This is part of the labels / documentation for <a href='http://jcm.chooseclimate.org'>Java Climate Model</a><hr/>

#! ===>glue<===
#en		~English
#fr		~Français
#nl		~Nederlands
#de		~Deutsch
#ru		~Русский Язык
#es		~Español
#pt		~Português
#dk		~Dansk
#no		~Norsk
#zh		~中国话
#sc		~script/label codes
#and		`&		~and
#per		`/		~per
#or		`|		~or
#ob		`(
#cb		`)
#colon		`:
#ena		~enabled
#dis		~disabled
#disposed		`(d!)		~(ignore- for debug)
#pwdl		~Please Wait, Data Loading
#see		`see
#of		`of
#divby		`divided by
#default		`default
#adjin		`adjust in
#paramof		`parameter of
#relations		`Relationships
#interacs		`Interactions
#javacode		`Code
#moreinfo		`Info on each option
#affects		`Also Affects
#affectedby		`Affected by
#modules		`Modules
#panels		`Panels
#panel		`Panel
#curves		`Curves
#curvelabel		`Curve
#scales		`Scales/Units
#controls		`Arrow Controls
#menopts		`Menus/Options
#params		`Adjustable Parameters
#iobinfo
#panelinfo
#graphinfo

#! ===>units<===
#femto		`f		~femto
#pico		`p		~pico
#nano		`n		~nano
#micro		`u		~micro
#milli		`m		~milli
#kilo		`k		~kilo
#mega		`M		~mega
#giga		`G		~giga
#tera		`T		~tera
#peta		`P		~peta
#s		`s		~second
#yr		`yr		~year
#inyear		~in
#peryear
#atlevel		~at
#ton		`t		~ton
#gram		`g		~gram
#joule		`J		~joule
#mol		`mol		~mols
#w		`W		~Watts
#metres		`m		~metres
#m2		`m2		~square metre
#cm2		`cm2		~square centimetre
#degc		`C		~degrees Celcius
#degcbase		`C		~degrees Celcius above baseline year
#baseline
#ppm		`ppm		~concentration, parts per million
#ppb		`ppb		~concentration, parts per billion
#ppbppm		`ppb or ppm		~ppb or (for CO2) ppm
#ppt		`ppt		~concentration, parts per trillion
#tot		`Tot		~Total
#percent		`%		~percent
#dy
#frac		`%		~Fraction (%)
#stack		`stack		~Stack curves
#varq		`What		~Choose data to plot
#perq		`Per		~Choose data to divide by
#popn		`Population		~Population
#person		`pers		~people
#capita		`cap		~capita
#per&popn		`per Capita
#co2emit		`CO2 Emissions		~CO2 Emissions
#abate		`Abatement		~CO2 Abatement
#energy		`Energy		~Energy
#gdp		`GDP		~GDP dollars
#gnp		`GNP		~GNP dollars
#dollar		`$		~dollar (US)
#whatper
#regscales
#siunits		`SI units
#howmuchgtc		`How much is a GtC?
#unitbaseline		`Units and baselines
#time		`Time

