简介:SurfaceO3concentrationanditsprecursorshavebeenobservedatLongfengshanstation,HeilongjiangProvinceforaperiodofoneyearfromAugust13,1994toJuly30,1995.RelationshipbetweensurfaceO3andthemeteorologicalconditionsduringthisperiodisanalyzedinthisstudy.ObservationresultsshowthatdiurnalvariationofsurfaceO3followsapatternofdouble-peakswithamplitudeof27—28ppbunderfinedaysinsummerandautumn.Althoughthediurnalvariationissmall(14ppb),itisstilldetectablewhenitisovercast.DiurnalvariationofO3isirregularunderrainydays.SurfaceO3concentrationriseswhenwindspeedstartstoincreaseat0800BT(BeijingTime)from0to6ms-1inautumn,winterandsummer.RelativehighsurfaceO3concentrationisnoticedfrequentlywhenS,SSW,SWandWSWwindareencounteredatthestationduringallseasons.At0800BTand1400BTthesurfaceO3concentrationincreaseswiththeincreaseofglobalradiationaccordinglyduringfinedaysinwinter,springandautumn.DuringfinedaysaveragepeakofO3concentrationinsummeris20ppbhigherthanthatinwinterwhiletheaveragepeakofglobalradiationinsummerisalmosttwiceashighasthatinwinter.TheaveragesurfaceO3concentrationunderfinedaysinautumnatLongfengshanstationis14ppblowerincomparisontotheobservationresultsfromLin’anstationwhereLin’anisataboutthesamelongitudeandlowerlatitude,withsameenvironment,whichismainlycausedbythedifferenceofglobalradiationduetodifferentlatitudesinthesetwoareas(differenceofaveragepeakglobalradiationabout100Wm-2).
简介:A2m~3isothermalcloudchambermainlyforicenucleationresearchisdescribedinthispaper.Itsstructure,attachedinstrumentsandexperimentalproceduresarealsopresented.TheexperimentsofdeterminingtheicenucleieffectivenessfortheAgl-containingaerosolsproducedbythreeformulationshavebeenconductedandtheresultshavebeencomparedwiththoseoftheCSU960-literisothermalcloudchamber.Allexperimentalresultsshowthatthechamberhasadvantagesofstableperformanceandreproducibility.Itwouldbeexpectedtobecomeausefulexperimentalfacilityforicenucleationresearch.
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简介:ThreesamplingcrosssectionsalongthesouthpathstartingfromtheTropicsthroughthevaporpassageintheYunnan-GuizhouPlateautothemiddle-lowreachesoftheYangtzeRiver,thenorthpathfromWestChina,viaNorthChina,toJapanunderthewesterlies,andtheplateaupathfromSouthAsiaovertheHimalayastothenorthernTibetanPlateau,aresetup,basedontheIAEA(InternationalAtomicEnergyAgency)/WMOglobalsurveynetworkandsamplingsitesontheTibetanPlateau.Thevariations,andtherelationshipwithprecipitationandtemperature,oftheδ18Oinprecipitationalongthethreecrosssectionsareanalyzedandcompared.Alongthesouthpath,theseasonaldifferencesofmeanδ18OinprecipitationaresmallatthestationslocatedintheTropics,butincreasemarkedlyfromBangkoktowardsthenorth,withtheδ18Ointherainyseasonsmallerthaninthedryseason.Theδ18Ovaluesinprecipitationfluctuateonthewhole,whichshowsthattherearedifferentvaporsources.Alongthenorthpath,theseasonaldifferencesofthemeanδ18OinprecipitationforthestationsinthewestofZhengzhouareallgreaterthanintheeastofZhengzhou.Duringthecoldhalfoftheyear,themeanδ18OinprecipitationreachesitsminimumatUrumqiwiththelowesttemperatureduetothewide,coldhighpressureoverMongolia,thenincreasesgraduallywithlongitude,andremainsatroughlythesamelevelatthestationseastwardfromZhengzhou.Duringthewarmhalfoftheyear,theδ18Ovaluesinprecipitationarelowerintheeastthaninthewest,markedlyinfluencedbythesummermonsoonoverEastAsia.Alongtheplateaupath,themeanδ18OvaluesinprecipitationintherainyseasonarecorrespondinglyhighinthesouthernpartsoftheIndiansubcontinent,andthendecreasegraduallywithlatitude.Asharpdepletionofthestableisotopiccompositionsinprecipitationtakesplaceduetotheverystrongrainoutofthestableisotopiccompositionsinvaporintheprocessofliftingoverthesouthernslopeo
简介:ThisbookistheproceedingsoftheNATOAdvancedScienceInstitute“RemoteSensingofProcessesGoverningEnergyandWaterCyclesintheClimateSystem”,heldinPln,Germany1—12May1995.Inthisbook,atotalof21conferencepapersareincludedwithaspecialpartforpostersummaries.Allthepapersaremodifiedorshortenversions
简介:利用1964-1993年NCEP/NCAR再分析风应力资料和中国科学院大气物理研究所发展的14层热带太平洋环流模式(OGCM),对热带太平洋与E1Nin^~o有关的年际变化进行了研究。首先,分析了西太平洋暖池次表层海温异常(SOTA)与Nin^~o3区海表温度异常(SSTA)的年际变化关系,发现在E1Nin^~o事件之前,暖池的次表层海温都有明显正异常出现,它的东传导致了E1Nin^~o的发生,并且SOTA的传播随纬度变化,沿赤道东传,在赤道外西传。然后,选取了20世纪70年代和80年代两次最强的E1Nin^~o事件讨论了引起这种机制的可能原因——西风异常的作用。最后,对1964-1993所有的E1Nin^~o年的风场、次表层海温和海表温度的异常进行了综合分析。