#------------------------------------------------------------------------------------------# # SITE DESCRIPTIONS # #------------------------------------------------------------------------------------------# K34 Archive file name : MAN_K34 (Reserva ZF-2, km34 site) Nearest city : Manaus - Amazonas State, Br. Veg : Tropical Rainforest Coordinates : 2o 36.5' S / 60o 12.5' W Local time : -4hr PI's : Pavel Kabat - Antonio Nobre Email PI's : p.kabat@alterra.waq-ur.nl / anobre@inpa.gov.br Other contacts : Celso von Randow (Celso.vonrandow@wur.nl) : Alessandro Araujo (carioca@inpa.gov.br) : Julio Tota (tota@inpa.gov.br) : Bart Krujit(tota@inpa.gov.br) Website URL : http://www.alterra-research.nl/pls/portal30/docs/folder/LBA/LBA/LBAdata.htm Available period : 6/1999 to 9/2006 Data received : Eddy covariance: Jan-2007 from Bart Krujit(email to Saleska) AWS: from website above Comment : Profile data missing after 2000 due to hardware malfunction #------------------------------------------------------------------------------------------# #------------------------------------------------------------------------------------------# # FILE FORMATS # #------------------------------------------------------------------------------------------# The data files are provided as comma-separated files at 3 different temporal resolutions: A. HOURLY data: SSS_CfluxBF.csv Data aggregation interval: Hour runs from 0 (zero) to 23., i.e., data at 10:00 are from aggregating measurements between 10:00 and 11:00 #------------------------------------------------------------------------------------------# #------------------------------------------------------------------------------------------# # RAW/CORRECTED FLUXES # #------------------------------------------------------------------------------------------# Some sites have Raw fluxes and Fluxes with corrections. The Raw fluxes (without correction) are: Fcraw, Hsraw, Leraw The Corrected Fluxes are: Fc , H, Le The main corrections are: Air Heat Capacity (that can change with the amount of humidity) Webb Correction only for Open Path Eddy Systems. #------------------------------------------------------------------------------------------# # OTHER NOTES # #------------------------------------------------------------------------------------------# ERROR CODE Missing values set to -9999. GEP always zero at night, even when surrounding daytime values are non-available as the GEP model prescribes nightime values to zero. However, it should not imply that there is a NEE measurement. QC/QA Outliers Comparison between AWS and Eddy Sensors, it at same height, i.e.: wind speed (acceptable variation is two standard deviation units form the linear regression) Unresponsive sensor Please refer to SITE_qaqc_merge.pdf plots to review the flagged and removed data SENSORS BY SITE See ?????? FIGURE FILES ????? Are we still referring people to these for V2.0, or are these outdated? ACRONYMS, ABREVIATION & SYMBOLS - Comment and/or description about the previous line AWS - Automatic Weather Station Sonic - Sonic Anemometer Cup - Cup Anemometer eddy - Variables from the MAIN eddy correlation system LUT - Look-up table #------------------------------------------------------------------------------------------# # CANONICAL VARIABLES # # # Col Variable Units Description #------------------------------------------------------------------------------------------# [,1] "dateloc".........................# NA matlab time stamp [,2] "Year_LBAMIP".....................# YYYY YYYY [,3] "DoY_LBAMIP"......................# JD JD [,4] "Hour_LBAMIP".....................# HR (UTM) HR (UTM) [,5] "Tair_LBAMIP".....................# degK Air temperature [,6] "Qair_LBAMIP".....................# kg kg-1 Specific humidity [,7] "Wind_LBAMIP".....................