#! ===>mitig<===
#mitigpanel		`Emit		~JCM Emissions options
#emitmenu		`Mitigation		~Options for mitigating future emissions
#mitigation		`Mitigation		~Control emissions to reach a specific stabilisation target
#nopolicy		~SRES no-climate-policy scenarios
#constant		~Constant emissions
#stabemit		~Stabilise CO2 emissions
#integral		~total 2000-2200:
#initgrow		~initial growth rate:
#integralopt		`CI		~Control cumulative emissions (integral)
#stabconc		~Stabilise CO2 concentration
#stabconcmenu		`Stab-Scen		~Menu of CO2 stabilisation scenarios
#wreopt		`WRE		~WRE delayed start for CO2 stabilisation.
#stabconcstartyear		`Start Year for CO2 Stabilisation
#stabrf		~Stabilise Forcing
#co2eq		`CO2 Eq		~CO2 Equivalent Concentration
#6gas		`6 Gas		~Six Kyoto Gases
#allghg		`All GHG		~All Greenhouse Gases
#allghgaero		`All Gas		~All  Gases and Aerosols
#stabtemp		~Stabilise Temperature
#stfuzzyopt		`Fuzzy		~Stabilise temperature by Fuzzy-Control
#stbyitopt	¨old		`ItC		~Stabilise temperature iteratively by guessing CO2 concentration
#fuzzymenu	¨old		`Fuzzy		~Fuzzy control climate-emissions feedback experiments
#dampopt		`Damp		~Damp Oscillations
#stabsea		~Stabilise Sea Level Rise
#stabtempa	¨old		~stabilise temperature at
#stabconca	¨old		~stabilise concentration at
#stabemita	¨old		~stabilisation at
#reduceintensity		`Reduce Emissions Intensity (tC/$GDP)		~Emissions Intensity Change Per Year
#stabconnect		`Connecting Scenarios to Current Emissions
#stabtemp2c		`Stabilisation below 2C: EU policy target
#stabtemp2cscript	¨dem		`98 Pathways to Stabilise below 2C: Demo-Script
#stabconc500script	¨dem		`Stabilise CO2 concentration at 500ppm script
#stabilisation		`Stabilisation Scenarios: Overview
#emitcc		`Emissions, Scenarios, Stabilisation, Distribution		~Where are we going, where do we need to go?
#art2short		`.
#art2		`UNFCCC Article 2
#inverseintro		`.
#inverse		`Inverse Calculations
#stabimpact		`Climate impact of stabilisation
#stabimpactdemo		`Stabilisation Impacts Demo
#stabipccsyrq6		`Stabilisation in IPCC-TAR SYR
#stabpathways		`Different Pathways to Stabilisation
#stabrelated		`Topics Related to Stabilisation
#ipccothgas		`Other gases in IPCC-TAR
#stabemitdoc		`Stabilise Emissions: Overview
#stabemitmethod		`Stabilise Emissions: How it Works
#stabconcdoc		`Stabilise CO2 concentration: Overview
#stabconcdemo		`Stabilise Concentration Demo
#stabconcmethod		`Stabilise Concentration: How it works
#scalelanduse		`Land-use change and fossil CO2 emissions
#wredelaystart		`Delaying the start of CO2 Stabilisation
#stabrfdoc		`Stabilise Radiative Forcing: Overview
#stabitmethod		`Stabilisation by Iteration: How it Works
#stabtempdoc		`Stabilise Temperature: Overview
#stabtempfuzzy		`Stabilise Temperature by Fuzzy control
#fuzzycontrol		`Fuzzy control' or 'Geocybernetics'
#stabseadoc		`Stabilise Sea-Level Rise: Overview
#uncertburden	¨scc		`Shifting the Burden of Uncertainty
#stabconcdemo	¨dem		`Stabilise Concentration Demo
#stabconcimpactdemo	¨dem		`Stabilise Concentration Impacts Demo
#sresdemo	¨dem		`SRES Demo

#! ===>carbon<===
#carboncycle		`Carbon Cycle		~Cycle of Carbon in the Atmospheric, Ocean and Biosphere.
#atco2plot		`Atmospheric CO2		~Carbon sources and sinks
#atconcplot	¨old		`Atmospheric CO2 Concentration
#carbon		`C		~carbon
#co2		`CO2		~carbon dioxide (CO2)
#co2fos		`CO2fos		~Fossil fuel CO2
#co2luc		`CO2luc		~Land use change CO2
#totemit		`TE		~total CO2 emissions
#fossilemit		`FE		~fossil fuel emissions
#lucemit		`LE		~land-use change emissions
#totsink		`TS		~total CO2 sinks
#oceansink		`OS		~ocean sink
#landsink		`LS		~land plants sink
#atco2data		`AM		~atmospheric CO2 -measured data
#atco2calc		`AC		~atmospheric CO2 -calculated
#atco2		`AC		~Atmospheric CO2 Concentration
#hdmbopt		`HD		~Historical Deforestation calculated by Mass Balance
#lucfemit1990		~Landuse change CO2 emissions in 1990
#hlu	¨old		`Hlu		~High historical landuse (Houghton, not scaled)
#carbonstoreplot		`Carbon Storage		~Anthropogenic Carbon stored in each box of Carbon Model
#newprod		`newpg		~New plant growth
#green		~Green leaves
#wood		~Wood
#soil		~Soil (rapidly decaying soil)
#humus		~Humus (slowly decaying soil)
#atmosphere		`atmos		~Atmospheric CO2
#hsurf		`High-hatitude surface ocean layer
#lsurf		`Low-latitude surface ocean layer
#hdeep		`High-latitude deep ocean layers (well mixed)
#fertbeta		~CO2 fertilisation factor beta:
#resp_q10		~Temperature-respiration feedback factor (Q10):
#cupwell		~Ocean upwelling rate:
#chighlat		~Ocean high-lat mixing rate:
#csidemix		~Ocean horizontal mixing factor:
#ceddydiff		~Ocean eddy diffusivity factor:
#asgasex		~Air-sea gas exchange rate:
#chemfbopt		`CF		~Carbon Chemistry - Temperature Feedback
#carbchemmenu		`CarbChem		~Carbonate chemistry formulae
#realb		`RealB		~Real Chemistry inc Borate
#realj		`RealJ		~Real Chemistry inc Borate
#hildaz0z1		`Hilda		~Original Hilda method
#cubicfit		`Cubic fit
#linear		`Linear		~Linear: No effect of acidification
#carbonemissions		`Carbon Emissions
#carbonmodel		`Carbon Cycle -How the Model Works
#carbonfuture	¨fut		`Carbon Cycle -Future Development
#sinksdynamic		`Carbon Sinks, Dynamic Response.
#sinksbiosphere		`Biosphere sink
#sinksocean		`Ocean mixing
#carbchem		`Carbonate Chemistry

