机构地区:[1]中国气象局国家气候中心气候研究开放实验室,北京100081 [2]天津市气象局气候服务中心,天津300074 [3]江苏省气象局苏州市气象台,苏州215021 [4]中国气象局国家气象信息中心气候资料室,北京100081
出 处:《气象学报》2005年第6期942-956,共15页Acta Meteorologica Sinica
基 金:科技部"十五"科技攻关项目"全球与中国气候变化的检测和预测(2001BA611B-01)"课题;水利部"全国水资源综合规划"研究专题
摘 要:采用国家基准气候站和基本气象站的地面资料,系统地分析了中国大陆地区1951年以来近地表主要气候要素演化的时间和空间特征。结果表明,中国近50 a来年平均地表气温变暖幅度约为1.1℃,增温速率接近0.22℃/(10 a),比全球或半球同期平均增温速率明显偏高。地表气温增暖主要发生在最近的20余年,其季节和空间特征与前人分析结论基本一致。降水量变化趋势对所取时间段和区域范围敏感。1951年以来全国平均降水量变化趋势不明显,但1956年以来略有增加。降水变化的空间特征明显而相对稳定,东北北部、包括长江中下游的东南部地区和西部广大地区降水增加,而华北地区以及东北东南部和西北东部地区降水明显减少。分析还发现,近50a来全国平均的日照时数、平均风速、水面蒸发等气候要素均呈显著下降趋势,但积雪地带的最大积雪深度却有所增加。中国日照时间和水面蒸发量变化的空间特征很相似,减少最明显的地区均发生在华北和华东,新疆次之。影响中国年代以上尺度气候变化的因子错综复杂,人类活动引起的大气中温室气体浓度增高可能在一定程度上影响了中国近50 a来的气候,但考虑到尚存的不确定性,目前仍不能给出明确结论。中国东部大部分地区日照时间和水面蒸发量减少可能均起源于人为排放的气溶胶影响,平均风速减弱也有利于水面蒸发量下降,而在西部地区云量和降水量的变化可能更重要。A data set of mean temperature, precipitation and other climate parameters for 740 stations across China's Mainland was used to analyze climate change in China's Mainland. The data set has been processed more carefully, and the main in-homogeneities existing in the monthly mean temperature data have been checked and corrected. The widely accepted procedures for creating area-averaged climatic time series and for calculating linear trend have been used. Analyses have been made for annual and monthly mean temperature, precipitation, pan evaporation, sunshine duration, wind speed, and the maximum depth of snow cover. The analyses show that annual mean surface air temperature in China's Mainland as a whole rose by about 1.1 ℃ for the last 50 years, with a warming rate of about 0.22℃/10 a. The warming in the later half 20th century is more rapid than the average values of the world and the Northern Hemisphere. The most evident warming occurred in winter and spring as expected. Northeast China, North China and Northwest China experienced more significant warming in terms of annual mean temperature, while a cooling trend reported in earlier studies is still continuing. Summer mean temperature in the middle and lower reaches of the Yangtze River also decreased in the last 50 years. No significant long-term change in the country-averaged annual precipitation was seen for both the past 50 years. However, an obvious tendency of drying in the Yellow River Basin and the North China Plain in terms of precipitation has been found, and the largest drop in precipitation occurred in Shandong Province. Meanwhile, an insignificant wetting trend in the Yangtze River Basin and most parts of western China could be detectable. For the Yangtze River Basin, the increased annual precipitation mainly resulted from the significant rising of summer rainfall, though winter precipitation also tended to increase. Since 1956, the country-averaged pan evaporation has had a significant trend to decrease, with a changing rate of - 3
关 键 词:气温 降水量 日照 水面蒸发 风速 积雪深 气候变化
分 类 号:P467[天文地球—大气科学及气象学] TN911.25[电子电信—通信与信息系统]
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