# m s-1 Wind speed [,8] "Rainf_LBAMIP"....................# kg m-2 s-1 Rainfall rate [,9] "PSurf_LBAMIP"....................# Pa Surface pressure [,10] "SWdown_LBAMIP"...................# W m-2 Incoming short wave [,11] "LWdown_LBAMIP"...................# W m-2 Incoming long wave [,12] "CO2air_LBAMIP"...................# Logical 0-1 [,13] "GF_Tair_LBAMIP"..................# Logical 0-1 [,14] "GF_Qair_LBAMIP"..................# Logical 0-1 [,15] "GF_Wind_LBAMIP"..................# Logical 0-1 [,16] "GF_Rainf_LBAMIP".................# Logical 0-1 [,17] "GF_PSurf_LBAMIP".................# Logical 0-1 [,18] "GF_SWdown_LBAMIP"................# Logical 0-1 [,19] "GF_LWdown_LBAMIP"................# Logical 0-1 [,20] "GF_CO2air_LBAMIP"................# Logical 0-1 [,21] "ta"".............................# oC AWS Air temperature [,22] "taed"............................# oC Sonic temperature [,23] "wd"..............................# degrees Wind direction Cup [,24] "wded"............................# degrees Wind Direction Sonic [,25] "pressed".........................# KPa Pressure eddy system [,26] "press"...........................# KPa Pressure aws [,27] "rg"..............................# W m-2 Global Incident Radiation [,28] "rr"..............................# W m-2 Global Reflected Radiation [,29] "par".............................# umol photons m-2 s-1 PAR Incident Radiation [,30] "rpar"............................# umol photons m-2 s-1 PAR Reflected Radiation [,31] "Rn"..............................# W m-2 Net Radiation [,32] "FG"..............................# W m-2 Soil Heat Flux [,33] "wsed"............................# m s-1 Wind speed Cup [,34] "ws"..............................# m s-1 Wind Speed Sonic [,35] "H"...............................# W m-2 Sensible Heat Flux [,36] "Hraw"............................# W m-2 Sensible Heat Flux Raw [,37] "LE"..............................# W m-2 Latent Heat Flux [,38] "Leraw"...........................# W m-2 Latent Heat Flux Raw [,39] "Fc"..............................# umol CO2 m-2 s-1 CO2 Turbulent Flux [,40] "Fcraw"...........................# umol CO2 m-2 s-1 CO2 Turbulent Flux Raw [,41] "co2".............................# ppm CO2 concentration IRGA [,42] "sco2"............................# umol CO2 m-2 s-1 Storage FLUX [,43] "NEE".............................# umol CO2 m-2 s-1 Net Ecosystem Exchange of CO2 [,44] "NEEf"............................# umol CO2 m-2 s-1 Filtered NEE [,45] "mrs".............................# umol CO2 m-2 s-1 Soil respiration [,46] "ust".............................# m s-1 Friction velocity [,47] "rh"..............................# % Relative Humidity [,48] "prec"............................# mm precipitation [,49] "h2o".............................# mmol/mol h2o concentration IRGA [,50] "Fh2o"............................# mmols m-2 s-1 Rate of vertical transf de H2O [,51] "U"...............................# m s-1 Zonal Wind Cup [,52] "Ued".............................# m s-1 Zonal Wind Sonic [,53] "V"...............................# m s-1 Meridional CupWind [,54] "Ved".............................# m s-1 Meridional Sonic Wind [,55] "ee"..............................# KPa Vapour pressure [,56] "ees".............................# KPa Saturation vapour pressure [,57] "dpt".............................# oC Dew point temperature [,58] "tsavg"...........................# oC Avg Soil Temperature [,59] "eqtemp"..........................# oC Equivalent Temperature [,60] "abshu"...........................# g m-3 Absolute Humidity [,61] "slopee"..........................# KPa oC -1 Slope of Saturation Vapor Pressure [,62] "radtop"..........................# W m -2 Hourly Theoretical Radiation [,63] "rgs".............................