user interface | user manual

Content of user manual

 

Description of output-files

One-time output

Output file of single variables - Variables

 This feature is only available with run options (flag_multi) 8, 9, 10.

The variables will be selected at the end of the simulation control file.
Each variable name requires a new line. The selection ends with end.

Name

Meaning

Unit

Variables and calculations*)

anzdlf number of days with frost April-June - anzdlf

AET

Yearly actual evapotranspiration

mm

AET_cum

AET_year

Annual actual evapotranspiration sum for each year

mm

AET_cum

AET_monr Monthly actual evapotranspiration mm AET_mon

AET_week

Weekly actual evapotranspiration

mm

AET_week

above_biom

Total aboveground biomass

t DW/ha

(sumbio - totfrt - totcrt) / 1000

BA basal area m²/ha basal_area

C_accu

Soil carbon accumulation per year

t C/ha

C_accu

C_d_stem Carbon in dead trees t C/ha C_opm_stem / 100

C_humtot

Total carbon in humus

t C/ha

C_hum_tot / 100

C_sum

Total carbon in ecosystem

t C/ha

C_tot / 100 +
(sumbio + cumsumvsab + cumsumvsdead) * cpart / 1000

C_tot

Total carbon in soil

t C/ha

C_tot / 100

con_gor

Continentality index Gorczynski

-

con_gor

con_cur

Continentality index Currey

-

con_cur

con_con

Continentality index Conrad

-

con_con

cwb

Annual climate water balance

mm

cwb_an

cwb_year

Annual climate water balance for each year

mm

cwb_an

cwb_mon

Monthly climate water balance

mm

prec_mon(j) - pet_mon(j)

cwb_week

Weekly climate water balance

mm

prec_week(j) - pet_week(j)

date_lf last late frost day of the year after beginning of vegetation period -- date_lf
date_lft last late frost day of the year -- date_lftot

daybb_be

Day of bud burst beech

doy

svar(1)%daybb

daybb_bi

Day of bud burst betula

doy

svar(5)%daybb

daybb_oa

Day of bud burst oak

doy

svar(4)%daybb

dbh mean diameter at breast height cm mean_diam

dens

Stem density per ha

-

anz_tree_ha

dnlf number of late frost days after start of vegetation period -- dnlf
dnlf_sp number of late frost days after species specific bud burst -- dnlf_sp

drindal

Drought index for allocation calculation

-

drIndAl

fire_indb Fire index Bruschek - fire_indb
fire_ind1 Fire index west - fire(1)%mean
fire_ind2 Fire index east - fire(2)%mean
fire_ind3 Fire index Nesterov - fire(3)%mean
fire_ind1_c1 Fire index west class 1 - fire(1)%frequ(1)
fire_ind1_c2 Fire index west class 2 - fire(1)%frequ(2)
fire_ind1_c3 Fire index west class 3 - fire(1)%frequ(3)
fire_ind1_c4 Fire index west class 4 - fire(1)%frequ(4)
fire_ind1_c5 Fire index west class 5 - fire(1)%frequ(5)
fire_ind2_c1 Fire index east class 1 - fire(2)%frequ(1)
fire_ind2_c2 Fire index east class 2 - fire(2)%frequ(2)
fire_ind2_c3 Fire index east class 3 - fire(2)%frequ(3)
fire_ind2_c4 Fire index east class 4 - fire(2)%frequ(4)
fire_ind2_c5 Fire index east class 5 - fire(2)%frequ(5)
fire_ind3_c1 Fire index Nesterov class 1 - fire(3)%frequ(1)
fire_ind3_c2 Fire index Nesterov class 2 - fire(2)%frequ(2)
fire_ind3_c3 Fire index Nesterov class 3 - fire(2)%frequ(3)
fire_ind3_c4 Fire index Nesterov class 4 - fire(2)%frequ(4)
fire_ind3_c5 Fire index Nesterov class 5 - fire(2)%frequ(5)
fortyp Forest classification   waldtyp
GPP Yearly gross primary production t C/ha sumGPP * cpart *10 / kpatchsize
GPP_year Annual gross primary production for each year t C/ha sumGPP * cpart *10 / kpatchsize
GPP_mon Monthly gross primary production t C/ha GPP_mon(j) * 100 / kpatchsize
GPP_Week Weekly gross primary production t C/ha GPP_week(j) * 100 / kpatchsize
height Dominant tree height cm hdom
iday_vp

