Dr.$John$R$Worden$ - Science - NASA

Dr.$John$R$Worden$
!
Jet!Propulsion!Laboratory!!
California!Ins5tute!of!Technology!
4800!Oak!Grove!Dr.!MS!233G200!!
Pasadena,!CA,!91109!!
818G393G7122!
john.worden@jpl.nasa.gov!
!
Current$Responsibili5es$
Principal$Inves5gator$$
NASA!Aura!Tropospheric!Emission!Spectrometer!Satellite!Instrument!
!
Group$Supervisor$
JPL!Tropospheric!Sounding,!Assimila5on,!and!Modeling!Group!
Current$Research$Interests$
My!primary!research!interests!include!the!remote!sensing!of!
atmospheric!trace!gases!and!the!use!of!these!data!for!understanding!
atmospheric!chemistry,!the!global!water,!carbon,!and!nitrogen!cycles,!
and!their!linkages.!I!have!authored!or!coGauthored!over!72!!publica5ons!
on!remote!sensing!of!tropospheric!trace!gases,!the!use!of!water!vapor!
isotopes!for!examining!the!global!water!cycle,!ozone!produc5on!in!
biomass!burning!smoke!plumes!and!over!the!Asian!Monsoon!region,!as!
well!as!CO 2 !flux!and!CH 4 !emissions!es5mates.!
Educa5on$
Doctorate$in$Physics!!!!!
University!of!Colorado!1996!
Thesis:!A!mul5Gcomponent!model!of!Solar!Irradiance!Variability!
!
Bachelor$of$Science$in$Physics!!!!
University!of!California!at!Santa!Cruz!1990!
!

John%R%Worden%
Summary$of$Current$Responsibili5es$
!
Principal$Inves5gator$(TES):!As!the!Principal!Inves5gator!(PI)!on!the!Aura!
Tropospheric!Emission!Spectrometer!(TES)!satellite!instrument,!my!
responsibili5es!include:!(1)!Managing!the!Aura!TES!project.!(2)!Developing!the!!
science!and!measurement!plans!to!maximize!science!return!from!the!instrument!
and!interac5ng!with!NASA!and!JPL!management!to!ensure!these!plans!are!
successful.!(3)!Leadership!of!the!TES!Algorithm!and!Science!teams!to!prototype,!
implement,!and!validate!atmospheric!data!products!from!TES!spectra!as!well!as!
subsequent!use!of!these!data!for!scien5fic!inves5ga5ons.!As!a!scien5st!working!
on!TES!I!have!led!or!supported!development!and!valida5on!of!many!of!the!TES!
tropospheric!data!products!(O3 ,!CO,!HDO,!H2O,!CH4 ,!CO2 ,!NH3 ,!and!methanol)!as!
well!as!the!use!of!these!data!in!science!applica5ons.!
!!
Group$Supervisor$(TSAM):!As!group!supervisor!for!the!Tropospheric!Sounding,!
Assimila5on,!and!Modeling!(TSAM)!group,!I!have!had!the!great!pleasure!of!
helping!to!put!together!a!worldGclass!team!of!scien5sts!that!have!developed!the!
retrieval!algorithms!for!TES,!GOSAT,!and!OCOG2!atmospheric!composi5on!data!
products,!the!valida5on!of!these!data,!and!use!of!these!data!for!understanding!
the!earth!system.!!
!
Scien5sts!in!the!TSAM!group!developed!innova5ve!new!approaches!for!
quan5fying!the!composi5on!of!the!Earth’s!atmosphere!using!measurements!
taken!at!thermal!infrared,!near!infrared,!and!UV!wavelengths.!These!
observa5ons!have!resulted!in!the!first!ever!satellite!based!measurements!of!
tropospheric!ozone!profiles,!ozone!radia5ve!forcing,!global!water!vapor!isotope!
distribu5on,!near!surface!methanol!and!ammonia,!atmospheric!methane!(both!
column!and!profile),!plant!photosynthesis,!and!most!recently!nearGsurface!ozone!
es5mates.!!!The!TSAM!group!is!involved!with!universi5es!and!government!
agencies!from!around!the!world!to!use!these!data!for!inves5ga5ng!atmospheric!
chemistry,!the!global!carbon,!water,!and!nitrogen!cycles,!and!their!linkages.!In!
par5cular!we!have!developed!a!robust!satellite/model!synthesis!framework!to!
exploit!these!data!for!inves5ga5ng!the!global!carbon!cycle!and!atmospheric!
chemistry.!!

John%R%Worden%
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Professional$Experience!
2010$–$Present:$$PI!for!the!Aura!TES!instrument!and!Group!Supervisor!
for!the!Tropospheric!Sounding,!Assimila5on,!and!Modeling!Group!
2007$–$2010:$Deputy!PI!and!Group!Supervisor!for!the!Aura!TES!
instrument!and!algorithm!team!
2002–2007:!!Research!Scien5st,!JPL!Aura!TES!Project!
2000$–!2002:!Scien5st,!Raytheon!ITSS!(Pasadena)!
1999$–!2000:!Scien5st,!Atmospheric!Environmental!Research!
!
Awards!
July$2008:!NASA!Team!Award,!TES!5ger!team!!
April$2008:!JPL!Spot!Award,!OCO!5ger!team!
Sep.$2007:!JPL!Ranger!Award,!!For!development!of!the!TES!water!vapor!
! !!!isotope!product!
March$2007:!JPL!Team!Award,!!For!reducing!L2!processing!5me!in!order!
! !!!!!!!to!meet!project!processing!requirements!!
June$2006:!JPL!Spot!Award,!TES!anima5on!
April$2005:!JPL!Team!Award,!Produc5on!of!first!TES!data!sets!
