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SIO210FinalexaminationWednesday,December12,201811:30-2:30Eckart227 Name:____________________Pleaseputyourinitialsornameoneachpage,especiallyifyoupullpagesapart.Turnoffallphones,iPods,etc.andputthemaway.Thisisaclosedbookexam.Youmayusetwopagesofnotes,bothsides,writtenorprinted.Youmayuseanon-communicatingcalculator.Checkwhichyoupreferregardingthereturnofthisexamandothergradedmaterials_______Iwillpickuptheexam(afterJan.2)_______Returntheexametctomeviacampusmail(orfulladdress)
Mailcode__________________________Possiblyusefulexpressionsandvalues;youwillnotneedallofthese.r:use1025kg/m3forgenericcalculationscp=4000J/kg°CrcpT1PW=1015W=1015J/secEarth’sradius:6371kmVEk=-t(x)/(rf)f=2Wsin(latitude)W=0.73x10-4/secsin(30°)=0.5sin(50°)=0.771°latitude=111km1Sv=1x106m3/secg=9.8m/sec2Multiplechoice(2pointseach;20pointstotal)Foreachmultiplechoiceproblem,circleONECORRECTanswer.1) InthetropicalPacific,theWalkercirculation
(a)weakensduringElNinoevents(b)strengthensduringElNinoevents(c)causesthesurfacewateralongtheequatortofloweastward(d)isassociatedwithexcessrainfallnearEcuadorandPeru
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2) Theclimateinteractionbetweenseasurfacetemperature,seaiceextent,andsolarradiation(reflectivity)showninthefigureisanexampleofa) stableequilibriumb) negativefeedbackc) neutralstabilityd) positivefeedback
3) NorthAtlanticDeepWaterisformedmostlyby
a) Downwarddiffusionofheataccompaniedbydeepupwellingb) BrinerejectionduetoseaiceformationintheGreenlandSeac) Openoceanconvectioninlimitedlocationsd) InflowofArcticwatersthroughtheCanadianarchipelagobetweenCanadaandGreenland
4) Geostrophicbalance
(a) Resultsfromtilting(sloping)ofisopycnals(b) IntheBrazilCurrentisassociatedwithhighsurfaceheightinthecenterofthegyre(mid-
Atlanticridgeregion)andlowsurfaceheightalongtheBraziliancoastline(c) ResultsfromEkmanconvergenceinthemixedlayer(d) IntheGulfStreamisassociatedwithlowsurfaceheightinthecenterofthegyre(near
Bermuda)andhighsurfaceheightalongtheU.S.coastline5) Whichofthefollowingwatermass/straitcirculationsisNOTassociatedwithdensewater
formationinasemi-enclosedsea?a) IndonesianThroughflowWaterb) MediterraneanOverflowWaterc) NordicSeasOverflowWaterd) RedSeaWater
6) TheNyquistfrequency
a) Iscalculatedfromthetotallengthoftimeofatimeseriesb) Isthetypicalfrequencyofsurfacewavesc) Iscalculatedfromthetimeseparationbetweensamplesinatimeseriesd) Isthetypicalfrequencyofinternalwaves
7) UpwellingintheCaliforniaCurrentsystem
a) Occursonlywithinaverynarrowzonealongthecoastb) Isduetonorthwardalongshorewinds
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c) Isoftenassociatedwithlargeeddies/filamentsofupwelledwaterthatspreadwestwardoffshore
d) Bringswaterfromtheabyssalocean(>1000m)totheseasurface8) SubtropicalgyressuchastheGulfStreamgyre
(a) Extenddowntothebottomoftheoceanwithoutchangeofhorizontalextent(b) AredrivenbyEkmanconvergenceanddownwelling(pumping)(c) Usuallyhaveveryfreshwaterinthecenterattheseasurface(d) Aredrivenbycoolingoftheseparatedwesternboundarycurrent(GulfStream)
9) Potentialtemperature
a) Doesnotchangeasaparcelofwaterismovedadiabaticallyfromtheseasurfacetothedeepocean
b) Changesasaparcelofwaterismovedadiabaticallyfromthesurfacetothedeepoceanc) Cannothaveaverticalinversion(coldabovewarm)d) Ismeasureddirectlywithathermistororthermometer
10) TheLeeuwinCurrentis
a) ThewesternboundarycurrentoftheIndianOceanb) TheeasternboundarycurrentoftheSouthAtlanticOceanc) Anequatorwardflowingeasternboundarycurrentd) Apolewardflowingeasternboundarycurrent
Problems11)14(2,3,2,3,2,2)Atthesurfaceoftheocean,thetropicaloceanisheatedandthehighlatitudeoceaniscooled,intheannualmean(averageovermanyyears).Themapshowstheannualmeansurfaceheatflux.Positive:oceanisheated.Negative:oceaniscooled.
