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1.
In earlier studies,objective techniques have been used to determine the contribution of tropical cyclones to precipitation(TCP)in a region,where the Tropical cyclone Precipitation Event(TPE)and the Regional Heavy Precipitation Events(RHPEs)are defined and investigated.In this study,TPE and RHPEs are combined to determine the Typhoon Regional Heavy Precipitation Events(TRHPEs),which is employed to evaluate the contribution of tropical cyclones to regional extreme precipitation events.Based on the Objective Identification Technique for Regional Extreme Events(OITREE)and the Objective Synoptic Analysis Technique(OSAT)to define TPE,temporal and spatial overlap indices are developed to identify the combined events as TRHPE.With daily precipitation data and TC best-track data over the western North Pacific from 1960 to 2018,86 TRHPEs have been identified.TRHPEs contribute as much as 20%of the RHPEs,but100%of events with extreme individual precipitation intensities.The major TRHPEs continued for approximately a week after tropical cyclone landfall,indicating a role of post landfall precipitation.The frequency and extreme intensity of TRHPEs display increasing trends,consistent with an observed positive trend in the mean intensity of TPEs as measured by the number of daily station precipitation observations exceeding 100 mm and 250 mm.More frequent landfalling Southeast and South China TCs induced more serious impacts in coastal areas in the Southeast and the South during 1990-2018 than1960-89.The roles of cyclone translation speed and"shifts"in cyclone tracks are examined as possible explanations for the temporal trends.  相似文献   

2.
The east-west location change of the East Asian westerly jet (EAWJ) at 200 hPa during Meiyu and the associated spatial distribution variation of precipitation in the middle-lower reaches of the Yangtze River (MLYR) are investigated by using the 40-yr NCEP/NCAR (National Centers for Environmental Prediction/National Center for Atmospheric Research) pentad mean reanalysis data and daily precipitation observation data from 1958 to 1997. The results show that there are two areas over which the 200-hPa EAWJ center appears most frequently during the Meiyu period: one is the western Pacific (WP) and the other is the East Asian continent (EAC). During the Meiyu period, the westerly jet over the EAC is weak, and the core of the westerly jet over the WP splits up with reduced intensity and disappears by the end of Meiyu. The changes in the location and intensity of the westerly jet are associated not only with the starting and ending dates of Meiyu, but also with the spatial distribution and intensity of precipitation in the MLYR. It is found that when the westerly jet core in the upper troposphere is located over the WP and is coupled with an 850-hPa southwesterly jet, heavy precipitation accompanied by strong convergence and plenty supply of water vapor, occurs in the lower reaches of the Yangtze River. If the 200-hPa westerly jet core is located over the EAC, and without an 850-hPa southwesterly jet, only weak precipitation occurs in the MLYR. Therefore, the longitudinal location of the EAWJ core plays an important role in determining the upper- to lower-level circulation structure and the spatial distribution of heavy precipitation in the MLYR during the Meiyu period.  相似文献   

3.
In this paper, 1416 conventional ground-based meteorological observation stations on the mainland of China were subdivided into groups of differing spatial density. Data from each subgroup were then used to analyze variations in the tropical cyclone (TC) precipitation statistics derived from each subgroup across the mainland of China (excluding Taiwan, Hong Kong, and Macao), as well as in two regions (east China and south China) and three provinces (Guangdong, Hainan, and Jiangxi) between 1981 and 2010. The results showed that for the mainland of China, total precipitation, mean annual precipitation, mean daily precipitation, and its spatial distribution were the same regardless of the spatial density of the stations. However, some minor differences were evident with respect to precipitation extremes and their spatial distribution. Overall, there were no significant variations in the TC precipitation statistics calculated from different station density schemes for the mainland of China. The regional and provincial results showed no significant differences in mean daily precipitation, but this was not the case for the maximum daily precipitation and torrential rain frequency. The maximum daily precipitation calculated from the lower-density station data was slightly less than that based on the higher-density station schemes, and this effect should be taken into consideration when interpreting regional climate statistics. The impact of station density on TC precipitation characteristics was more obvious for Hainan than for Guangdong or Jiangxi provinces. In addition, the effects were greater for south China (including Guangxi Zhuang Autonomous region, Guangdong, and Hainan provinces) than east China (including Shandong, Jiangsu, Zhejiang, Shanghai, Fujian, Anhui, and Jiangxi provinces). Furthermore, the analysis proved that the statistical climatic characteristics began to change significantly when the station spacing was between 40 and 50 km, which are close to the mean spacing for all stations across the mainland of China. Moreover, TC areal precipitation parameters, including mean total areal precipitation and mean daily areal precipitation, also began to change significantly when the spacing was between 40 and 50 km, and were completely different when it was between 100 and 200 km.  相似文献   

