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Process Data set: mango production (en) en

Key Data Set Information
Location BR
Geographical representativeness description The inventory is modelled for the San Francisco valley, states of Pernambuco and Bahia, Brazil.
Reference year 2010
Name
mango production
Technical purpose of product or process Cultivation of mango
Synonyms mango production
Classification
Class name : Hierarchy level
  • ILCD: A.Agriculture, forestry and fishing / 01:Crop and animal production, hunting and related service activities / 012:Growing of perennial crops / 0122:Growing of tropical and subtropical fruits
General comment on data set Type of process: ordinary transforming activity Parent relation Ecospold2: none Tags: Macroeconomic Scenario: Business-as-Usual Cunha, T. J. F., Silva, F. H. B. B., Silva, M. S. L., Giongo, V., Sá, I. B., Oliveira Neto, M. B., Cavalcanti, A. C. Solos do Submédio do Vale do São Francisco: Potencialidades e Limitações para uso agrÌcola. Série Documentos, 2011. ISSN 1808-9992, 2008. Giongo, V., Salviano, A. M., Santana, M., OlszevKy, N., Silva, D.J., Gava, C.A.T., Cunha, T.J.F. PLA.NT COCKTAIL AS GREEN MANURE IN SEMI-ARID REGIONS TO IMPROVE SOIL CARBON AND NITROGEN STOCKS. Submitted in 2017. Emmenegger, M., Reinhard, J., Zah, R. Sustainability quick check for biofuels - intermediate background report. Dubendorf, 2009. Oliveira, A. R., et al. Cultivo da Mangueira. Sistemas de Produção, 2 - 2ª edição. ISSN 1807-0027. 2010. CARVALHO, C. R. L., ROSSETTO, C. J., MANTOVANI, D. M. B., MORGANO, M. A., CASTRO., J. D., BORTOLETTO, N. Avaliação de cultivares de mangueira selecionadas pelo Instituto Agronômico de Campinas comparadas a outras de importância comercial. Rev. Bras. Frutic., 26 (2): 264-271, 2004. Novaes, et al. (2017) Estimating 20-year land use change and derived CO2 emissions associated to crops, pasture and forestry in Brazil and each of its 27 states. Global Change Biology. 2017;00:1-13. https://doi.org/10.1111/gcb.13708. Corrêa, F. L. O., Ramos, J. D. R., Gama-Rodrigues, A. C., Müller, M. W. Produção de serapilheira em sistema agroflorestal multiestratificado no estado de Rondônia, Brasil. Tese de Doutorado, apresentada à Universidade Federal de Lavras/UFLA, 2005. IPCC. Guidelines for National Greenhouse Gas Inventories. 2006 Mouco, M.A.C., Silva, D.J. , Giongo, V., Mendes, A.M.S. Green Manures in ‘Kent’ Mango Orchard. Acta Hort. 1075, ISHS, 2015. The mango (Mangifera indica) is the most produced tropical fruit worldwide (FAO, 2017) and Brazil is one of its biggest exporters.This dataset represents the production of 1 kg of raw mango, produced in the agricultural region of San Francisco Valley and consumed in the national market as well as exported to several countries.The varieties (cultivars) considered were Tommy atkins, Palmer, Keitt, Kent and Palmer. The yield is 34667 kg/ha on average, production starting in the 4th year with 20000kg/ha.year and in the 6th year it is stabilized with 40000kg/ha.year. Mango trees are disposed in the field at a density of 376 plants per hectare on average, but the density varies widely between farms plots, with a minimum of 160plants/ha and a maximum of 833 plants/ha. The mango trees in this region are irrigated by micro sprinklers and the nutrition is provided by the use of mineral fertilizers, with the following average amounts: 98kg N/ha.year, 70kg P2O5, 205kg K2O/ha.year, plus micronutrient inputs. As for pesticides, an average of 7.66kg/ha.year of various active ingredients were applied. Bibliography is listed in the text box below. NEMECEK, T.; SCHNETZER, J. Methods of assessment of direct field emissions for LCIs of agricultural production systems. Zurich, Data v3.0, 2011. Nemecek T., Bengoa X., Lansche J., Mouron, P., Riedener E., Rossi V. & Humbert S. (2015) Methodological Guidelines for the Life Cycle Inventory of Agricultural Products. Version 3.0, July 2015. World Food LCA Database (WFLDB). Quantis and Agroscope, Lausanne and Zurich, Switzerland. Silva, D.J., Pereira, J.R., Mouco, M.A.C., Albuquerque, J.A.S., Raij, B., Silva , C.A. Nutrição Mineral e Adubação da Mangueira em Condições Irrigadas. Circular Técnica. Embrapa, 2004.
Copyright Yes
Data set LCA report, background info
Quantitative reference
Reference flow(s)
Time representativeness
Data set valid until 2017
Time representativeness description Data is valid for the entire period. Time period of the most of the data collected for this dataset.