Sep.$2004:!!JPL!Bonus!Award,!Outstanding!accomplishment!for!L2! !
! !!!!algorithm!development!!
Sep.$2004:!JPL!Team!Bonus!Award,!TES!
Sep.$2001:!Raytheon!ITSS,!Employee!of!the!year!
Postdocs$Mentored!
Dr.$Le$Kuai$(2011!–!Present):!Remote!sensing!of!CO 2 !profiles!and!
tropospheric!carbonyl!sulfide!
Dr.$Richard$Dupont$(2008!–!2011):!Ozone!produc5on!in!boreal!fires!
Dr.$Jeonghoon$Lee$(2008!–!2011):!Quan5fying!tropospheric!moisture!
processes!using!water!vapor!isotope!measurements!
Dr.$Sunita$Verma$(2008!–!2009):!Ozone!produc5on!in!boreal!fires!

John%R%Worden%
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Invited$Talks$
$
February$2009:$Seminar,$U.$of$Toronto$
"TES!Water!Vapor!Isotopes,!Measurement!And!Science"!
!
September$2009:$Caltech$Keck$Water$Cycle$Conference$$
"Remote!Sensing!Of!Water!Vapor!And!Its!Isotopes"!
!
April$2010:$Water$Isotope$Workshop,$Paris$France$
”Aura!TES!water!vapor!isotope!measurements”!
$
May$2011:$BASIN$Isotope$Conference,$Keystone$Colorado$
”Aura!TES!water!vapor!isotope!measurements”!
!
May$2012:$ASSFTS,$Madison$Wisconsin$$
"Overview!of!TES!project!and!science”!
!
Technical$Experience$and$Knowledge$
!!
Computer!Languages:!IDL,!C,!C++,!Fortran!
!!
Developed!super!computer!cluster!requirements!and!algorithms!for!
fast!parallel!processing!of!satellite!data.!
!!
Bayesian!es5ma5on!and!error!characteriza5on!of!largeGstate!space!
systems!
!!
Radia5ve!Transfer!in!Terrestrial!and!Solar!Atmospheres!
!!

John%R%Worden% % Publications%
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72 publications in peer reviewed journals to date
16 publications submitted or in press
Over 1200 citations in peer reviewed journals
Hirsch number of 20
2013
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1. Worden,$J.,$Wecht,$K.,$Frankenberg,$C.,$Alvarado,$M.,$Bowman,$K.,$Kort,$E.,$
Kulawik,$S.,$Lee,$M.,$Payne,$V.,$and$Worden,$H.$(2013)$CH4$and$CO$distributions$
over$tropical$fires$during$October$2006$as$observed$by$the$Aura$TES$satellite$
instrument$and$modeled$by$GEOSSChem,$Atmospheric,Chemistry,and,Physics$13,$
3679–3692.$
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2. Brown,$D.,$Worden,$J.,$and$Noone,$D.$(2013)$Characteristics$of$tropical$and$
subtropical$atmospheric$moistening$derived$from$Lagrangian$mass$balance$
constrained$by$measurements$of$HDO$and$H2O,$Journal,of,Geophysical,
Research;Atmospheres$118.$
3. Frankenberg,$C.,$Wunch,$D.,$Toon,$G.,$Risi,$C.,$Scheepmaker,$R.,$Lee,$J.SE.,$
Wennberg,$P.,$and$Worden,$J.$(2013)$Water$vapor$isotopologue$retrievals$from$
highSresolution$GOSAT$shortwave$infrared$spectra,$Atmos.,Meas.,Tech.$6,$263–
274.$
4. Fu,$D.,$Worden,$J.$R.,$Liu,$X.,$Kulawik,$S.$S.,$Bowman,$K.$W.,$and$Natraj,$V.$(2013)$
Characterization$of$ozone$profiles$derived$from$Aura$TES$and$OMI$radiances,$
Atmospheric,Chemistry,and,Physics$13,$3445–3462.$
5. Kuai,$L.,$Worden,$J.,$Kulawik,$S.,$Bowman,$K.,$Lee,$M.,$Biraud,$S.$C.,$Abshire,$J.$B.,$
Wofsy,$S.$C.,$Natraj,$V.,$Frankenberg,$C.,$Wunch,$D.,$Connor,$B.,$Miller,$C.,$Roehl,$
C.,$Shia,$R.$L.,$and$Yung,$Y.$(2013)$Profiling$tropospheric$CO2$using$Aura$TES$and$
TCCON$instruments,$Atmos.,Meas.,Tech.$6,$63–79.$
6. Kulawik,$S.$S.,$Worden,$J.$R.,$Wofsy,$S.$C.,$Biraud,$S.$C.,$Nassar,$R.,$Jones,$D.$B.$A.,$
Olsen,$E.$T.,$Jiménez,$R.,$Park,$S.,$Santoni,$G.$W.,$Daube,$B.$C.,$Pittman,$J.$V.,$
Stephens,$B.$B.,$Kort,$E.$A.,$Osterman,$G.$B.,$TES$team.$(2013)$Comparison$of$
improved$Aura$Tropospheric$Emission$Spectrometer$CO2$with$HIPPO$and$SGP$
aircraft$profile$measurements,$Atmospheric,Chemistry,and,Physics$13,$3205–
3225.$
7. Worden,$H.$M.,$Deeter,$M.$N.,$Frankenberg,$C.,$George,$M.,$Nichitiu,$F.,$
Worden,$J.,$Aben,$I.,$Bowman,$K.$W.,$Clerbaux,$C.,$Coheur,$P.SF.,$de$Laat,$A.$T.$J.,$

John%R%Worden% % Publications%
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Detweiler,$R.,$Drummond,$J.$R.,$Edwards,$D.$P.,$Gille,$J.$C.,$Hurtmans,$D.,$Luo,$M.,$