4.
Simulated regional precipitation, especially extreme precipitation events, and the regional hydrologic budgets over the western North Pacific region during the period from May to June 2008 were investigated with the high-resolution (4-km grid spacing) Weather Research and Forecast (WRF v3.2.1) model with explicit cloud microphysics. The model initial and boundary conditions were derived from the National Centers for Environmental Prediction/Department of Energy (NCEP/DOE) Reanalysis 2 data. The model precipitation results were evaluated against the Tropical Rainfall Measuring Mission (TRMM) Multisatellite Precipitation Analysis 3B42 product. The results show that the WRF simulations can reason- ably reproduce the spatial distributions of daily mean precipitation and rainy days. However, the simulated frequency distributions of rainy days showed an overestimation of light precipitation, an underestimation of moderate to heavy precipitation, but a good representation of extreme precipitation. The downscaling approach was able to add value to the very heavy precipitation over the ocean since the convective processes are resolved by the high-resolution cloud-resolving model. Moreover, the water vapor budget analysis indi- cates that heavy precipitation is contributed mostly by the stronger moisture convergence; whereas, in less convective periods, the precipitation is more influenced by the surface evaporation. The simulated water vapor budgets imply the importance in the tropical monsoon region of cloud microphysics that affects the precipitation, atmospheric latent heating and, subsequently, the large-scale circulation.  相似文献   

5.
The Dynamical-Statistical-Analog Ensemble Forecast model for landfalling tropical cyclones (TCs) precipitation (DSAEF_LTP) utilises an operational numerical weather prediction (NWP) model for the forecast track, while the precipitation forecast is obtained by finding analog cyclones, and making a precipitation forecast from an ensemble of the analogs. This study addresses TCs that occurred from 2004 to 2019 in Southeast China with 47 TCs as training samples and 18 TCs for independent forecast experiments. Experiments use four model versions. The control experiment DSAEF_LTP_1 includes three factors including TC track, landfall season, and TC intensity to determine analogs. Versions DSAEF_LTP_2, DSAEF_LTP_3, and DSAEF_LTP_4 respectively integrate improved similarity region, improved ensemble method, and improvements in both parameters. Results show that the DSAEF_LTP model with new values of similarity region and ensemble method (DSAEF_LTP_4) performs best in the simulation experiment, while the DSAEF_LTP model with new values only of ensemble method (DSAEF_LTP_3) performs best in the forecast experiment. The reason for the difference between simulation (training sample) and forecast (independent sample) may be that the proportion of TC with typical tracks (southeast to northwest movement or landfall over Southeast China) has changed significantly between samples. Forecast performance is compared with that of three global dynamical models (ECMWF, GRAPES, and GFS) and a regional dynamical model (SMS-WARMS). The DSAEF_LTP model performs better than the dynamical models and tends to produce more false alarms in accumulated forecast precipitation above 250 mm and 100 mm. Compared with TCs without heavy precipitation or typical tracks, TCs with these characteristics are better forecasted by the DSAEF_LTP model.  相似文献   

6.
Remote sensing of rainfall parameters—rainfall rate and size distribution—by raindrop-induced laserbcam scintillation is a new kind of precipitation measurement technique. This paper presented the primaryfield experiment results based on the theory and numerical simulations by Wu and Lü (1984, 1985) and Lü andWu (1984).Rainfall rate and size distribution were deduced from observations of laser beam scintillation andcompared with those of the filter-paper sampling method. Qualitative analysis of the experiment error wasalso given here. All the work showed that the theory is applicable, and under proper experiment conditions,remote sensing of rainfall parameters by laser scintillation correlation is an advanced and accurate technique.  相似文献   

7.
In order to understand the role of East Asian subtropical westerly jet (EASWJ) in forecasting summer precipitation in East China, interseasonal pentad characteristics of the EASWJ and their relation to summer precipitation in East China are analyzed with the daily reanalysis data provided by National Centers for Environmental Prediction (NCEP, USA) and daily precipitation data from 714 Chinese meteorological stations during the period 1960–2009. In addition, the daily evolution of the EASWJ and objective quantification of the EASWJ are investigated for the Meiyu season over the middle and lower reaches of the Yangtze River valley. It is found that the EASWJ and summer precipitation bands in East China move simultaneously. Especially, the stationary state and northward shift of the EASWJ are closely associated with the beginning, ending and stabilization of the annually first raining season in South China and Meiyu over these reaches. Analysis on the characteristics of the EASWJ in typical (atypical) Meiyu years over these reaches shows that the EASWJ swings steadily around its climatological position in meridional orientation (with large amplitude). Numerical experiments on an example in 2005 shows that indexes proposed in this study can depict the EASWJ well and should be valuable for application in the operation.  相似文献   