#! ===>oghga<===
#oghga		`Other Gases/Aerosols		~Other Greenhouse Gases and Aerosols
#othgasplot		`Other Gases		~Other gases influencing climate
#othgasemit		`Other gas		~Options for Emissions of Non-CO2 gases
#sresfix		~SRES fixed
#sresscale		~Equal % of SRES as CO2
#2000fix		~2000 fixed
#2000scale		~Equal % of 2000 as CO2
#sresrfopt	¨old		`SRF		~Fix non-CO2 RF according to SRES data
#oghgemit	¨old		`Other gas		~Options for Emissions of non-CO2 gases
#OHef		`OHef		~Hydroxy radical affects lifetime of CH4 and F-gases
#o3s1930		`O3s1930		~Stratospheric O3 RF baseline year 1930 (instead of 1970)
#tarO3		`TAR-O3		~Use orignal IPCC-TAR Ozone formula
#oghgahowwork		`Other gases: How it works
#atchem		`Atmospheric Chemistry
#oghgafuture	¨fut		`Other Gas Module: Future Development
#emit		`Emiss		~Emissions
#conc		`Concn		~Concentration
#rf		`Rad-for		~Radiative Forcing
#nitrogen		`N		~nitrogen
#sulphur		`S		~sulphur
#cfc		`CFC		~CFCs (Montreal gases)
#hfc		`HFC		~HFCs, PFCs, SF6
#strato3		`O3S		~stratospheric ozone
#ch4		`CH4		~Methane (CH4)
#n2o		`N2O		~Nitrous oxide (N2O)
#tropo3		`O3T		~Tropospheric Ozone (O3)
#tropo3du		`O3T		~Tropospheric Ozone (Dobson Units)
#co		`CO		~Carbon Monoxide (CO)
#voc		`VOC		~Volatile Organic Carbons (VOCs)
#nox		`NOx		~NOx = NO, NO2, NO3 (in Tg N)
#oh		`OH		~Hydroxyl Radical (OH)
#sox		`SOx		~Sulphate (SO2, SO3, in Tg S)

#! ===>fgas<===
#fgasplot		`F/Cl-gases		~F/Cl-gases (HFCs, ClFC etc.s)
#fgases		`About F/Cl -gases
#SF6		`SF6		~Sulphur Hexafluoride
#CF4		`CF4		~Carbon tetrafluoride
#CHF3		`CHF3		~HFC23
#C2H2F4		`C2H2F4		~HFC134a
#C2H4F2		`C2H4F2		~HFC152a
#C2HF5		`C2HF5		~HFC125
#CH2F2		`CH2F2		~HFC32
#C2H3F3		`C2H3F3		~HFC143a
#C3HF7		`C3HF7		~HFC227ea
#C3H3F5		`C3H3F5		~HFC245ca
#C5H2F10		`C5H2F10		~HFC4310mee
#CHF2Cl		`CHF2Cl		~HCFC22
#C2H3FCl2		`C2H3FCl2		~HCFC141b
#C2H3F2Cl		`C2H3F2Cl		~HCFC142b
#C2HF3Cl2		`C2HF3Cl2		~HCFC123
#C2H3Cl3		`C2H3Cl3		~CH3CCl3
#CFCl3		`CFCl3		~CFC11
#CF2Cl2		`CF2Cl2		~CFC12
#C2F3Cl3		`C2F3Cl3		~CFC11
#C2F4Cl2		`C2F4Cl2		~CFC114
#C2F5Cl		`C2F5Cl		~CFC115
#CCl4		`CCl4		~Carbon Tetrachloride
#eescl		~Effective Equivalent Stratospheric Chlorine (effect on ozone).

#! ===>radfor<===
#radfor		`Radiative Forcing		~Extra heat flux from greenhouse gases, aerosols, and solar variability
#radforplot		`Radiative Forcing		~Extra heat flux from greenhouse gases, aerosols, and solar variability
#rfco2d		~RF for CO2 doubling
#sulfrf2000		~Sulphate RF (dir+ind) in 2000
#solarrf2000		~Solar RF in 2000
#sv		`SV		~Include solar and volcano forcing
#futsolopt		`FSV		~Future solar variability
#volcfac		~Volcano Forcing Factor
#unif		`Unif		~RF uniformly distributed between 4 climate boxes
#bcocwig		`BCOC-Wig		~Use Wigley formula for Black/Organic Carbon Aerosols
#HadA		`HadA		~Use Hadley experiment aerosol forcing
#4gas		`4gas		~Only 4 gases: CO2, CH4, N2O, sulphate aerosol
#radforintro		`Influences on Radiative Forcing
#radforco2		`RF of CO2
#radforothgas		`RF of other greenhouse gases
#radforaerosol		`Aerosol Radiative Forcing
#radforsolvol		`Solar Variability and Volcanos
#radfordistrib		`Different spatial distribution of forcing
#radforipcc		`Correspondence with IPCC data
#radforfuture	¨fut		`RF Future Development
#sulfdir		`SAD		~sulphate aerosols direct
#sulfind		`SAI		~sulphate aerosols indirect
#blackcarbon		`BC		~black carbon
#orgcarbon		`OC		~organic carbon
#bioburn		`BB		~biomass burning
#landalbedo		`LUA		~land-use albedo
#contrails		`ACO		~aircraft contrails
#aerosol		`AER		~total aerosols: Sulphate and Carbon (smoke)
#solvar		`SOV		~solar variability
#volcano		`VOL		~volcanos
#natvar		`NAT		~natural forcing (solar and volcano)
#otherghg		`OGH		~other greenhouse gases (CH4, N2O, O3, CFCs, HFCs)
#totrf		`TOT		~total radiative forcing
#strath2o		`H2Os		~Stratospheric water from CH4

