Influence of the NAO on Wintertime Surface Air Temperature over East Asia: Multidecadal Variability and Decadal Prediction

In this paper,we investigate the influence of the winter NAO on the multidecadal variability of winter East Asian surface air temperature(EASAT)and EASAT decadal prediction.The observational analysis shows that the winter EASAT and East Asian minimum SAT(EAmSAT)display strong in-phase fluctuations and a significant 60-80-year multidecadal variability,apart from a long-term warming trend.The winter EASAT experienced a decreasing trend in the last two decades,which is consistent with the occurrence of extremely cold events in East Asia winters in recent years.The winter NAO leads the detrended winter EASAT by 12-18 years with the greatest significant positive correlation at the lead time of 15 years.Further analysis shows that ENSO may affect winter EASAT interannual variability,but does not affect the robust lead relationship between the winter NAO and EASAT.We present the coupled oceanic-atmospheric bridge(COAB)mechanism of the NAO influences on winter EASAT multidecadal variability through its accumulated delayed effect of~15 years on the Atlantic Multidecadal Oscillation(AMO)and Africa-Asia multidecadal teleconnection(AAMT)pattern.An NAO-based linear model for predicting winter decadal EASAT is constructed on the principle of the COAB mechanism,with good hindcast performance.The winter EASAT for 2020-34 is predicted to keep on fluctuating downward until~2025,implying a high probability of occurrence of extremely cold events in coming winters in East Asia,followed by a sudden turn towards sharp warming.The predicted 2020/21 winter EASAT is almost the same as the 2019/20 winter.     

Extreme Cold Events from East Asia to North America in Winter 2020/21: Comparisons,Causes, and Future Implications

Three striking and impactful extreme cold weather events successively occurred across East Asia and North America during the mid-winter of 2020/21.These events open a new window to detect possible underlying physical processes.The analysis here indicates that the occurrences of the three events resulted from integrated effects of a concurrence of anomalous thermal conditions in three oceans and interactive Arctic-lower latitude atmospheric circulation processes,which were linked and influenced by one major sudden stratospheric warming(SSW).The North Atlantic warm blob initiated an increased poleward transient eddy heat flux,reducing the Barents-Kara seas sea ice over a warmed ocean and disrupting the stratospheric polar vortex(SPV)to induce the major SSW.The Rossby wave trains excited by the North Atlantic warm blob and the tropical Pacific La Nina interacted with the Arctic tropospheric circulation anomalies or the tropospheric polar vortex to provide dynamic settings,steering cold polar air outbreaks.The long memory of the retreated sea ice with the underlying warm ocean and the amplified tropospheric blocking highs from the midlatitudes to the Arctic intermittently fueled the increased transient eddy heat flux to sustain the SSW over a long time period.The displaced or split SPV centers associated with the SSW played crucial roles in substantially intensifying the tropospheric circulation anomalies and moving the jet stream to the far south to cause cold air outbreaks to a rarely observed extreme state.The results have significant implications for increasing prediction skill and improving policy decision making to enhance resilience in“One Health,One Future”.     

自动气象站出现故障编发报文的几种方法

1引言伊春自动气象站是国家基本站(现改为一级站),每天担负8次天气报,资料参加全球交换。当计算机出现故障时,天气报是否能在规定的时间内准确的编发出是至关重要的。出现故障时,在短时间内准确的手工编发出报文难度很大,容易出现错情或造成迟报等重大错情。为了避免这种情况的发生,总结了以下几种方法进行编发报,降低了出错的几率。     

The Sensitive Regions Identified by CNOPs of Three Typhoon Events

In this paper, several sets of observing system simulation experiments (OSSEs) were designed for three typhoon cases to determine whether or not the additional observation data in the sensitive regions identified by conditional nonlinear optimal perturbations (CNOPs) could improve the short-range forecast of typhoons. The results show that the CNOPs capture the sensitive regions for typhoon forecasts, which implies that conducting additional observation in these specific regions and eliminating initial errors could reduce forecast errors. It is inferred from the results that dropping sondes in the CNOP sensitive regions could lead to improvements in typhoon forecasts.     