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a)Circlethetworegionsofmaximumoceanheatlossinthemid-latitudeNorthernHemisphere.Namethemajorsurfacecurrentsassociatedwiththeseheatlossareas.
_Kuroshio_________________(NorthPacific)
_GulfStream_________________(NorthAtlantic).
Circletheoneareaofmajorheatlossinthehigh-latitudeNorthernHemisphere.CircleregionoffNorway(alittlehardtofindinthismapprojection–youcanseeitbestintheupperleftcorner)
b)Circlethethreeregionsofmaximumoceanheatlossinthemid-latitudeSouthernHemisphere.Namethemajorsurfacecurrentsassociatedwiththeseheatlossareas.
_EastAustralianCurrent___________________(SouthPacific)
_BrazilCurrent___________________(SouthAtlantic)
_Agulhas___________________(Indian)
c)Explainingeneraltermshowthesecurrentsin(a)and(b)contributetolargeheatlossintheseregions.
Allofthesecurrentsarepoleward.Thebackgroundoceantemperaturegradient(upperocean)ishighinthetropicstolowinthesubpolar/polarregions.Polewardcurrentscarrywarmwater.Theatmospherecirculationismuchmorezonal,andsothewarmcurrentsencountercoolerairinregionswhereinsolationislowerthaninthetropics.Thiscausesoceancooling.
e) IntheequatorialPacificOcean,thereisheatgain.Whereistheheatgainlargest?(circleit)Circlethehighheatfluxregionalongtheeasternequator.
Explainwhytheequatorialheatgainislargerinthisregionthanatotherlocationsalongtheequator.Describetheoceancirculationthatresultsinthislargeheatgain.
Surfacewateriscoolerhere,sothewaterheatsmorethaninotherpartsofthetropics,giventheapproximatelysameinsolationandairtemperature.Surfacewateriscoolerhereduetoupwellingofcoolerwaterfrombelow.Upwellinghereisduetotheeasterlytradewinds(Walkercirculation),whichmovessurfacewaterfromeasternequatortopoolinthewest.ThedeeperwarmpoolinthewestmeansthatlocalupwellingthereduetoEkmandivergenceonlyupwellswarmwater,sodoesnotcreatecoolsurfacetemepratures.BecausethethermoclineismuchshallowerintheeasternPacificduetothewestwardflowofsurfacewater,localupwellingaccessescoolerwaterandcreatestheequatorialcoldtongue.
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f) Inthemid-latitudeNorthPacific(around30°N),theocean’smeridionalheattransportispoleward(andlarge).Describethecirculationandheatloss/gainthatcreatesthispolewardheattransport.(AssumethatthedeepNorthPacificdoesnotcontributemuchtooceanheattransport.)
Poleward(northward)Kuroshiomoveswarmwaternorthacross30N.Thereislargeheatlosstothenorth.Waterreturningsouthwardinthesubtropicalgyreiscooler.Thenetbalanceofnorthwardwarmandsouthwardcoolflowinthegyretransportsheatpoleward(intotheheatlossregion).12)(6points)Thehorizontalmomentumequationsinafluidinarotatingreferenceframeincludeacceleration,advection,Coriolis,pressuregradient,andviscousterms.x:¶u/¶t+u¶u/¶x+v¶u/¶y+w¶u/¶z-fv=-(1/r)¶p/¶x+¶/¶x(AH¶u/¶x)+¶/¶y(AH¶u/¶y)+
¶/¶z(AV¶u/¶z)y:¶v/¶t+u¶v/¶x+v¶v/¶y+w¶v/¶z+fu=-(1/r)¶p/¶y+¶/¶x(AH¶v/¶x)+¶/¶y(AH¶v/¶y)+
¶/¶z(AV¶v/¶z
(a) Whichpairsoftermsyieldgeostrophicbalance?(circleandnametheterms)Coriolisandpressuregradienttermsinbothequations.
(b) WhichpairsoftermsyieldEkmanbalance?(circleandnametheterms)Coriolisandverticalviscousterms
(c) Whichpairsoftermsyieldinertialbalance?(circleandnametheterms)Coriolisandaccelerationterms
13)22(2,2,4,4,4,2,4)ThemapshowstheannualmeanwindvectorsforthePacificOcean.