# W m -2 short wave radiation in [,64] "rgsout"..........................# W m -2 short wave radiation out [,65] "rgl".............................# W m -2 long wave radiation in [,66] "rglout"..........................# W m -2 short wave radiation out [,67] "stdW"............................# m s-1 Standard Dev Vertical Wind [,68] "ang".............................# degrees Rotation Angle [,69] "Tau".............................# Kg m-2 s-1 Rate of vertical tranference of momentum [,70] "zl"..............................# NA Atmospheric stability parameter [,126] "So"..............................# W m-2 TOA radiation #------------------------------------------------------------------------------------------# # CARBON FLUXES # #------------------------------------------------------------------------------------------# [,147] "Re_5day_ust_Sco2_LUT"............# umol CO2 m-2 s-1 Re: ecosystem respiration 5day model: 5 day night-time average (used) NEE=Fc+Sco2 filled using the LUT method [,193] "GEP_model".......................# umol CO2 m-2 s-1 GEP: gross ecosystem productivity Selected for analysis Sco2 filled, ustar corrected, Re based on the 5day model Filled using LUT [,202] "NEE_model".......................# umol CO2 m-2 s-1 NEE: net ecosystem exchange Selected for analysis Sco2 filled, ustar corrected [,205] "Pc_GEPfill"......................# umol CO2 m-2 s-1 Pc: photosynthetic capacity Selected for analysis GEP incl. Sco2 and ustar (PAR>725 and PAR<925) #------------------------------------------------------------------------------------------# # TOWER PROFILE VARIABLES # # (missing or incomplete for many sites) # #------------------------------------------------------------------------------------------# [,71] "tprof1"..........................# oC Canopy temperature profile [,72] "tprof2"..........................# oC Canopy temperature profile [,73] "tprof3"..........................# oC Canopy temperature profile [,74] "tprof4"..........................# oC Canopy temperature profile [,75] "tprof5"..........................# oC Canopy temperature profile [,76] "tprof6"..........................# oC Canopy temperature profile [,77] "tprof7"..........................# oC Canopy temperature profile [,78] "tprof8"..........................# oC Canopy temperature profile [,79] "tprof9"..........................# oC Canopy temperature profile [,80] "tprof10".........................# oC Canopy temperature profile [,81] "avgprofT"........................# oC Average Profile Temperature [,82] "msoil1"..........................# m3 m-3 soil moisture profile [,83] "msoil2"..........................# m3 m-3 soil moisture profile [,84] "msoil3"..........................# m3 m-3 soil moisture profile [,85] "msoil4"..........................# m3 m-3 soil moisture profile [,86] "msoil5"..........................# m3 m-3 soil moisture profile [,87] "msoil6"..........................# m3 m-3 soil moisture profile [,88] "msoil7"..........................# m3 m-3 soil moisture profile [,89] "msoil8"..........................# m3 m-3 soil moisture profile [,90] "msoil9"..........................# m3 m-3 soil moisture profile [,91] "msoil10".........................# m3 m-3 soil moisture profile [,92] "totalteta".......................# m3 m-3 Total H2O in the soil [,93] "pco2_1"..........................# ppm CO2 concentration profile [,94] "pco2_2"..........................# ppm CO2 concentration profile [,95] "pco2_3"..........................# ppm CO2 concentration profile [,96] "pco2_4"..........................# ppm CO2 concentration profile [,97] "pco2_5"..........................# ppm CO2 concentration profile [,98] "pco2_6"..........................# ppm CO2 concentration profile [,99] "pco2_7"..........................