Name:
(Above)19cm-longsectionofaGISP2icecorefrom1855mdepthshowingannuallayers.Summerlayers(arrowed)aresandwichedbetweendarkerwinterlayers.
Photo credit:Anthony Gow/USACE/NOAA2001
Interpretations: ReadingtheBookofEarth
Togeologists,thisplanetofoursisn'tjustaplacewherewondrousthingshappeneveryday.TheEarthwestudyisadynamicsystem,constantlyproducingtheenvironmentsweallexperiencewhilesimultaneouslywritingitsautobiography.
Thelayersinsanddunes,glaciers,andlakebottomsarepagesofthisbook.
Geologistsandclimatescientiststranslatethesetomes,sothateveryonecanlearnEarth'sstory.Justaswereadoftheworld
ofdinosaurs,thelifeoftheancientseas,andlushjunglesthathaveturnedtodeserts,sotoodowereadofchangesintheskiesabovethem.Thetemperaturerangesandprecipitationpatternsthatgovernlifetodaywerenolessimportantinthepast.Glacialiceisavastrepositorycontainingsnowthatoncefell,dustthatflewthroughtheair,andbubbles̶tinysamplesoftheancientatmosphere.Theicecorepicturedaboveisjustoneexcerptfromthebook,witheachlayeroficepreservingoneyearofEarth'sstory.
ThroughthecourseofthisactivityyouwillinterpretaportionofthebookofEarthby
҉ Graphingandanalyzingicecoremethanedata,
҉ Calculatingtherateofchangeinmodernatmosphericconcentration,
҉ ComparingtheradiativeforcingofCO2andCH4quantitatively,and
҉ Predictingthenextchapterinthisstoryandtheplaceofhumanityinit.
(Above)Atmosphericconcentrationsofcarbondioxideandnitrousoxideoverthelast10,000kBPandsince1750(insetpanels).Measurementsareshownfromicecores(differentcoloursfordifferentstudies)andatmosphericsamples(redlines).Correspondingradiativeforcingsareshownontherightaxes.
©IPCC2007 Summary for Policymakers
(Left)Relativeforcingmechanismsofmodernclimatechange.
©UNEP/GRID-Arendal2005 Vital Climate Change Graphics
1.Openthecasestudy5.2studentdatasetusingyourspreadsheetprogram.
2.Createascatterplot(thekindconnectedwithaline)ofyourdatawithmethaneconcentrationonthey‐axisandageonthex‐axis.Reverseyourx‐axissothat0yearskBP(thepresent)isontheright.
3.Attachanimageorcopyofyourgraphtothisassignment.
4.Characterizeyourgraph.Whattrendsdoyounotice?Howdoesthepresentdifferfromthepastintermsofatmosphericmethaneconcentration?Bespecific.
5.Accordingtoyouricecoredata,whendoesthemostdrasticchangeinatmosphericmethaneconcentrationoccur?Fromthatdatetothepresent,whatistherateofincreaseinmethaneconcentrationinppbperyear?
6.Howdoesyouratmosphericconcentrationgraphformethanecomparetothoseofothergreenhousegases(shownonthefirstpageoftheactivity)?
7.RadiativeforcingisameasureofthepowerthatradiationhasperunitareaofEarth'ssurface.Thegreatertheradiativepoweroftheatmosphere,themoreheatenergyitmaintains,andthegreatertheimpact(orforce)ithasontheclimate.IfCO2hasaradiativeforcingof1W/m2at340ppmandCH4hasaradiativeforcingof0.1W/m2at850ppb,whichgasismorepowerful?
8.Howmanytimesgreateristheradiativeforcingofthemorepowerfulgas?
9.Basedonexperimentaldata*,doublingofthecurrentamountofmethaneintheatmospherewouldresultinatleasta0.5°Cincreaseinglobalaveragetemperature.Atthecurrentrateofchange,whenwouldtheatmospherereachadoubledconcentration?HowmuchhotterwouldEarthbeonaverageatthattimeduesolelytothedoublingofmethaneindegreesCandF?(1°C=0.56°F)
10.Giventhatthecurrentprimarysourcesofatmosphericmethanearelivestockactivityandextractionfromnaturalgasfieldsandcoalseams,doyouforeseeanincrease,decrease,orstabilityintherateofchangeinatmosphericmethane?Explainindetail.Howwillfutureclimatedifferaccordingto yourprediction?
11.Isitpossibletochangethefutureyoujustpredicted?Ifso,how?Ifnot,howwillwehavetochangetoliveinthisfutureclimate?
* Wuebbles,D.J.,andHayhoe,K.(2000).Atmosphericmethane:Trendsandimpacts.In:Non‐CO GreenhouseGases:ScientificUnderstanding,ControlandImplementation,J.vanHametal.(eds.),pp.425‐432.KluwerAcademicPublishers,Netherlands.Availableat