily in three European regions. 相似文献
9.
Meng Sei Kwan Fredolin T. Tangang Liew Juneng 《Theoretical and Applied Climatology》2014,115(1-2):1-14
This study examines the performance of the regional climate model, PRECIS, in reproducing the historical seasonal mean climatology over the Malaysian region. The performance of the model in simulating the seasonal climate pattern of the temperature, precipitation and large-scale circulation was reasonably good. The biases of temperature are less than 2 °C in general, while the seasonal cycles match the observed pattern despite some differences in certain regions. However, the biases for precipitation were greater, particularly over the mountainous areas. These biases could be associated with the deficiencies of the model physics, related to the misrepresentation of the land–surface interaction and convective scheme. Furthermore, the model fails to simulate the mean sea-level pressure over the interior part of Borneo with a significant low-pressure centre. A higher magnitude of the moisture convergence and divergence simulated by the model also contributed to the biases of precipitation over Malaysia. 相似文献
10.
In this research the dynamic downscaling method by Regional Climate Model (RegCM4.5) was used to assess the performance and sensitivity of seasonal simulated North and West of Iran (NI&WI) climate factors to different convection schemes, and transforms the large-scale simulated climate variables into land surface states over the North of Iran (NI) and West of Iran (WI). A 30-year (1986–2015) numerical integration simulation of climate over NI&WI was conducted using the regional climate model RegCM4.5 nested in one-way ERA-Interim reanalysis data. The Grell, Kuo and MIT-Emanuel cumulus convection with Holtslag and University of Washington (UW) planetary boundary layer (PBL) parameterization schemes were applied in the running of RegCM4.5 to test their capability in simulating precipitation and temperature in winter-spring (January–April) over NI and WI. The results demonstrated that the RegCM4.5 model has a good potential for simulating the variables and trend of surface temperature over the NI and WI region. Magnitude of the model bias for land surface temperature over different regions of Iran varies by convection parameterization schemes. In most cases, the root mean square error between post-processed simulated seasonal average temperature and observation value was less than 1 °C, but there is a systematic “cold bias”. In general, with respect to land surface temperature simulations, a better performance is obtained when using post-processing model’s data with Holtslag PBL-Grell and Holtslag PBL-Kuo configuration schemes, compared to the other simulations, over the NI&WI region. Also, the UW PBL convection schemes show a relatively excellent spatial correlations and normalized standard deviations closer to 1 for thirty-year seasonal land surface temperature anomalies over the entire NI&WI region. However, the simulation accuracy of model for precipitation is not as optimal as for temperature. The dominant feature in model simulations is a dry bias with the largest average value (∼1.04 mm/day) over NI region, while the lowest mean bias precipitation (∼−0.47 mm/day), mainly located in WI region. In the comparison of six configuration convection schemes, the Emanuel scheme has been proven to be the most accurate for simulating winter-spring seasonal mean precipitation over NI&WI region. The accuracy of the scheme also showed great difference in simulated station interpolation of precipitation, which urges the improvement for the simulation capability of spatial distribution of precipitation. In general, for seasonal variation of precipitation, the Emanuel convection with two (Holtslag, UW) PBL configuration schemes outperforms with a good correlation score between 0.7−0.8 and normalized standard deviations closer to 1. 相似文献
11.
p—σRCM模式对中国区域气候季节变化的模拟 总被引:4,自引:0,他引:4
通过对区域气候季节变化的模拟,对p-σ坐标系区域气候模式的模拟能力进行了检验,模式较准确地再现了中国区域气候系统的季节性变化特征及中国东部降水带的季节性进退,模拟的各气候区域水的季节变化趋势也与实况基本相符,但模式低估了华东和华南地区的春季降水,而高估了华东,西南和西北地区的秋季降水。 相似文献
12.