(a) MarkthelocationofthewesterlywindsintheNorthPacificandSouthPacific.Generalregionsurrounding40°Nand50°S.
(b) MarkthetradewindsintheNorthandSouthPacific.Generalregionaround20Nto10N
andlikewiseinsouthernhemisphere.
(c) IntheeasternNorthandSouthPacific,circletheregionswherethereisupwellingalongtheboundary.Whatisthenameofthecurrentsystemineachoftheseupwellingregions?
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___CaliforniaCurrentSystem________________________(NorthPacific)___Peru-ChileCurrentSystem(Ialsoaccept‘HumboldtCurrent”)_____(SouthPacific)
(d) ExplaintheupwellinginthesetworegionsintermsofEkmantransport.Youmaydrawrelevantarrowsonthemap,anddescribehereinwords.
Equatorwardwindsthatarepartofthesubtropicalhighpressuresystems(westerlywindsstrikingthecoastlines/mountains)driveoffshoreEkmantransport.Thisrequirescoastalupwellingforcontinuity.
(e) DescribethehorizontalvelocitieswithinanEkmanlayer,startingattheseasurface.Use
youranswertoProblem12baspartofyourexplanation.Windcreatesfrictionalstressattheseasurface.BecauseofCoriolisforce,thesurfacecurrentsareatanangletothewind(totherightinthenorthernhemisphereandleftinsouthernhemisphere).Thea
(f) HowdeepisatypicalEkmanlayerinmeters?____50meters_________
(g) InthecentralNorthPacific(180°to160°W,and10°Nto40°N),indicatethegeneraldirectionofEkmantransportrelativetothewesterlyandtradewinds.Usearrowsonthemap.IsthisaregionofEkmanconvergence(pumping)ordivergence(suction)?Underthewesterlies,Ekmantransportisequatorward(usearrows).Underthetrades,Ekmantransportispoleward(usearrows).BetweentheequatorwardandpolewardEkmantransportsthereisconvergence(pumping),i.e.downwardverticalvelocity
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14)12(2,2,2,2,4)Thefigureshowsthecartoonofthenormalwinds,precipitation,currents,surfacetemperatureandthermoclineintheequatorialPacific.
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(a) Onthefigure,circlethepartthatisthetradewindsandtheWalkercirculation.Explainhowthiscirculationisdrivenbytheocean.Circlethelittleblackarrowinthemiddle,pointingwestward–thisisthetradewinds.Thewholedashed‘convectiveloop’istheWalkercirculation.ThisisdrivenbytheSSTdistributionillustratedincolor,withwarmSSTtothewestandcooltotheeast,resultinginrisingairoverthewarmandsinkingoverthecool.(b) SupposethetradewindsintheequatorialPacificweaken.Explainhowthesurfaceoceancirculationchangesinresponsetothewindchange.IsthisanElNinooraLaNinastate?TheSSTdistributionisaresultofthewinds.Ifthewindsweaken,thereislesswestwardfrictionalflow(intheSouthEquatorialCurrent)atthesurface,andthereislessupwellingofcoolwaterintheeast,andlesspileupofwarmwaterinthewest.ThisistheElNinostate.
(c) Explainhowtheseoceancirculationandwindchangesaffecttheoceansurfacetemperaturedistribution.
Alreadyimplicitin(b)answer:changeincirculationcreateswarmanomalyineasternPacificsincethereisnolongerupwelledcoolwater.(Itdoesn’tactuallychangetheSSTmuchinthewest,becausethewarmpoolissodeep,butthisisadetailthatwasnotexpectedinthisanswer.)(d)ThefigureisthetimeseriesoftemperatureanomalyforthetropicalPacific(alsocalledtheNino3.4index).Positivemeanswarmtemperatureanomaly. MarkatleastonemajorElNinoepisodeonthefigure.Anyofthelargepositiveevents. MarkatleastonemajorLaNinaepisodeonthefigure.Anyofthelargenegativeevents.
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(e)TheequatorialthermoclineintheeasternPacific,asmarkedbythe20°Cisotherm,iscenteredat70metersdepth.Theverticaltemperaturegradientthroughthethermoclineis0.1°C/meter.Howfarupordownmustthe20°Cisothermmoveinordertoproduceapositive(warm)5°Ctemperatureanomalyat70metersdepth?Straightforwardcalculation:dT/dz=0.1°C/meterTohaveawarmanomalyat70mdepth,isothermmustmovedown.A5°Canomalyinagradientof0.1°C/meterrequiresdownwardmotionof50m.15)10(3,2,3,2)SEECOLORFIGUREONLASTPAGE(SEPARATEPAGE)NADW(greenpathways)formsintheNorthAtlanticanditsmarginalseas.