# ppm CO2 concentration profile [,100] "pco2_8"..........................# ppm CO2 concentration profile [,101] "pco2_9"..........................# ppm CO2 concentration profile [,102] "pco2_10".........................# ppm CO2 concentration profile [,103] "avgsto"..........................# ppm Average Storage [,104] "h2o_1"...........................# mmol/mol H20 concentration profile [,105] "h2o_2"...........................# mmol/mol H20 concentration profile [,106] "h2o_3"...........................# mmol/mol H20 concentration profile [,107] "h2o_4"...........................# mmol/mol H20 concentration profile [,108] "h2o_5"...........................# mmol/mol H20 concentration profile [,109] "h2o_6"...........................# mmol/mol H20 concentration profile [,110] "h2o_7"...........................# mmol/mol H20 concentration profile [,111] "h2o_8"...........................# mmol/mol H20 concentration profile [,112] "h2o_9"...........................# mmol/mol H20 concentration profile [,113] "h2o_10"..........................# mmol/mol H20 concentration profile [,114] "avgprofW"........................# mmol/mol Average H20 profile [,115] "Wind1"...........................# m s-1 Wind profile [,116] "Wind2"...........................# m s-1 Wind profile [,117] "Wind3"...........................# m s-1 Wind profile [,118] "Wind4"...........................# m s-1 Wind profile [,119] "Wind5"...........................# m s-1 Wind profile [,120] "Wavg"............................# m s-1 Average wind profile [,121] "tsoil1"..........................# oC Soil Temperature profile [,122] "tsoil2"..........................# oC Soil Temperature profile [,123] "tsoil3"..........................# oC Soil Temperature profile [,124] "tsoil4"..........................# oC Soil Temperature profile [,125] "tsoil5"..........................# oC Soil Temperature profile #------------------------------------------------------------------------------------------# # VARIABLES USED IN TESTING # #------------------------------------------------------------------------------------------# [,127] "Re_5day".........................# umol CO2 m-2 s-1 Re: ecosystem respiration 5day model: 5 day night-time average (used) Fc Re: ecosystem respiration [,128] "Re_5day_ust".....................# umol CO2 m-2 s-1 Re: ecosystem respiration 5day model: 5 day night-time average (used) Fc ustar corrected GEP: gross ecosystem productivity [,129] "Re_5day_sco2"....................# umol CO2 m-2 s-1 Re: ecosystem respiration 5day model: 5 day night-time average (used) NEE NEE: net ecosystem exchange [,130] "Re_5day_sco2_ust"................# umol CO2 m-2 s-1 Re: ecosystem respiration 5day model: 5 day night-time average (used) NEE ustar corrected Fc: CO2 flux [,131] "Re_5day_ust_min".................# umol CO2 m-2 s-1 Re: ecosystem respiration 5day model: 5 day night-time average (used) Fc ustar lower bound corrected Sco2: storage flux [,132] "Re_5day_ust_max".................# umol CO2 m-2 s-1 Re: ecosystem respiration 5day model: 5 day night-time average (used) Fc ustar upper bound corrected Pc: photosyntetic capacity [,133] "Re_5day_sco2_ust_min"............# umol CO2 m-2 s-1 Re: ecosystem respiration 5day model: 5 day night-time average (used) NEE ustar lower bound corrected [,134] "Re_5day_sco2_ust_max"............# umol CO2 m-2 s-1 Re: ecosystem respiration 5day model: 5 day night-time average (used) NEE ustar upper bound corrected [,135] "Re_fourier_model"................# umol CO2 m-2 s-1 Re: ecosystem respiration fourier: Re as in Richardson et al and Papale et al Fc 5day model: 5 day night-time average (used) [,136] "Re_fourier_ust_model"............