MartínezSAlonso,$S.,$Massie,$S.,$Pfister,$G.,$and$Warner,$J.$X.$(2013)$Decadal$
record$of$satellite$carbon$monoxide$observations,$Atmospheric,Chemistry,and,
Physics$13,$837–850.$
Published 2012
8. Barth,$M.$C.,$Lee,$J.,$Hodzic,$A.,$Pfister,$G.,$Skamarock,$W.$C.,$Worden,$J.,$Wong,$
J.,$and$Noone,$D.$(2012)$Thunderstorms$and$upper$troposphere$chemistry$during$
the$early$stages$of$the$2006$North$American$Monsoon,$Atmospheric,Chemistry,
and,Physics$12,$11003–11026.$
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9. Field,$R.$D.,$Risi,$C.,$Schmidt,$G.$A.,$Worden,$J.,$Voulgarakis,$A.,$LeGrande,$A.$N.,$
Sobel,$A.$H.$and$Healy,$R.$J.:$(2012)$A$Tropospheric$Emission$Spectrometer$
HDO/H2O$retrieval$simulator$for$climate$models,$Atmospheric$Chemistry$and$
Physics,$12(21),$10485–10504.$
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10. Hurley,$J.$V.,$Galewsky,$J.,$Worden,$J.,$and$Noone,$D.$(2012)$A$test$of$the$
advectionScondensation$model$for$subtropical$water$vapor$using$stable$
isotopologue$observations$from$Mauna$Loa$Observatory,$Hawaii,$J.,Geophys.,Res$
117,$D19118.$
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11. CadySPereira,$K.$E.,$Shephard,$M.$W.,$Millet,$D.$B.,$Luo,$M.,$Wells,$K.$C.,$Xiao,$Y.,$
Payne,$V.$H.,$and$Worden,$J.$(2012)$Methanol$from$TES$global$observations:$
retrieval$algorithm$and$seasonal$and$spatial$variability,$Atmospheric,Chemistry,
and,Physics$12,$8189–8203.$
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12. Lee,$J.SE.,$Lintner,$B.$R.,$Neelin,$J.$D.,$Jiang,$X.,$Gentine,$P.,$Boyce,$C.$K.,$Fisher,$J.$
B.,$Perron,$J.$T.,$Kubar,$T.$L.,$Lee,$J.,$and$Worden,$J.$(2012)$Reduction$of$tropical$
land$region$precipitation$variability$via$transpiration,$Geophys.,Res.,Lett$39,$
L19704.$
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13. Lee,$J.SE.,$Risi,$C.,$Fung,$I.$Y.,$Worden,$J.$R.,$Scheepmaker,$R.,$Lintner,$B.,$and$
Frankenberg,$C.$(2012)$Asian$monsoon$hydrometeorology$from$TES$and$
SCIAMACHY$water$vapor$isotope$measurements$and$LMDZ$simulations:$
Implications$for$speleothem$climate$record$interpretation,$J.,Geophys.,Res$117,$
D15112.$
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14. Frankenberg,$C.,$Hasekamp,$O.,$O'Dell,$C.,$Sanghavi,$S.,$Butz,$A.,$and$Worden,$J.$
(2012)$Aerosol$information$content$analysis$of$multiSangle$high$spectral$
resolution$measurements$and$its$benefit$for$high$accuracy$greenhouse$gas$
retrievals,$Atmos.,Meas.,Tech.$5,$1809–1821.$
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15. Worden,$H.$M.,$Cheng,$Y.,$Pfister,$G.,$Carmichael,$G.$R.,$Zhang,$Q.,$Streets,$D.$G.,$
Deeter,$M.,$Edwards,$D.$P.,$Gille,$J.$C.,$and$Worden,$J.$R.$(2012)$SatelliteSbased$

John%R%Worden% % Publications%
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estimates$of$reduced$CO$and$CO$2emissions$due$to$traffic$restrictions$during$the$
2008$Beijing$Olympics,$Geophys.,Res.,Lett$39,$L14802.$
16. Natarajan,$M.,$Pierce,$R.$B.,$Schaack,$T.$K.,$Lenzen,$A.$J.,$AlSSaadi,$J.$A.,$Soja,$A.$J.,$
Charlock,$T.$P.,$Rose,$F.$G.,$Winker,$D.$M.,$and$Worden,$J.$R.$(2012)$Radiative$
forcing$due$to$enhancements$in$tropospheric$ozone$and$carbonaceous$aerosols$
caused$by$Asian$fires$during$spring$2008,$J.,Geophys.,Res$117,$D06307.$
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17. Risi,$C.,$Noone,$D.,$Worden,$J.,$Frankenberg,$C.,$Stiller,$G.,$Kiefer,$M.,$Funke,$B.,$
Walker,$K.,$Bernath,$P.,$Schneider,$M.,$Bony,$S.,$Lee,$J.,$Brown,$D.,$and$Sturm,$C.$
(2012)$ProcessSevaluation$of$tropospheric$humidity$simulated$by$general$
circulation$models$using$water$vapor$isotopic$observations:$2.$Using$isotopic$
diagnostics$to$understand$the$mid$and$upper$tropospheric$moist$bias$in$the$
tropics$and$subtropics,$J.,Geophys.,Res$117,$D05304.$
18. Risi,$C.,$Noone,$D.,$Worden,$J.,$Frankenberg,$C.,$Stiller,$G.,$Kiefer,$M.,$Funke,$B.,$
