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Integrated water vapor during active and break spells of monsoon and its relationship with temperature,precipitation and precipitation efficiency over a tropical site 被引量:2
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作者 Nirmala Bai Jadala Miriyala Sridhar +2 位作者 Gopa Dutta Mohammed Yousuf Y.K.Reddy 《Geodesy and Geodynamics》 CSCD 2022年第3期238-246,共9页
Global Positioning System(GPS)measurements of integrated water vapor(IWV)for two years(2014 and 2015)are presented in this paper.Variation of IWV during active and break spells of Indian summer monsoon has been studie... Global Positioning System(GPS)measurements of integrated water vapor(IWV)for two years(2014 and 2015)are presented in this paper.Variation of IWV during active and break spells of Indian summer monsoon has been studied for a tropical station Hyderabad(17.4°N,78.46°E).The data is validated with ECMWF Re-Analysis(ERA)91 level data.Relationships of IWV with other atmospheric variables like surface temperature,rain,and precipitation efficiency have been established through cross-correlation studies.A positive correlation coefficient is observed between IWV and surface temperature over two years.But the coefficient becomes negative when only summer monsoon months(June,July,August,and September)are considered.Rainfall during these months cools down the surface and could be the reason for this change in the correlation coefficient.Correlation studies between IWV-precipitation,IWVprecipitation efficiency(P.E),and precipitation-P.E show that coefficients are-0.05,-0.10 and 0.983 with 95%confidence level respectively,which proves that the efficacy of rain does not depend only on the level of water vapor.A proper dynamic mechanism is necessary to convert water vapor into the rain.The diurnal variations of IWV during active and break spells have been analyzed.The amplitudes of diurnal oscillation and its harmonics of individual spell do not show clear trends but the mean amplitudes of the break spells are approximately double than those of the active spells.The amplitudes of diurnal,semidiurnal and ter-diurnal components during break spells are 1.08 kg/m^(2),0.52 kg/m;and 0.34 kg/m;respectively.The corresponding amplitudes during active spells are 0.68 kg/m^(2),0.41 kg/m;and 0.23 kg/m;. 展开更多
关键词 Precipitation efficiency Diurnal oscillation Integrated water vapor Tropical site Break spells of monsoon Active spells of monsoon
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THE APPROACH TO REMOTE SENSING OF WATER VAPOR BASED ON GPS AND LINEAR REGRESSION T_m IN EASTERN REGION OF CHINA 被引量:5
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作者 李建国 毛节泰 《Acta meteorologica Sinica》 SCIE 1998年第4期450-458,共9页
The approach to remote sensing of water vapor by using global positioning systems(GPS)is discussed.In order to retrieve the vertical integrated water vapor(IWV)or the precipitable water (PW),the weighted“mean tempera... The approach to remote sensing of water vapor by using global positioning systems(GPS)is discussed.In order to retrieve the vertical integrated water vapor(IWV)or the precipitable water (PW),the weighted“mean temperature”of the atmosphere,T_m would be estimated to the specific area and season.T_m depends on surface temperature,tropospheric temperature profile,and the vertical distribution of water vapor.The surface temperature dependence is borne out by a comparison of T_m and the values of surface temperature T_s using radiosonde profiles of Beijing Station(No.54511)throughout 1992.The analysis of radiosonde profiles spanning a one-year interval(1992)from sites in eastern region of China with a latitude range of 20-50°N and a longitude range of 100-130°E yields the coefficients α and b of a linear regression equation T_m= α+bT_s. 展开更多
关键词 global positioning system(GPS) vertical integrated water vapor weighted mean temperature
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Contrasting Impacts of Three Types of ENSO Event on Boreal Autumn Rainfall over Southwest China
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作者 Jiajie Hu Wei Wang Yining Tan 《Journal of Geoscience and Environment Protection》 2021年第10期14-27,共14页
The autumn precipitation over southwest China is one of the main causes of meteorological disasters. Using observed monthly station rainfall data and HadISST and NCEP/NCAR analysis data, the impacts of three types of ... The autumn precipitation over southwest China is one of the main causes of meteorological disasters. Using observed monthly station rainfall data and HadISST and NCEP/NCAR analysis data, the impacts of three types of El Ni<span style="white-space:normal;">&#241</span>o-Southern Oscillation (ENSO) events on the boreal autumn rainfall over southwest China were determined. Over southwest China, autumn rainfall constitutes > 20% of the total annual rainfall and a marked decline in autumn rainfall commenced around 1990. During La Ni<span style="white-space:normal;"><span style="white-space:normal;">&#241</span></span>a events, there is surplus (deficit) over the middle (northwest and southeast) of southwest China. In cnetral Pacific (CP) El Ni<span style="white-space:normal;">&#241</span>o events, the autumn rainfall anomaly shows a deficiency over China. The large-scale atmospheric circulation anomalies in the three ENSO categories also exhibit distinct characteristics. During CP El Ni<span style="white-space:normal;"><span style="white-space:normal;">&#241</span></span>o autumns, the pressure anomaly over the North Pacific Ocean displays a “<img src="Edit_8b97423a-3df3-4458-ad74-b4f2006dd708.png" alt="" />” structure, with a high-pressure anomaly over the Asian continent. An anomalous cyclone appears over the western North Pacific (WNP). In EP El Ni<span style="white-space:normal;"><span style="white-space:normal;">&#241</span></span>o autumns, the pressure anomaly over the North Pacific Ocean has a “<img src="Edit_3a7520ca-bfdd-4f81-a35c-4118a4616a5a.png" alt="" />” structure, with a low-pressure anomaly over the Asian continent. An anomalous anticyclone appears over the WNP and the 500-hPa anomalies are opposite to those of CP El Ni<span style="white-space:normal;"><span style="white-space:normal;"><span style="white-space:normal;">&#241</span></span></span>o events. During La Ni<span style="white-space:normal;"><span style="white-space:normal;">&#241</span></span>a autumns, the characteristics of circulation present<span style="font-family:;" "=""> </span><span style="font-family:Verdana;">the opposite structure to those of CP El Ni<span style="white-space:normal;"><span style="white-space:normal;"><span style="white-space:normal;">&#241</span></span></span>o events. This work is of certain significance for an in-depth understanding</span><span style="font-family:Verdana;"> of</span><span style="font-family:Verdana;"> the impacts of ENSO on the autumn precipitation over southwest China.</span> 展开更多
关键词 El Niño-Southern Oscillation Autumn Rainfall Integrated water vapor Transport Southwest China
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