Urbanization effect on precipitation over the Pearl River Delta based on CMORPH data

*DU Yo-Dong,MAO Cheng-Yn,ZHANG Ln

aDepartment of Atmospheric Sciences,Sun Yat-sen University,Guangzhou 510275,China

bGuangdong Provincal Meteorological Service,Guangzhou 511430,China

cJiangshan Meteorological Bureau,Quzhou 324100,China

dGuangzhou Meteorological Information Network Center,Guangzhou 511430,China

Urbanization effect on precipitation over the Pearl River Delta based on CMORPH data

CHEN Shenga,*,LI Wei-Biaoa,DU Yao-Dongb,MAO Cheng-Yanc,ZHANG Land

aDepartment of Atmospheric Sciences,Sun Yat-sen University,Guangzhou 510275,China

bGuangdong Provincal Meteorological Service,Guangzhou 511430,China

cJiangshan Meteorological Bureau,Quzhou 324100,China

dGuangzhou Meteorological Information Network Center,Guangzhou 511430,China

Based on the satellite data from the Climate Prediction Center morphing(CMORPH)at very high spatial and temporal resolution,the effects of urbanization on precipitation were assessed over the Pearl River Delta(PRD)metropolitan regions of China.CMORPH data well estimates the precipitation features over the PRD.Compared to the surrounding rural areas,the PRD urban areas experience fewer and shorter precipitation events with a lower precipitation frequency(ratio of rainy hours,about 3 days per year less);however,short-duration heavy rain events play a more signifcant role over the PRD urban areas.Afternoon precipitation is much more pronounced over the PRD urban areas than the surrounding rural areas,which is probably because of the increase in short-duration heavy rain over urban areas.

CMORPH;Urbanization effects;Pearl River Delta

1.Introduction

With rapid economic growth,China is undergoing rapid urbanization.On December 31,2013,the urban area was 8.58 million hm2.Urbanization is one of the very extreme cases of land-usechange.Comparedwiththesurroundingruralareas,the energy and water budgets in urban areas are altered owing to changes in the structure of the planetary boundary layer and radiation process,because of the heterogeneous surface properties,high-rise buildings,and anthropogenic aerosols.These changes then affect local airfow and circulation,resulting inchanges in the weather,local weather,and climate.A wellrecognized phenomenon of the urban climate is the urban heat island,in which there is a temperature contrast between a city and the surrounding rural areas(Collier,2006).Zhou et al. (2004)presented evidence for a signifcant urbanization effect on climate based on analysis of land-use changes and surface temperature in Southeast China,which experienced rapid urbanization.The warming of urbanization effect nearly reaches 0.05°C per decade.Ren and Zhou(2014)and Ren et al.(2012, 2008)evaluated the urbanization effects on trends of extreme temperature in China mainland,by applying a homogenized daily temperature dataset of the national reference climate stations and basic meteorological stations,and a rural station networkpreviouslydeveloped.Itispointedoutthaturbanization effects are statistically signifcant for daily minimum temperature,maximum temperature,and declining diurnal temperature range.Besidesurbanizationeffectsonthesummerdays,tropical nights,and frost days are signifcant.An insignifcant urbanization effect is detected for icing days.

However,the infuence of urbanization on local precipitation is still a matter of debate.In general,results from the metropolitan meteorological experiment have shown that during the summer months,urban effects lead to increased precipitation at distance of 30-75 km away from the city center.This fnding has been confrmed in many previous studies(Landsberg,1970;Sanderson and Gorski,1978; Bornstein and Lin,2000;Shepherd et al.,2002;Shepherd, 2005;Shepherd,2006;Moteetal.,2007;Hand and Shepherd,2009;Halfon et al.,2009).However,using satellite data that reveals plumes of reduced cloud particle size and suppressed precipitation,Rosenfeld(2000)demonstrated that urban and industrial air pollution can prevent precipitation in urban areas.This fnding differs from previous results concerning the enhancement of precipitation by urbanization. Measurements obtained by the Tropical Rainfall Measuring Mission satellite have demonstrated that both cloud droplet coalescence and ice precipitation formation are inhibited in polluted clouds.However,precipitation is a very important process in the global water and energy cycles.Thus,understanding the effects of urbanization on precipitation is very important for ongoing climate diagnostics and prediction.