Walker,$K.,$Bernath,$P.,$Schneider,$M.,$Wunch,$D.,$Sherlock,$V.,$Deutscher,$N.,$
Griffith,$D.,$Wennberg,$P.$O.,$Strong,$K.,$Smale,$D.,$Mahieu,$E.,$Barthlott,$S.,$Hase,$
F.,$García,$O.,$Notholt,$J.,$Warneke,$T.,$Toon,$G.,$Sayres,$D.,$Bony,$S.,$Lee,$J.,$
Brown,$D.,$Uemura,$R.,$and$Sturm,$C.$(2012)$ProcessSevaluation$of$tropospheric$
humidity$simulated$by$general$circulation$models$using$water$vapor$
isotopologues:$1.$Comparison$between$models$and$observations,$J.,Geophys.,Res$
117,$D05303.$
19. Worden,$J.,$Kulawik,$S.,$Frankenberg,$C.,$Payne,$V.,$Bowman,$K.,$CadySPeirara,$K.,$
Wecht,$K.,$Lee,$J.SE.,$and$Noone,$D.$(2012)$Profiles$of$CH4,$HDO,$H2O,$and$N2O$
with$improved$lower$tropospheric$vertical$resolution$from$Aura$TES$radiances,$
Atmos.,Meas.,Tech.$5,$397–411.$
20. Walker,$T.$W.,$Jones,$D.$B.$A.,$Parrington,$M.,$Henze,$D.$K.,$Murray,$L.$T.,$
Bottenheim,$J.$W.,$Anlauf,$K.,$Worden,$J.$R.,$Bowman,$K.$W.,$Shim,$C.,$Singh,$K.,$
Kopacz,$M.,$Tarasick,$D.$W.,$Davies,$J.,$Gathen,$von$der,$P.,$Thompson,$A.$M.,$and$
Carouge,$C.$C.$(2012)$Impacts$of$midlatitude$precursor$emissions$and$local$
photochemistry$on$ozone$abundances$in$the$Arctic,$J.,Geophys.,Res$117,$D01305.$
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21. Li,$K.SF.,$Tian,$B.,$Waliser,$D.$E.,$Schwartz,$M.$J.,$Neu,$J.$L.,$Worden,$J.$R.,$and$
Yung,$Y.$L.$(2012)$Vertical$structure$of$MJOSrelated$subtropical$ozone$variations$
from$MLS,$TES,$and$SHADOZ$data,$Atmospheric,Chemistry,and,Physics$12,$425–
436.$
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22. Dupont,$R.,$Pierce,$B.,$Worden,$J.,$Hair,$J.,$Fenn,$M.,$Hamer,$P.,$Natarajan,$M.,$
Schaack,$T.,$Lenzen,$A.,$Apel,$E.,$Dibb,$J.,$Diskin,$G.,$Huey,$G.,$Weinheimer,$A.,$
Kondo,$Y.,$and$Knapp,$D.$(2012)$Attribution$and$evolution$of$ozone$from$Asian$
wild$fires$using$satellite$and$aircraft$measurements$during$the$ARCTAS$campaign,$

John%R%Worden% % Publications%
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Atmospheric,Chemistry,and,Physics$12,$169–188.$
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23. Parrington,$M.,$Palmer,$P.$I.,$Henze,$D.$K.,$Tarasick,$D.$W.,$Hyer,$E.$J.,$Owen,$R.$C.,$
Helmig,$D.,$Clerbaux,$C.,$Bowman,$K.$W.,$Deeter,$M.$N.,$Barratt,$E.$M.,$Coheur,$
P.SF.,$Hurtmans,$D.,$Jiang,$Z.,$George,$M.,$and$Worden,$J.$R.$(2012)$The$influence$
of$boreal$biomass$burning$emissions$on$the$distribution$of$tropospheric$ozone$
over$North$America$and$the$North$Atlantic$during$2010,$Atmospheric,Chemistry,
and,Physics$12,$2077–2098.$
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24. Wecht,$K.$J.,$Jacob,$D.$J.,$Wofsy,$S.$C.,$Kort,$E.$A.,$Worden,$J.$R.,$Kulawik,$S.$S.,$
Henze,$D.$K.,$Kopacz,$M.,$and$Payne,$V.$H.$(2012)$Validation$of$TES$methane$with$
HIPPO$aircraft$observations:$implications$for$inverse$modeling$of$methane$
sources,$Atmospheric,Chemistry,and,Physics$12,$1823–1832.$
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Published 2011
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25. Noone,$D.,$Galewsky,$J.,$Sharp,$Z.$D.,$Worden,$J.,$Barnes,$J.,$Baer,$D.,$Bailey,$A.,$
Brown,$D.$P.,$Christensen,$L.,$Crosson,$E.,$Dong,$F.,$Hurley,$J.$V.,$Johnson,$L.$R.,$
Strong,$M.,$Toohey,$D.,$Van$Pelt,$A.,$and$Wright,$J.$S.$(2011)$Properties$of$air$
mass$mixing$and$humidity$in$the$subtropics$from$measurements$of$the$D/H$
isotope$ratio$of$water$vapor$at$the$Mauna$Loa$Observatory,$J.,Geophys.,Res$116,$
D22113.$
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26. Yoshimura,$K.,$Frankenberg,$C.,$Lee,$J.,$Kanamitsu,$M.,$Worden,$J.,$and$
Röckmann,$T.$(2011)$Comparison$of$an$isotopic$atmospheric$general$circulation$
model$with$new$quasiSglobal$satellite$measurements$of$water$vapor$
isotopologues,$J.,Geophys.,Res$116,$D19118.$
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27. Dimotakis,$P.E.,$B.C.$Walker,$K.K.$Jonietz,$and$D.A.$Rotman$(lead$authors)$J.)