Technological representativeness
Technology description including background system The technology level of this process is: Current/n/n Cultivation of mango Included activities start: This activity starts at land clearing and preparation. Included activities end: The dataset includes the inputs of seedlings, mineral fertilisers, pesticides and water from irrigation. It is assumed that no organic fertilisers are applied. The dataset also includes all machine operations and corresponding machine infrastructure and sheds. Machine operations are: Land clearing, planting, distribution of fertilisers at planting, pulverising, pruning and harvest transport by tractor. Further, direct field emissions are included, with important regionalizations added. The activity ends after harvest at the farm gate.
Mathematical model
Variable / parameter Formula Mean value Minimum value Maximum value Uncertainty distribution type Relative StdDev in % General comment
seedling_mango 3.62E-4 3.440042516311306E-4 3.809371523132105E-4 LOG_NORMAL 1.0523125754508578 %
seedling_mango_WWM 0.421965 % wet mass - dry mass
seedling_mango_C_content_fossil 0.0 % fossil carbon content on a dry matter basis
seedling_mango_water_content 0.73 % water mass/dry mass
seedling_mango_WM 1.0 % total mass for 1 seedling
seedling_mango_DM 0.578035 %
seedling_mango_C_content_non_fossil 0.439481 % biogene carbon content on a dry matter basis
application_pesticides 3.46 0.014127381325823635 847.4040392834125 LOG_NORMAL 244.91446222063945 %
Math_Rel_for_b90634dc_b7d5_4c1c_98dc_7cb18fccaa1f 10/30/ yield_kg_ha 4.006410256025025E-7 3.122986517053982E-7 5.139735010679539E-7 LOG_NORMAL 1.2828778587889664 %
Math_Rel_for_f372d4c2_7310_4fb9_8bb6_bee214fd08d1 1.73076923060281E-06*LUC_crop_specific+(4.78376375172126E-06*(1-LUC_crop_specific)) 0.0173076923060281 %
water_dilution 0.2* application_pesticides 6.92E-5 5.6281229572705795E-5 8.508413970973911E-5 LOG_NORMAL 1.229539591181201 %
waste_wood 113.5*376/30/ yield_kg_ha 0.0410346153806697 0.03338204944271936 0.05044147041747135 LOG_NORMAL 1.2292419448686478 %
Math_Rel_[product volume]_for_6f2eb438_cde2_4d07_a770_d023a988a9c4 PV_mango_BR * waste_wood/ REF_PROD 4.82458335145917E7 % Calculated from production volume of reference product using the relative outputs.
waste_wood_price_EUR2005 0.0 % Waste products are assigned a price of zero as they are assumed to require further treatment.
irrigation 0.368 0.3497059795587184 0.38725102776591563 LOG_NORMAL 1.0523125754508578 %
REF_PROD 1.0 0.9450017095003759 1.0581991439239848 LOG_NORMAL 1.0581991439239848 %
PV_mango_BR 1.175735E9 % Annual production (in kg) for Brazil in 2012.
REF_PROD_C_content_fossil 0.0 % fossil carbon content on a dry matter basis
REF_PROD_WM 1.0 %
REF_PROD_water_content REF_PROD_WWM/ REF_PROD_DM 4.0 % water content on a dry matter basis
REF_PROD_C_content_non_fossil 0.42 % biogene carbon content on a dry matter basis
REF_PROD_WWM 0.8 % water content on a wet matter basis
REF_PROD_DM 0.2 %
REF_PROD_price_EUR2005 0.616429506865671 % Estimated value. The price is assumed to be 80% of the price of the product "mango, conditioned" which has a price of 1.13 euros and a comment: "Literature value. Price from FAOSTAT data Producer Prices - Annual (retrieved from: http://www.fao.org/faostat/en/#data/PP, accessed 15Feb2018). Data from 2005."
