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1.
2016年中国气候主要特征及主要天气气候事件 总被引:4,自引:2,他引:2
2016年,全国气候异常,极端天气气候事件多,暴雨洪涝、台风和风雹等气象灾害较突出,气候年景差。全国平均气温较常年偏高0.8℃,为1951年以来第三高;四季气温均偏高,其中,夏季气温为1961年以来同期最高。四季降水量均偏多,冬、秋季分别为1961年以来同期最多。全国平均年降水量730.0 mm,较常年偏多16%,为1951年以来最多。华南前汛期和西南雨季开始早;入梅早、出梅晚,梅雨期长,雨量多;华北雨季短,雨量多;华西秋雨短,雨量少。2016年,全国暴雨过程多,南北洪涝并发。登陆台风数量多、平均强度强。强对流天气多,损失偏重,北方风雹灾害突出。气温波动大,夏季高温影响范围广。秋、冬京津冀及周边地区霾天气频繁。其他灾害如干旱、低温冷冻害、雪灾和春季沙尘影响均偏轻。 相似文献
2.
2023年,我国气候主要表现为暖干的特征,全国平均气温10.71℃,较1991—2020年气候平均偏高0.82℃,为1951年以来最暖;全国平均降水量615.0 mm,较常年偏少3.9%,为2012年以来第二少。四季气温均较常年同期偏高,其中夏、秋季分别为历史同期次高和最高;除秋季降水偏多外,其余三季降水均偏少。汛期(5—9月),全国平均降水量较常年同期偏少4.3%,为2012年以来第二少,我国中东部降水总体呈“中间多南北少”的分布。2023年,我国区域性气象干旱多发,西南地区遭遇冬春连旱;春季北方沙尘天气过程偏多;夏季前期,华北和黄淮遭受1961年以来最强高温过程;7月底至8月初,受台风杜苏芮影响,京津冀地区发生历史罕见极端强降水过程,华北地区出现“旱涝急转”;华西秋雨开始早、结束晚、雨量多;1月中旬发生年内最强寒潮过程;秋末冬初冷空气频繁入侵,12月华北和黄淮等地降雪日数偏多、积雪偏深。 相似文献
3.
2017年5月大气环流的主要特征是极涡偏强且呈单极型分布,中高纬环流呈多波型,西太平洋副热带高压强度较常年偏强,南支槽强度较常年偏弱。5月全国平均气温17.1℃,较常年同期偏高0.9℃,为1961年以来第4高;全国平均降水量59.4 mm,比常年同期(69.5 mm)偏少14.5%,但5月7日广州出现破历史极值的极端强降水。月内我国南方地区有5次区域性暴雨天气过程;北方出现极端高温过程;东北西部、华北等地发生严重气象干旱;北方地区有2次沙尘天气过程。 相似文献
4.
2023年8月大气环流的主要特征是:北半球极涡强度略偏强,500 hPa上亚洲中高纬地区环流形势为“两槽一脊”,影响我国东北、华北地区的高空槽偏强,西太平洋副热带高压西段脊线的平均位置较历史同期偏南。8月,全国平均气温为21.9℃,较常年同期(21.1℃)偏高0.8℃,全国平均降水量为110.9 mm,较常年同期(107.1 mm)偏多3.5%。月内,高温日数较常年同期偏多,区域高温过程持续影响我国,西北、东北等地气象干旱持续发展;我国出现6次暴雨过程。8月共有6个台风在南海和西北太平洋活动,生成个数较常年偏多,登陆个数较常年偏少。强对流天气多发,局地受灾严重,江苏盐城大丰区出现龙卷风。 相似文献
5.
2011年中国气候概况 总被引:9,自引:3,他引:6
2011年,我国气候总体呈现暖干特征。全国年平均气温较常年偏高0.5℃,为1997年以来连续第15个暖年;年降水量556.8mm,较常年偏少9%,为1951年以来最少。年内,我国未出现大范围持续性严重干旱和流域性洪涝灾害,低温冰冻和雪灾、局地强对流、热带气旋灾害较轻。但区域性、阶段性气象灾害频发。华北、黄淮出现近41年来最重秋冬连旱;长江中下游出现近60年来最重冬春连旱,6月旱涝急转,发生暴雨洪涝灾害;西南出现近60年来最重夏秋旱;华西和黄淮秋汛明显;华南南部10月发生较重暴雨灾害;强降水造成北京等大城市发生内涝;夏季南方大部持续高温,多地高温破历史纪录;台风纳沙、梅花影响范围广、致灾程度较重。2011年中国气象灾害为正常偏轻年份,直接经济损失偏多,死亡人数和受灾面积均为1990年以来最少。 相似文献
6.
