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	近50年武威市地气温差变化趋势及影响因子
其他题名	Analysis on change trend and influence factors of differences between soil and air temperature in Wuwei city during recent 50 years
	杨晓玲 1; 丁文魁 2; 李岩瑛 2; 胡津革 2
来源期刊	生态学报
ISSN	1000-0933
出版年	2015
卷号	35 期号:8 页码:2719-2725
中文摘要	利用1961-2010年甘肃省武威市4个气象站月平均0 cm地温、气温及年日照时数、蒸发、降水、相对湿度和平均风速等观测资料,运用趋势系数法系统分析了该区域近50 a地气温差的时空分布特征,采用相关系数法和多元线性回归中的标准化回归系数分析了影响地气温差的气象因子。结果表明武威市地气温差的空间分布与地表植被、地层岩性、土层含水量等局域性因素有关,中部绿洲平原最大,北部荒漠区最小。月变化中,夏半年较大,6月最高;冬半年较小,12月最低。季节变化趋势不太一致,春夏季均呈上升趋势;秋季中北部上升,浅山区下降;冬季(除北部荒漠区外)均呈下降趋势。年和年代际变化总体呈上升趋势,中北部较显著;年平均地气温差的时间序列存在着5-7 a的准周期变化,并在2004年发生了突变。年地温、气温均呈升高趋势,年地气温差与地温、气温呈正相关。影响地气温差的主要因子是最高地温、蒸发量和降水量。地气温差与平均最高地温、平均最低气温和日照时数均呈正相关,但与蒸发、降水、相对湿度和平均风速均呈负相关。
英文摘要	Using observation data of monthly mean soil surface temperature, air temperature and annual sunshine hours, evaporation,precipitation,relative humidity,average wind speed from four meteorological stations in Wuwei city of Gansu Province during 1961-2010, the spatial and temporal distribution characteristics of the differences between soil and air temperature (T_a-T_a) were analyzed systematically by trend coefficient method, the main meteorological factors of (T_s-T_a) were also analyzed by correlation coefficient method and standardized regressive coefficient in multi-linear regression. The result showed that spatial distribution of (T_s-T_a) was related to the local factors as vegetation, soil stratum lithology, soil moisture; the maximum value (3.5 ℃) of (T_s-T_a) occurred in central oasis plains, minimum value (2.6 ℃) of (T_s-T_a) occurred in desertification of northern district. Monthly change characteristics of (T_s-T_a) was obvious and consistent relatively, whose variation rate was larger between 4.8 ℃ and -6.8 ℃,showed an obvious peak and trough, larger value occurred in the summer half year whose highest value was in June, smaller value occurred in the winter half year’whose lowest value was in December. But seasonal trend was not consistent,which showed an upward trend in spring and summer, and rose in central-north area but decreased in the shallow mountain area in autumn, decreased in winter except northern desert area. Annual change showed overall upward trend,rising velocities of (T_s - T_a) were influenced by altitude and underlying surface, it rose the fastest in Gobi desert area, rapidly in Oasis plain region, and slowly in Qilian Mountains slope. The time series of mean annual (T_s-T_a) existed the quasi periodic variation of 5-7a,through a significant level of reliability a =0.05 (F test),and the mutation happened in 2004. Decadal change was very obvious, which was smaller from 1960’s to 1970’s and larger from 1980’s to 2010’s. Both of annual soil temperature and air temperature increased, presented an asymmetric change, annual (T_s-T_a) was positively correlated with soil temperature and air temperature whose direct cause was that the rising trend of soil temperature was more significant than that of air temperature. The variation of seasonal (T_s-T_a) was more closely related to variation of soil temperature, the rising trend of (T_s-T_a) was larger in the season that soil temperature increased significantly. The main influencing factors of (T_s - T_a>) were maximum air temperature,evaporation and precipitation. (T_s - T_a) was positively correlated to average maximum soil temperature,average minimum air temperature and sunshine hours, but negatively correlated to evaporation, precipitation, relative humidity and average wind speed. Main influencing factors of (T_s - T_a) were different from different stations, which were maximum surface temperature, precipitation and evaporation in Liangzhou; minimum temperature, evaporation and maximum surface temperature in Minqin; maximum surface temperature, minimum temperature and relative humidity in Gulang; maximum surface temperature,relative humidity and minimum temperature in Yongchang. In the context of climate warming,to study and grasp the change rule and influencing factors of (T_s- T_a) was an essential part of revealing meteorological disaster pregnant environment and assessing regional climate evolution. At the same time, it provided scientific reference for curbing ecological environment deterioration, adjusting agricultural production and optimizing planting structure.
中文关键词	地气温差 ; 变化趋势 ; 气象因子 ; 相关性
英文关键词	differences between soil and air temperature (T_s-T_a) change trend meteorological factors correlation
语种	中文
国家	中国
收录类别	CSCD
WOS类目	BIOLOGY
WOS研究方向	Life Sciences & Biomedicine - Other Topics
CSCD记录号	CSCD:5411108
来源机构	中国气象局兰州干旱气象研究所
资源类型	期刊论文
条目标识符	http://119.78.100.177/qdio/handle/2XILL650/233166
作者单位	1.中国气象局兰州干旱气象研究所, 甘肃省干旱气候变化与减灾重点实验室;;中国气象局干旱气候变化与减灾重点开放实验室, 兰州, 甘肃 730020, 中国; 2.甘肃省武威市气象局, 武威, 甘肃 733000, 中国
推荐引用方式 GB/T 7714	杨晓玲,丁文魁,李岩瑛,等. 近50年武威市地气温差变化趋势及影响因子[J]. 中国气象局兰州干旱气象研究所,2015,35(8):2719-2725.
APA	杨晓玲,丁文魁,李岩瑛,&胡津革.(2015).近50年武威市地气温差变化趋势及影响因子.生态学报,35(8),2719-2725.
MLA	杨晓玲,et al."近50年武威市地气温差变化趋势及影响因子".生态学报 35.8(2015):2719-2725.