#! ===>temp<===
#heatflux		`Heat Fluxes		~UDEB climate module
#glotempplot		`Temperature		~Global annual average temperature change
#tempav		`AV		~global average
#tempproxy		`PT		~proxy data (average)
#tempdata		`MT		~measured data (average)
#temptrend		`TR		~measured trend(7-year average)
#tempnl		`NL		~northern land
#tempno		`NO		~northern ocean
#tempsl		`SL		~southern land
#tempso		`SO		~southern ocean
#climsens		~climate sensitivity (equilibrium)
#lotr		~land-ocean temp ratio (equilibrium)
#kns		~north-south conductivity
#klo		~land-ocean conductivity
#baseyear		~baseline year (temperature = zero)
#climodmenu		`GCM-fit		~Fit Parameters to Global Climate Model
#gfdl		~GFDL_R15_a
#csiro		~CSIRO Mk2
#hadcm3		~HadCM3
#hadcm2		~HadCM2
#echam4		~ECHAM4/OPYC
#csm		~CSM 1.0
#doe		~DOE PCM
#ipccsar		~IPCC SAR
#oceantempplot		`Ocean Temperature		~Temperature in each layer of the ocean
#psi		~polar sink temp ratio ('PSI')
#teddydiff		~vertical eddy diffusivity
#tmixlay		~mixed layer depth
#seaice		~sea-ice parameter
#tufbopt		`TU		~Temperature -Upwelling Feedback
#tnoupwell		~Temperature rise at which upwelling is reduced to zero
#uwbaserate		~Upwelling Rate before temperature change
#uwredfrac		~Proportion of upwelling affected by temperature feedback
#udebmodel		`UDEB Climate Model -How it Works
#climodfuture	¨fut		`Climate Module: Future Development
#rftemp		`From radiative forcing to temperature
#gcmfit		`Fitting to GCM predictions

#! ===>sealev<===
#sealevel		`Sea level Rise		~Sea level rise (Thermal Expansion and Ice-Melting)
#sealevelplot		`Sea level Rise		~Global average sea level rise
#totsl		`TO		~total
#thermexp		`TE		~thermal expansion
#glaciers		`GL		~Mountain Glaciers
#greenland		`GR		~Greenland
#antarctica		`AN		~Antarctica
#rfia		`IA		~Recovery from ice age
#freshwater		`FW		~freshwater reservoirs
#sealevelicemelt		`Ice Melting
#sealevelother		`Sea-Level Other Issues
#sealevelfuture	¨fut		`Sealevel module: Future Development

#! ===>regcli<===
#regcli		`Regional Climate		~Regional climate from scaled GCM predictions
#regclimap		`Regional Climate Map		~Regional climate change from GCM predictions, scaled to JCM warming
#impacts		`Climate Impacts and Adaptation
#regclimapuse		`Using the Regional Climate Map
#regclipredict		`Regional Climate Predictions
#regclifuture	¨fut		`Regional Climate -Future Development
#rotateopt		`RO		~Rotate Map
#mapstartlongitude		`Map Start Longitude
#usereg		`UseReg		~Show average for each country / region
#land		`Land		~Land Only
#rescale		`Color		~Reset Colorscale (+/- 3 standard deviation)
#scaletojcm		`Scale		~Scale to JCM global average
#regcliyear		~Year of temperature for scaling Regional map data
#yearcycopt		`YE		~Cycle through years
#mapdata		`Load GCM data
#projection		`View		~Map Projection
#grid		`Grid		~Lat/Long Grid Projection
#coslat		`Cos-Lat (eq-area)		~Cosine Latitude (equal area)
#polar		`Polar		~Polar Projection
#dataset		`Data		~Dataset (GCM prediction or baseline)
#had3_A2_20		~HadCM3 2020s SRESA2
#had3_A2_50		~HadCM3 2050s SRESA2
#had3_A2_80		~HadCM3 2080s SRESA2
#basehad3		~HadCM3 baseline 1961-90
#hhgsax80		~HadCM2 2080s greenhouse+aerosol
#hhgsax20		~HadCM2 2020s greenhouse+aerosol
#gggsa150		~GFDL-R15 2050s greenhouse
#jjgsa180		~CCSR/NIES 2080s greenhouse
#eegga180		~ECHAM4 2080s greenhouse
#baseline		~Baseline Climatology 1961-1990 av, 0.5 deg grid
#both1		~Combined HadCM3 baseline plus HadCM3 change
#both2		~Combined Climatology 0.5deg plus HadCM3 change
#quantity		`Quantity		~Choose Climate Variable
#tmp		~Average Temperature
#tmx		~Maximum Temperature
#tmn		~Minimum Temperature
#dtr		~Day-Night Temperature range
#pre		~Precipitation
#vap		~Vapour Pressure (humidity)
#wnd		~Wind speed
#cld		~Cloud cover
#hum		~Relative Humidity
#slp		~Mean Sea Level Pressure
#rad		~Incident Solar Radiation
#mix		~Mixed Tmin, Tmax, and Precip
#both		~Combined baseline plus HadCM3 change
#month		`Month		~Choose Month
#monthcycopt		`MO		~Cycle through months
#jan		`jan		~January
#feb		`feb		~February
#mar		`mar		~March
#apr		`apr		~April
#may		`may		~May
#jun		`jun		~June
#jul		`jul		~July
#aug		`aug		~August
#sep		`sep		~September
#oct		`oct		~October
#nov		`nov		~November
#dec		`dec		~December