Worden)(contributor)$2011$A,Greenhouse;Gas,Information,System:,Monitoring,
and,Validating,Emissions,Reporting,and,Mitigation.,A$report$prepared$for$the$
DOE$Office$of$Science,$published$by$the$Los$Alamos$National$Laboratory,$LASUR$
11S05512$(23$September$2011),$doi:$10.2172/1033495,$
http://www.osti.gov/bridge/product.biblio.jsp?query_id=1&page=0&osti_id=10
33495$.$
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28. Frankenberg,$C.,$Fisher,$J.$B.,$Worden,$J.,$Badgley,$G.,$Saatchi,$S.$S.,$Lee,$J.SE.,$
Toon,$G.$C.,$Butz,$A.,$Jung,$M.,$Kuze,$A.,$and$Yokota,$T.$(2011)$New$global$
observations$of$the$terrestrial$carbon$cycle$from$GOSAT:$Patterns$of$plant$
fluorescence$with$gross$primary$productivity,$Geophys.,Res.,Lett$38,$L17706.$
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29. Worden,$J.,$Noone,$D.,$Galewsky,$J.,$Bailey,$A.,$Bowman,$K.,$Brown,$D.,$Hurley,$J.,$
Kulawik,$S.,$Lee,$J.,$and$Strong,$M.$(2011)$Estimate$of$bias$in$Aura$TES$HDO/H2O$
profiles$from$comparison$of$TES$and$in$situ$HDO/H2O$measurements$at$the$

John%R%Worden% % Publications%
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Mauna$Loa$observatory,$Atmospheric,Chemistry,and,Physics$11,$4491–4503.$
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30. Lee,$J.,$Worden,$J.,$Noone,$D.,$Bowman,$K.,$Eldering,$A.,$Legrande,$A.,$Li,$J.SL.$F.,$
Schmidt,$G.,$and$Sodemann,$H.$(2011)$Relating$tropical$ocean$clouds$to$moist$
processes$using$water$vapor$isotope$measurements,$Atmospheric,Chemistry,and,
Physics$11,$741–752.$
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31. Nassar,$R.,$Jones,$D.$B.$A.,$Kulawik,$S.$S.,$Worden,$J.$R.,$Bowman,$K.$W.,$Andres,$R.$
J.,$Suntharalingam,$P.,$Chen,$J.$M.,$Brenninkmeijer,$C.$A.$M.,$Schuck,$T.$J.,$
Conway,$T.$J.,$and$Worthy,$D.$E.$(2011)$Inverse$modeling$of$CO2$sources$and$
sinks$using$satellite$observations$of$CO2$from$TES$and$surface$flask$
measurements,$Atmospheric,Chemistry,and,Physics$11,$6029–6047.$
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Published 2010$
32. Risi,$C.,$Bony,$S.,$Vimeux,$F.,$Frankenberg,$C.,$Noone,$D.,$and$Worden,$J.$(2010)$
Understanding$the$Sahelian$water$budget$through$the$isotopic$composition$of$
water$vapor$and$precipitation,$J.,Geophys.,Res$115,$D24110.$
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33. Nassar,$R.,$Jones,$D.$B.$A.,$Suntharalingam,$P.,$Chen,$J.$M.,$Andres,$R.$J.,$Wecht,$K.$
J.,$Yantosca,$R.$M.,$Kulawik,$S.$S.,$Bowman,$K.$W.,$Worden,$J.$R.,$Machida,$T.,$and$
Matsueda,$H.$(2010)$Modeling$global$atmospheric$CO2$with$improved$emission$
inventories$and$CO2$production$from$the$oxidation$of$other$carbon$species,$
Geosci.,Model,Dev.$3,$689–716.$
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34. Boxe,$C.$S.,$Worden,$J.$R.,$Bowman,$K.$W.,$Kulawik,$S.$S.,$Neu,$J.$L.,$Ford,$W.$C.,$
Osterman,$G.$B.,$Herman,$R.$L.,$Eldering,$A.,$Tarasick,$D.$W.,$Thompson,$A.$M.,$
Doughty,$D.$C.,$Hoffmann,$M.$R.,$and$Oltmans,$S.$J.$(2010)$Validation$of$northern$
latitude$Tropospheric$Emission$Spectrometer$stare$ozone$profiles$with$ARCSIONS$
sondes$during$ARCTAS:$sensitivity,$bias$and$error$analysis,$Atmospheric,
Chemistry,and,Physics$10,$9901–9914.$
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35. Kulawik,$S.$S.,$Jones,$D.$B.$A.,$Nassar,$R.,$Irion,$F.$W.,$Worden,$J.$R.,$Bowman,$K.$
W.,$Machida,$T.,$Matsueda,$H.,$Sawa,$Y.,$Biraud,$S.$C.,$Fischer,$M.$L.,$and$
Jacobson,$A.$R.$(2010)$Characterization$of$Tropospheric$Emission$Spectrometer$
(TES)$CO2$for$carbon$cycle$science,$Atmospheric,Chemistry,and,Physics$10,$5601–
5623.$
$
36. Jourdain,$L.,$Kulawik,$S.$S.,$Worden,$H.$M.,$Pickering,$K.$E.,$Worden,$J.,$and$