秋天

风就那么轻轻地扇了一下,整个荒原就着了火,不停奔忙的救火人却面带微笑。站在垄上,我的心在随着他们的韵律激动地博跳。金黄色玉米,黄金样水稻,所有的稼禾都积极地     

精细农业研究进展

精细农业是随着全球定位系统、遥感技术和农业新技术、地理信息系统、计算机技术的发展而兴起的现代农业管理方法,它将给农业生产带来深刻的变革.从农业资源的利用现状出发,分析了精细农业概念产生的必然性及其核心指导思想,并阐述了精细农业的技术组成、形成过程、国内外现状、发展趋势和成功应用.     

INVESTIGATION OF THE SPATIAL AND TEMPORAL DISTRIBUTION OF EXTREME HIGH TEMPERATURE IN CHINA WITH DETRENDED FLUCTUATION AND PERMUTATION ENTROPY

With temperatures increasing as a result of global warming,extreme high temperatures are becoming more intense and more frequent on larger scale during summer in China.In recent years,a variety of researches have examined the high temperature distribution in China.However,it hardly considers the variation of temperature data and systems when defining the threshold of extreme high temperature.In order to discern the spatio-temporal distribution of extreme heat in China,we examined the daily maximum temperature data of 83 observation stations in China from 1950 to 2008.The objective of this study was to understand the distribution characteristics of extreme high temperature events defined by Detrended Fluctuation Analysis(DFA).The statistical methods of Permutation Entropy(PE)were also used in this study to analyze the temporal distribution.The results showed that the frequency of extreme high temperature events in China presented 3 periods of 7,10—13 and 16—20 years,respectively.The abrupt changes generally happened in the 1960s,the end of 1970s and early 1980s.It was also found that the maximum frequency occurred in the early 1950s,and the frequency decreased sharply until the late 1980s when an evidently increasing trend emerged.Furthermore,the annual averaged frequency of extreme high temperature events reveals a decreasing-increasing-decreasing trend from southwest to northeast China,but an increasing-decreasing trend from southeast to northwest China.And the frequency was higher in southern region than that in northern region.Besides,the maximum and minimum of frequencies were relatively concentrated spatially.Our results also shed light on the reasons for the periods and abrupt changes of the frequency of extreme high temperature events in China.     

自动站大风报警程序设计

1引言在自动站投入使用前绝大多数气象站使用的是EL型风向风速计,其瞬间风速是通过风速指示计人工测得的,人为因素大,精度不够,但人工测量给大风重要天气报、大风危险和解除报提供了依据,不会出现大风记录和报文之间的矛盾现象,而自动站的大风记录却不一样,其记录的大风的起止时间,极大风速及出现的时间是非常精确的,要求值班员实时注意查看自动站的大风记录,避免漏报、错报。由于自动站采集控制软件SAWSS在处理大风记录时存在不足,当大风达到不同的发报标准时不能及时报警,以提醒值班人员作出相应的处理,所以极易造成过时报,甚至漏报。     

气象水文灾害的防灾减灾教育培训新进展

简要综述了第十届世界气象组织教育与培训大会的主题报告内容.本次大会主要讨论防灾减灾的气象水文教育与培训等问题,集中讨论了"备灾-预防和早期预警"、"减灾-应急、救援和重建"和"跨学科培训"等3个主题,强调集合数值预报系统对于估计出现极端天气事件的风险非常重要,同时必须培训气象、水文工作者使用集合预报中的概率预报信息.中国气象灾害监测、预测和预警已经从单纯提供一般意义上的气象灾害信息提升到有利于社会经济发展的气象灾害服务,既考虑自然因子也考虑经济发展的影响.在跨学科培训方面,将管理知识和气象知识结合起来,可以取得非常好的效果.大会建议提高世界气象组织区域培训中心以及各国气象水文部门培训单位的培训能力,主要通过提供防灾减灾的专门培训单元,对自然灾害风险管理短期课程进行指导,重视各国气象水文部门对于管理和传播领域培训的需求.     