#! ===>reg<===
#regions		`RegSet		~Region Set
#bord		`Country/Region borders
#reg		`Reg Interface
#regintro
#aboutregions		`About JCM Regions
#regemitmap		`Emissions Regions Map		~Show colours of curves in the emissions plots
#distribplot		`Distribution		~Regional Distribution
#popplot	¨old		`Population		~Global Population (from SRES) billions
#regemitplot	¨old		`CO2 Emissions		~Carbon dioxide emissions from fossil fuel, by region: GtC/yr
#percapplot	¨old		`Per-capita CO2 Emissions		~Fossil fuel CO2 emissions per capita: tC/pers/yr
#JCM12		~JCM 12 region set
#USA		`USA		~USA
#CAZ		`CAN		~Canada, Australia, NewZealand
#JAP		`JAP		~Japan
#EUW		`WEU		~West Europe (EU+)
#EUE		`EEU		~East Europe
#RUB		`RUB		~Russia, Ukraine, Belarus
#MEC		`MEC		~Middle East, Central Asia
#CHI		`CHI		~China
#AML		`SCA		~South / Central America
#OAS		`OAS		~Other Asia
#AFR		`AFR		~Africa
#IND		`IND		~India
#WORLDTOT		`WOT		~World Total
#WORLDAV		`WAV		~World Average
#DEN		`DK		~Denmark
#BUNKER		`IAS		~International Aircraft and Shipping
#JCM50		~JCM 50 region set
#IMAGE		~IMAGE-17
#EDGAR		~EDGAR
#RICE		~RICE94
#TGCIA		~TCGIA
#SRES4		~SRES 4 region set
#OECD		`OECD		~OECD1990: Western Europe, USA, Japan, Canada, Australia, NewZealand
#REFREG		`REF		~Economies in transition: Former USSR and East Europe
#ASIA		`ASIA		~Asia (from Pakistan eastwards)
#ALM		`ALM		~Africa, Latin America, Middle East (to Iran)

#! ===>distrib<===
#people		`People		~Population/Economy/Energy
#peopleintro		`People Module-How it Works
#regshares		`Regional Shares		~Regional Distribution of Emissions
#kyoto		`Kyoto		~Kyoto protocol
#distribmenu		`Distribn		~Options for distribution of regional emissions
#percapita		~Convergence to equal per-capita
#grandfather		~Initial distribn (grandfathering)
#sresdist		~Distribn by baseline (SRES) projection
#unspecified		~Unspecified regional distn
#convpergdp		~Convergence per GDP
#brazil		~Brazilian Proposal (simple variant)
#kyotoopt		`KP		~Kyoto protocol
#incusaopt		`US		~Include USA in Kyoto protocol
#convyear		~convergence year:
#convfac		~convergence factor:
#popcoy		~population cutoff year:
#expconvopt		`EC		~Exponential convergence formula
#popcoyopt		`PC		~Freeze population used for convergence after cutoff year
#regiondatasource		`Origin of Regional Data
#histemitobserv		`Historical emissions -Interesting Observations
#distribution		`Distribution of Future Emissions
#distribintro		`Allocating shares for each region
#effectofkyoto		`What is the Climate Effect of the Kyoto protocol?
#kyotohowwork		`Kyoto in JCM: How it Works
#kyotofuture		`Kyoto module: future development
#convergence		`Convergence formula
#convadju		`Adjusting the convergence year
#convmath		`Mathematical formula
#convfac		`Convergence factor
#convpopcoy		`The population cut-off year
#distribdeaccat		`DEA-CCAT proposal
#peoplefuture	¨fut		`Socioeconomic Model- Future Work:

