Састав материјала
Theatmosphereontheearthhasconstantgascomponentssuchasnitrogen,oxygen,andargon,aswellasgascomponentswithrelativelyfixedcontentsuchascarbondioxideandnitrousoxide.Therearealsohighlyvariablegascomponentssuchaswatervapor,carbonmonoxide,sulfurdioxide,andozone.Solidandliquidaerosolparticlessuchasdust,smokeparticles,saltparticles,waterdroplets,icecrystals,pollen,spores,bacteria,etc.areoftensuspended.
Гасцомпоситион
Азот (78,084%), кисеоник (20,946%), аргон (0,934%), водена пара (0,25%), угљендиоксид (0,032%), неон (0,0018%), хелијум (0,00052%), метан (0,0002%), криптон (0,0001%), водоник (0,00005%), ксенон (0,000008%), озон (0,000001%), други (0,001421%).
Mostofthemareneutralmoleculesbelow60km;from60kmupwards,theybegintoionizeundertheactionofsolarradiationduringtheday,andmostofthemareionizedabove90km.Intheupperatmosphere,somecomponentsarestilldecomposedintoatomicstates.
Еволутионофцомпоситион
Theearth’satmosphereisconstantlyevolvingwiththedevelopmentoftheearth,andittookalongtimetoformtoday’ssituation.
Accordingtoinference,themainelementsthatmakeuptheearth’sprimitiveatmospherearehydrogen,helium,carbon,nitrogen,oxygenandsoon.Undertheactionofgravity,theheavierelements(carbon,nitrogen,oxygen,etc.)areeasiertobepreservedbytheearth,andthelighterelementsareeasiertoescape.Atthesametime,elementswithrelativelyactivechemicalpropertiesarelikelytoformcompoundsandbepreserved(suchashydrogen,carbon,nitrogen,oxygen,etc.).Theinertandlightheliumisnoteasilypreservedbytheearth'satmosphere.Intheprocessofcompoundformation,firstly,hydrogenandcarboncombinetoformmethane,andmethanereactswithoxygentoformwaterandcarbondioxide.Inaddition,nitrogencombineswithhydrogenationtoproduceammonia,whichoxidizestoproducewaterandnitrogen.Therefore,theinitialcomponentsoftheearth’satmospherearemainlymethane,watervapor,carbondioxideandnitrogen.
About300millionyearsago,thecompositionoftheearth’satmospherechangeddramatically,namelythereductionofcarbondioxideandtheincreaseofoxygen.Theincreaseofoxygenintheatmospherehasacounterproductiveeffectonlifeactivities,whichpromotesthefurtherdevelopmentoforganisms.Respirationisalsotakingplaceinthelifeactivitiesoforganisms,thatis,absorbingoxygenandexpellingcarbondioxide.Duetothelargenumberofgreenplants,ontheonehand,thereductionofcarbondioxideintheatmosphereandtheincreaseofoxygenarecaused,ontheotherhand,anewcycleofoxygenandcarbondioxideintheatmosphereisgraduallyrealized.Thisprocesshasalong-termdevelopmentbetweentheatmosphereandorganisms.Intheprocess,mutualinfluenceandmutualrestraintareestablished,andthedynamicequilibriumstateofoxygenandcarbondioxideisestablished,andthecontentofoxygenandcarbondioxideintheatmospherealsostabilizes.
Thereductionofozoneinthemiddleatmospherecontinuestodevelop,andcontinuesfromthelastcenturytothiscentury.
Емисије гасова стаклене баште (угљендиоксид, метан, фреон, итд.) узроковане људским активностима такође изазивају озбиљну забринутост због глобалног загревања.
Импацтсофхуманацтивитиес
Уништавање првобитних шума
Forestsarethemainconsumersofcarbondioxideingreenplants,aswellasThemakerofoxygen.Itisestimatedthatduringthegrowingseason,thegeneralbroad-leavedforestcanabsorbaboutonetonofcarbondioxideperhectareperdayandproduce730kgofoxygen.Ifthetotalcarboncontentoftheworld’sforestsisestimatedtobe450tons,iftheaverageannualtreeis30years,thenabout55billiontonsofcarbondioxideareconsumedeveryyear.Itcanbeinferredthatsincetheprimevalforestisreducedby1/2,theannualcarbondioxideconsumedbytheforestisreducedbyapproximately55billiontons.Asaresult,thecarbondioxidecontentintheatmosphereincreases.
Масивно сагоревање угља, нафте и других горива
Thefossilfuelsformedinthepasthundredsofmillionsofyearshavebeenexploitedinlargequantities,andtheconsumptionofoilisevenmoreintense.increase.Accordingtostatistics,theworld'scoalandoilproductionwas1.8billiontonsand500milliontonsrespectivelyin1950,andbothreached2.7billiontonsin1975,anincreaseof50%andnearlyfourtimesrespectively.Becausetheconsumptionofmaterialscannotberecoveredbycombustion,theburningofalargeamountoffuelisincreasingdaybyday,resultingintheconsumptionofoxygenintheatmosphereandtheincreaseofcarbondioxide,makingthenaturalcarbonandoxygencycleimbalance.Theincreaseincarbondioxideintheatmosphereandtheconsumptionofoxygenareaseriousprobleminthelongterm.