广西2007年气候特点及其影响评价 总被引:4,自引:1,他引:3
2007年,广西全区平均气温比常年偏高、平均降水量比常年偏少、平均日照时数比常年偏多。年内出现近十年少见的春季"倒春寒"以及暴雨洪涝、干旱、高温天气、热带气旋、强对流天气等天气气候事件。除干旱较常年偏重、高温天气较常年偏多外,其它灾害属正常到偏轻年份。气候对农业、旅游业的影响属正常稍好年景,对人体健康、交通运输、盐业的影响属偏好年景,对水电的影响属偏差年景。 相似文献
7.
2011年6月大气环流和天气分析 总被引:1,自引:0,他引:1
2011年6月环流特征如下:北半球高纬度地区为单一极涡,强度较常年同期偏弱,西太平洋副热带高压较常年偏强,欧亚中高纬环流较平直,多短波槽活动,季风槽较常年略偏弱,槽前西南气流明显。6月,全国平均降水量为102.8mm,比常年同期(97.1mm)偏多5.9%。全国平均气温为20.5℃,比常年同期(19.5℃)偏高1.0℃。月内,我国主要天气气候事件有:长江中下游、华南、西北地区东南部、川渝地区、华北、黄淮、东北南部等地发生暴雨洪涝;有3个热带气旋生成并登陆我国;黄淮等地出现极端高温天气;西北东部、华北、黄淮、江淮北部等地上中旬气象干旱持续发展,下旬干旱缓解;全国23个省(市、区)遭受风雹灾害。 相似文献
8.
1 基本气候特点
2005年河南基本气候概况为:全省年平均气温基本正常,其中冬季气温明显偏低,为1986年以来最冷的冬天,春、夏、秋季气温偏高。全省年降水量较常年偏多,其中冬季降水正常,春季降水偏少,夏、秋季降水偏多。全省年日照时数偏少。年内相继出现了冬季低温冻害、春季北中部干旱、初夏持续性高温、盛夏暴雨洪涝和秋季连阴雨等多种气象灾害,大雾和雷雨大风、冰雹等强对流天气也时有发生,但总体而言,本年度气象灾害偏轻,气候条件总体正常,属于偏好年景。 相似文献
9.
2017年中国气候主要特征及主要天气气候事件 总被引:1,自引:0,他引:1
2017年,我国气候属于正常年景,气候灾害偏轻。全国平均气温10.39℃,较常年偏高0.84℃,7和9月为1951年以来同期最高,全国有113站日最高气温突破历史极值。全国平均降水量641.3 mm,比常年偏多1.8%。全国降水冬季偏少,夏季偏多,春、秋季接近常年。全国31站日降水量突破历史极值,其中多站出现在暴雨少发地区;47站连续降水量突破历史极值。华南前汛期和西南雨季雨量分别偏少9%、4%;梅雨季雨量偏多6%,但较2015和2016年明显偏少;华北雨季偏短10 d,雨量偏少28%;华西秋雨雨量偏多49%,为1984年来最多;东北雨季短,雨量偏少14%。暴雨过程频繁、重叠度高、极端性强,暴雨洪涝损失偏重;登陆台风多、时间集中,登陆点重叠;高温日数多,北方高温出现早、南方高温强度大。其他灾害如干旱、低温冷冻、雪灾、春季沙尘和霾天气影响偏轻。 相似文献
10.
2004年我国天气气候特点 总被引:1,自引:0,他引:1
2004年,全国平均年降水量较常年偏少,且时空分布不均。春李至初夏,东北西部、内蒙古东部地区出现近50年来最严重的干旱;秋季,华南、长江中下游地区发生大范围的严重干旱。汛期,我国大江大河未发生大的流域性洪涝灾害,但局地性强降雨造成的暴雨洪涝和滑坡、泥石流等灾害比较频繁,四川、重庆、云南、河南、湖北、湖南等省市损失较重。全国年平均气温较常年明显偏高,但阶段性起伏变化较大,冬、春、秋季部分地区遭受低温冻害或雪灾,夏季南方出现持续高温天气。年内,有8个台风(热带风暴)登陆我国,其中台风“云娜”给浙江造成严重损失。雷雨大风、冰雹、雷击等局地强对流天气发生频繁。春季北方沙尘天气较上年同期增多。综合分析,2004年我国气候总体正常,气象灾害偏轻,属于偏好年景。 相似文献
11.