lime 2.01E-5 1.910078855741913E-5 2.1151482766562242E-5 LOG_NORMAL 1.0523125754508578 %
gypsium 0.0169 0.01605986699603897 0.017784082525119496 LOG_NORMAL 1.0523125754508578 %
dolomite 4.02E-4 3.8201577114838265E-4 4.2302965533124484E-4 LOG_NORMAL 1.0523125754508578 %
P2O5 0.00203 0.0019290846155005392 0.0021361945281652413 LOG_NORMAL 1.0523125754508578 %
N 0.00284 0.0026988178857248924 0.002988567714280436 LOG_NORMAL 1.0523125754508578 %
K2O 0.00592 0.0056257048885532965 0.006229690446669078 LOG_NORMAL 1.0523125754508578 %
MoO3 4.88E-6 4.637405381104744E-6 5.135285368200186E-6 LOG_NORMAL 1.0523125754508578 %
MoO3_mol_weight 143.9 %
MoO3_Fe_content 0.0044 % iron content on a dry matter basis
MoO3_O_content 0.29 % oxygen content on a dry matter basis
MoO3_Cu_content 6.0E-4 % copper content on a dry matter basis
MoO3_S_content 3.0E-4 % sulfur content on a dry matter basis
MoO3_Pb_content 1.5E-4 % lead content on a dry matter basis
MoO3_Bi_content 8.0E-5 % bismuth content on a dry matter basis
MoO3_Mo_content 0.62 % molybdenum content on a dry matter basis
emission_ammonia (NH4NO3_as_N* EF_amm_ammonia+ urea_as_N * EF_urea_ammonia + N_generic *EF_N_ammonia)*17/14/ yield_kg_ha 2.82466792555257E-4 2.531586794682338E-4 3.151678981105851E-4 LOG_NORMAL 1.1157697344155277 %
Math_Rel_for_b2631209_8374_431e_b7d5_56c96c6b6d79 ( soil_loss*1000* Phosphorus_Pcr* factor_Fr* fraction_soil_Ferw)*(1/ yield_kg_ha) 1.27986229192233E-6 1.0376833890932304E-6 1.5785619231277004E-6 LOG_NORMAL 1.2333841953861528 %
evapotranspiration (irrigation+ water_dilution)* fraction_irrigation_to_air 0.23924498 0.1936843770836211 0.29552285691317504 LOG_NORMAL 1.235231171467736 %
emission_nitrate (62/14)*(21.37+(precipitation_irrigation/(Clay_content* L))*((0.0037* N_from_fertilizers)+(0.0000601*Norg_soil)-(0.00362*Nuptake_plant)))*(1/ yield_kg_ha) 0.00522460049826731 0.004235987876130982 0.0064439396817695185 LOG_NORMAL 1.2333841953861528 %
Math_Rel_for_20185046_64bb_4c09_a8e7_e8a9e144ca98 44/28*((0.01*( N_from_fertilizers+ nitrogen_Ncr)*(1/ yield_kg_ha)+(0.01*14/17* emission_ammonia)+0.0075*14/62* emission_nitrate)) 6.86990305306421E-5 5.7130846993436064E-5 8.260960661746078E-5 LOG_NORMAL 1.2024857698772633 %
Math_Rel_for_c1b91234_6f24_417b_8309_46111d09c457 0.012* N*46/14 1.11977142857143E-4 9.312138709847054E-5 1.346509208372279E-4 LOG_NORMAL 1.2024857698772633 %
Math_Rel_for_73cba245_5969_4076_8490_75a236073196 (10000/ yield_kg_ha)/20 0.0144230769216901 0.012891649371972912 0.01613642613808956 LOG_NORMAL 1.1187922123484515 %
Math_Rel_for_1896b498_8d13_4f58_8c17_21fe57740158 10000/ yield_kg_ha 0.288461538433802 0.26954583809329147 0.30870467058295414 LOG_NORMAL 1.0701761914571417 %
Math_Rel_for_db4566b1_bd88_427d_92da_2d25879063b9 (irrigation+ water_dilution)*(1- fraction_irrigation_to_air)* fraction_irrigation_to_river 0.025764844 0.020858317532082272 0.03182553843680347 LOG_NORMAL 1.235231171467736 %
Math_Rel_for_51254820_3456_4373_b7b4_056cf7b16e01 (irrigation+ water_dilution)*(1- fraction_irrigation_to_air)* fraction_irrigation_to_ground 0.103059376 0.08343327012832909 0.12730215374721388 LOG_NORMAL 1.235231171467736 %
Math_Rel_for_a487b7db_318a_46ff_8e52_2837fab777ad (10000/ yield_kg_ha)/20 0.0144230769216901 0.012891649371972912 0.01613642613808956 LOG_NORMAL 1.1187922123484515 %
Math_Rel_for_349b29d1_3e58_4c66_98b9_9d1a076efd2e urea_as_N*1.570*(1/ yield_kg_ha)+ dolomite*0.13+ lime*0.12 0.00195610805750948 0.0018278373908188537 0.0020933802710641227 LOG_NORMAL 1.0701761914571417 %
Math_Rel_for_cc6a1abb_b123_4ca6_8f16_38209df609be (REF_PROD_DM* REF_PROD_C_content_non_fossil* REF_PROD- seedling_mango_C_content_non_fossil* seedling_mango_DM* seedling_mango)*44/12 0.3079765348704 0.2877811498039982 0.32958915514577225 LOG_NORMAL 1.0701761914571417 %
factor_Fr 1.86 % Enrichment factor for phosphorus, used for estimation of phosphorus emissions to surface water through erosion mechanisms, according to Nemecek & Schnetzer (2011).
fraction_soil_Ferw 0.2 % Represents the fraction of eroded soil that reaches the river, used for calculation of phosphorus emissions through water erosion to surface water, according to Nemecek & Schnetzer (2011).