Thompson,$A.$M.$(2010)$Lightning$NOx$emissions$over$the$USA$constrained$by$
TES$ozone$observations$and$the$GEOSSChem$model,$Atmos.,Chem.,Phys$10,$107–
119.$

John%R%Worden% % Publications%
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$$
$
$
Published 2009
$
37. Worden,$J.,$Jones,$D.$B.$A.,$Liu,$J.,$Parrington,$M.,$Bowman,$K.,$Stajner,$I.,$Beer,$R.,$
Jiang,$J.,$Thouret,$V.,$Kulawik,$S.,$Li,$J.SL.$F.,$Verma,$S.,$and$Worden,$H.$(2009)$
Observed$vertical$distribution$of$tropospheric$ozone$during$the$Asian$
summertime$monsoon,$J.,Geophys.,Res$114,$D13304.$
38. Liu,$J.$J.,$Jones,$D.$B.$A.,$Worden,$J.$R.,$Noone,$D.,$Parrington,$M.,$and$Kar,$J.$
(2009)$Analysis$of$the$summertime$buildup$of$tropospheric$ozone$abundances$
over$the$Middle$East$and$North$Africa$as$observed$by$the$Tropospheric$Emission$
Spectrometer$instrument,$J.,Geophys.,Res$114,$D05304.$
39. Shim,$C.,$Li,$Q.,$Luo,$M.,$Kulawik,$S.,$Worden,$H.,$Worden,$J.,$Eldering,$A.,$Diskin,$
G.,$Sachse,$G.,$Weinheimer,$A.,$Knapp,$D.,$Montzca,$D.,$and$Campos,$T.$(2009)$
Satellite$observations$of$Mexico$City$pollution$outflow$from$the$Tropospheric$
Emissions$Spectrometer$(TES),$Atmospheric,Environment,$Elsevier$Ltd$43,$1540–
1547.$
40. Verma,$S.,$Worden,$J.,$Pierce,$B.,$Jones,$D.$B.$A.,$AlSSaadi,$J.,$Boersma,$F.,$
Bowman,$K.,$Eldering,$A.,$Fisher,$B.,$Jourdain,$L.,$Kulawik,$S.,$and$Worden,$H.$
(2009)$Ozone$production$in$boreal$fire$smoke$plumes$using$observations$from$
the$Tropospheric$Emission$Spectrometer$and$the$Ozone$Monitoring$Instrument,$
J.,Geophys.,Res$114,$D02303.$
$
41. Bowman,$K.,$Jones,$D.,$Logan,$J.,$Worden,$H.,$Boersma,$F.,$Chang,$R.,$Kulawik,$S.,$
Osterman,$G.,$Hamer,$P.,$and$Worden,$J.$(2009)$The$zonal$structure$of$tropical$
O3$and$CO$as$observed$by$the$Tropospheric$Emission$Spectrometer$in$November$
2004–Part$2:$Impact$of$surface$emissions$on$O3$and$its$precursors,$Atmos.,Chem.,
Phys$9,$3563–3582.$
42. Jones,$D.,$Bowman,$K.,$Logan,$J.,$Heald,$C.,$Liu,$J.,$Luo,$M.,$Worden,$J.,$and$
Drummond,$J.$(2009)$The$zonal$structure$of$tropical$O3$and$CO$as$observed$by$
the$Tropospheric$Emission$Spectrometer$in$November$2004–Part$1:$Inverse$
modeling$of$CO$emissions,$Atmos.,Chem.,Phys$9,$3547–3562.$
Published 2008
$
43. Zhang,$L.,$Jacob,$D.,$Boersma,$K.,$Jaffe,$D.,$Olson,$J.,$Bowman,$K.,$Worden,$J.,$
Thompson,$A.,$Avery,$M.,$and$Cohen,$R.$(2008)$Transpacific$transport$of$ozone$
pollution$and$the$effect$of$recent$Asian$emission$increases$on$air$quality$in$North$
America:$an$integrated$analysis$using$satellite,$aircraft,$ozonesonde,$and$surface$
observations,$Atmospheric,Chemistry,and,Physics$8,$6117–6136.$
$

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$
$
44. Brown,$D.,$Worden,$J.,$and$Noone,$D.$(2008)$Comparison$of$atmospheric$
hydrology$over$convective$continental$regions$using$water$vapor$isotope$
measurements$from$space,$J.,Geophys.,Res$113,$D15124.$
$
45. Eldering,$A.,$Kulawik,$S.,$Worden,$J.,$Bowman,$K.,$Osterman,$G.,$Clough,$S.,$and$
Shephard,$M.$(2008)$Implementation$of$cloud$retrievals$for$TES$atmospheric$
retrievals:$2.$Characterization$of$cloud$top$pressure$and$effective$optical$depth$
retrievals,$J.,Geophys.,Res$113,$D16S37.$
$$
46. Shephard,$M.$W.,$Herman,$R.$L.,$Fisher,$B.$M.,$CadySPereira,$K.$E.,$Clough,$S.$A.,$
Payne,$V.$H.,$Whiteman,$D.$N.,$Comer,$J.$P.,$Vömel,$H.,$Miloshevich,$L.$M.,$Forno,$
R.,$Adam,$M.,$Osterman,$G.$B.,$Eldering,$A.,$Worden,$J.$R.,$Brown,$L.$R.,$Worden,$
H.$M.,$Kulawik,$S.$S.,$Rider,$D.$M.,$Goldman,$A.,$Beer,$R.,$Bowman,$K.$W.,$Rodgers,$
C.$D.,$Luo,$M.,$Rinsland,$C.$P.,$Lampel,$M.,$and$Gunson,$M.$R.$(2008)$Comparison$
of$Tropospheric$Emission$Spectrometer$nadir$water$vapor$retrievals$with$in$situ$