8.
Simulations were conducted with the regional climate model RegCM incorporating water table dynamics from 1 September 1982 to 28 August 2002 to detect precipitation and temperature extremes. Compared with observed r10(number of days with precipitation ≥ 10 mm d^–1), RegCM3_Hydro(the regional climate model with water table dynamics considered) simulated rain belts, including those in southern China and the middle and lower reaches of the Yangtze River, and provided data for arid to semi-arid areas such as the Heihe River Basin in northwestern China. RegCM3_Hydro indicated a significant increasing trend of r95p(days with daily precipitation greater than the 95th percentile of daily amounts) for the Yangtze, Yellow, and Pearl River basins, consistent with r95p observations. The Haihe River Basin was also chosen as a specific case to detect the effect of groundwater on extreme precipitation using peaks over threshold(POT)-based generalized Pareto distribution(GPD) with parameters estimated by the L-moment method. Quantile plots showed that all but a few of the plotted points were distributed near diagonal lines and the modeled data fitted well with the samples. Finally, the effects of water table dynamics on temperature extremes were also evaluated. In the Yellow River Basin and Songhuajiang River Basin, the trends of the number of warm days(TX95n) from RegCM3_Hydro matched observed values more closely when water table dynamics were considered, and clearly increasing numbers of warm days from 1983 to 2001 were detected.  相似文献   

9.
The precipitation distributions associated with two landfalling tropical cyclones(TCs) during extratropical transition(ET) were examined in this study.Their distinction is that the bulk of precipitation fell to the left of the TC track in one TC and to the right in the other.The analyses indicate that,for the TC Haima(2004) case,accompanied by the approach of a deep midlatitude trough throughout the depth of the troposphere,the warm and moist air advection by the southeasterly flow north of TC was favorable for warm advection and frontogenesis to the northwest of the TC.Due to the steepening of equivalent potential temperature(θ e),the air-parcel uplift along the θ e surface,in collaboration with thermally direct circulation related to frontogenesis,led to enhanced precipitation northwest of the TC.In contrast,for TC Matsa(2005) embedded within a moister environment,a weak midlatitude trough was situated at the mid-upper level.The convection was triggered by the conditional instability at the lower level and then sustained by dynamic forcing at the mid-upper level so that the heavy precipitation occurred to the northeast of TC.For the two TC cases,the precipitation enhancement was also linked to the upper-level anomalous divergence associated with the jet-related forcing on the right side of the jet entrance.From the quasigeostrophic perspective,the advection of geostrophic absolute vorticity by the thermal wind most likely served as an indication reflecting the displacement of the vertical motion relative to the center of the TC.  相似文献   

10.
利用卫星双光谱反射率算法反演的云参数及其应用   总被引:2,自引:0,他引:2  
  相似文献   

11.
鲁小琴  赵兵科  张维  任福民 《气象》2008,34(1):94-99
针对中国热带气旋(Tropical Cyclone,简称TC)降水的分离问题,利用国家气候中心任福民等提出的客观天气图分析法(Objective Synoptic Analysis Technique,简称OSAT)对2005年影响我国强度达到台风以上的6个TC降水进行了客观分离,并与人工的主观识别方法进行了对比.结果表明,OSAT客观方法由于对TC外围流系最大范围半径D1设置偏大,导致原来的判别测站数比主观方法多,其他系统或TC和其他系统共同作用的降水被包含进来,所以误判率较高,但遗漏少.为了减少误判率,将OSAT方法中的D1根据实况环流场给出,判别准确率得到了提高,但会出现判别结果比主观方法略偏少的现象,原因是TC和其它系统(冷锋、西风槽等)的相互作用结果没有考虑进去.总的来说,对D1的设定由原来根据TC强弱度给出常参数方案组改为根据实况观测、云图等资料获得后,提高了识别效果.使用该客观方法识别TC降水的精确度能满足业务需求,可以投入业务使用.  相似文献   