#! ===>attrib<===
#responsibility		`Responsibility		~Attribution of Responsibility
#attributeplot		`Attribution		~Attribution of Responsibility
#startyear		`startyear		~Beginning of Attribution period
#endyear		`endyear		~End of Attribution period
#sepbunker		`bunk		~Separate Bunker fuel emissions
#simplecarbon		`simpC		~Simple Carbon sinks calculation method
#differential		`difRF		~Differential Radiative Forcing attribution
#incunatt		`UnAtt		~Include Unattributed Category
#temp		`Temperature		~Temperature rise (Relative to baseline)
#slte		`Thermal Exp		~Sealevel rise (Thermal Expansion only)
#attribothghg		`OthGhG		~Other Greenhouse Gases (F-gases and Ozone, also includes effect of OH lifetime on CH4)
#othghg
#unattr		`Unattr		~Unattributed (CO2, CH4, N2O before start or after end of attribution period)
#cumemitplot		`Cumulative Emissions		~Cumulative Emissions
#acatco2		`Atmospheric CO2		~Accumulated Atmospheric CO2
#attribintro		`Attribution- for Brazilian proposal
#resphowwork		`Responsibility- How it Works
#attribution		`Attribution of Contributions to Climate Change		~JCM contribution to UNFCCC Assessment of the Brazilian Proposal
#att_berlin_int		`JCM presentation for UNFCCC workshop in Berlin 8th Sept 2003
#att_berlin_new		`What's New
#att_berlin_absrel		`Absolute or Relative (T or %)?
#att_berlin_sciasp		`Scientific Aspects
#att_berlin_methasp		`Methodological Aspects
#att_berlin_commsens		`Communicating Sensitivities

#! ===>costs<===
#costs		`Costs		~Economic Costs (Experimental!)
#costsplot		`Costs (Experimental!)		~Economic Costs (Experimental!)
#abcost		`Abate-Cost		~Abatement Cost
#damcost		`Damage-Cost		~Damage Cost
#totcost		`Total-Cost		~Total Cost
#disccost		`Discounted Total-Cost		~Discounted Total Cost
#abatepow		~Abatement cost function power exponent
#abatelin		~Abatement cost function linear multiplier
#damagepow		~Damage cost function power exponent
#damagelin		~Damage cost function linear multiplier
#macgem		`macgem		~Use a different abatement cost formula from MacGEM model
#discountrate		`Discount Rate		~Rate of time-preference (fraction discounted per year).

#! ===>scenario<===
#sres		`SRES		~SRES No-climate-policy Emissions Scenarios
#sresmenu		`SRES		~Select SRES Baseline Scenario
#A1B
#A1T
#A1F
#A2
#B1
#B2
#IS92A
#TGCIA450
#aboutsres		`IPCC SRES Scenarios
#sresintro		`SRES Introduction
#srestable		`Scenario overview
#sresa1		`A1 Scenario: Rapid convergent growth
#sresa2		`A2 Scenario: Fragmented world
#sresb1		`B1 Scenario: Convergent with global environmental emphasis
#sresb2		`B2 Scenario: Local sustainability
#sresdriving		`SRES Driving Forces
#sresclimate		`SRES Effect on climate
#sresasbaseline		`SRES as Baseline for Mitigation (Post-SRES)
#sresdemo		`SRES Demonstration

#! ===>base<===
#topmenu
#mainmenu		`JCM Home Menu
#mmccot		`Cross-Cutting / Overview Topics 
#mmusejcm		`Using JCM
#mmpartjcm		`Parts of JCM (<i>as java code structure</i>)
#mod		`Science Modules		~Science Modules
#pan		`Panels		~JCM graphs, maps, text-panels
#usehelpmode
#applications		`Applications of JCM		~Use of JCM for Teaching, Research and in Policy Context
#jcmmirror		`JCM Mirror Sites
#teaching		`Using JCM for Teaching
#about		`Concept, History, Future		~About JCM:  Vision and Development
#philosophy		`Different approaches to the climate science-policy problem
#approaches		`Prediction or Problem-solving?
#uncertcope		`Strategies for Coping with Uncertainty
#whobau		`Whose "business as usual"? -A note on terminology
#equity		`Equity Issues
#concept		`Java Climate Model -the Concept
#oldconcept		`(Old) Java Climate Model -the Concept
#dialogue		`A Quantitative Framework for Global Dialogue
#localtolocal		`From Local Emissions to Local Impacts
#future	¨fut		`Future Development of JCM
#oldfuture	¨fut		`(Old) Future Development of JCM -summer 2001
#acknow		`Acknowledgements
#acknowmain		`Particular thanks are due to:
#acknowtranslate		`Acknowledgments for Translations
#acknowsupport		`Financial Support for JCM
#acknowmodels		`Original Models and Data
#contact		`Contact the author

