Preprocessed Files File <0> = G:\OC2009\EdiRe|OC090303_micromet_flux.csv File <1> = File <2> = File <3> = File <4> = File <5> = File <6> = File <7> = File <8> = File <9> = Set Values From Time = To Time = Number of Variables = 17 Storage Label = Z Assignment value = 10 Storage Label = Zm Assignment value = 1.3 Storage Label = d Assignment value = 6.5 Storage Label = BL_height Assignment value = 3000 Storage Label = CP Assignment value = 1004.67 Storage Label = LV Assignment value = 2440 Storage Label = MU_WPL Assignment value = 1.6111 Storage Label = R Assignment value = 8.3143e-3 Storage Label = RD Assignment value = 2.867e-4 Storage Label = RV Assignment value = 4.619e-4 Storage Label = Tair Assignment value = 0 <0> Tair Storage Label = RH Assignment value = 0 <0> RH Storage Label = PAR_mmol Assignment value = 0 <0> PAR_mmol Storage Label = NetRad Assignment value = 0 <0> NetRad Storage Label = Fc_wpl Assignment value = 0 <0> Fc_wpl Storage Label = LE_wpl Assignment value = 0 <0> LE_wpl Storage Label = Hc Assignment value = 0 <0> Hc Extract From Time = To Time = Channel = 1 Label for Signal = SECONDS Extract From Time = To Time = Channel = 2 Label for Signal = NANOSECONDS Extract From Time = To Time = Channel = 3 Label for Signal = RECORD Extract From Time = To Time = Channel = 4 Label for Signal = Ux_raw Extract From Time = To Time = Channel = 5 Label for Signal = Uy_raw Extract From Time = To Time = Channel = 6 Label for Signal = Uz_raw Extract From Time = To Time = Channel = 7 Label for Signal = co2_raw Extract From Time = To Time = Channel = 8 Label for Signal = h2o_raw Extract From Time = To Time = Channel = 9 Label for Signal = Ts_raw Extract From Time = To Time = Channel = 10 Label for Signal = Patm_op Extract From Time = To Time = Channel = 11 Label for Signal = diag_csat Raw Subset From Time = To Time = Subset start time(s) = Subset length(s) = Signal for condition = diag_csat Condition operators = > Condition (lower limit) = Condition upper limit = 2300 Storage Label % removed = csat_err Number of signals = 6 Signal Subset = Ux_raw Signal Subset = Uy_raw Signal Subset = Uz_raw Signal Subset = co2_raw Signal Subset = h2o_raw Signal Subset = Ts_raw Despike From Time = To Time = Signal = Ux_raw Standard Deviations = 6 Spike width = 4 Spike % consistency = 30 Replace spikes = x Storage Label spike count = spike_u Despike From Time = To Time = Signal = Uy_raw Standard Deviations = 6 Spike width = 4 Spike % consistency = 30 Replace spikes = x Storage Label spike count = spike_v Despike From Time = To Time = Signal = Uz_raw Standard Deviations = 6 Spike width = 4 Spike % consistency = 30 Replace spikes = x Storage Label spike count = spike_w Despike From Time = To Time = Signal = Ts_raw Standard Deviations = 6 Spike width = 4 Spike % consistency = 30 Replace spikes = x Storage Label spike count = spike_t Despike From Time = To Time = Signal = co2_raw Standard Deviations = 6 Spike width = 4 Spike % consistency = 30 Replace spikes = x Storage Label spike count = spike_c Despike From Time = To Time = Signal = h2o_raw Standard Deviations = 6 Spike width = 4 Spike % consistency = 30 Replace spikes = x Storage Label spike count = spike_q 1 chn statistics From Time = To Time = Signal = co2_raw Storage Label Mean = Mean_CO2 Storage Label Std Dev = SD_CO2 Storage Label Skewness = Storage Label Kurtosis = Storage Label Maximum = Storage Label Minimum = Storage Label Variance = var_CO2 Storage Label Turbulent Intensity = Alt Turbulent Intensity Denominator = 1 chn statistics From Time = To Time = Signal = h2o_raw Storage Label Mean = Mean_H2O Storage Label Std Dev = SD_H2O Storage Label Skewness = Storage Label Kurtosis = Storage Label Maximum = Storage Label Minimum = Storage Label Variance = var_H2O Storage Label Turbulent Intensity = Alt Turbulent Intensity Denominator = 1 chn statistics