number of day indicating start of vegetation period

d iday_vegper
ind_arid Aridity index (UNEP) - ind_arid_an
ind_cout Climate index Coutange - ind_cout_an
ind_emb Climate index Emberger - ind_emb
ind_lang Climate index Lang - ind_lang_an
ind_mart Climate index Martonne - ind_mart_an
ind_reich Climate index Reichel - ind_reich
ind_weck Climate index Weck - ind_weck
ind_wiss Climate index v. Wissmann - ind_wiss_an
interc Yearly canopy interception mm int_cum_can
LAI Maximum LAI - LAImax
N_dep Yearly N deposition g N/m² Ndep_cum
N_leach Yearly N leaching kg N/ha Nleach_c * 10
N_min Yearly N mineralization kg N/ha N_min * 10
NEP Yearly net ecosystem production t C/ha sumNPP * cpart *10 / kpatchsize -
resps_c / 100
NEP_year Annual net ecosystem production for each year t C/ha sumNPP * cpart *10 / kpatchsize -
resps_c / 100
NEP_mon Monthly net ecosystem production t C/ha NPP_mon(j) * cpart *10 / kpatchsize -
resps_mon(j) / 100
NEP_week Weekly net ecosystem production t C/ha NPP_week(j) * cpart *10 / kpatchsize -
resps_week(j) / 100
NPP Yearly net primary production t C/ha sumNPP * cpart *10 / kpatchsize
NPP_year Annual net primary production for each year t C/ha sumNPP * cpart *10 / kpatchsize
NPP_mon Monthly net primary production t C/ha NPP_mon(j) * 100 / kpatchsize
NPP_week Weekly net primary production t C/ha NPP_week(j) * 100 / kpatchsize
ntindex Nun temperature index - ntindex
perc Yearly percolation sum mm perc_cum
perc_year Annual percolation sum for each year mm perc_cum
perc_mon Monthly percolation sum mm perc_mon(j)
perc_week Weekly percolation sum mm perc_week(j)

PET

Yearly potential evapotranspiration sum

mm

PET_cum

PET_year

Annual potential evapotranspiration sum for each year

mm

PET_cum

PET_mon Monthly potential evapotranspiration sum mm pet_mon(j)
PET_week Weekly potential evapotranspiration sum mm pet_week(j)
prec Yearly precipitation sum mm sum_prec
prec_year Annual precipitation sum for each year mm sum_prec
prec_mon Monthly precipitation sum mm prec_mon(j)
prec_week Weekly precipitation sum mm prec_week(j)
resps Yearly soil respiration kg C/ha resps_c * 10
resps_year Annual soil respiration for each year kg C/ha resps_c * 10
resps_mon Monthly soil respiration kg C/ha resps_mon(j) * 10
resps_week Weekly soil respiration kg C/ha resps_week(j) * 10
steminc Total annual stem increment t DW/ha totsteminc/1000
sumbio Total Biomass t DW/ha sumbio / 1000
sumtlf Temperature (minimum) sum of days with frost April - June °C sumtlf
temp Mean yearly air temperature °C med_air
temp_year Mean annual air temperature for each year °C med_air
temp_mon Mean monthly air temperature °C temp_mon(j) / monrec(j)
temp_week Mean weekly air temperature °C temp_week(j) / 7
TER Total ecosystem respiration per year t C/ha sumTER * cpart *10 / kpatchsize
TER_year Total annual ecosystem respiration for each year t C/ha sumTER * cpart *10 / kpatchsize
TER_mon Total ecosystem respiration per month t C/ha TER_mon(j) * 100 / kpatchsize
TER_week Total ecosystem respiration per week t C/ha TER_week(j) * 100 / kpatchsize
totstem Total annual stem volume m³/ha totstem_m3
vsdead Total annual dead stem volume m³/ha sumvsdead_m3
vsab Total annual harvested stem volume m³/ha sumvsab_m3

*) internal used variables and calculations

Example see https://gitlab.pik-potsdam.de/foresee/4C/tree/master/test_data_sets/test_flagm8

Top

about 4C | news | 4C guide | theory | applications | publications | contact