孟湾槽在百色市异常降雪天气中的作用

通过对1983年12月28日、2002年12月26日百色市两次异常降雪天气过程的对比分析,发现冬季孟加拉湾槽的发展东移在其中起到了关键性的作用。由于孟加拉湾槽前暖湿气流强盛,这种强盛的西南暖湿气流在低空冷空气堆(冷锋)上发生强烈的系统性上升运动,从而导致百色市及其邻近地区出现异常的雨雪天气。     

承德市2015年2月20-21日强降雪成因分析

利用常规观测资料、卫星云图和NECP (1?? 1?)逐6h再分析资料,对承德市2015年2月20～21日强降雪过程环流形势和物理量场进行了分析。结果表明：在此次强降雪过程中,中、低层的西风槽、切变线和地面上东移加强的蒙古气旋构成了有利天气形势,在这些系统的共同作用下不断有干冷空气侵入承德地区与低层西南暖湿气流交汇,持续的西南暖湿气流对此次强降雪的形成和维持至关重要。相对湿度、水汽通量、垂直速度、涡度及垂直螺旋度的分布和演变很好的反映出了此次强降雪过程中物理量场特点：相对湿度和水汽通量的分布说明强降雪区上空湿度较大且有充足的水汽供应,水汽通量的增大与降雪的增强相一致,水汽通量大值中心与强降雪有很好对应关系。强降雪区上空伴有较强上升运动;降雪区上空均为正涡度时最有利于上升运动和降雪;降雪区上空垂直螺旋度均为正或呈"上负下正"的垂直结构均有利于降雪,低层正垂直螺旋度对强降雪变化有很好的指示意义。     

内蒙古东北部地区一次极端降雪过程的水汽输送特征

利用内蒙古呼伦贝尔市常规观测资料和GDAS、NCEP/NCAR再分析资料,采用欧拉方法分析了2016年春季内蒙古东北部地区一次极端暴雪过程的水汽输送及收支特征,利用HYSPLIT模式和聚类分析模拟计算了此次暴雪天气过程的水汽源地、主要水汽输送通道及其对水汽输送的贡献,并与传统的欧拉方法结果进行对比。结果表明:(1)有3支不同源地的水汽流在内蒙古东北部地区交汇,对呼伦贝尔地区暴雪的发生与维持有重要影响;(2)经向和纬向输送为此次暴雪天气的发生提供了充足的水汽,暴雪区水汽主要源于中高层的南边界和随西风气流的西边界;(3)利用HYSPLIT模式模拟发现,在此次暴雪天气过程中水汽主要来源于新地岛以西洋面、日本海以及巴尔喀什湖,且三者贡献率大致相当。     

Pluie ou neige? Dispositif de mesures pluviographiques dans les Andes de Bolivie et interprétation des enregistrements/Rainfall or snowfall? Device for measuring the precipitation phase in the Bolivian Andes and analysis of the records

Abstract

Abstract The knowledge of the precipitation phase, solid or liquid, is important in high mountains, in order to use models of water and energy balances. During an experiment led in the Bolivian Andes, a complete weather station was installed at an altitude close to 4800 m, including two raingauge recorders, the first one with added antifreeze and oil, based on weight measurement, and the other one with tipping buckets. This device allowed a realistic partition of the liquid and solid phases in this region of tropical mountains, where the observed snow pack at the ground level is strongly influenced by the extremely high solar radiation and where the snow cover is ephemeral. The automation of the ?raingauges? method, compared with several other classical methods, shows satisfactory results.     

Passive microwave remote sensing of the historic February 2010 snowstorms in the Middle Atlantic region of the USA

The snowfall in the Baltimore/Washington metropolitan area during the winter of 2009/2010 was unprecedented and caused serious snow‐related disruptions. In February 2010, snowfall totals approached 2 m, and because maximum temperatures were consistently below normal, snow remained on the ground the entire month. One of the biggest contributing factors to the unusually severe winter weather in 2009/2010, throughout much of the middle latitudes, was the Arctic Oscillation. Unusually high pressure at high latitudes and low pressure at middle latitudes forced a persistent exchange of mass from north to south. In this investigation, a concerted effort was made to link remotely sensed falling snow observations to remotely sensed snow cover and snowpack observations in the Baltimore/Washington area. Specifically, the Advanced Microwave Scanning Radiometer onboard the Aqua satellite was used to assess snow water equivalent, and the Advanced Microwave Sounding Unit‐B and Microwave Humidity Sounder were employed to detect falling snow. Advanced Microwave Scanning Radiometer passive microwave signatures in this study are related to both snow on the ground and surface ice layers. In regard to falling snow, signatures indicative of snowfall can be observed in high frequency brightness temperatures of Advanced Microwave Sounding Unit‐B and Microwave Humidity Sounder. Indeed, retrievals show an increase in snow water equivalent after the detection of falling snow. Yet, this work also shows that falling snow intensity and/or the presence of liquid water clouds impacts the ability to reliably detect snow water equivalent. Moreover, changes in the condition of the snowpack, especially in the surface features, negatively affect retrieval performance. Copyright © 2011. This article is a U.S. Government work and is in the public domain in the USA.     

