呼和浩特市温室气体浓度变化特征及与气象因子的关系
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摘要
利用呼和浩特市2013年至2017年2种主要温室气体(CO_2和CH_4)的观测数据及同期气象要素观测数据,分析了2种温室气体的平均浓度的日、月、季变化规律及与气象要素的相关分析。结果表明:呼和浩特市的温室气体浓度低于全球水平。CO_2和CH_4呈现较为明显的日变化,两者的最小值均出现在午后15:00左右,最大值出现时间有所差异。不同季节的CO_2和CH_4浓度的日变化规律不尽相同。CO_2月均值最小出现在7月份,CH_4月均值最小出现在4月份,两者最大值均出现在1月份。CO_2浓度冬季最高而CH_4浓度在秋季最高,CO_2浓度夏季最小而CH_4浓度在春季最小。CO_2与气温具有明显的负相关,CH_4与日照时数具有负相关。
By using the observational data of main greenhouse gases and meteorological data from 2013 to 2017, the daily, monthly and seasonal variations of the average concentrations of greenhouse gases and their correlation with meteorological elements were analyzed. The concentration of greenhouse gases in Hohhot is below the global level. The concentration of CO_2 and CH_4 showed obvious diurnal variation. The minimum values of both appeared at about 15:00 in the afternoon, and the maximum appeared at different times. Diurnal variation of concentration is different in different seasons. The minimum monthly mean of CO_2 appeared in July, and the minimum monthly mean of CH_4 appeared in April, and the maximum of both appeared in January. CO_2 concentration is highest in winter and CH_4 concentration is highest in autumn. CO_2 concentration is lowest in summer and CH_4 concentration is lowest in spring. CO_2 was negative correlated with temperature. CH_4 was negative correlated with sunshine hours.
By using the observational data of main greenhouse gases and meteorological data from 2013 to 2017, the daily, monthly and seasonal variations of the average concentrations of greenhouse gases and their correlation with meteorological elements were analyzed. The concentration of greenhouse gases in Hohhot is below the global level. The concentration of CO_2 and CH_4 showed obvious diurnal variation. The minimum values of both appeared at about 15:00 in the afternoon, and the maximum appeared at different times. Diurnal variation of concentration is different in different seasons. The minimum monthly mean of CO_2 appeared in July, and the minimum monthly mean of CH_4 appeared in April, and the maximum of both appeared in January. CO_2 concentration is highest in winter and CH_4 concentration is highest in autumn. CO_2 concentration is lowest in summer and CH_4 concentration is lowest in spring. CO_2 was negative correlated with temperature. CH_4 was negative correlated with sunshine hours.
引文
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[3] 吕桅桅, 刘敏,王凯.武汉市大气温室气体浓度变化特征分析[J]. 中国气象学会年会.2015:10-16.
[4] 刘强,王跃思,王明星.北京地区大气主要温室气体的季节变化[J]. 地球科学进展. 2004(19), 817-822.
[5] 刘强,王跃思,王明星.北京地区大气主要温室气体的季节变化[J]. 地球科学进展. 2004(19),817-822.
[6] 周凌, 温玉璞等. 瓦里关山大气CO2本底变化[J]. 环境科学学报. 2004,24(4):637-642.
[7] 张文静,巩祥夫,胡琳,等.西安市温室气体浓度变化规律研究[J].陕西气象,2017(3): 39-43.
[8] 世界气象组织发布《温室气体公报》, 中国气象报/2017年/11月/3日/第 003 版.
[9] 周凌晞,刘立新,张春晓,等.我国温室气体本底浓度网格化观测的初步结果[J].应用气象学报,2008,19(6):641-644.
[10] 吴兑.温室气体与温室效应[M].北京:气象出版社,2001:58-63.
[11] 任信荣,王会祥,邵可声,等.北京大气OH自由基测量结果以及特征[J].环境科学,2002,23(4):24-27.
[12] 陈超,杨乐,徐鸿,等.杭州市主要温室气体浓度变化特征[J].环境污染与防治,2014,36(1): 69-72.
[13] 李晶, 王跃思等. 北京市两种主要温室气体浓度的日变化[J]. 气候与环境研究. 2006(01), 49-55.
[14] 徐宏辉,浦静姣,顾骏强,等.临安区域本底站大气甲烷浓度变化特征[J],长江流域资源与环境,2012,21(2):205-208.
[15] 王开燕, 邓雪娇等.广州南沙区O3浓度变化及其与气象因子的关系[J]. 环境污染与防治. 2012(06), 23-26.
[16] 姚青,孙玫玲等.2009年天津城区地面O3和NOx的季节变化与相关性分析[J]. 环境化学. 2011(09),1650-1656.
[17] 王长科,王思跃,刘广仁.北京城市大气CO2浓度变化特征及影响因素[J]. 环境科学. 2003(07),13-17.