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巧用气象因素防治农业害虫
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作者 白廷书 《山西气象》 1993年第1期34-37,共4页
关键词 气象因数 农业害虫 治虫
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Path Analysis on the Meteorological Factors Impacting Soil Respiration Rate of Wheat Field 被引量:2
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作者 江晓东 李永秀 《Agricultural Science & Technology》 CAS 2009年第1期74-76,156,共4页
[Objective]The experiment aimed to study the effects of meteorological factors under different weather conditions on soil respiration. [ Method] The path analysis was used to analyze meteorological factors which influ... [Objective]The experiment aimed to study the effects of meteorological factors under different weather conditions on soil respiration. [ Method] The path analysis was used to analyze meteorological factors which influenced soil respiration of wheat field under different weather condition and at jointing stage. [ Result] In sunny day, the correlations between ground temperature at 5 cm, solar radiation, air relative humidity, air temperature and soil respiration were all at significant level while solar radiation and ground temperature at 5 cm were the major factors which influenced soil respiration. In cloudy day, solar radiation was a major factor which influenced soil respiration.[ Conclusion] The soil respiration and surplus path coefficient in sunny day were all higher than these in cloudy day, which demonstrated that except influenced by ground temperature, air temperature, solar radiation and air relative humidity, the soil respiration was also influenced by other factors especially biological factor. 展开更多
关键词 Soil respiration Wheat meteorological factors Path analysis
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北京地区气溶胶PM2.5粒子浓度的相关因子及其估算模型 被引量:85
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作者 周丽 徐祥德 +2 位作者 丁国安 苗秋菊 魏凤英 《测绘科技动态》 CSCD 2003年第6期761-768,共8页
文中运用统计分析和气象统计预报的方法 ,使用北京白石桥小区的污染物观测资料和同期北京地区的气象观测资料 ,对影响大气污染的气象因子进行了综合分析 ,并分别建立了气溶胶PM 2 .5粒子浓度与气体污染物、气象要素场的两类统计相关拟... 文中运用统计分析和气象统计预报的方法 ,使用北京白石桥小区的污染物观测资料和同期北京地区的气象观测资料 ,对影响大气污染的气象因子进行了综合分析 ,并分别建立了气溶胶PM 2 .5粒子浓度与气体污染物、气象要素场的两类统计相关拟合模型。发现气溶胶PM2 .5粒子浓度与气体污染物浓度存在不同程度的相关性 ,且与气象条件亦存在显著的相关关系 ,此类时空变化及其量化估算模型具有一定实际应用价值。通过确定气象要素场和气溶胶浓度的关系可进一步研究不同地区的污染物输送和污染源扩散影响的问题。 展开更多
关键词 北京地区 污染测定 气象因数 气溶胶指数 城市环境污染 PM2.5粒子浓度 多元回归分析法 硫化物 氮化物 大气污染
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A vertical sounding of severe haze process in Guangzhou area 被引量:11
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作者 DENG Tao WU Dui +3 位作者 DENG XueJiao TAN HaoBo LI Fei LIAO BiTing 《Science China Earth Sciences》 SCIE EI CAS 2014年第11期2650-2656,共7页
We detected a severe haze process in Guangzhou area with lidar and microwave radiometer, performed an inversion to get boundary layer height by wavelet covariance transform, and analyzed the correlation between meteor... We detected a severe haze process in Guangzhou area with lidar and microwave radiometer, performed an inversion to get boundary layer height by wavelet covariance transform, and analyzed the correlation between meteorological factors of boundary layer and visibility from the perspective of dynamical and thermodynamic structures. Our results indicate that the boundary layer height shows significant daily changes, consistent with ground visibility variation. During the cleaning process, the boundary layer height exceeded 1 km; during severe haze, the height was only 500 m. Temperature gradient of 50–100 m, which was 30 h lag, was remarkably correlated with visibility, with the correlation coefficient of 0.77. High layer visibility(255 m) and low layer stability were significantly anticorrelation, and the maximum anticorrelation coefficient was up to-0.76 in cleaning days and-0.49 in haze days. In the related boundary layer meteorological factors, surface ventilation coefficient was linearly correlated with ground visibility, with the greatest correlation coefficient of 0.88. The correlation coefficients of boundary layer height, ground wind velocity, relative humidity and ground visibility were 0.76, 0.67, and-0.77, respectively. There was a strong correlation between different meteorological factors. The dominant meteorological factor during this haze process was surface ventilation coefficient. In the area without boundary layer height sounding, ground visibility and wind velocity could be used to estimate boundary layer height. 展开更多
关键词 LIDAR boundary layer height surface ventilation coefficient HAZE VISIBILITY
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