slope_factor_LS 0.834186 % Calculated for slope lenght = 100m and slope of 5%, according to Emmenegger et al.(2009)
EF_urea_ammonia 0.15 % Emission factor for ammonia emissions (NH3) from urea application, according to Nemecek & Schnetzer (2011), p.18
erodibility_factor_k (0.026+0.026+0.04+0.046)/4 0.0345 % Erodibility factor: mean value for soils in the region: Entisols: k = 0.026; Ulltisol: k=0,026; Vertisol: k=0,046 and Oxisols: k=0.040. (Table 7.2 Emmenegger et al.,2009)
Phosphorus_Pcr 9.5E-4 % Phosphorous content in the top soil, according to Nemecek & Schnetzer, p.17.
soil_loss erodibility_factor_k* erosivity_factor_R* practice_factor_erosion* slope_factor_LS* crop_factor_c1* Ft 0.125547706444747 %
Clay_content (6+20+15)/3 13.6666666666667 % Fraction of clay content into soil; Soil types in the São Francisco Valley where mangos are cultivated are: Neossolos Quartzarênicos (6%), Argissolos (20%) , Latossolos (15%) e Vertissolos (74%), acoording to Cunha et al (2008) and Oliveira et al (2010). Bust according to producers and reserachers of Embrapa Semiarid, most of the mango orchards are cultivated in Quartzarênicos (6%), Argissolos (20%) , Latossolos (15%). Thus, the clay avarage content (%) obtained considering these three soil types is applied ((6+20+15)/3=~14).
Nuptake_plant (120/30)+((1.27*40*(25/30))+(1.27*20*(2/30)))+(14.3)+((1*(3/30))+(0.8*(4/30))) 62.5333333333333 % *N in the tree is 120 kg N/ha from 6th year onward (until 30 years) (data from lab analysis). =120/30 that is divided by 30 years. Leaf litter is 1120 kg dry matter/ha.year (Correa et al, 2006). *Mango fruit: N (kg N/t of fresh mango.year) =1,27 kg/t.year (Silva et al, 2004). Productivity in the years 4 and 5 is 20t/ha.year and from the 6o year onward, 40t/ha.year (according to producers). *N content in mango leaf is 12.77 g N/kg of dry matter (Assis et al, 2004). Acording to Correa et al (2006), the ammount of fallen leaf for mango tree is 1.12 t/ha. In one average year leaf uptake = 1120*12,77/1000 = 14,30 kg N/year. *Prunning: According to Mouco et al (2015), There are 4 formation prunnings in the first 3 years (1 kg N/ha.year, =14,9*250*0,2*0,004/3). From the 4th year onward, 1 prroduction pruning (0,8 kgN/ha.year) . kg N/ha.30 years = (((1*(3/30)+(0,8*(4/30))) Estimated uptake (tree+fruits+leafs+prunning) for one average year is the sum of each one of the above.
practice_factor_erosion 1.0 % Practice factor for anti-erosion factor, equivalent to 1(one) for 'no practice' or 'up and down slope', according to table 7.5 Emmenegger et al. (2009).
EF_amm_ammonia 0.02 % Emission factor for ammonia emissions (NH3) from the application of Ammonium nitrate and Calcium ammonium nitrate, according to Nemecek & Schnetzer (2011), p.18
crop_factor_c1 0.1 % According to Ontario Ministry of Agriculture (http://www.omafra.gov.on.ca/english/engineer/facts/12-051.htm): - Fruit trees = 0.1
Norg_soil (0.28+0.22+0.4+(0.9/2))*1000 1350.0 % Norg is the mass of organic nitrogen contained in the upper 50 cm of soil per ha. Naturally only a fraction of this mass is mineralised and, hence, available for uptake by plants and leaching to the ground water. Values for the San Francisco valley region were taken from Giongo et al. (2017)
NH4NO3_as_N 2.32 % Nitrogen from Ammonium nitrate and Calcium ammonium nitrate
LUC_crop_specific 1.0 % This parameter allows to switch between a "crop specific" and a "country specific" approach when calculating the LUC of a crop. By default, the chosen approach is "crop specific", so the value of the parameter is 1. If you want to apply a "country specific" approach, turn the parameter to 0.
Ft 0.25 % According to Table 7-4, Emmenergger et al. (2009), for 'no tillage'.
nitrogen_Ncr 14.3024 % Nitrogen containing in crop residues, for mango: Leaf litter is 1120 kg dry matter/há.year (Correa et al, 2006). N content in mango leaf is 12.77 g N/kg of dry matter (Assis et al, 2004). Ncr = 1.85 kg N/ha. In one average year = 1120*12,77/1000 = 14,30 kg N.
fraction_irrigation_to_air 0.65 % Literature value (Siebert, 2010) (Vionnet, S., Quantis Water Database - Technical Report, 2012).