# umol CO2 m-2 s-1 Re: ecosystem respiration fourier: Re as in Richardson et al and Papale et al Fc ustar corrected fourier: Re as in Richardson et al and Papale et al (only tested) [,137] "Re_fourier_sco2_model"...........# umol CO2 m-2 s-1 Re: ecosystem respiration fourier: Re as in Richardson et al and Papale et al NEE GEP_model: recommended version calculated using Re 5day and Sco2 filled using the selected method as in (Restrepo Coupe et al., submitted) [,138] "Re_fourier_sco2_ust_model".......# umol CO2 m-2 s-1 Re: ecosystem respiration fourier: Re as in Richardson et al and Papale et al NEE ustar corrected ust_sco2: corrected for ustr and sco2 [,139] "Re_fourier_ust_min_model"........# umol CO2 m-2 s-1 Re: ecosystem respiration fourier: Re as in Richardson et al and Papale et al Fc ustar lower bound corrected ust_min: lower bound value for u* [,140] "Re_fourier_ust_max_model"........# umol CO2 m-2 s-1 Re: ecosystem respiration fourier: Re as in Richardson et al and Papale et al Fc ustar upper bound corrected ust_max: upper bound value for u* [,141] "Re_fourier_sco2_ust_min_model"...# umol CO2 m-2 s-1 Re: ecosystem respiration fourier: Re as in Richardson et al and Papale et al NEE ustar lower bound corrected [,142] "Re_fourier_sco2_ust_max_model"...# umol CO2 m-2 s-1 Re: ecosystem respiration fourier: Re as in Richardson et al and Papale et al NEE ustar upper bound corrected [,143] "NEE_night".......................# umol CO2 m-2 s-1 NEE: net ecosystem exchange nightime used for Re calculations [,144] "Fc_night"........................# umol CO2 m-2 s-1 Fc: CO2 flux nightime used for Re calculations [,145] "NEE_night_ust"...................# umol CO2 m-2 s-1 NEE: net ecosystem exchange nightime used for Re calculations ustar corrected [,146] "Fc_night_ust"....................# umol CO2 m-2 s-1 Fc: CO2 flux nightime used for Re calculations ustar corrected [,148] "Re_5day_ust_Sco2_IwataLIN".......# umol CO2 m-2 s-1 Re: ecosystem respiration 5day model: 5 day night-time average (used) NEE=Fc+Sco2 filled using Iwata linear method [,149] "Re_5day_ust_Sco2_IwataLN"........# umol CO2 m-2 s-1 Re: ecosystem respiration 5day model: 5 day night-time average (used) NEE=Fc+Sco2 filled using Iwata ln method [,150] "Re_5day_ust_Sco2_IwataPOL".......# umol CO2 m-2 s-1 Re: ecosystem respiration 5day model: 5 day night-time average (used) NEE=Fc+Sco2 filled using Iwata 2nd degree polynomial method [,151] "Re_5day_ust_Sco2_EC".............# umol CO2 m-2 s-1 Re: ecosystem respiration 5day model: 5 day night-time average (used) NEE=Fc+Sco2 filled using CO2 from the EC system [,152] "Re_5day_ust_Sco2_DIEL"...........# umol CO2 m-2 s-1 Re: ecosystem respiration 5day model: 5 day night-time average (used) NEE=Fc+Sco2 filled using the Diel method [,153] "NEEnogap_5day_ust_Sco2_LUT"......# umol CO2 m-2 s-1 NEE: net ecosystem exchange 5day model: 5 day night-time average (used) NEE=Fc+Sco2 filled using the LUT method [,154] "NEEnogap_5day_ust_Sco2_IwataLIN".# umol CO2 m-2 s-1 NEE: net ecosystem exchange 5day model: 5 day night-time average (used) NEE=Fc+Sco2 filled using Iwata linear method [,155] "NEEnogap_5day_ust_Sco2_IwataLN"..# umol CO2 m-2 s-1 NEE: net ecosystem exchange 5day model: 5 day night-time average (used) NEE=Fc+Sco2 filled using Iwata ln method [,156] "NEEnogap_5day_ust_Sco2_IwataPOL".# umol CO2 m-2 s-1 NEE: net ecosystem exchange 5day model: 5 day night-time average (used) NEE=Fc+Sco2 filled using Iwata 2nd degree polynomial method [,157] "NEEnogap_5day_ust_Sco2_EC".......# umol CO2 m-2 s-1 NEE: net ecosystem exchange 5day model: 5 day night-time average (used) NEE=Fc+Sco2 filled using CO2 from the EC system [,158] "NEEnogap_5day_ust_Sco2_DIEL".....# umol CO2 m-2 s-1 NEE: net ecosystem exchange 5day model: 5 day night-time average (used) NEE=Fc+Sco2 filled using the Diel method [,159] "GEP_5day_sco2_ust"...............