12.
西北太平洋热带气旋(TC)是影响中国降水的重要天气系统,其减弱后的残留低压(TCRL)仍然携带大量的水汽和能量,给其经过之处带来强降水。为分析热带气旋残留低压对中国降水的影响,采用客观方法从ERA-40和ERA-Interim再分析资料中识别出热带气旋对应的气旋,从而得到热带气旋残留低压活动资料。将残留低压的活动路径分为东北路径、东南沿海路径和西行路径3类,采用客观天气图分析法(OSAT)得到残留低压影响下的降水分布,对残留低压的活动路径和降水的分析结果表明,文中采用的方法能追踪得到热带气旋的完整生命史,在1958-2014年进入警戒区的718个热带气旋中,追踪得到706个对应的气旋,追踪的气旋中心与热带气旋中心平均距离131 km;共443个热带气旋有对应的残留低压,平均持续时间48.5 h,1 d以上的残留低压共293个,占66.1%,残留低压的持续时间与对应的热带气旋强度没有显著的关系,夏季残留低压持续时间较冬季长;对内陆地区的影响残留低压较热带气旋更为显著,降水影响自东南向西北减少,影响范围较热带气旋西扩,强度更大;东北路径主要进入地区为东北和华东地区,影响中国东部地区的降水;东南沿海路径影响范围最广,影响降水的强度最大;西行路径进入范围仅华南和西南地区,主要影响中国南部地区的降水,降水强度最小。   相似文献   

13.
两广地区热带气旋极端降水特征及成因初探   总被引:1,自引:0,他引:1       下载免费PDF全文
基于1960—2014年中国广东、广西地区(简称两广地区)184个台站的逐日降水资料、热带气旋(TC)最佳路径集以及ERA-Interim、ERA-40再分析资料,利用TC降水天气图客观识别法、TC路径相似面积指数、动态合成法,从TC过程最大日降水的角度,分析了两广地区TC极端降水的时空特征, 并针对主要特征进行成因诊断。结果表明:50年来,两广地区TC过程的最大日降水≥50、100 mm的频数分别呈-0.66和-0.44次/(10年)的下降趋势,而最大日降水≥250 mm频数则表现出0.16次/(10年)的上升趋势;TC最大日降水频数和强度的大值区主要分布在沿海,并由沿海向内陆递减;大值区相对集中于粤东沿海(东部分区)、珠江三角洲西侧沿海(中部分区)和雷州半岛至广西沿海(西部分区)三个分区,且西部分区在TC最大日降水的平均强度及各级别频次上均为三分区之最大。对比分析发现,造成西部分区极端降水的TC路径规律性较强,主要为TC西行路径,且其登陆点集中在西部分区;对TC极端降水成因分析表明,TC移动速度慢和南海夏季风强度增强均有利于极端降水产生。   相似文献   

14.
Diurnal variation of tropical cyclone (TC) rainfall in the western North Pacific (WNP) is investigated using the high-resolution Climate Prediction Center's morphing technique (CMORPH) products obtained from the National Oceanic and Atmospheric Administration (NOAA). From January 2008 to October 2010, 72 TCs and 389 TC rainfall days were reported by the Joint Typhoon Warning Center's (JTWC) best-track record. The TC rain rate was partitioned using the Objective Synoptic Analysis Technique (OSAT) and interpolated into Local Standard Time (LST). Harmonic analysis was applied to analyze the diurnal variation of the precipitation. Obvious diurnal cycles were seen in approximately 70% of the TC rainfall days. The harmonic amplitude and phase of the mean TC rainfall rate vary with TC intensity, life stage, season, and spatial distribution. On the basis of intensity, tropical depressions (TDs) exhibit the highest precipitation variation amplitude (PVA), at approximately 30%, while super typhoons (STs) contain the lowest PVA, at less than 22%. On the basis of lifetime stage, the PVA in the decaying stage (more than 37%) is stronger than that in the developing (less than 20%) and sustaining (28%) stages. On the basis of location, the PVA of more than 35% (less than 18%) is the highest (lowest) over the high-latitude oceanic areas (the eastern ocean of the Philippine Islands). In addition, a sub-diurnal cycle of TC rainfall occurs over the high-latitude oceans. On the basis of season, the diurnal variation is more pronounced during summer and winter, at approximately 30% and 32%, respectively, and is weaker in spring and autumn, at approximately 22% and 24%, respectively.  相似文献   