N_from_fertilizers 98.51421395 % Total nitrogen input from fertilizers in kg N per hectare.
urea_as_N 9.33E+01*0.45 41.985 % Input of urea (45%N) as nitrogen
erosivity_factor_R (0.0483* precipitation^1.61)*0.1 174.496524991798 % Erositivy factor used in the SQCB model for soil erosion calculations (Emmenegger et al.,2009) for precipitation inferior to 850mm/year: R = 0.0483*P^1.61. This value is for regions where there is uniform annual precipitation, which is not the case in the San francisco valley region, (since there is a month with more than 15% of average annual precipitation) so in this case the erosivity factor is multiplied by 10%. R' = 0,1*R.
fraction_irrigation_to_river 0.2 % Literature value (Siebert, 2010) (Vionnet, S., Quantis Water Database - Technical Report, 2012).
yield_kg_ha 34666.66667 % Average productivity per year, in kg of mango per hectare.
N_generic 43.0 % Amount of nitrogen from different sources of fertilisers, except those which have specific emission factor. e.g. for ammonia emissions to air, fertilisers as 'urea', 'ammonium nitrate', between others have specific emission factors, yet others do not and are classified as 'generic N fertilisers' which have a "generic" mean emission factor (see table on p. 8 - Nemecek & Schnetzer, 2011).
precipitation_irrigation 550+ irrigation*0.1* yield_kg_ha 1825.733333456 % Average precipitation in the region is 550 mm/year (Oliveira et al., 2010); According to The SQCB-NO3 model - Emmeneger et al. (2009) -, in order to calculate NO3- emissions, the "precipitation" used is the sum of annual precipitation and irrigation (mm/ha.year).
precipitation 550+0.1* irrigation* yield_kg_ha/10 0.6775733333456 % Precipitation considered in the SQCB tool (Emmenegger et al, 2009) for soil erosion calculations is the annual precipitation of the region (mm/year) plus 10% of the anual irrigation: P+0,1*irrigation.
EF_N_ammonia 0.04 % Emission factor for ammonia emissions (NH3) from the application of generic nitrogen fertilisers, according to Nemecek & Schnetzer (2011), p.18
L 1.5 % Plant rooting depth, value from mango tree is taken from Oliveira et al.(2010)
fraction_irrigation_to_ground 0.8 % Literature value (Siebert, 2010) (Vionnet, S., Quantis Water Database - Technical Report, 2012).
LCI method and allocation
Type of data set Unit process, black box
LCI Method Principle Not applicable
LCI method approaches
  • Not applicable
Data sources, treatment and representativeness
Data cut-off and completeness principles None
Data selection and combination principles None
Percentage supply or production covered 100 %
Annual supply or production volume Annual Production of waste wood, untreated is 48245833.5145917 kg
Sampling procedure Most of data for agricultural inputs and operations was provided by local producers; Relevant experts were also consulted. Some data regarding soil in the region and seedlings was provided by Embrapa Semiarido (CNPTSA). Emissions from the agricultural process are estimated according to Nemecek and Schnetzer (2011) and Emmeneger et al. (2009)
Uncertainty adjustments Uncertainties calculated using a basic uncertainty (or informed) and a Pedigree Matrix additional uncertainty (log-normal) as it is in the standard procedure on Ecospold2 datasets (ecoinvent association)
Completeness
Completeness of product model All relevant flows quantified
Validation
Review details
Date of last review: 2018-05-04; Major version: 3.2; Minor version: 0.6
Subsequent review comments
Reviewer name and institution
Review details
Date of last review: 2018-08-13; Major version: 3.3; Minor version: 0.5
Subsequent review comments
Reviewer name and institution
Review details
Date of last review: 2017-11-12; Major version: 3.0; Minor version: 0.33
Subsequent review comments
Reviewer name and institution
Review details
Date of last review: 2018-08-14; Major version: 3.3; Minor version: 0.5
Subsequent review comments
Validation warnings: - Mass and/or economic deficit in activity dataset exceeds either 0.1% of input or output sum: Property 'wet mass': - Input='370,88054041383', Output='369,118103942026' - Input > output by 1,76243647180462 kg (0,48% of output) Property 'water in wet mass': - Input='367,959589176647', Output='368,877406923076' - Input < output by 0,917817746429478 kg (0,25% of output) Property 'carbon content, non-fossil': - Input='0,0840582734890743', Output='0,099717981732431' - Input < output by 0,0156597082433567 kg (15,7% of output) Property 'dry mass': - Input='2,92095123718376', Output='0,240697018949732' - Input > output by 2,68025421823402 kg (1113,54% of output) Property 'carbon content, fossil': - Input='0,0362116125846373', Output='0,000629981029025028' - Input > output by 0,0355816315556122 kg (5648,05% of output) - Amount of property 'carbon content, non-fossil=0,42' of exchange 'mango' deviates from the default amount in the master file. Property 'net heating value=0' of master data exchange was removed from exchange 'waste wood, untreated'. Amount of property 'carbon content, non-fossil=0,4788' of exchange 'waste wood, untreated' deviates from the default amount in the master file. Amount of property 'water in wet mass=0' of exchange 'mango seedling' deviates from the default amount in the master file. Amount of property 'wet mass=0,03683' of exchange 'mango seedling' deviates from the default amount in the master file. Amount of property 'dry mass=0,03683' of exchange 'mango seedling' deviates from the default amount