The spatial and temporal variations of daily maximum temperature(Tmax), daily minimum temperature(Tmin), daily maximum precipitation(Pmax) and daily maximum wind speed(WSmax) were examined in China using Mann-Kendall test and linear regression method. The results indicated that for China as a whole, Tmax, Tmin and Pmax had significant increasing trends at rates of 0.15℃ per decade, 0.45℃ per decade and 0.58 mm per decade,respectively, while WSmax had decreased significantly at 1.18 m·s~(-1) per decade during 1959—2014. In all regions of China, Tmin increased and WSmax decreased significantly. Spatially, Tmax increased significantly at most of the stations in South China(SC), northwestern North China(NC), northeastern Northeast China(NEC), eastern Northwest China(NWC) and eastern Southwest China(SWC), and the increasing trends were significant in NC, SC, NWC and SWC on the regional average. Tmin increased significantly at most of the stations in China, with notable increase in NEC, northern and southeastern NC and northwestern and eastern NWC. Pmax showed no significant trend at most of the stations in China, and on the regional average it decreased significantly in NC but increased in SC, NWC and the mid-lower Yangtze River valley(YR). WSmax decreased significantly at the vast majority of stations in China, with remarkable decrease in northern NC, northern and central YR, central and southern SC and in parts of central NEC and western NWC. With global climate change and rapidly economic development, China has become more vulnerable to climatic extremes and meteorological disasters, so more strategies of mitigation and/or adaptation of climatic extremes,such as environmentally-friendly and low-cost energy production systems and the enhancement of engineering defense measures are necessary for government and social publics. 相似文献
12.
Storms that occur at the Bay of Bengal (BoB) are of a bimodal pattern, which is different from that of the other sea areas. By using the NCEP, SST and JTWC data, the causes of the bimodal pattern storm activity of the BoB are diagnosed and analyzed in this paper. The result shows that the seasonal variation of general atmosphere circulation in East Asia has a regulating and controlling impact on the BoB storm activity, and the “bimodal period” of the storm activity corresponds exactly to the seasonal conversion period of atmospheric circulation. The minor wind speed of shear spring and autumn contributed to the storm, which was a crucial factor for the generation and occurrence of the “bimodal pattern” storm activity in the BoB. The analysis on sea surface temperature (SST) shows that the SSTs of all the year around in the BoB area meet the conditions required for the generation of tropical cyclones (TCs). However, the SSTs in the central area of the bay are higher than that of the surrounding areas in spring and autumn, which facilitates the occurrence of a “two-peak” storm activity pattern. The genesis potential index (GPI) quantifies and reflects the environmental conditions for the generation of the BoB storms. For GPI, the intense low-level vortex disturbance in the troposphere and high-humidity atmosphere are the sufficient conditions for storms, while large maximum wind velocity of the ground vortex radius and small vertical wind shear are the necessary conditions of storms. 相似文献
13.
Observed daily precipitation data from the National Meteorological Observatory in Hainan province and daily data from the National Centers for Environmental Prediction/National Center for Atmospheric Research (NCEP/NCAR) reanalysis-2 dataset from 1981 to 2014 are used to analyze the relationship between Hainan extreme heavy rainfall processes in autumn (referred to as EHRPs) and 10–30 d low-frequency circulation. Based on the key low-frequency signals and the NCEP Climate Forecast System Version 2 (CFSv2) model forecasting products, a dynamical-statistical method is established for the extended-range forecast of EHRPs. The results suggest that EHRPs have a close relationship with the 10–30 d low-frequency oscillation of 850 hPa zonal wind over Hainan Island and to its north, and that they basically occur during the trough phase of the low-frequency oscillation of zonal wind. The latitudinal propagation of the low-frequency wave train in the middle-high latitudes and the meridional propagation of the low-frequency wave train along the coast of East Asia contribute to the ‘north high (cold), south low (warm)’ pattern near Hainan Island, which results in the zonal wind over Hainan Island and to its north reaching its trough, consequently leading to EHRPs. Considering the link between low-frequency circulation and EHRPs, a low-frequency wave train index (LWTI) is defined and adopted to forecast EHRPs by using NCEP CFSv2 forecasting products. EHRPs are predicted to occur during peak phases of LWTI with value larger than 1 for three or more consecutive forecast days. Hindcast experiments for EHRPs in 2015–2016 indicate that EHRPs can be predicted 8–24 d in advance, with an average period of validity of 16.7 d. 相似文献
14.