2008年梅雨异常大尺度环流成因分析

利用NCEP再分析资料对2008年江淮梅雨异常特征及其大尺度环流成因进行了分析研究。结果表明： （1）2008年入（出）梅显著偏早、 梅雨期长度略偏短, 梅雨分布呈南涝北旱、 东多西少, 梅雨量偏少、 强度偏弱。（2）该年入梅显著偏早是东亚大气环流由冬季型向夏季型转换提前所致, 副热带高空西风急流北跳、 500 hPa西风带环流调整、 西太平洋副热带高压季节性北跳、 夏季风北涌至江淮流域的时间均早于常年。（3）该年出梅显著偏早的主导因素是冷空气活动。（4）南涝北旱梅雨型是受南亚高压东段脊线位置接近常年、 副热带高压脊线处于适宜梅雨发生纬度带的南段、 低空西南急流和水汽输送带北缘位置以及高空强辐散和中低空强辐合区位置偏南的影响。（5）东多西少梅雨型是冷空气路径偏西所致。（6）梅雨期夏季风北涌至江淮流域活动次数偏少是梅雨量偏少的重要因素。     

2018年南京梅雨异常特征及环流分析

利用自动站降水数据和NCEP/NCAR再分析资料,结合江苏入、出梅指标对2018年南京梅雨进行讨论,分析导致当年南京梅雨异常的环流因子特征。结果表明：1）当年入梅偏晚、出梅正常,梅雨分布不均匀,总量偏少,其中南部异常偏少8成;2）前期南支槽活动频繁,副热带高压相比同期偏南,季节北跳偏迟,且南亚高压主体偏强,位置偏东偏北,导致入梅偏迟;3）入梅后,副热带高压大幅度北抬,南亚高压东伸明显,加之东北冷涡活动弱,使得冷暖气流交汇偏北,因此江苏沿江地区梅雨量偏少;4）南京地区的梅雨量与6-7月副热带高压的南北跨度具有显著的负相关;5）东亚夏季风偏强时,南京中北部地区的梅雨量很可能偏少。     

2016年梅汛期降雨环流特征及ECMWF中期预报偏差分析

利用NCAR/NCEP逐日再分析资料和台站观测日平均降雨资料,分析2016年梅汛期的大气环流演变特点和期间3次强降雨过程的环流特征,对比了欧洲中期数值模式(EC模式)的预报能力,并对其中期预报降雨的落区偏北、强度偏弱的偏差原因进行分析。结果表明,2016年梅汛期中高纬度环流多变化,多冷空气活动但势力总体不强,夏季风在6月下旬和7月上旬逐步增强,西太平洋副热带高压稳定维持,为强降雨的发生提供了有利动力和水汽条件。在梅汛期前期EC在中期时效对于夏季风的预报强度偏强、副高位置偏北,直接造成模式预报的雨带位置偏北。EC对于乌拉尔山一带的环流系统预报能力较好,但对于日本海-鄂霍茨克海一带的环流系统预报能力较差,从而使得影响我国的冷空气路径和强度预报均出现偏差,这对于7月初的强降水的强度和落区预报也有明显影响。      

2011年长江中下游梅雨特征及成因分析

利用NCEP2.5°×2.5°再分析资料、NOAA的OLR资料、常规观测降水资料以及历史梅雨特征指数等资料,系统地分析了2011年梅汛期南亚高压、副热带高压、季风和对流系统等的演变特征,以揭示2011年梅雨期降水异常的成因。分析表明： 2011年入梅和出梅均偏早,旱涝急转迅速,降水集中,梅雨总量异常偏多;南亚高压和西太平洋副热带高压北跳、500 hPa西风带环流的调整、西南季风北涌至长江流域的时间均早于常年是2011年入梅偏早的原因。ITCZ的北抬伴随强热带风暴“米雷”北上引起副热带高压的北抬东退是出梅偏早的主要原因;南亚高压和副热带高压位置和强度迅速调整,同时中高纬度环流也快速调整,西南季风和水汽输送也由弱转强,使得长江中下游地区由受冬季风控制迅速转为冷暖气流的汇合地,且此期间大气层结不稳定,降水强度大。以上原因导致该区域出现迅速的旱涝急转;梅雨期间,西太平洋副热带高压和高空西风急流稳定偏强,强盛的季风涌、中高纬度冷空气和青藏高原对流扰动东传的有利配置导致了2011年梅雨总量异常偏多。     