Развој пољопривреде
Therapiddevelopmentofagriculturalproductionhascausedcropphotosynthesistoproceedonanunprecedentedscale.Circulationplayedapositiveroleinpromoting.Thishasmadecertainadjustmentstotheimbalanceofthenaturalmaterialcirculationprocesscausedbythedestructionofalargenumberofvirginforests.Intheprocessofagriculturaldevelopment,theroleoflegumerhizobiaandtheincreaseofsyntheticnitrogenfertilizersaresignificant,whichalsopromotesthenitrogencycle.
Други утицаји
Leadandhigh-octanedecompositionproductsemittedbyjetaircrafthaveanimpactontheozonelayer.Ifnotcontrolled,itwilldestroyTheozonelayer,organismsonthesurfacewillbeexposedtoharmfulultravioletradiation.Inaddition,high-altitudeflightalsocausedanincreaseinhigh-altitudecirrusclouds.
Asfarasthesituationisconcerned,themoreprominentmanifestationoftheimpactofhumanactivitiesontheatmosphereistheincreaseincarbondioxide,dustandpollutants.Althoughhumanactivitiesalsohaveacertainimpactonthecycleofnitrogenandoxygeninnature,thecontentofnitrogenandoxygenintheatmosphereisabsolutelydominant.Relativelyspeaking,thisimpactisextremelysmall.Itcanbeconsideredthatithasbeenformedinnatureforalongtime.Thedynamicbalanceofnitrogenandoxygenhasnotbeenseverelydestroyed.
ПланетсофттхеСоларСистем
8 планета соларног система може се грубо поделити на две категорије: 4 унутрашње планете (Меркур, Венера, Земља, Марс) близу чврстих планета Сунца. Њихова величина и маса су релативно мале.
Solidplanetsandgaseousplanetsinthesolarsystemhavecompletelydifferentatmosphericcompositions.Amongthesolidplanets,theatmosphereofMercuryisverythin,basicallynegligible.ThemainatmosphericcompositionofVenusandMarsisCO2,whilethemainatmosphericcompositionoftheEarthisnitrogen(N2)andoxygen(O2).Themainatmosphericcomponentsofthesurroundingfourgaseousplanetsarehydrogen(H2)andhelium(He).
Екопланетатмоспхере
Duetothelongdistance,theexistingastronomicalobservationtechnologycanprovideuswithinformationaboutthechemicalcomposition,thermalstructureandatmosphericcirculationcharacteristicsoftheexoplanetatmosphere.Verylimited.However,itcanbeinferredthattheatmosphericchemicalcompositionofexoplanetscanberoughlydividedintothefollowingtypes:
ExoplanetswhosemassismuchlessthanthemassoftheEartharesolidplanets,andtheyprobablydonothaveanatmosphere.Thisisbecausethegravitationalforceofaplanetwithasmallermassisalsosmaller,andthethermalmotionspeedofthegasmoleculesinitsatmospherecaneasilyreachtheescapespeedoftheplanet,causingthegasmoleculestoescapeintospace.Moreover,thesolarwindeasilyerodestheatmosphereandblowsgasmoleculesintospace.
However,ifexoplanetswithsmallermassesarefartherawayfromthestar,thetemperatureoftheatmosphereislower,thethermalspeedofgasmoleculesisslow,andgasmoleculesarenoteasytoescape,theseasteroidsmaystillhaveanatmosphere.
ExoplanetswhosemassismuchgreaterthanthemassoftheEarth,especiallytheJupiter-likeplanetswhosemassismorethan30timesthemassoftheEarth,shouldhavesimilaratmosphericcomponentstothoseofthesolarsystemJupiterandSaturn.HThemassesof2andHeaccountformorethan99%ofthetotalmassoftheatmosphere(theproportionsofH2andHeareabout89%and10%),thesetwocomponentsaretheBigBangThemaincomponentoftheprimitivenebulaleftbehindisalsothemostabundantmatterintheuniverse.
Exoplanetswithamassbetween10and30timesthemassoftheEarthshouldalsohaveatmosphericcompositionbasedonH2andHe,similartothesolarsystem'sUranusandNeptune.ButintheatmospheresofUranusandNeptune,theproportionofH2islowerthanthatofJupiterandSaturn,about80%,whiletheproportionofHeisrelativelyhigher,about18%.Thecontentofmethaneandammoniaintheatmosphereoficyplanetsishigherthanthatofgiantgaseousplanets.