Using an ensemble of four high resolution (~25 km) regional climate models, this study analyses the future (2021–2050) spatial distribution of seasonal temperature and precipitation extremes in the Ganges river basin based on the SRES A1B emissions scenario. The model validation results (1989–2008) show that the models simulate seasonality and spatial distribution of extreme temperature events better than precipitation. The models are able to capture fine topographical detail in the spatial distribution of indices based on their ability to resolve processes at a higher regional resolution. Future simulations of extreme temperature indices generally agree with expected warming in the Ganges basin, with considerable seasonal and spatial variation. Significantly warmer summers in the central part of the basin along with basin-wide increase in night temperature are expected during the summer and monsoon months. An increase in heavy precipitation indices during monsoon, coupled with extended periods without precipitation during the winter months; indicates an increase in the incidence of extreme events. 相似文献
13.
14.
Seasonal variations of the tropical intraseasonal oscillation (ISO) and relationship to seasonal variation of the climate background are studied by using NCEP/NCAR reanalysis data and output of SAMIL-R42L9. Analysis of NCEP data shows that spatial distribution of the tropical ISO has obvious seasonal variations, which are well consistent with the seasonal variation of climate background. The activity of the tropical ISO is, to a great extent, dependent on warm SST, strong convection, zonal western wind, strong precipitation and low-level moisture convergence. Main characteristics of the seasonal variations of the tropical ISO are captured by SAMIL-R42L9. Simulations of seasonal variation of climate background vary greatly with different variables. Results of SAMIL-R42L9 indicate that the seasonal variations of the tropical ISO in dynamical fields are more dependent on climate background than in heating fields and SAMIL-R42L9 cannot represent well the strong dependence of the ISO on the climate background present in NCEP/NCAR reanalysis data. It also suggests that seasonal variations of the ISO do not completely depend on that of climate background. 相似文献
15.
RegCM3对东亚环流和中国气候模拟能力的检验 总被引:31,自引:1,他引:31
使用RegCM3区域气候模式,嵌套ERA40再分析资料,对东亚地区进行了15年(1987~2001年)时间长度的数值积分试验,分析了模式对东亚平均环流及中国地区气温和降水的模拟。结果表明,模式对东亚平均环流的特征和中国地区降水、地面气温的年、季地理分布和季节变化特征均具有一定的模拟能力,对气温和降水年际变率的模拟也较好。此外模式模拟在测站稀少地区,可以提供局地如降水分布更可靠的信息。模式对气温的模拟存在1-3℃的系统性冷偏差;对中国地区降水地理分布的模拟也存在一定偏差,如对年平均降水的模拟中,降水最大值位置与观测有一定差距,特别是对冬季降水中心的模拟存在较大偏差。模式模拟的夏季降水,在中国北方地区总体偏大100-200 mm,南方总体偏小100-200 mm。模式对地面气温的模拟效果好于降水。 相似文献
16.
STUDY ON THE MAIN CLIMATE MODES OF SHANDONG PRECIPITATION AND THEIR RELATIONS WITH THE EAST ASIAN WESTERLY JET 总被引:1,自引:0,他引:1
Summer precipitation patterns of Shandong Province are relatively independent with regard to the whole eastern China region.To study the rules and causes of precipitation variations,three main climate modes-on the annual,seasonal,and climatic intra-seasonal oscillation(CISO) scales-are extracted using a harmonic analysis method based on daily precipitation of Shandong during 1965-2009 and multi-year averaged pentad precipitation at 722 stations in China during 1971-2000.Among the three precipitation climate modes,the annual mode is closely related to the annual cycle of Earth-Atmosphere thermal system,which is characterized by the periodic dry and wet seasons.The seasonal mode reflects the monsoon effect on precipitation and the main flood season’s contribution to annual precipitation variations.As an important climatic signal,the CISO mode is more evident during summer monsoon.The gradual modulations of the CISO mode,seasonal mode,and annual mode control the annual variation of precipitation.To study the relationship between precipitation climate modes and atmospheric circulations,an East Asian Westerly Jet Index(EAWJI) is defined in this paper.It is revealed that precipitation of Shandong is closely related to EAWJI in all climate modes.A wet or dry phase of each climate mode corresponds to a specific atmospheric circulation pattern.The phase of the annual mode is reverse to that of EAWJI.During the wet phase of the seasonal mode(weak phase of EAWJI),the atmospheric circulation in and around Shandong is characterized by upper-level divergence and low-level convergence.A reversed atmospheric circulation exists for the dry phase(strong phase for EAWJI).In the summer wet phase of CISO mode(strong phase of EAWJI),Shandong is controlled by upper-level divergence and low-level convergence.Again,the dry phase is corresponding to a reversed circulation structure.The methodology employed in this research,i.e.studying the precipitation climatic variations in terms of independent components of different temporal scales,provides a new approach for annual and seasonal precipitation prediction. 相似文献
17.