15.
官晓军  潘宁  黄待静  王琦  李玲 《气象学报》2021,79(3):414-427
应用1961—2017年中国气象局热带气旋最佳路径数据集、国家地面气象观测站日降水观测资料和2015年8月—2017年12月欧洲中期天气预报中心(ECMWF)集合预报系统降水极端预报指数(EFI)数据,根据百分位法定义台风影响期间福建省各站点的台风极端降水阈值,采用最小阈值法剔除台风极端降水时EFI箱线图中的异常值,保留最小值作为台风极端降水EFI阈值,建立基于EFI阈值的台风极端降水预报方法。用该方法分别对2015年8月—2017年12月和2018年登陆或影响福建台风进行台风极端降水回报和预报试验,采用TS、空报率、漏报率对回报和预报结果进行检验。结果表明:福建台风极端降水阈值由沿海向西北内陆逐渐减小,其中中北部沿海地区的阈值最大;台风日降水量与日降水EFI预报、台风极端降水时的日降水量与日降水EFI预报均存在明显的正相关,日降水EFI预报的箱线图差异指数(Ibd)也表明EFI可以较好地区分台风极端降水和非极端降水;预报试验20时(北京时)起报时效12—36、36—60、60—84和84—108 h的台风极端降水预报TS分别达到0.26、0.22、0.20和0.19,总体上略优于回报试验;台风极端降水越显著,台风极端降水预报效果越好,回报和预报都存在的不足是空报率高,主要出现在台风极端降水不明显的个例中。降水EFI预报对台风极端降水预报具有较好的指示意义,基于降水EFI阈值的台风极端降水预报产品可在业务中作为台风极端降水预报的参考。   相似文献   

16.
赵桂洁  何娜  郝翠  李靖  李桑 《气象科技》2021,49(6):869-877
利用2018年10月1日至2019年9月30日北京地区55个地面气象站的实况观测数据对欧洲中期天气预报中心的全球预报(ECMWF thin)、国家气象中心区域预报(Grapes)、北京睿图(RMAPS)、国家级指导预报(SCMOC)、北京智能网格温度客观预报(BJTM)和集合相似预报(AnEn)的逐日最高、最低气温预报结果进行检验评估。结果表明:①ECMWF thin模式预报效果优于Grapes和RMAPS,客观方法BJTM和AnEn对ECMWF thin的改进效果明显。②AnEn在10月至次年4月预报效果好,BJTM在5—9月预报效果好;不同预报时效中,AnEn在短期、中期前段预报效果较好,BJTM在中期5~9 d预报效果相对较好。③以南郊观象台为代表站进行检验,结果显示模式预报均存在明显的系统偏差,客观方法对系统偏差有很好的订正效果。④在降水、大风或无天气系统时,BJTM、AnEn的日最高温度预报准确率较高;雾霾天气背景下,ECMWF thin的最高温度预报准确率较高。雾霾、大风和无天气系统时,ECMWF thin最低温度预报偏差最小,客观方法对模式预报无改进;降水天气背景下,RMAPS和BJTM对最低温度的预报偏差最小。  相似文献   

17.
用体现热带气旋(TC)热力学特征的“相空间”(简称CPS)方法,加入了体现TC动力学特征的两个参数,即中低层风速切变参数和涡倾斜参数,对2000—2007年的222个TC进行检验。结果表明,CPS方法在增加了动力学参数后,可以更好地描述西北太平洋地区的TC变性过程,弥补了CPS方法对TC动力学特征描述的欠缺,同时客观判据的判断结果与《热带气旋年鉴》资料更相近。   相似文献   

18.
To quantitatively study the role of tropical cyclone precipitation (TCP) on alleviating the drought in the southeast coastal region of China (SCR) during summer and autumn, the objective synoptic analysis technique (OSAT), improved for consistency and rationality, was used to separate the TCP data on the summers and autumns of 1963–2005 on the basis of daily precipitation data from stations and tropical cyclone best track data. After defining the season drought index, the actual drought distribution and the assumed drought distribution without TCP were acquired. The results showed that within 1 000 km from the southeast coastline of China, TCP accounted for 11.3% of natural precipitation (NP). Without TCP, the drought index in the SCR during summer would have increased from 0.2 to 0.6 or even above 1.0 in some regions whereas the drought index during autumn would have increased from 0.4 to 0.6 or above 1.2 in some regions. The impact of TCP on drought decreases progressively from the southeast coastline to the inland regions. The TCP proportion (TCPP) showed a significant negative correlation with the drought index in many regions of the southeast, and the significant region is wider in autumn than in summer. TCP relieved the drought most significantly within a range of 0–500 km from the southeast coastline. This drought relief showed different characteristics for the interannual variability in summer and autumn, and the cross wavelet transform indicated that the impact of TCP on drought mainly lies in 2–4-year time scales. In particular, there was a significant effect during the summers of 1977–1985 and in the autumns following that of 1985. Therefore, TCP has indeed largely alleviated drought in the SCR during summer and autumn.  相似文献   

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