measurements,$J.,Geophys.,Res$113,$D15S24.$
47. Beer,$R.,$Shephard,$M.$W.,$Kulawik,$S.$S.,$Clough,$S.$A.,$Eldering,$A.,$Bowman,$K.$
W.,$Sander,$S.$P.,$Fisher,$B.$M.,$Payne,$V.$H.,$Luo,$M.,$Osterman,$G.,$and$Worden,$
J.$R.$(2008)$First$satellite$observations$of$lower$tropospheric$ammonia$and$
methanol,$Geophysical,Research,Letters,$American$Geophysical$Union$35,$
L09801.$
$
48. Worden,$H.,$Bowman,$K.,$Worden,$J.,$Eldering,$A.,$and$Beer,$R.$(2008)$Satellite$
measurements$of$the$clearSsky$greenhouse$effect$from$tropospheric$ozone,$
Nature,Geoscience$1,$305–308.$
$
Published 2007
$
49. Jourdain,$L.,$Worden,$H.$M.,$Worden,$J.$R.,$Bowman,$K.,$Li,$Q.,$Eldering,$A.,$
Kulawik,$S.$S.,$Osterman,$G.,$Boersma,$K.$F.,$Fisher,$B.,$Rinsland,$C.$P.,$Beer,$R.,$
and$Gunson,$M.$(2007)$Tropospheric$vertical$distribution$of$tropical$Atlantic$
ozone$observed$by$TES$during$the$northern$African$biomass$burning$season,$
Geophys.,Res.,Lett$34,$L04810.$
$
50. Worden,$H.$M.,$Logan,$J.$A.,$Worden,$J.$R.,$Beer,$R.,$Bowman,$K.,$Clough,$S.$A.,$
Eldering,$A.,$Fisher,$B.$M.,$Gunson,$M.$R.,$Herman,$R.$L.,$Kulawik,$S.$S.,$Lampel,$M.$
C.,$Luo,$M.,$Megretskaia,$I.$A.,$Osterman,$G.$B.,$and$Shephard,$M.$W.$(2007)$
Comparisons$of$Tropospheric$Emission$Spectrometer$(TES)$ozone$profiles$to$
ozonesondes:$Methods$and$initial$results,$J.,Geophys.,Res$112,$D03309.$
$
51. Worden,$J.,$Noone,$D.,$Bowman,$K.,$Beer,$R.,$Eldering,$A.,$Fisher,$B.,$Gunson,$M.,$
Goldman,$A.,$Herman,$R.,$Kulawik,$S.$S.,$Lampel,$M.,$Osterman,$G.,$Rinsland,$C.,$

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$
$
$
Rodgers,$C.,$Sander,$S.,$Shephard,$M.,$Webster,$C.$R.,$and$Worden,$H.$(2007)$
Importance$of$rain$evaporation$and$continental$convection$in$the$tropical$water$
cycle,$Nature$445,$528–532.$
$
52. Worden,$J.,$Liu,$X.,$Bowman,$K.,$Chance,$K.,$Beer,$R.,$Eldering,$A.,$Gunson,$M.,$
and$Worden,$H.$(2007)$Improved$tropospheric$ozone$profile$retrievals$using$OMI$
and$TES$radiances,$Geophys.,Res.,Lett$34,$L01809.
Published 2006
$
53. Bowman,$K.$W.,$Rodgers,$C.$D.,$Kulawik,$S.$S.,$Worden,$J.,$Sarkissian,$E.,$
Osterman,$G.,$Steck,$T.,$Lou,$M.,$Eldering,$A.,$Shephard,$M.,$Worden,$H.,$Lampel,$
M.,$Clough,$S.,$Brown,$P.,$Rinsland,$C.,$Gunson,$M.,$and$Beer,$R.$(2006)$
Tropospheric$Emission$Spectrometer:$Retrieval$Method$and$Error$Analysis,$IEEE,
TRANSACTIONS,ON,GEOSCIENCE,AND,REMOTE,SENSING$,44,$1–11.$
54. Clough,$S.$A.,$Shephard,$M.$W.,$Worden,$J.,$Brown,$P.$D.,$Worden,$H.$M.,$Luo,$M.,$
Rodgers,$C.$D.,$Rinsland,$C.$P.,$Goldman,$A.,$and$Brown,$L.$(2006)$Forward$model$
and$Jacobians$for$tropospheric$emission$spectrometer$retrievals,$IEEE,
TRANSACTIONS,ON,GEOSCIENCE,AND,REMOTE,SENSING,$IEEE$44,$1308–1323.$
$
55. Kulawik,$S.$S.,$Worden,$J.,$Eldering,$A.,$Bowman,$K.,$Gunson,$M.,$Osterman,$G.$B.,$
Zhang,$L.,$Clough,$S.$A.,$Shephard,$M.$W.,$and$Beer,$R.$(2006)$Implementation$of$
cloud$retrievals$for$Tropospheric$Emission$Spectrometer$(TES)$atmospheric$
retrievals:$part$1.$Description$and$characterization$of$errors$on$trace$gas$
retrievals,$J.,Geophys.,Res$111,$D24204.$
56. Kulawik,$S.$S.,$Worden,$H.,$Osterman,$G.,$Luo,$M.,$Beer,$R.,$Kinnison,$D.$E.,$
Bowman,$K.$W.,$Worden,$J.,$Eldering,$A.,$and$Lampel,$M.$(2006)$TES$atmospheric$
profile$retrieval$characterization:$An$orbit$of$simulated$observations,$IEEE,
TRANSACTIONS,ON,GEOSCIENCE,AND,REMOTE,SENSING,$IEEE$44,$1324–1333.$
57. Worden,$J.,$Bowman,$K.,$Noone,$D.,$Beer,$R.,$Clough,$S.,$Eldering,$A.,$Fisher,$B.,$
Goldman,$A.,$Gunson,$M.,$Herman,$R.,$Kulawik,$S.$S.,$Lampel,$M.,$Luo,$M.,$
Osterman,$G.,$Rinsland,$C.,$Rodgers,$C.,$Sander,$S.,$Shephard,$M.,$and$Worden,$H.$
(2006)$Tropospheric$Emission$Spectrometer$observations$of$the$tropospheric$