in the master file. Amount of property 'water content=0' of exchange 'mango seedling' deviates from the default amount in the master file. Amount of property 'carbon content, non-fossil=0,48' of exchange 'mango seedling' deviates from the default amount in the master file. Amount of property 'wet mass=1' of exchange 'Energy, gross calorific value, in biomass' deviates from the default amount in the master file. Amount of property 'dry mass=1' of exchange 'Energy, gross calorific value, in biomass' deviates from the default amount in the master file. - Due to the use of the reference product property(s) 'carbon content, non-fossil', 'dry mass' by other exchanges this dataset will be subdivided by linking rule 3 (see Data Quality Guidelines for details) prior to the calculation of the database. If this is not intended, do not use the properties in question in mathematical relations of other exchanges. - The total water in wet mass of all input exchanges (367,959589176647) and output exchanges (368,877406923076) is unbalanced. - Uncertainty shall always be provided for all primary data inputs (exchange amounts, properties and parameters), except for the amount and properties of reference products. -- Exchange(s): land use change, perennial crop, Phosphate, Phosphate, Nickel -- Property(ies): wet mass=1, water content=0,25, water in wet mass=0,2, dry mass=0,8, carbon content, fossil=0, carbon content, non-fossil=0,4788, wet mass=1, water content=0, water in wet mass=0, carbon content, non-fossil=0, dry mass=1, carbon content, fossil=0, carbon content, fossil=0, wet mass=1, water in wet mass=0, dry mass=1, carbon content, non-fossil=0, water content=0, carbon content, non-fossil=0, wet mass=1, water content=0, carbon content, fossil=0, water in wet mass=0, dry mass=1, wet mass=1000, water in wet mass=1000, carbon content, non-fossil=0, carbon content, fossil=0, dry mass=0, water content=0, carbon content, non-fossil=0, water in wet mass=0, wet mass=1, dry mass=1, carbon content, fossil=0, water content=0, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, wet mass=1, water in wet mass=0, carbon content, fossil=0, dry mass=1, water content=0, carbon content, non-fossil=0, wet mass=1, water content=0, water in wet mass=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, carbon content, fossil=0, water content=0, water in wet mass=0, carbon content, fossil=0,420946605914281, carbon content, non-fossil=0, wet mass=1, dry mass=1, water content=0, carbon content, non-fossil=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0, dry mass=1, water content=0, carbon content, non-fossil=0, carbon content, fossil=0,588230757365568, wet mass=1, water in wet mass=0, water in wet mass=0, carbon content, fossil=0,177590069416448, dry mass=1, carbon content, non-fossil=0, wet mass=1, water content=0, wet mass=1, carbon content, fossil=0,588436811443917, carbon content, non-fossil=0, water in wet mass=0, water content=0, dry mass=1, water content=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, fossil=0,624306825675794, wet mass=1, water content=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, carbon content, fossil=0,166248770141815, carbon content, fossil=0,446770017785933, carbon content, non-fossil=0, wet mass=1, water in wet mass=0, water content=0, dry mass=1, carbon content, fossil=0, water content=0, carbon content, non-fossil=0,673294397890932, wet mass=1, dry mass=1, water in wet mass=0, dry mass=1, water content=0, wet mass=1, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0,50060917066895, water in wet mass=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0,561720618764273, water content=0, water in wet mass=0, carbon content, fossil=0,655046602058235, dry mass=1, carbon content, non-fossil=0, water content=0, wet mass=1, carbon content, non-fossil=0, water content=0, dry mass=1, water in wet mass=0, carbon content, fossil=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0, wet mass=1, water content=0, carbon content, non-fossil=0, water content=0, wet mass=1, water in wet mass=0, carbon content, fossil=0, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, wet mass=1, dry mass=1, water content=0, carbon content, non-fossil=0, water content=0, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, wet mass=1, water in wet mass=0, carbon content, non-fossil=0,659689668148146, dry mass=1, carbon content, fossil=0, wet mass=1, water content=0, water in wet mass=0, water content=0, wet mass=1, carbon content, fossil=0, carbon content, non-fossil=0, dry mass=1, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, wet mass=1, dry mass=1, carbon content, non-fossil=0, wet mass=1, carbon content, fossil=0, water in wet mass=0, water content=0, carbon content, fossil=0, wet mass=1, water in wet mass=0, dry mass=1, carbon content, non-fossil=0, water content=0, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0, dry mass=1, wet mass=1, water content=0, dry mass=1, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, wet mass=1, water content=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, dry mass=1, wet mass=1, dry mass=1, water in wet mass=0, wet mass=1, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, carbon content, non-fossil=0, wet mass=1, water content=0, carbon content, fossil=0, dry mass=1, water in wet mass=0, carbon content, fossil=0, wet mass=1, water in wet mass=0, dry mass=1, water content=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, dry