Our study region is the Pearl River Delta(PRD),which is located in the southern Chinese province of Guangdong,and experienced rapid urbanization.In this paper,the PRD is anchored by the cities of Guangzhou,Foshan,Jiangmen, Zhaoqing,Dongguan,Huizhou,Zhongshan,Zhuhai,Macao, Shenzhen,and Hong Kong(Fig.1).On the basis of observations in 1988-1996,Kaufmann et al.(2007)suggested that urbanization in the PRD has reduced local precipitation because of the changes in the surface hydrology.Seto and Kaufmann(2009)further indicated that the precipitation reduction induced by urban land cover change over the PRD occurs mainly during the winter months.However,some recent studies reported an increase in precipitation and severe thunderstorms over the PRD(Meng et al.,2007;Li et al., 2009;Zhang et al.,2009;Li et al.,2011;Liao et al.,2011). Although these results provide evidence that convection and precipitation can be enhanced or initiated by urban regions,the urbanization effects over the PRD on local precipitation are still unclear.But it is very signifcant for us to understand the clear effects of urbanization on precipitation.This can help to improve the weather prediction and climate diagnostics over the PRD region.So in this study,we use satellite data with high spatial and temporal resolution to discuss the urbanization effect on precipitation over the PRD.

2.Data

Climate Prediction Center morphing(CMORPH)technique produces global precipitation analyses at very high spatial (0.07277°lat/lon,about 8 km at the equator)and temporal (30 min)resolution.This technique uses precipitation estimates that have been exclusively derived from low orbiter satellite microwave observations(Joyce et al.,2004).The features of precipitation estimates are transported via spatial propagation information that is obtained entirely from geostationary satellite IR data.Specifcally,CMORPH uses motion vectors derived from half-hourly interval geostationary satellite IR imagery to propagate the relatively high-quality precipitation estimates derived from passive microwave data. In addition,the shape and intensity of the precipitationfeatures are modifed(morphed)during the time intervals between microwave sensor scans by performing a timeweighted linear interpolation.This process yields spatially and temporally complete microwave-derived precipitation analyses that are independent of the infrared temperature feld. The CMORPH data has been generated since 2002.The data is archived and distributed at ftp://ftp.cpc.ncep.noaa.gov/precip/ CMORPH_V1.0.In this paper,the data of version 1.0 is used.The time range in this study is from 1998 to 2013.The accuracy and reliability of this data are evaluated and important results in atmospheric science are gained(Gebregiorgis and Hossain,2015;Ghajarnia et al.,2015;Li et al.,2015). This high-quality data is used to analyze the effects of urbanization on precipitation.Jiang and Tang(2011)concluded that urbanization has signifcant effects on the precipitation intensity in summer and autumn over the Yangtze River Delta.

Firstly,we assess the CMORPH data's performance over the PRD.Fig.2 shows a comparison of annual precipitation over Guangdong province for CMOPRH and rain gauge data obtained from Guangdong Provincal Meteorological Service for 1998-2010.Although the satellite data underestimates the precipitation amount in South China,it mainly captures the precipitation pattern,with two typical rainstorm centers at Yangjiang and Longmen.Thus,CMORPH data can be used to analyze the effects of urbanization on precipitation over the PRD.

3.Results

Because the CMORPH data has a high temporal resolution of 30 min,precipitation events could be analyzed with an accuracy of hours,rather than the traditional rainy day analysis.In this study,we defne one precipitation event as the cessation of continuous precipitation.The precipitation duration is defned as the hours from the beginning to the end of the precipitation event.Fig.3 shows the spatial distribution ofannual precipitation events over Guangdong province for 1998-2013 mean.Notably,the annual precipitation events over the PRD are low,especially in Foshan,Guangzhou,and Dongguan,central areas of the PRD.This fnding indicates that the PRD experiences fewer precipitation events.