# umol CO2 m-2 s-1 GEP: gross ecosystem productivity 5day model: 5 day night-time average (used) NEE ustar corrected Filled using LUT [,160] "GEP_5day_sco2_ust_max"...........# umol CO2 m-2 s-1 GEP: gross ecosystem productivity 5day model: 5 day night-time average (used) NEE ustar lower bound corrected Filled using LUT [,161] "GEP_5day_sco2_ust_min"...........# umol CO2 m-2 s-1 GEP: gross ecosystem productivity 5day model: 5 day night-time average (used) NEE ustar upper bound corrected Filled using LUT [,162] "GEP_5day_ust"....................# umol CO2 m-2 s-1 GEP: gross ecosystem productivity 5day model: 5 day night-time average (used) Fc ustar corrected Filled using LUT [,163] "GEP_5day_ust_max"................# umol CO2 m-2 s-1 GEP: gross ecosystem productivity 5day model: 5 day night-time average (used) Fc ustar lower bound corrected Filled using LUT [,164] "GEP_5day_ust_min"................# umol CO2 m-2 s-1 GEP: gross ecosystem productivity 5day model: 5 day night-time average (used) Fc ustar upper bound corrected Filled using LUT [,165] "GEP_5day_sco2"...................# umol CO2 m-2 s-1 GEP: gross ecosystem productivity 5day model: 5 day night-time average (used) NEE Filled using LUT [,166] "GEP_5day"........................# umol CO2 m-2 s-1 GEP: gross ecosystem productivity 5day model: 5 day night-time average (used) Fc ustar lower bound corrected Filled using LUT [,167] "GEP_5day_sco2_ust_hyperbola".....# umol CO2 m-2 s-1 GEP: gross ecosystem productivity 5day model: 5 day night-time average (used) NEE ustar corrected Filled using a rectangular hyperbola [,168] "GEP_5day_sco2_ust_hyperbola".....# umol CO2 m-2 s-1 GEP: gross ecosystem productivity 5day model: 5 day night-time average (used) NEE ustar corrected Filled using a rectangular hyperbola [,169] "GEP_5day_ust_hyperbola"..........# umol CO2 m-2 s-1 GEP: gross ecosystem productivity 5day model: 5 day night-time average (used) Fc ustar corrected Filled using a rectangular hyperbola [,170] "GEP_5day_sco2_hyperbola".........# umol CO2 m-2 s-1 GEP: gross ecosystem productivity 5day model: 5 day night-time average (used) NEE Filled using a rectangular hyperbola [,171] "GEP_5day_hyperbola"..............# umol CO2 m-2 s-1 GEP: gross ecosystem productivity 5day model: 5 day night-time average (used) Fc Filled using a rectangular hyperbola [,172] "NEE_spike5_free".................# umol CO2 m-2 s-1 NEE: net ecosystem exchange NEE spike free [,173] "NEEnogap_5day_sco2_ust"..........# umol CO2 m-2 s-1 NEE: net ecosystem exchange NEE filled ustar corrected [,174] "NEEnogap_5day_ust"...............# umol CO2 m-2 s-1 NEE: net ecosystem exchange assumed =Fc Fc filled ustar corrected [,175] "NEEnogap_5day_sco2"..............# umol CO2 m-2 s-1 NEE: net ecosystem exchange [,176] "NEEnogap_5day"...................# umol CO2 m-2 s-1 NEE: net ecosystem exchange assumed =Fc [,177] "Sco2_LUT"........................# umol CO2 m-2 s-1 Sco2: storage flux LUT method [,178] "Sco2_IwataLIN"...................# umol CO2 m-2 s-1 Sco2: storage flux Iwata linear method [,179] "Sco2_IwataLN"....................# umol CO2 m-2 s-1 Sco2: storage flux Iwata ln method [,180] "Sco2_IwataPOL"...................# umol CO2 m-2 s-1 Sco2: storage flux Iwata 2nd degree polynomial method [,181] "Sco2_EC".........................# umol CO2 m-2 s-1 Sco2: storage flux CO2 from the EC system [,182] "Sco2_DIEL".......................# umol CO2 m-2 s-1 Sco2: storage flux Diel method [,183] "Fc_spike7_free"..................# umol CO2 m-2 s-1 Fc: CO2 flux spike free [,184] "Sco2"............................# umol CO2 m-2 s-1 Sco2: storage flux [,185] "GEP_5day_ust_Sco2_LUT"...........