HDO/H$2O$ratio:$Estimation$approach$and$characterization,$J.,Geophys.,Res$111,$
D16309.$
$
58. Zhang,$L.,$Jacob,$D.$J.,$Bowman,$K.$W.,$Logan,$J.$A.,$Turquety,$S.,$Hudman,$R.$C.,$Li,$
Q.,$Beer,$R.,$Worden,$H.$M.,$Worden,$J.$R.,$Rinsland,$C.$P.,$Kulawik,$S.$S.,$Lampel,$
M.$C.,$Shephard,$M.$W.,$Fisher,$B.$M.,$Eldering,$A.,$and$Avery,$M.$A.$(2006)$
OzoneSCO$correlations$determined$by$the$TES$satellite$instrument$in$continental$

John%R%Worden% % Publications%
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outflow$regions,$Geophys.,Res.,Lett$33,$L18804.$
$
Pre)2006)
$
59. Worden,$J.$R.,$Bowman,$K.$W.,$and$Jones,$D.$B.$(2004)$TwoSdimensional$
characterization$of$atmospheric$profile$retrievals$from$limb$sounding$
observations,$Journal,of,Quantitative,Spectroscopy,and,Radiative,Transfer$86,$
45–71.$
$$
60. Worden,$J.,$Kulawik,$S.,$Shephard,$M.,$Clough,$S.,$Worden,$H.,$Bowman,$K.,$and$
Goldman,$A.$(2004)$Predicted$errors$of$tropospheric$emission$spectrometer$
nadir$retrievals$from$spectral$window$selection,$J.,Geophys.,Res$109.$
$
61. Jones,$D.,$Bowman,$K.,$Palmer,$P.,$Worden,$J.,$Jacob,$D.,$Hoffman,$R.,$Bey,$I.,$and$
Yantosca,$R.$(2003)$Potential$of$observations$from$the$Tropospheric$Emission$
Spectrometer$to$constrain$continental$sources$of$carbon$monoxide,$J.,Geophys.,
Res$108,$4789.$
$
62. Bowman,$K.,$Worden,$J.,$Steck,$T.,$Worden,$H.,$Clough,$S.,$and$Rodgers,$C.$(2002)$
Capturing$time$and$vertical$variability$of$tropospheric$ozone:$A$study$using$TES$
nadir$retrievals,$J.,Geophys.,Res$107,$4723.$
$
63. Clough,$S.,$Worden,$J.,$Brown,$P.,$and$Shepard,$M.$(2002)$Retrieval$of$
tropospheric$ozone$from$simulations$of$limb$spectral$radiances$as$observed$from$
space,$J.,Geophys.,Res$107,$4589.$
$
64. Worden,$J.$R.,$Woods,$T.$N.,$and$Bowman,$K.$W.$(2001)$FarSUltraviolet$Intensities$
and$CenterStoSLimb$Variations$of$Active$Regions$and$Quiet$Sun$Using$
UARSSOLSTICE$Irradiance$Measurements$and$GroundSbased$Spectroheliograms,$
The,Astrophysical,Journal$560,$1020–1034.$
$
65. Woods,$T.$N.,$Tobiska,$W.$K.,$Rottman,$G.$J.,$and$Worden,$J.$R.$(2000)$Improved$
solar$Lyman$a$irradiance$modeling$from$1947$through$1999$based$on$UARS$
observations,$J.,Geophys.,Res$105.$
$
66. Worden,$J.,$and$Harvey,$J.$(2000)$An$Evolving$Synoptic$Magnetic$Flux$map$and$
Implications$for$the$Distribution$of$Photospheric$Magnetic$Flux,$Solar,Physics$195,$
247–268.$
$
67. Worden,$J.,$Harvey,$J.,$and$Shine,$R.$(1999)$Bright$chromospheric$grains$and$the$
magnetic$intranetwork,$The,Astrophysical,Journal,$523,$450.$
$
68. Worden,$J.,$Woods,$T.$N.,$Neupert,$W.$M.,$and$Delaboudinière,$J.$P.$(1999)$
Evolution$of$chromospheric$structures:$How$chromospheric$structures$

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$
$
!
contribute$to$the$solar$He$II$30.4$nanometer$irradiance$and$variability,$The,
Astrophysical,Journal,$IOP$Publishing$511,$965.$
$
69. Worden,$J.$R.,$White,$O.$R.,$and$Woods,$T.$N.$(1998)$Evolution$of$chromospheric$
structures$derived$from$Ca$II$K$spectroheliograms:$implications$for$solar$
ultraviolet$irradiance$variability,$The,Astrophysical,Journal,$IOP$Publishing$496,$
998.$
$
70. Worden,$J.,$White,$O.,$and$Woods,$T.$(1998)$Plage$and$enhanced$network$
indices$derived$from$Ca$II$K$spectroheliograms,$Solar,Physics$177,$255–264.$
71. Woods, T. N., Rottman, G. J., Bailey, S. M., Solomon, S. C. & Worden, J.
R. Solar extreme ultraviolet irradiance measurements during solar cycle 22.
Solar Physics 177, 133–146 (1998).$
72. Schmidtke,$G.,$Woods,$T.$N.,$Worden,$J.,$Rottman,$G.$J.,$Doll,$H.,$Wita,$C.,$and$
Solomon,$S.$C.$(1992)$Solar$EUV$irradiance$from$the$San$Marco$Assi:$A$reference$
spectrum,$Geophys.,Res.,Lett,$19,$2175–2178.$