传统梅雨区西北部梅雨期降水特征研究

本文从气候平均角度及年际时间尺度对传统梅雨区(28°~34°N,110°~123°E)的西北部(NW区)梅雨期降水及其与大气环流和海温的关系进行了研究,重点比较其与典型梅雨区梅雨期降水的异同。结果表明:(1)气候平均而言,850 hPa层次上大于40 g·m·kg^-1·s^-1的水汽输送带无法覆盖NW区,导致该地区在35~37候没有类似于江南地区、长江中下游地区和江淮地区梅汛期集中性降水的特征。(2)1979—2017年共39 a中,NW区有24 a出现了梅雨现象,有15 a为空梅,平均入梅日期为6月27日,比长江流域偏晚13 d,平均出梅日期为7月13日,与长江流域相近,梅雨期平均日降水量与长江流域相当。(3)NW区梅雨期时,雨量偏多的地区在我国黄淮地区,此时江南地区雨量偏少。东亚夏季风系统成员,如南亚高压、西太平洋副热带高压、青藏高原南部梅雨锚槽、低层西北太平洋反气旋等都比长江流域梅雨时偏北。(4)与典型梅雨区不同,NW区的入梅时间与赤道印度洋、赤道中东太平洋等关键区海温没有显著关联。     

2006年夏季主要天气系统及环流特征分析

简要介绍了2006年夏季的主要天气过程和形势。2006年夏季我国华南地区出现严重洪涝,淮河流域、东北大部、河套西部降雨异常偏多,而长江流域降雨偏少。6月造成华南地区强降雨的影响天气系统为切变线和地面静止锋,7、8月则为台风。2006年的梅雨期在典型梅雨常见的中高纬度乌拉尔山和鄂霍次克海阻塞高压均未建立,中高纬度高压位于贝加尔湖以西,低纬度副高位置比气候平均稍偏北。华北地区的暴雨过程多为低槽冷锋造成。东北地区多低涡活动。2006年夏季登陆我国的台风偏早、偏多、偏强,特别是4号台风“碧利斯”和8号台风“桑美”给我国造成了巨大的经济损失。与2005年相比,2006年我国西南地区的高温日数异常偏多,四川、重庆出现了特大伏旱,华北地区的高温日数偏少,但也出现了持续闷热天气,江南部分地区的高温天数也偏多,东北基本未出现高温天气。     

江淮梅雨与东亚副热带夏季风进程变异的关系

根据中国气象局《梅雨监测业务规定》中的入、出梅标准,结合1960—2016年全国661个常规气象站逐日气象资料,以及NCEP/NCAR月平均再分析资料,分析了江淮梅雨和东亚副热带夏季风进程变异的时空特征,提取季风关键区(32°~34°N,112°~120°E,包含17个站点),并分析了江淮梅雨和季风关键区的联系与成因。结果表明:1960—2016年平均梅雨期为6月8日—7月15日,平均梅雨量为303 mm。比东亚平均梅雨季的开始时间早9 d,比其结束时间晚7 d。梅雨量在近57 a中也呈波动式变化,但整体为上升趋势。入梅越早,出梅越晚,则梅雨期越长,梅雨量越多。副热带夏季风推进到关键区的平均时间为5月19日,其在1970s末和1990s末分别发生了由偏晚向偏早和由偏早向偏晚的突变。夏季风到达关键区偏早时,出梅日偏晚,梅雨量偏多,季风到达偏晚时,出梅日偏早,梅雨量偏少。副热带夏季风推进时间和江淮梅雨量呈全区一致的负相关,负相关区位于湖南、湖北及江西三省临近的两湖地区。东亚副热带夏季风到达关键区时间偏早(晚)年,500 hPa高度场上乌拉尔山—鄂霍茨克海为正(负)距平,阻塞高压增强(减弱);日本海附近为负(正)距平,东亚大槽加深(西退北缩),加强(削弱)了槽后冷空气向南输送且不(有)利于中低纬度副热带高压的北跳,西太平洋副热带高压中心强度增强(减弱),位置偏西(东),其西北侧的西南暖湿气流输送加强(减弱),江淮地区有水汽的辐合(辐散),有(不)利于梅雨量偏多。     