#! ===>intro<===
#intro		`Introduction: What is JCM, How do I use it?
#howto		`Step-by-step introduction		~How to use JCM plots, controls, options
#adjcontrol		`Step 1: Adjusting controls
#emittoimp		`Step 2: Emissions to Impacts
#morecomplex		`Step 3: More Curves and controls
#offtop		`Step 4: Scenarios off the top!
#howuco2tempdemo	¨dem		`CO2 and Temperature Demo
#howuemitseademo	¨dem		`Emissions to Sea-level Demo
#howulabelsdemo	¨dem		`Labels Demo
#howuscalesdemo	¨dem		`Scales Demo
#autodemo		`Automatic Demonstration		~Demonstrate key points and features.

#! ===>science<===
#science		`Climate Processes, Timescales, Uncertainties		~Core science models for global fluxes of gases and heat.
#uncertainty		`Uncertainty
#uncertintro		`Uncertainty: Introduction
#uncertmixing		`Mixing Uncertainties
#uncertjcm		`Exploring Uncertainty with JCM
#uncertexample		`Uncertainty - Examples
#uncertfuture	¨fut		`Uncertainty: Future Development
#probabilistic		`Probabalistic Approach
#probintro		`Probabilistic Approach - Introduction
#probwccc		`Probabilistic analysis of Stabilisation under Uncertainty
#probscript		`Scripts to illustrate range of uncertainty 
#carbonprobscript	¨dem		`Probabalistic CarbonCycle script
#carbonprobscriptinv	¨dem		`Probabalistic CarbonCycle Inverse script
#fcnormal		`Normal sequence
#fcchanging		`What is changing?
#fcstabsres		`Stabilisation or SRES
#eigenvec		`Efficient Eigenvector Calculation method
#evmethod		`Features of eigenvector method
#jama		`Java Matrix Package
#evmathprinc		`Mathematical Principle
#simplemodels		`Simple Climate Models
#inertia		`Timescales and Inertia
#timescaleintro		`Timescales Introduction
#timescalescript	¨dem		`TimeScale Plot Script
#timescaleprocess		`Timescale of each process
#calculuscc		`Calculus of climate change
#compareipcc		`Correspondence to IPCC-TAR predictions
#cipccintro		`Check same input => same output
#tarwg1data		`IPCCTAR-WG1-SRES data
#ipccdiff		`Known differences JCM compared to TAR
#ipcclinks		`Links into IPCC-TAR:
#references		`References
#sciref		`Science models references
#dataref		`Data References
#optimisation	¨fut		`Optimisation

#! ===>gui<===
#layoutpanel		`Setup		~JCM General/Layout options
#plotmenu		`Plot		~Select a different panel
#layoutmenu		`Layout		~Change layout of panels
#1plot		~1 Plot
#2row		~2 Row
#2col		~2 Column
#4plots		~4 Plots
#5+big		~5small + 1big
#9plot		~9 Plots
#12+big		~12small+1big
#16+big		~16small+1big
#20+big		~20small+1big
#25plot		~25 Plots
#reset		`Reset		~Reset parameters and plots
#helpmode		`Help		~Clicking on an object opens related web page
#showcode		`Code		~Clicking on an object opens relevant java source code
#languagemenu		`Language		~Change language
#complexitymenu		`Complexity		~Select basic, normal, or expert level
#verysimple		~Simplest
#basic		~Normal
#expert		~Expert
#experimental		~Experimental
#linkx		`-x-		~Link all timescales (x-axes)
#showscales		`¬¬¬		~Show scales on graphs
#showcontrols		`[C]		~Show controls, menus, options, legend
#ipccdata		`IPCCdata		~Superimpose data circles from IPCCTAR WG1 SRES appendix
#capim		`png		~capture and save "png" image (file in jcm/output)
#captab		`tab		~capture and save data table (file in jcm/output)
#flowchart		`Cause-Effect Flowchart		~Flowchart of JCM Module/Panel Interactions
#blankplot		`Blank Plot		~Base for generating new plots by scripting
#gui		`GUI components		~JCM Graphical User Interface components
#scale		`Scales and Units
#datapoints		`Data-Circles
#jcmpanel		`jcmpanel
#aboutpanels		`Panels in JCM structure
#mapplot		`General map-plot
#regionplot		`Multi-Region Plot
#graph		`Graph
#textpan
#jcmta
#popob		`Pop-up Object
#legend		`Curve Legend
#title
#option		`Option
#menu		`Menu
#control		`Arrow-Control
#plotlayout		`plotlayout
#panlist		`panlist
#jcmevent
#capimage		`Capture and Save '.png' Image
#captable		`Capture and save a Table of Data
#printing		`Printing
#bufim
#colfont

