灾害性天气实况智能警示系统

介绍了江苏省灾害性天气实况警示系统,该系统对9210系统下发的全省重要天气实况报文解码入库、分析处理,以声音、图像、短信、电子邮件等多种方式进行智能报警,通过图形处理终端进行实时显示。这种灾害性天气实况的网络联防和智能报警功能,为预报员及时监测灾害性天气的发生发展、进行联防和开展准确及时的预报服务提供了重要的实时信息。     

用极轨气象卫星资料分析飞机增雨云层条件

综合应用NOAA卫星AVHRR／3和FY-1极轨气象卫星高分辨0．58～0．68μm可见光、1．58～1．64μm近红外和10．3～11．3μm红外多通道资料,充分考虑了云的厚度、云中粒子尺度和云顶亮温的信息,给出了适宜飞机增雨作业云层的卫星遥感判据,建立了云层作业条件分析模型。实际应用表明,卫星遥感分析图可以有效地监测、判识和分析云层的增雨作业条件,应用效果好,可作为飞机增雨航线设计、作业决策的重要依据。通过增雨个例的微波图像特征分析,初步分析了AMSU—B微波图像在人工增雨作业中的作用和应用前景。     

地面气象资料质量控制方法研究概述

为了促进我国地面气象资料质量控制方法的研究,以几个有代表性的数据集,如GHCN、GDCN、ISH为例,概述了国外地面气象资料质量控制技术的进展及新动态。研究表明：传统的质量控制方法仍是主要工具。在计算机技术迅速发展的时代,可以有更好的条件,使用自动控制和人机交互、气候背景资料和统计检验相结合的技术,并适当应用空间检验方法,来设计我国自动站地面气象资料质量控制业务流程。     

环境气象指数的设计方法探讨

在大规模的现场和用户调查的基础上,结合现场观测和试验分析等手段,依据人类生活环境对气象条件的敏感性和依从性原理,提出了涉及人类生活、公共事业、休闲、旅游、农业生产、工程建设、医疗卫生等多种行业的环境气象指数的7种设计方法：回归统计法、因子加权法、经验模式法、历史资料反查法、动力统计法、延伸法、概念模型法,将7种方法单独应用或综合应用,江苏省气象部门开发研制了八大类73个环境气象指数。结合几个环境气象指数的研究实例,阐述了各种设计方法中的关键技术和要点,文中提出的环境指数设计方法较为简单实用,易于业务化,对气象指数的研究和业务工作均有一定的借鉴作用。     

节能温度、供热气象指数及供热参数研究

对北京市2001～2002年采暖季的室内外气象一热力试验数据进行科学分析,求出实际条件下不同环境温度、风速、辐射等气象条件下的节能温度,提出了供热气象指数及等级划分标准,推算出总供热量、供回水温度差及通过控制回水温度而知供水温度等供热参数,并已在北京市供热作业中投入应用,为实时供热调度提供了参考依据,是节能、增效、减污的基础。     

乌海两要素自动气象站数据接收系统软件的设计与实现

文章详细介绍了乌海两要素自动气象站数据接收系统的总体设计思路,宏观地描绘了该系统的基本框架、功能组成以及应用软件的开发与设计。     

Drought characteristics of Henan province in 1961-2013 based on Standardized Precipitation Evapotranspiration Index