A Study of the Teleconnections in the Asian-Pacific Monsoon Region

The interactions among the Asian-Pacific monsoon subsystems have significant impacts on the climatic regimes in the monsoon region and even the whole world. Based on the domestic and foreign related research, an analysis is made of four different teleconnection modes found in the Asian-Pacific monsoon region, which reveal clearly the interactions among the Indian summer monsoon （ISM）, the East Asian summer monsoon （EASM）, and the western North Pacific summer monsoon （WNPSM）. The results show that： （1） In the period of the Asian monsoon onset, the date of ISM onset is two weeks earlier than the beginning of the Meiyu over the Yangtze River Basin, and a teleconnection mode is set up from the southwestern India via the Bay of Bengal （BOB） to the Yangtze River Basin and southern Japan, i.e., the ＂southern＂ teleconnection of the Asian summer monsoon. （2） In the Asian monsoon culmination period, the precipitation of the Yangtze River Basin is influenced significantly by the WNPSM through their teleconnection relationship, and is negatively related to the WNPSM rainfall, that is, when the WNPSM is weaker than normal, the precipitation of the Yangtze River Basin is more than normal. （3） In contrast to the rainfall over the Yangtze River Basin, the precipitation of northern China （from the 4th pentad of July to the 3rd pentad of August） is positively related to the WNPSM. When the WNPSM is stronger than normal, the position of the western Pacific subtropical high （WPSH） becomes farther northeast than normal, the anomalous northeastward water vapor transport along the southwestern flank of WPSH is converged over northern China, providing adequate moisture for more rainfalls than normal there. （4） The summer rainfall in northern China has also a positive correlation with the ISM. During the peak period of ISM, a teleconnection pattern is formed from Northwest India via the Tibetan Plateau to northern China, i.e., the ＂northern＂ teleconnection of the Asian summer monsoon. The     

初夏至盛夏东亚副热带西风急流突变早晚与东亚环流异常的关系

利用1961-2004年NCEP／NCAR再分析逐候资料和全国160站月平均降水资料,分析了初夏至盛夏东亚副热带急流北跳和急流中心西移发生早晚对7月东亚大气环流和我国降水的影响。结果表明,急流北跳时间与7月长江中下游地区降水异常正相关,急流中心西移时间则与7月淮河流域降水异常正相关,与华北和河套地区降水异常负相关。急流北跳时间与南亚高压和西太平洋副热带高压南北位置异常及高纬贝加尔湖以东高压脊强度相关;而急流中心西移时间与南亚高压和西太平洋副热带高压的东西伸展及贝加尔湖以西高压脊强度相关,在急流中心西移偏晚年,南亚高压西缩,贝加尔湖西南侧高压脊增强,南下至华北和河套地区冷空气偏强,且西太平洋副热带高压东撤,冷暖空气在淮河流域交汇,使得华北和河套地区降水减少而淮河流域降水偏多;偏早年情况与偏晚年情况相反。     

2016年我国梅雨异常特征及成因分析

利用国家气候中心梅雨监测资料和NCEP再分析资料,对2016年我国梅雨异常特征及其大尺度环流成因进行了分析。结果表明:（1）2016年我国梅雨有明显的区域特征,其中江南区入梅偏早14天,与1995年并列成为1951年以来入梅最早的年份,出梅偏晚11天,梅雨期（量）偏长（多）,但梅雨期日平均降水量偏少;长江区入梅和出梅均偏晚,梅雨期接近常年,但梅雨量偏多一倍以上,梅雨量和梅雨期日平均降水量分别为1951年以来历史同期第三和第二高值;江淮区入梅、出梅及梅雨期接近常年,但梅雨量偏多。（2）对流层高、中、低层环流系统冬夏季节性调整和转变显著提前的共同作用,导致了2016年江南区入梅显著偏早;东亚副热带西风急流、西太平洋副热带高压（副高）和东亚夏季风涌在7月中旬阶段性地南落导致了江南区和长江区出梅偏晚。（3）受到前冬超强厄尔尼诺衰减和春、夏季热带印度洋全区一致海温模态偏暖的影响,梅雨期副高异常偏强,副高西南侧转向的水汽输送异常偏强,并在长江区和江淮区与北方弱冷空气辐合,造成梅雨量异常偏多。