区域气候模式对东亚季风和中国降水的多年模拟与性能检验 总被引:43,自引:9,他引:43
利用高分辨率区域气候模式 (NCC/RegCM)对 1998~ 2 0 0 2年的东亚环流及中国区域降水进行了数值模拟。对模拟结果的检验表明 ,模式能较真实地模拟出东亚地区多年平均的月季环流特征、季风的年变化、中国各主要气候区温度、降水的季节变化及中国主要雨带的季节性进退。但模拟的气温场在夏季对流层中、低层海洋偏暖、陆地偏冷 ,由于温度场的这种系统性误差加大了夏季海、陆温差 ,导致模拟的东亚夏季风偏强 ,使夏季雨带位置向北偏移 ,从而使华北地区降水估计偏高 ,没能很好地反映最近 5a来中国降水呈南涝北旱的气候特征。模式中地形的作用及云 辐射参数化方案等的处理可能是模拟误差的主要来源 ,这也反映了模式对于准确模拟中国区域降水的长期异常分布还比较困难 ,今后应进一步改进模式的模拟能力。 相似文献
18.
Precipitation efficiency is the percentage of the total water vapor over an area that falls to the surface as measurable precipitation on an average day. This variable focuses attention on the dynamic mechanisms that produce different precipitation patterns in different areas. The concept of precipitation efficiency is discussed and its seasonal and annual values are mapped for several Canadian stations. Maximum seasonal values occur in winter for all of the country. National highs are found on the West Coast and along the St. Lawrence Lowland, a result of the cyclonic activity in these regions. 相似文献
19.
区域气候模拟研究及其应用进展 总被引:10,自引:3,他引:7
区域气候模拟研究在过去十几年里取得了显著的进步。经过广泛的发展和不断的检验,区域气候模式现在已经成为气候研究和业务预报的重要工具。目前已经发表了很多令人鼓舞的结果,其中包括过去极端气候事件的模拟,当前气候发展演变和未来气候变化的预测,特别是对月和季节尺度气候的模拟与预测。通过对高分辨率和动力连续的区域气候模式结果的分析,人们对于周-季节时间尺度的各种物理过程,包括陆面和水文过程、边界层、云和降水、云-辐射相互作用的认识也在不断的深入。然而,区域气候是多尺度扰动(如中尺度、天气尺度、行星尺度扰动)和多圈层系统(如大气圈、生物圈、水圈、冰雪圈、陆面)相互作用的结果,同时物理过程本身具有不确定性,人们对一些复杂的物理过程,特别是土壤湿度作用以及云-气候反馈过程也缺乏深刻的理解,因此该领域的研究还面临着很多挑战。作者重点总结并评述了区域气候模式对现在和未来区域气候模拟、极端天气和气候事件模拟、物理过程研究、短期气候预测几方面应用的研究进展,最后讨论了区域气候模式发展在上述各方面,特别是周-次季节时间尺度区域天气和气候的模拟与预测所面临的挑战和应用前景。 相似文献
20.
Impacts of land surface on climate of july and onset of summer monsoon: a study with an agcm plus ssib 总被引:25,自引:0,他引:25
To get more insight into the impacts of land surface processes on climate, a simplified biosphere model (SSiB) developed by Sellers and Xue et al. is implemented into the LASG / IAP spectral climate AGCM (R15L9). The new model has been integrated for more than twenty years. The diagnoses of the integration show that the implementing of the land surface processes has greatly improved the simulation of July climate. It is also shown that the seasonal variations of land surface characteristics have great impacts on the onset of summer monsoon, especially the seasonal march of wind at 850 hPa and precipitation over the regions of summer monsoon. 相似文献