Based on the measurements obtained at 64 national meteorological stations in the Beijing–Tianjin–Hebei (BTH) region between 1970 and 2013, the potential evapotranspiration (ET0) in this region was estimated using the Penman–Monteith equation and its sensitivity to maximum temperature (Tmax), minimum temperature (Tmin), wind speed (Vw), net radiation (Rn) and water vapor pressure (Pwv) was analyzed, respectively. The results are shown as follows. (1) The climatic elements in the BTH region underwent significant changes in the study period. Vw and Rn decreased significantly, whereas Tmin, Tmax and Pwv increased considerably. (2) In the BTH region, ET0 also exhibited a significant decreasing trend, and the sensitivity of ET0 to the climatic elements exhibited seasonal characteristics. Of all the climatic elements, ET0 was most sensitive to Pwv in the fall and winter and Rn in the spring and summer. On the annual scale, ET0 was most sensitive to Pwv, followed by Rn, Vw, Tmax and Tmin. In addition, the sensitivity coefficient of ET0 with respect to Pwv had a negative value for all the areas, indicating that increases in Pwv can prevent ET0 from increasing. (3) The sensitivity of ET0 to Tmin and Tmax was significantly lower than its sensitivity to other climatic elements. However, increases in temperature can lead to changes in Pwv and Rn. The temperature should be considered the key intrinsic climatic element that has caused the "evaporation paradox" phenomenon in the BTH region. 相似文献
15.
Fei LIU Chen XING Jinbao LI Bin WANG Jing CHAI Chaochao GAO Gang HUANG Jian LIU Deliang CHEN 《大气科学进展》2020,37(7):663-670
正The Taal Volcano in Luzon is one of the most active and dangerous volcanoes of the Philippines. A recent eruption occurred on 12 January 2020(Fig. 1a), and this volcano is still active with the occurrence of volcanic earthquakes. The eruption has become a deep concern worldwide, not only for its damage on local society, but also for potential hazardous consequences on the Earth's climate and environment. 相似文献
16.
Yuepeng PAN Mengna GU Yuexin HE Dianming WU Chunyan LIU Linlin SONG Shili TIAN Xuemei Lü Yang SUN Tao SONG Wendell W. WALTERS Xuejun LIU Nicholas A. MARTIN Qianqian ZHANG Yunting FANG Valerio FERRACCI Yuesi WANG 《大气科学进展》2020,37(9):933-938
正While China’s Air Pollution Prevention and Control Action Plan on particulate matter since 2013 has reduced sulfate significantly, aerosol ammonium nitrate remains high in East China. As the high nitrate abundances are strongly linked with ammonia, reducing ammonia emissions is becoming increasingly important to improve the air quality of China. Although satellite data provide evidence of substantial increases in atmospheric ammonia concentrations over major agricultural regions, long-term surface observation of ammonia concentrations are sparse. In addition, there is still no consensus on 相似文献
17.
Using the International Comprehensive Ocean-Atmosphere Data Set(ICOADS) and ERA-Interim data, spatial distributions of air-sea temperature difference(ASTD) in the South China Sea(SCS) for the past 35 years are compared,and variations of spatial and temporal distributions of ASTD in this region are addressed using empirical orthogonal function decomposition and wavelet analysis methods. The results indicate that both ICOADS and ERA-Interim data can reflect actual distribution characteristics of ASTD in the SCS, but values of ASTD from the ERA-Interim data are smaller than those of the ICOADS data in the same region. In addition, the ASTD characteristics from the ERA-Interim data are not obvious inshore. A seesaw-type, north-south distribution of ASTD is dominant in the SCS; i.e., a positive peak in the south is associated with a negative peak in the north in November, and a negative peak in the south is accompanied by a positive peak in the north during April and May. Interannual ASTD variations in summer or autumn are decreasing. There is a seesaw-type distribution of ASTD between Beibu Bay and most of the SCS in summer, and the center of large values is in the Nansha Islands area in autumn. The ASTD in the SCS has a strong quasi-3a oscillation period in all seasons, and a quasi-11 a period in winter and spring. The ASTD is positively correlated with the Nio3.4 index in summer and autumn but negatively correlated in spring and winter. 相似文献
18.
《大气和海洋科学快报》2013,(1):67
正AIMS AND SCOPE Atmospheric and Oceanic Science Letters (AOSL) publishes short research letters on all disciplines of the atmosphere sciences and physical oceanography. Contributions from all over the world are welcome.SUBMISSIONAll submitted 相似文献
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《大气和海洋科学快报》2014,(5):F0003-F0003
AIMS AND SCOPE Atmospheric and Oceanic Science Letters (AOSL) pub- lishes short research letters on all disciplines of the atmos- phere sciences and physical oceanography. Contributions from all over the world are welcome. 相似文献