An analysis of anomalous weather and climate around the M S=6.2 earthquake of Zhangbei region

Through analysis we found that some mesoscale anomalous regions (10¹–10² km) of meteorological parameters such as the special drought areas, unusual warm areas, the largest snowfall center, low pressure area together with the epicenter area of M _S=6.2 Zhangbei earthquake on January 10, 1998 are located at the same area, i.e. there appears the “Five areas corresponding” phenomenon. Meanwhile, three times of low pressure evolution are generated and develop in the earthquake area in five days after the occurrence of the earthquake. The abnormal variation of the lower limit of frozen soil layer shows indirectly that unusual warm in earthquake areas are related to the upward thermal conduction from the deeper layer of earth surface.     

山东半岛冷流强降雪和非冷流强降雪的对比分析

利用1981—2000年常规气象观测和NCEP/NCAR再分析资料,采用合成分析和动力诊断分析方法,对冷流强降雪与非冷流强降雪的空间分布、大气环流、水汽输送、稳定度和垂直运动进行对比分析。结果表明：冷流强降雪是发生在槽后西北气流里的中小尺度不稳定降雪,非冷流强降雪是发生在槽前西南气流中大尺度稳定性降雪。冷流强降雪具有明显的地方性特点,是强冷空气对下垫面物理状态强迫响应的结果。提出强冷空气与渤海暖水面相互作用产生的大气边界层不稳定是产生冷流降雪的本质,在这种边界层不稳定层结中发生的降雪是冷流降雪的概念。     

秦岭南北降雪异常空间模态识别及其影响因素分析

识别降雪异常空间模态,明晰降雪异常的影响因素,对理解中国南北过渡带气候变化规律具有重要的实践意义。论文基于1970—2020年逐日气象数据,辅以湿球温度动态阈值法、经验正交分解法等气候诊断方法,对秦岭南北冷季(11月—次年5月)降雪异常空间模态进行识别,探讨了不同主导模态与海气异常的相关关系。结果表明：(1)秦岭南北冷季降雪异常存在2个主导模态。第1模态为“全区一致型”,降雪异常偏强区分布于关中平原、秦岭山地、汉江谷地和大巴山区东段;第2模态为“山地主导下降型”,反映山地降雪异常对气候变化的敏感性;(2)在时间变化上,第1模态以年际波动为主,20世纪90年代中期后,空间模态多处于负相位,即全区一致降雪偏少;第2模态以年代转折为主,近期空间模态多处于正相位,即山地降雪异常偏少;(3)在影响因素上,第1模态降雪异常与1月中高纬度500 hPa欧亚遥相关波列相关,第2模态降雪异常与冬季赤道中东太平洋海温异常密切相关。研究将降雪异常格局与环流异常机制组合研究,可为理解中国南北过渡带降雪异常预警信号提供理论基础。     

A mirage at Regina

The Dirt Hills, located roughly forty miles to the southwest of the Regina Weather Office, at Regina, Saskatchewan, were clearly visible on the horizon in the early morning of the 29th day of August 1972 from the Regina Weather Office. This mirage was documented and a picture of it was taken.     

An Overview of the Second Generation Adjusted Daily Precipitation Dataset for Trend Analysis in Canada

A second generation adjusted precipitation daily dataset has been prepared for trend analysis in Canada. Daily rainfall and snowfall amounts have been adjusted for 464 stations for known measurement issues such as wind undercatch, evaporation and wetting losses for each type of rain-gauge, snow water equivalent from ruler measurements, trace observations and accumulated amounts from several days. Observations from nearby stations were sometimes combined to create time series that are longer; hence, making them more useful for trend studies. In this new version, daily adjustments are an improvement over the previous version because they are derived from an extended dataset and enhanced metadata knowledge. Datasets were updated to cover recent years, including 2009. The impact of the adjustments on rainfall and snowfall total amounts and trends was examined in detail. As a result of adjustments, total rainfall amounts have increased by 5 to 10% in southern Canada and by more than 20% in the Canadian Arctic, compared to the original observations, while the effect of the adjustments on snowfall were larger and more variable throughout the country. The slope of the rain trend lines decreased as a result of the larger correction applied to the older rain-gauges while the slope of the snow trend lines increased, mainly along the west coast and in the Arctic. Finally, annual and seasonal rainfall and snowfall trends based on the adjusted series were computed for 1950–2009 and 1900–2009. Overall, rainfall has increased across the country while a mix of non-significant increasing and decreasing trends was found during the summer in the Canadian Prairies. Snowfall has increased mainly in the north while a significant decrease was observed in the southwestern part of the country for 1950–2009.