mass=1, carbon content, non-fossil=0, water content=0, wet mass=1, carbon content, non-fossil=0,272916486782489, dry mass=1, water content=0, wet mass=1, carbon content, fossil=0, water in wet mass=0, water in wet mass=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, water content=0, dry mass=1, carbon content, fossil=0, wet mass=1, water in wet mass=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, carbon content, fossil=0,272916486782489, water content=0, carbon content, non-fossil=0, wet mass=1000, carbon content, fossil=0, water in wet mass=1000, dry mass=0, wet mass=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, dry mass=0, dry mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=1000, wet mass=1000, water content=0, water in wet mass=0, dry mass=1, carbon content, non-fossil=0, wet mass=1, carbon content, fossil=0 -- Parameter(s): fraction, irrigation water, to ground water, precipitation, annual, amount of N from urea, nitrogen crop residues, fraction, irrigation water, to air, nitrogen availability for plants, erosivity factor, emission factor Nfertilizer_ammonia, LUC_crop_specific, generic nitrogen, precipitation, rooting depth, fraction, irrigation water to surface water, Factor for tillage practice, yield kgha, practice factor for anti-erosion practice, nitrogen uptake by plant, organic nitrogen into soil, emission factor urea_ammonia, slope factor, erodibility factor, Phosphorus content, nitrogen from NH4NO3, emission factor ammoniumnitrate_ammonia, crop factor, enrichment factor P, clay content into soil, soil loss due to erosion, fraction loss soil to river - Pedigree information shall always be provided for all uncertainties of primary data inputs (exchange amounts, properties and parameters), except for the amount and properties of reference products. -- Exchange(s): land use change, perennial crop, Phosphate, Phosphate, Nickel -- Property(ies): wet mass=1, water content=0,25, water in wet mass=0,2, dry mass=0,8, carbon content, fossil=0, carbon content, non-fossil=0,4788, wet mass=1, water content=0, water in wet mass=0, carbon content, non-fossil=0, dry mass=1, carbon content, fossil=0, carbon content, fossil=0, wet mass=1, water in wet mass=0, dry mass=1, carbon content, non-fossil=0, water content=0, carbon content, non-fossil=0, wet mass=1, water content=0, carbon content, fossil=0, water in wet mass=0, dry mass=1, wet mass=1000, water in wet mass=1000, carbon content, non-fossil=0, carbon content, fossil=0, dry mass=0, water content=0, carbon content, non-fossil=0, water in wet mass=0, wet mass=1, dry mass=1, carbon content, fossil=0, water content=0, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, wet mass=1, water in wet mass=0, carbon content, fossil=0, dry mass=1, water content=0, carbon content, non-fossil=0, wet mass=1, water content=0, water in wet mass=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, carbon content, fossil=0, water content=0, water in wet mass=0, carbon content, fossil=0,420946605914281, carbon content, non-fossil=0, wet mass=1, dry mass=1, water content=0, carbon content, non-fossil=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0, dry mass=1, water content=0, carbon content, non-fossil=0, carbon content, fossil=0,588230757365568, wet mass=1, water in wet mass=0, water in wet mass=0, carbon content, fossil=0,177590069416448, dry mass=1, carbon content, non-fossil=0, wet mass=1, water content=0, wet mass=1, carbon content, fossil=0,588436811443917, carbon content, non-fossil=0, water in wet mass=0, water content=0, dry mass=1, water content=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, fossil=0,624306825675794, wet mass=1, water content=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, carbon content, fossil=0,166248770141815, carbon content, fossil=0,446770017785933, carbon content, non-fossil=0, wet mass=1, water in wet mass=0, water content=0, dry mass=1, carbon content, fossil=0, water content=0, carbon content, non-fossil=0,673294397890932, wet mass=1, dry mass=1, water in wet mass=0, dry mass=1, water content=0, wet mass=1, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0,50060917066895, water in wet mass=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0,561720618764273, water content=0, water in wet mass=0, carbon content, fossil=0,655046602058235, dry mass=1, carbon content, non-fossil=0, water content=0, wet mass=1, carbon content, non-fossil=0, water content=0, dry mass=1, water in wet mass=0, carbon content, fossil=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0, wet mass=1, water content=0, carbon content, non-fossil=0, water content=0, wet mass=1, water in wet mass=0, carbon content, fossil=0, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, wet mass=1, dry mass=1, water content=0, carbon content, non-fossil=0, water content=0, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, wet mass=1, water in wet mass=0, carbon content, non-fossil=0,659689668148146, dry mass=1, carbon content, fossil=0, wet mass=1, water content=0, water in wet mass=0, water content=0, wet mass=1, carbon content, fossil=0, carbon content, non-fossil=0, dry mass=1, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, wet mass=1, dry mass=1, carbon content, non-fossil=0, wet mass=1, carbon content, fossil=0, water in wet mass=0, water content=0, carbon content, fossil=0, wet mass=1, water in wet mass=0, dry mass=1, carbon content, non-fossil=0, water