(a) Onthemap,markthelocationofthethreedeepconvectionsitesthatcreatethenew(northern)componentsofNADW.
Lookingfor:GreenlandSea,LabradorSeaandwesternMediterraneanSea.Iacceptedabroaderrange,includingIrmingerSea.
(b) WhatistheapproximatenetformationrateofNADW(overturningrateinunitsofSverdrups)asawhole?(Youcangivearangeofvaluesoranorderofmagnitude.)
Rateis15to20Sv.Iaccepted10Svalsoasanorderofmagnitude.
(c) IfthetemperatureofthesurfacewaterfeedingtheAtlanticoverturnaverages17°Candthedeepwaterformedintheoverturnaverages2°C,usetheoverturningvolumetransportfromyouranswer(a),andexpressionsgivenatthetopoftheexam,andcalculatethenetmeridionalheattransportassociatedwiththeoverturn.Thisisasimplecalculation:heatisgivenintheequationsattopofexam.
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Multiplythetransport,whichgoesnorthwardat17Candsouthwardat2C,bythetemperature,densityandspecificheat.Thetransportbalancesbydefinition.Heattransport=(VnorthTnorth)rcp+(VsouthTsouth)rcpVsouth=-VnorthAssumercpisthesameforboth,forsimplicityHeattransport=Vnorth(Tnorth–Tsouth)rcpEvaluatethiswithyouranswerfortransportin(b).Iwilluse15Sv,where1Sv=1x106m3/sec.Heattransport=(15x106m3/sec)(15°C)(1025kg/m3)(4000J/kg°C)=0.92x1015J/sec
(d) Inorderfortheretobeupwellingfromthedeepoceantotheupperocean,theremustbea
processthatconvertsdeepwatertoupperoceanwater.Listatleastoneprocessandcircleitontheschematiccirculationmap___Twoprocessescouldbelisted:diapycnaldiffusivity,andSouthernOceanupwellingfromdeeptosurface______________________
16)16(10,2,2,2)Thecolorfigurewith4panelsshowsPacificOceanpropertiesalongameridionalsectionat150°W.
(a) Labelthefollowingwatermasses,anddescribebrieflyhowyouidentifythem(salinityminimum,etc):
SubantarcticModeWater(SAMW)___Thicklayer(relativelyunstratified),northoftheACC_______AntarcticIntermediateWater(AAIW)___SalinityminimumnorthoftheACC__________________PacificDeepWater(PDW)____DeepoxygenminimumthroughoutPacific_________________LowerCircumpolarDeepWater(NorthAtlanticDeepWater)(LCDW)__Deepsalinitymaximum,especiallyintheACCbutalsonorthoftheACCwheremaximumisatbottom___________________AntarcticBottomWater(AABW)__Verycold,densewateratbottom,alsosameasLCDWnorthoftheACC___________________
(b) Onthepotentialtemperaturesection(topleft),indicatethelocationoftheAntarcticCircumpolarCurrent(ACC).Useournotationforcurrents(circlewithinacircleorx-within-a-circle,orarrow),toshowthedirectionoftheACC.
Drawbiggestcirclewitharrowhead(pointingouttowardsreader)atsurface,ATlocationofthesteepisothermslope(notatthebottomofthecurvewheretheisothermsflatten!)Thisisaround50to55°S.Thendrawdirectlyunderneaththat,circleswithdecreasingdiameterwithdepth
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(c) Acrossthetopofthepotentialtemperaturesection,sketch(draw)theseasurfaceheight(SSH)thatyouinferfromyouranswerto(b),andthencontinuetheseasurfaceheightforthewholesection.MakesurethatyourlowSSHandhighSSHareinapproximatelytherightlocations.Easiestwaytodothisisdrawthemirrorimageofthedensitycontours,whicharesimilartothetemperaturecontours,intheupper500morso.IntheACCyouwillmirrortheflatisopycnalsatsouthernend,steepslopewithintheACC.Inthesubtropicalgyres,youwillmirrorthecurvingisotherms/isopycnalsthatrepresentthesubtropicalgyres.Atthefarnorthernend(Alaska)youwillmirrorthediveoftheisothermsintothecoastline.
(d) Whatdynamicalbalance(fromproblem12)didyouuseinanswering(c)?Geostrophicbalance.Ifyouanswered‘hydrostatic’Igaveyoupartialcredit,sinceweassumeitisbothgeostrophicandhydrostaticbalance.
----FORPROBLEM15---
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