From Time = To Time = Signal = Ux_raw Storage Label Mean = mean_unrot_U Storage Label Std Dev = SD_unrot_U Storage Label Skewness = Storage Label Kurtosis = Storage Label Maximum = Storage Label Minimum = Storage Label Variance = var_unrot_U Storage Label Turbulent Intensity = Alt Turbulent Intensity Denominator = 1 chn statistics From Time = To Time = Signal = Uy_raw Storage Label Mean = mean_unrot_V Storage Label Std Dev = SD_unrot_V Storage Label Skewness = Storage Label Kurtosis = Storage Label Maximum = Storage Label Minimum = Storage Label Variance = var_unrot_V Storage Label Turbulent Intensity = Alt Turbulent Intensity Denominator = 1 chn statistics From Time = To Time = Signal = Uz_raw Storage Label Mean = mean_unrot_W Storage Label Std Dev = SD_unrot_W Storage Label Skewness = Storage Label Kurtosis = Storage Label Maximum = Storage Label Minimum = Storage Label Variance = var_unrot_W Storage Label Turbulent Intensity = Alt Turbulent Intensity Denominator = 1 chn statistics From Time = To Time = Signal = Ts_raw Storage Label Mean = T_sonic Storage Label Std Dev = SD_T_sonic Storage Label Skewness = Storage Label Kurtosis = Storage Label Maximum = Storage Label Minimum = Storage Label Variance = var_T_sonic Storage Label Turbulent Intensity = Alt Turbulent Intensity Denominator = 1 chn statistics From Time = To Time = Signal = Patm_op Storage Label Mean = Press Storage Label Std Dev = SD_Press Storage Label Skewness = Storage Label Kurtosis = Storage Label Maximum = Storage Label Minimum = Storage Label Variance = var_Press Storage Label Turbulent Intensity = Alt Turbulent Intensity Denominator = Wind direction From Time = To Time = Signal (u) = Ux_raw Signal (v) = Uy_raw Orientation = 224 Wind Direction Components = U+N_V+W Wind Direction Output = N_0_deg-E_90_deg Storage Label Wind Direction = theta Storage Label Wind Dir Std Dev = sd theta Rotation coefficients From Time = To Time = Signal (u) = Ux_raw Signal (v) = Uy_raw Signal (w) = Uz_raw Storage Label Alpha = alpha Storage Label Beta = beta Storage Label Gamma = gamma Optional mean u = Optional mean v = Optional mean w = Rotation From Time = To Time = Signal (u) = Ux_raw Signal (v) = Uy_raw Signal (w) = Uz_raw Alpha = alpha Beta = beta Gamma = gamma Do 1st Rot = x Do 2nd Rot = x Do 3rd Rot = 1 chn statistics From Time = To Time = Signal = Ux_raw Storage Label Mean = Mean_U Storage Label Std Dev = sd_u Storage Label Skewness = Storage Label Kurtosis = Storage Label Maximum = Storage Label Minimum = Storage Label Variance = var_u Storage Label Turbulent Intensity = turb_int_u Alt Turbulent Intensity Denominator = 1 chn statistics From Time = To Time = Signal = Uz_raw Storage Label Mean = Mean_W Storage Label Std Dev = sd_w Storage Label Skewness = Storage Label Kurtosis = Storage Label Maximum = Storage Label Minimum = Storage Label Variance = var_w Storage Label Turbulent Intensity = Alt Turbulent Intensity Denominator = Partial pressure From Time = To Time = Storage Label = e_air Apply to = Apply by = Variable type = Absolute density Measured variable = Mean_H2O Min or QC = Max or QC = Temperature (C) = Tair Min or QC = Max or QC = Pressure (KPa) = Press Min or QC = Max or QC = Molecular weight (g/mole) = 18.015 Conc conv factor = 1000 Sensible heat flux coefficient From Time = To Time = Storage Label = rho Apply to = Apply by = Vapour pressure (KPa) = e_air Min or QC = Max or QC = Temperature (C) = Tair Min or QC = Max or QC = Pressure (KPa) = Press Min or QC = Max or QC = Alternate rhoCp = 1230 User defined From Time = To Time = Storage Label = rho_d Apply to = Apply by = Equation = (Press/((Tair+273.15)*RD))-(Mean_H2O*MU_WPL) Variable = Press Variable = Tair Variable = RD Variable = Mean_H2O Variable = MU_WPL User defined From Time = To Time = Storage Label = rho_air Apply to = Apply by = Equation = (28.967/(8.314*(Tair+273.15)/Press)) Variable = Press Variable = Tair User defined From Time = To Time = Storage Label = rho_a Apply to = Apply by = Equation = (rho_d+Mean_H2O)/1000 Variable = rho_d Variable = Mean_H2O Latent heat of evaporation From Time = To Time = Storage Label = LV_op Apply to = Apply by = Temperature (C) = Tair Min or QC = Max or QC = Pressure (KPa) = Press Min or QC = Max or QC = LE flux coef, L = 2 chn statistics From Time = To Time = Signal = Uz_raw Signal = Ts_raw Storage Label Covariance = WT Storage Label Correlation = Storage Label Flux = H_sonic Flux coefficient = rho 2 chn statistics From Time = To Time = Signal = Uz_raw Signal = Uy_raw Storage Label Covariance = VW Storage Label Correlation = Storage Label Flux = Flux coefficient = 2 chn statistics From Time = To Time = Signal = Uz_raw Signal = Ux_raw Storage Label Covariance = UW Storage Label Correlation = Storage Label Flux = Flux coefficient = User defined From Time = To Time = Storage Label = tau Apply to = Apply by = Equation = ((UW^2)+(VW^2))^0.5 Variable = UW Variable = VW User defined From Time = To Time = Storage Label = Ustar Apply to = Apply by = Equation = tau^0.5 Variable = tau User defined From Time = To Time = Storage Label = tau Apply to = Apply by = Equation = rho_a*tau Variable = rho_a Variable = tau Cross Correlate From Time = To Time = Signal = Uz_raw Signal which lags = co2_raw Correlation type = Covariance Output Correlation curve = Storage Label Peak Time = LagC_sec Storage Label Peak Value = LagC_cov Remove Lag From Time = To Time = Signal = co2_raw Min Lag (sec) = -0.1 Lag (sec) = LagC_sec Max Lag (sec) = 1.9 Below Min default (sec) = 0.9 Above Max default (sec) = 0.9 2 chn statistics From Time = To Time = Signal = Uz_raw Signal = co2_raw Storage Label Covariance = FCO2_op Storage Label Correlation = Storage Label Flux = Flux coefficient = Cross Correlate From Time = To Time = Signal = Uz_raw Signal which lags = h2o_raw Correlation type = Covariance Output Correlation curve = Storage Label Peak Time = LagQ_sec Storage Label Peak Value = LagQ_cov Remove Lag From Time = To Time = Signal = h2o_raw Min Lag (sec) = -0.2 Lag (sec) = LagQ_sec Max Lag (sec) = 2.1 Below Min default (sec) = 1.0 Above Max default (sec) = 1.0 2 chn statistics From Time = To Time = Signal = Uz_raw Signal = h2o_raw Storage Label Covariance = WQ Storage Label Correlation = Storage Label Flux = Flux coefficient = User defined From Time = To Time = Storage Label = LE_op Apply to = Apply by = Equation = LV_op*WQ Variable = LV_op Variable = WQ User defined From Time = To Time = Storage Label = H_op Apply to = Apply by = Equation = rho_a*CP*WT Variable = rho_a Variable = CP Variable = WT Sonic T - heat flux correction From Time = To Time = Storage Label = H_conv Apply to = Apply by = Temperatue (C) = Tair Min or QC = Max or QC = Wind speed (m/s) = Mean_U Min or QC = Max or QC = Vapour pressure (KPa) = e_air Min or QC = Max or QC = Pressure (KPa) = Press Min or QC = Max or QC = uw covariance (m2/s2) = UW Min or QC = Max or QC = LE flux (W/m2) = LE_op Min or QC = Max or QC = LE flux coef, L = LV_op Min or QC = Max or QC = H flux coef, RhoCp = rho Min or QC = Max or QC = Temperature (C) Alt = Wind speed (m/s) Alt = Vapour pressure (KPa) Alt = Pressure (KPa) Alt = Virtual temperature From Time = To Time = Storage Label = T_virt Apply to = Apply by = Vapour pressure (KPa) = e_air Min or QC = Max or QC = Temperature (C) = Tair Min or QC = Max or QC = Pressure (KPa) = Press Min or QC = Max or QC = Temperature conversion = Calculate virtual from true Stability - Monin Obhukov From Time = To Time = Storage Label = zeta Apply to = Apply by = Measurement height (m) = Z Zero plane displacement (m) = d Virtual Temperature (C) = T_virt Min or QC = Max or QC = H flux (W/m2) = H_sonic Min or QC = Max or QC = H flux coef, RhoCp = rho Min