Fig.4 shows the spatial distribution of the mean duration of precipitationeventoverGuangdongprovincefor1998-2013.It isobviousthattheprecipitationdurationoverthePRDisshorter in comparison with the surrounding rural areas.Figs.3 and 4 suggest that urbanization remarkably infuences precipitation over the PRD,causing fewer and shorter precipitation events.

We defned precipitation frequency as the ratio of the rainy hours in CMORPH data to the total hours.Fig.5 shows the spatial distribution of precipitation frequency over Guangdong province for 1998-2013.The PRD has lower precipitation frequency compared to the surrounding rural areas,nearly one percent less,about three days per year.This means that the urban area has more time with no rain.This fnding can be explained by Rosenfeld(2000).Cloud droplet coalescence and ice precipitation formation are inhibited in urban areas by the polluted air(Rosenfeld,1999;Rosenfeld et al.,2008).This is not a favorable result for environmental protection becauseprecipitation is very important for the wet deposition of polluted air to eliminate aerosols.

Short-duration heavy rain is a type of severe convective weather and can cause large losses of both property and life. We defned short-duration heavy rain as precipitation amount exceeding 20 mm in an hour.Fig.6 shows the spatial distribution of the percentage of short-duration heavy rain amount to total precipitation over Guangdong province for 1998-2013.There are high value centers in this fgure.The frst one is in the Yangjiang and Maoming region,located at the southwest to the PRD.The second one is in the Haifeng and Lufeng region.These two regions are the well-knownrainstorm centers in Guangdong province.Because they are located in the south slope of the main mountains,the topographic lifting effect plays a very important role in the heavy rain events.The last one is located in northern PRD, particularly in Foshan and Guangzhou.This result suggests that short-duration heavy rain is more frequent in this area. This fnding is in agreement with the conclusion of Li et al. (2011),the PRD experiences much stronger precipitation compared to the surrounding nonurban region because of urban effects.

Recent studies have shown that the diurnal rainfall pattern is strongly modulated by the effects of urbanization(Burian and Shepherd,2005;Mote et al.,2007).To investigate further aspects of precipitation over the PRD,we studied the diurnal variations in precipitation over this region.Fig.7 shows the diurnal variations in precipitation along the central latitude(23.5°N)of the PRD during 1998-2013 based on CMOPRH data.There are substantial differences in the diurnal variations in precipitation between the PRD and the surrounding nonurban areas.Afternoon precipitation is much more pronounced over the PRD urban areas than over the surrounding nonurban areas,which contributes to the increase in short-duration heavy rain over urban areas.

4.Conclusions and discussion

Based on the satellite data from the CMORPH at a very high spatial and temporal resolution,we assessed the effects of urbanization on precipitation over the PRD metropolitan regions of China.Although the CMORPH data underestimates the precipitation amount,the precipitation features over the PRD are simulated fairly well.Compared to the surrounding rural areas,the PRD urban areas experience fewer and shorter precipitation events,with a lower precipitation frequency. Short-duration heavy rain plays a more important role over the PRD urban areas.Afternoon precipitation is much more pronounced over the PRD areas than the surrounding areas,and this is probably associated with the increase in short-duration heavy rain over the urban areas.

As shown in other studies,urbanization not only modifes the exchange of heat,water,and momentum between the land surface and overlying atmosphere(Crutzen,2004)but also changes the composition of the atmosphere over urban areas (Pataki et al.,2003).More research(Ramanathan et al.,2001) is required to determine the dominant factors that cause the local precipitation changes over the PRD areas and to reveal the mechanismscontrolling the urbanization effecton precipitation.

Acknowledgements

This work was supported by the National Natural Science Foundation of China(41375050).The authors are very grateful to the editor and reviewers'valuable comments. CMORPH data used in this study was processed by the National Oceanic and Atmospheric Adminstration(NOAA).

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Received 7 March 2015;revised 31 May 2015;accepted 25 August 2015

Available online 3 September 2015

*Corresponding author.

E-mail address:chsh@mail2.sysu.edu.cn(CHEN S.).

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