# umol CO2 m-2 s-1 GEP: gross ecosystem productivity 5day model: 5 day night-time average (used) NEE=Fc+Sco2 filled using the LUT method Filled using LUT [,186] "GEP_5day_ust_Sco2_IwataLIN"......# umol CO2 m-2 s-1 GEP: gross ecosystem productivity 5day model: 5 day night-time average (used) NEE=Fc+Sco2 filled using Iwata linear method Filled using LUT [,187] "GEP_5day_ust_Sco2_IwataLN".......# umol CO2 m-2 s-1 GEP: gross ecosystem productivity 5day model: 5 day night-time average (used) NEE=Fc+Sco2 filled using Iwata ln method Filled using LUT [,188] "GEP_5day_ust_Sco2_IwataPOL"......# umol CO2 m-2 s-1 GEP: gross ecosystem productivity 5day model: 5 day night-time average (used) NEE=Fc+Sco2 filled using Iwata 2nd degree polynomial method Filled using LUT [,189] "GEP_5day_ust_Sco2_EC"............# umol CO2 m-2 s-1 GEP: gross ecosystem productivity 5day model: 5 day night-time average (used) NEE=Fc+Sco2 filled using CO2 from the EC system Filled using LUT [,190] "GEP_5day_ust_Sco2_DIEL"..........# umol CO2 m-2 s-1 GEP: gross ecosystem productivity 5day model: 5 day night-time average (used) NEE=Fc+Sco2 filled using the Diel method Filled using LUT [,191] "GEP_5day_ust_Sco2_UST"...........# umol CO2 m-2 s-1 GEP: gross ecosystem productivity 5day model: 5 day night-time average (used) NEE=Fc+Sco2 filled using the Ustar method Filled using LUT [,192] "GEP_5day_ust_Sco2_REG"...........# umol CO2 m-2 s-1 GEP: gross ecosystem productivity 5day model: 5 day night-time average (used) NEE=Fc+Sco2 filled using Regression method Filled using LUT [,194] "GEPmodel_ust_max"................# umol CO2 m-2 s-1 GEP: gross ecosystem productivity Selected for analysis ustar corrected for lower bound Filled using LUT [,195] "GEPmodel_ust_min"................# umol CO2 m-2 s-1 GEP: gross ecosystem productivity Selected for analysis ustar corrected for upper bound Filled using LUT [,196] "Re_model"........................# umol CO2 m-2 s-1 Re: ecosystem respiration Selected for analysis Sco2 filled, ustar corrected, Re based on the 5day model [,197] "Remodel_ust_max".................# umol CO2 m-2 s-1 Re: ecosystem respiration Selected for analysis ustar corrected for lower bound [,198] "Remodel_ust_min".................# umol CO2 m-2 s-1 Re: ecosystem respiration Selected for analysis ustar corrected for upper bound [,199] "Sco2_model"......................# umol CO2 m-2 s-1 Sco2: storage flux Selected for analysis [,200] "NEE_model_ust_max"...............# umol CO2 m-2 s-1 NEE: net ecosystem exchange Selected for analysis ustar corrected for upper bound [,201] "NEE_model_ust_min"...............# umol CO2 m-2 s-1 NEE: net ecosystem exchange Selected for analysis ustar corrected for lower bound [,203] "par_fill"........................# umol CO2 m-2 s-1 PAR: Photosynthetic Active Radiation filled [,204] "Pc"..............................# umol CO2 m-2 s-1 Pc: photosynthetic capacity GEP (PAR>725 and PAR<925) [,206] "Pc_AM"...........................# umol CO2 m-2 s-1 Pc: photosynthetic capacity morning GEP (PAR>725 and PAR<925) [,207] "Pc_PM"...........................# umol CO2 m-2 s-1 Pc: photosynthetic capacity afternoon GEP (PAR>725 and PAR<925) [,215] "Pcatmed.VPD".....................# umol CO2 m-2 s-1 Pc: photosynthetic capacity at med VPD (1-2kPa) [,214] "PcatlowVPD"......................# umol CO2 m-2 s-1 Pc: photosynthetic capacity at low VPD (0-1kPa) [,216] "PcathighVPDvalues"...............# umol CO2 m-2 s-1 Pc: photosynthetic capacity at high VPD (2-3kPa) [,217] "VPD".............................# kPa vapor pressre deficit ------------------------------------------------------------------------------------------------------------------------ ------------------------------------------------------------------------------------------------------------------------