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The influence of the organic aerosol component on CCN supersaturation spectra for different aerosol types 总被引:5,自引:0,他引:5
MIHAELA MIRCEA MARIA CRISTINA FACCHINI STEFANO DECESARI SANDRO FUZZI ROBERT J. CHARLSON 《Tellus. Series B, Chemical and physical meteorology》2002,54(1):74-81
Abstract This paper describes the effect of the presence of water-soluble organic compounds (WSOC) in aerosol particles on the aerosol critical supersaturation as defined by the Köhler theory and on cloud condensation nuclei (CCN) number concentration. Taking into account both the soluble mass increase and the surface tension depression due to WSOC, we calculated a substantial decrease of the aerosol critical supersaturation, which results in a large increase in CCN number concentration. CCN supersaturation spectra were computed for three different aerosol types: marine, rural and urban. The increase of CCN number concentration in the presence of WSOC (with respect to the case when only the inorganic aerosol compounds are considered) varies with aerosol type, with an increase up to 13% in the marine case, up to 97% in the rural case, and up to 110% in the urban case, for the supersaturation range typical of atmospheric conditions. 相似文献
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MIHAELA DINU 《地理学报(英文版)》1999,(1)
IntroductionRolnalha,acountryof238391kmZlocatedintheSouth-EanemPaltofEurope(43'37'-8'15'N20,15,~29'41'E)boastSagreatvarietyofnatulalcondihons.ThereliefasawholeisarTangedonthreelevelsfmountainsstirroundedbyhillsandplains,stretchingoutbetWeentheCarpathianMountains(highestpeak2544m),whichencirCletheT~lvAnanPlateauinthecentre,andtheDanubehiverandtheBlackSeatotheSouthandSouth-EaSt,respechvely.Theselevelsareequallydivided(aroundl/3each)andconcentricallydistributed(FigUrel).Theclhate,vegeta… 相似文献
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JEAN‐JACQUES CORNÉE JEAN‐LÈN LÉTICÉE PHILIPPE MÜNCH FRÉDÉRIC QUILLÉVÉRÉ JEAN‐FRÉDÉRIC LEBRUN PIERRE MOISSETTE JUAN‐CARLOS BRAGA MIHAELA MELINTE‐DOBRINESCU LYVANE DE MIN JULIEN OUDET AURAN RANDRIANASOLO 《Sedimentology》2012,59(5):1426-1451
Pliocene and Pleistocene deposits from Grande‐Terre (Guadeloupe archipelago, French Lesser Antilles) provide a remarkable example of an isolated carbonate system built in an active margin setting, with sedimentation controlled by both rapid sea‐level changes and tectonic movements. Based on new field, sedimentological and palaeontological analyses, these deposits have been organized into four sedimentary sequences (S1 to S4) separated by three subaerial erosion surfaces (SB0, SB1 and SB2). Sequences S1 and S2 (‘Calcaires inférieurs à rhodolithes’) deposited during the Late Zanclean to Early Gelasian (planktonic foraminiferal Zones PL2 to PL5) in low subsidence conditions, on a distally steepened ramp dipping eastward. Red algal‐rich deposits, which dominate the western part of Grande‐Terre, change to planktonic foraminifer‐rich deposits eastward. Vertical movements of tens of metres were responsible for the formation of SB0 and SB1. Sequence S3 (‘Formation volcano‐sédimentaire’, ‘Calcaires supérieurs à rhodolithes’ and ‘Calcaires à Agaricia’) was deposited during the Late Piacenzian to Early Calabrian (Zones PL5 to PT1a) on a distally steepened, red algal‐dominated ramp that changes upward into a homoclinal, coral‐dominated ramp. Deposition of Sequence S3 occurred during a eustatic cycle in quiet tectonic conditions. Its uppermost boundary, the major erosion surface SB2, is related to the Cala1 eustatic sea‐level fall. Finally, Sequence S4 (‘Calcaires à Acropora’) probably formed during the Calabrian, developing as a coral‐dominated platform during a eustatic cycle in quiet tectonic conditions. The final emergence of the island could then have occurred in Late Calabrian times. 相似文献
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