#! ===>text<===
#viewparams		`List of chosen parameters		~Information about each parameter, option and menu choice
#viewdata		`View Graph Data		~Inspect curve data or copy into another application
#whichpanel		`Panel		~Choose a graph from which to show data
#separator		`Sep		~Separator between data
#notepad		`Notepad		~Text panel for debugging or scripting
#debug		`Debug
#script		`Script
#stop		`Stop
#clear		`Clear
#getdoc	¨old 		`GetDoc		~Get current documentation (as shown in web info window) for editing
#changedoc	¨old		`SetDoc		~Update doc/labels with contents of notepad.
#savedoc	¨old		`SaveDoc		~Save documentation (overwriting current files!) This will not work from a web browser, due to security restrictions
#choosevisiblepanel		~Choose a visible panel to show data
#autodoc		`autodoc
#labinf		`labinf
#labdoc		`Labels and Documentation
#labdocintro		`Lab/Doc -Introduction
#labdoctrans		`Translation
#labdocmodel		`Lab/Doc -Interaction with Model
#names		`Lab/Doc/Script Item-Code Names
#labdocfiles		`Lab/Doc Text Files
#scripting		`Scripting
#scriptintro		`Scripting JCM: Introduction
#scriptlang		`Why  a Scripting Language?
#scriptrun		`Running JCM Scripts
#scriptcode		`Scripting Code Syntax
#scriptparam		`Extra parameters
#player	¨dem		`player
#recorder		`recorder
#scriptlist	¨dem		`List of Demo Scripts
#emitdeclinescript	¨dem		`Emissions Decline 1% per year script
#remotecontrol	¨fut		`Remote Control / Snapshots
#wizpanel	¨dem old		`Remote Control		~Link with others, Record & Playback
#record	¨dem old		`Record		~Record events
#play	¨dem old		`Play		~Playback recorded events
#connect	¨dem old		`Connect		~Share events with other users across web
#newsession	¨dem old		`New		~Start a new shared web session
#outcode	¨dem old		`Code		~Output instruction code to this panel
#playtime	¨dem old		`Time		~Include timing in playing events
#doclist		`JCM Documentation Index
#doclistinfo		`About Index
#docsearch		`Search JCM Documentation
#anywords		`Any-words
#onlytitles		`Only-titles
#searchgo		`Go
#searchresults		`Search Results
#searchawot	¨old
#txt		`txt
#sysin		`sysin
#fileio		`fileio
#showwebpage		`showwebpage
#sort		`sort

#! ===>struc<===
#tech		`Technical Tips for using JCM		~Downloading, Printing, Scripting, Java-Code
#comp		`Structural components		~JCM Root Structure, GUI Components, Text/Script tools
#struccode		`JCM Code Structure
#howfast		`How does JCM work so fast?
#root		`Root components		~JCM Root and Startup
#loop
#modlist		`modlist
#module		`Module
#loaddata		`Load historical and scenario data
#aboutmodules		`About Modules
#parallelworld	¨fut		`Parallel Worlds
#mathcurve		`Mathematical Curve Formulae
#param		`Parameter
#iob		`Iob		~Interaction Object
#openapp
#startup
#mainapp
#testmod		`Test of model without gui
#startjcm		`Starting JCM as an application
#startjcmswing		`JCM as a standalone application, with documentation
#tls		`Text/Script Tools		~JCM Text/Script Tools
#ref		`ref

#! ===>java<===
#javafuture	¨fut		`Future of Java in Web Browsers
#aboutjava		`About Java
#jvm		`The Java Virtual Machine
#whyjava		`Why Use Java for this model?
#writejava		`Writing Java
#getjdk		`Get the JDK
#simpleapplets		`Simple Java Applets
#compiletips		`Compiling Tips
#compiletipsold		`Compiling Tips
#javasyntax		`Java Syntax

#! ===>pack<===
#whatnew		`What's New in JCM?
#new2003		`JCM: New in 2003
#new2002		`JCM: New in 2002
#develop		`JCM: History of Development
#copyr		`Conditions of Use
#download		`Download Package
#packchange		`Recent changes in packages
#packnotes		`Notes about packages
#pack24mar04		`24th Mar 2004
#pack8jul03		`8th July 2003
#pack5apr03		`5th April 2003
#pack24dec02		`24th December 2002
#pack1dec02		`1st December 2002
#pack1sep02		`1st September 2002
#pack7jul02		`7th July 2002

#! ===>conf<===
#confpres		`JCM at conferences/workshops
#linkpres		`Presentations/Abstracts/Papers
#conf2004		`JCM presentations 2004
#conf2003		`JCM presentations 2003
#conf2002		`JCM presentations 2002
#conf2001		`JCM presentations 2001
#moscow		`Stabilisation under Uncertainty
#moscow_stab		`Stabilisation
#moscow_carb		`81 Carbon cycle variants
#moscow_ogas		`6 Ratios of emissions of different gases
#moscow_clim		`84 Forcing/Climate Model variants
#moscow_prob		`Probability from fit to historical data
#moscow_oth		`Other features of JCM...
#wccc2003		`Shifting the Burden of Uncertainty