or QC = Max or QC = Scaling velocity (m/s) = Ustar Min or QC = Max or QC = Spectral peak frequency From Time = To Time = Storage Label = spec_peak Apply to = Apply by = Spectral type = WX Stability Z/L = zeta Neutral/Unstable peak = neut_peak Stable peak asymptote = stable_peak Stable peak slope coef = x Integral time scale = 30 Measurement height (z-d) = 3.5 Wind speed, m/s = Mean_U User defined From Time = To Time = Storage Label = sigma_wpl Apply to = Apply by = Equation = Mean_H2O/rho_d Variable = Mean_H2O Variable = rho_d User defined From Time = To Time = Storage Label = sigma_wpl Apply to = Apply by = Equation = Mean_H2O/rho_d Variable = Mean_H2O Variable = rho_d User defined From Time = To Time = Storage Label = h2o_wpl_LE Apply to = Apply by = Equation = MU_WPL*sigma_wpl*LE_op Variable = MU_WPL Variable = sigma_wpl Variable = LE_op User defined From Time = To Time = Storage Label = h2o_wpl_H Apply to = Apply by = Equation = (1+(MU_WPL*sigma_wpl))*Mean_H2O/(Tair+273.15)*LV_op*WT Variable = MU_WPL Variable = sigma_wpl Variable = Mean_H2O Variable = Tair Variable = LV_op User defined From Time = To Time = Storage Label = LE_EdiRe Apply to = Apply by = Equation = LE_op+h2o_wpl_LE+h2o_wpl_H Variable = LE_op Variable = h2o_wpl_LE Variable = h2o_wpl_H User defined From Time = To Time = Storage Label = H_wpl Apply to = Apply by = Equation = (H_op-(rho_a*CP*0.51*RD*(Tair+273.15)*(Tair+273.15)*LE_EdiRe)/(Press*LV_op)) Variable = H_op Variable = rho_a Variable = CP Variable = RD Variable = LE_EdiRe Variable = RD Variable = Press Variable = LV_op User defined From Time = To Time = Storage Label = co2_wpl_LE Apply to = Apply by = Equation = MU_WPL*Mean_CO2/rho_d*WQ Variable = MU_WPL Variable = Mean_CO2 Variable = rho_d Variable = WQ User defined From Time = To Time = Storage Label = co2_wpl_H Apply to = Apply by = Equation = (1+(MU_WPL*sigma_wpl))*Mean_CO2/(Tair+273.15)*H_wpl/(rho_a*CP) Variable = MU_WPL Variable = sigma_wpl Variable = Mean_CO2 Variable = Tair Variable = H_wpl Variable = rho_a Variable = CP User defined From Time = To Time = Storage Label = Fco2_wpl Apply to = Apply by = Equation = FCO2_op+co2_wpl_LE+co2_wpl_H Variable = FCO2_op Variable = co2_wpl_LE Variable = co2_wpl_H Plot Value From Time = To Time = Left Axis Value = mean_unrot_W Right Axis Value = mean_unrot_V Left Axis Minimum = -0.2 Left Axis Maximum = 0.2 Right Axis Minimum = -5 Right Axis Maximum = 5 Plot Value From Time = To Time = Left Axis Value = Mean_U Right Axis Value = theta Left Axis Minimum = 0 Left Axis Maximum = 10 Right Axis Minimum = 0 Right Axis Maximum = 360 Plot Value From Time = To Time = Left Axis Value = T_sonic Right Axis Value = Tair Left Axis Minimum = -20 Left Axis Maximum = 40 Right Axis Minimum = -20 Right Axis Maximum = 40 Plot Value From Time = To Time = Left Axis Value = PAR_mmol Right Axis Value = NetRad Left Axis Minimum = 0 Left Axis Maximum = 2.2 Right Axis Minimum = -100 Right Axis Maximum = 800 Plot Value From Time = To Time = Left Axis Value = Mean_H2O Right Axis Value = Mean_CO2 Left Axis Minimum = 0 Left Axis Maximum = 30 Right Axis Minimum = 300 Right Axis Maximum = 800 Plot Value From Time = To Time = Left Axis Value = H_wpl Right Axis Value = Hc Left Axis Minimum = -200 Left Axis Maximum = 600 Right Axis Minimum = -200 Right Axis Maximum = 600 Plot Value From Time = To Time = Left Axis Value = Fco2_wpl Right Axis Value = Ustar Left Axis Minimum = -3 Left Axis Maximum = 1 Right Axis Minimum = 0 Right Axis Maximum = 2 Plot Value From Time = To Time = Left Axis Value = LE_wpl Right Axis Value = LE_EdiRe Left Axis Minimum = -200 Left Axis Maximum = 600 Right Axis Minimum = -200 Right Axis Maximum = 600 Plot Value From Time = To Time = Left Axis Value = Fco2_wpl Right Axis Value = Fc_wpl Left Axis Minimum = -1 Left Axis Maximum = 1 Right Axis Minimum = -1 Right Axis Maximum = 1