Drought is one of the most complex natural hazards affecting agriculture, water resources, natural ecosystems, and society. The negative societal consequences of drought include severe economic losses, famine, epidemics, and land degradation. However, few studies have analyzed the complexity of drought characteristics, both at multiple time scales and with variations in evapotranspiration. In this study, drought occurrences were quantified using a new drought index, the Standardized Precipitation Evapotranspiration Index (SPEI), based on observed data of monthly mean temperature and precipitation from 1961 to 2013 in Henan province, central China. Based on the SPEI values of each weather station in the study, the frequency and severity of meteorological droughts were computed, and the monthly, seasonal, and annual drought frequency and intensity over a 53-year period were analyzed. The spatial and temporal evolution, intensity, and the primary causes of drought occurrence in Henan were revealed. The results showed that the SPEI values effectively reflected the spatial and temporal pattern of drought occurrence. As the time scale decreased, the amplitude of the SPEI increased and droughts became more frequent. Since 1961, drought has occurred at the annual, seasonal, and monthly scales, and the occurrence of drought has increased. However, regional distribution has been uneven. The highest drought frequency, 35%, was observed in the Zhoukou region, while the lowest value, ~26%, was measured in central and western Henan. The most severe droughts occurred in the spring and summer, followed by autumn. Annually, wide-ranging droughts occurred in 1966–1968, 1998–2000, and 2011–2013. The drought intensity showed higher values in north and west Henan, and lower values in its east and south. The maximum drought intensity value was recorded in Anyang, and the minimum occurred in Zhumadian, at 22.18% and 16.60%, respectively. The factors with the greatest influence on drought occurrence are increasing temperatures, the Eurasian atmospheric circulation patterns, and the El Niño effect.     

Using meteorological observer data to compare wind erosion during two great droughts in eastern Australia; the World War II Drought (1937–1946) and the Millennium Drought (2001–2010)

Australian meteorological observers started using the World Meteorological Organization (WMO) weather coding system in the 1950s. This system is still in use around the world today. However, observing and recording the weather in an organized and systematic manner had been ongoing for over 100 years prior to the adoption of this coding system, and much like Australia, most countries will have historical meteorological records. In this paper we compare the wind erosion of two of the greatest droughts in Australian recorded history; the World War II (WWII) Drought (1937–1945) and the Millennium Drought (2001–2009). To do this we analysed previously unavailable meteorological observer records from the Australian Bureau of Meteorology (ABM). Wind erosion records, mostly in long‐hand written form, were translated to the modern WMO coding system for the WWII Drought and compared with the wind erosion of Australia's recently‐ended Millennium Drought, one of the longest and harshest on record. We quantify wind erosion using Dust Event Days (DED) and a modified version of a published Dust Storm Index (DSI) to show that wind erosion during the WWII Drought was up to 4.6 times higher than during the Millennium Drought. This study has international significance because it demonstrates a methodology for tracking changes in wind erosion over the past 75 years based on observer records available in every country with a history of organized weather observation. Copyright © 2014 John Wiley & Sons, Ltd.     

智慧低碳城镇研究进展

智慧低碳城镇是城市健康可持续发展研究的热点和前沿。本文利用文献计量方法和通过对相关文献资料的回顾,梳理总结了智慧低碳城镇的研究概况、含义、测度方法和指标体系、应用实践、基本模式和主要政策。结果表明：智慧低碳城镇研究尚处于初期起步阶段,虽然众多应用实践已进入规划、试点和示范阶段,政策支持也不断充足完善,但迄今尚无确切统一的定义,缺乏通用性和权威性的指标体系,发展机制和模式研究较少。因此,未来应在明晰基本含义的基础上,构建适用的测度评价体系,并注重相应的动力机制、模式路径和模拟优化调控研究,为城市的健康可持续发展提供科学依据。     

中国草原区植被变化及其对气候变化的响应

利用1982~2006年GIMMS NDVI和气象数据,探究中国草原区植被变化及对气候的响应。结果表明,近25 a中国草原区植被覆盖总体呈上升趋势,但季节变化空间差异明显。春季温度对温带典型草原、高寒草甸草原和高寒典型草原植被生长有重要影响,而夏季和秋季温度同样对高寒草甸草原影响显著;夏季降水增多能明显促进夏季温带荒漠草原植被生长。除8月份以外,温带草原5~9月NDVI均与前一个月降水显著正相关;在生长季内,高寒草原NDVI与同期温度显著正相关,但8月份除外。此外高寒草原植被在生长最旺盛时期对降水变化存在1~3个月滞后期。