content=0, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0, dry mass=1, wet mass=1, water content=0, dry mass=1, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, wet mass=1, water content=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, dry mass=1, wet mass=1, dry mass=1, water in wet mass=0, wet mass=1, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, carbon content, non-fossil=0, wet mass=1, water content=0, carbon content, fossil=0, dry mass=1, water in wet mass=0, carbon content, fossil=0, wet mass=1, water in wet mass=0, dry mass=1, water content=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, dry mass=1, carbon content, non-fossil=0, water content=0, wet mass=1, carbon content, non-fossil=0,272916486782489, dry mass=1, water content=0, wet mass=1, carbon content, fossil=0, water in wet mass=0, water in wet mass=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, water content=0, dry mass=1, carbon content, fossil=0, wet mass=1, water in wet mass=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, carbon content, fossil=0,272916486782489, water content=0, carbon content, non-fossil=0, wet mass=1000, carbon content, fossil=0, water in wet mass=1000, dry mass=0, wet mass=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, dry mass=0, dry mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=1000, wet mass=1000, water content=0, water in wet mass=0, dry mass=1, carbon content, non-fossil=0, wet mass=1, carbon content, fossil=0 -- Parameter(s): fraction, irrigation water, to ground water, precipitation, annual, amount of N from urea, nitrogen crop residues, fraction, irrigation water, to air, nitrogen availability for plants, erosivity factor, emission factor Nfertilizer_ammonia, LUC_crop_specific, generic nitrogen, precipitation, rooting depth, fraction, irrigation water to surface water, Factor for tillage practice, yield kgha, practice factor for anti-erosion practice, nitrogen uptake by plant, organic nitrogen into soil, emission factor urea_ammonia, slope factor, erodibility factor, Phosphorus content, nitrogen from NH4NO3, emission factor ammoniumnitrate_ammonia, crop factor, enrichment factor P, clay content into soil, soil loss due to erosion, fraction loss soil to river
Reviewer name and institution
Review details
Date of last review: 2017-11-12; Major version: 3.0; Minor version: 0.23
Subsequent review comments
Reviewer name and institution
Review details
Date of last review: 2018-04-15; Major version: 3.1; Minor version: 0.2
Subsequent review comments
Validation warnings: - Mass and/or economic deficit in activity dataset exceeds either 0.1% of input or output sum: Property 'dry mass': - Input='2,91999948718375', Output='0,240697018949732' - Input > output by 2,67930246823402 kg (1113,14% of output) Property 'wet mass': - Input='370,87958866383', Output='369,118103942026' - Input > output by 1,76148472180444 kg (0,48% of output) Property 'carbon content, fossil': - Input='0,0362116125846373', Output='0,000629981029025029' - Input > output by 0,0355816315556122 kg (5648,05% of output) Property 'water in wet mass': - Input='367,959589176647', Output='368,877406923076' - Input < output by 0,917817746429478 kg (0,25% of output) Property 'carbon content, non-fossil': - Input='0,0840582734890743', Output='0,099717981732431' - Input < output by 0,0156597082433567 kg (15,7% of output) - Property 'net heating value=0' of master data exchange was removed from exchange 'waste wood, untreated'. Amount of property 'carbon content, non-fossil=0,4788' of exchange 'waste wood, untreated' deviates from the default amount in the master file. Amount of property 'carbon content, non-fossil=0,48' of exchange 'mango seedling' deviates from the default amount in the master file. Amount of property 'water in wet mass=0' of exchange 'mango seedling' deviates from the default amount in the master file. Amount of property 'wet mass=0,03683' of exchange 'mango seedling' deviates from the default amount in the master file. Amount of property 'dry mass=0,03683' of exchange 'mango seedling' deviates from the default amount in the master file. Amount of property 'water content=0' of exchange 'mango seedling' deviates from the default amount in the master file. Amount of property 'carbon content, non-fossil=0,42' of exchange 'mango' deviates from the default amount in the master file. Amount of property 'wet mass=1' of exchange 'Energy, gross calorific value, in biomass' deviates from the default amount in the master file. Amount of property 'dry mass=1' of exchange 'Energy, gross calorific value, in biomass' deviates from the default amount in the master file. - Due to the use of the reference product property(s) 'dry mass', 'carbon content, non-fossil' by other exchanges this dataset will be subdivided by linking rule 3 (see Data Quality Guidelines for details) prior to the calculation of the database. If this is not intended, do not use the properties in question in mathematical relations of other exchanges. - The total water in wet mass of all input exchanges (367,959589176647) and output exchanges (368,877406923076) is unbalanced. - Uncertainty shall always be provided for all primary data inputs (exchange amounts, properties and parameters), except for the amount and properties of reference products. -- Exchange(s): land use change, perennial crop, Phosphate, Phosphate, Nickel -- Property(ies): water in wet mass=0,2, carbon content, fossil=0, carbon content, non-fossil=0,4788, dry mass=0,8, wet mass=1, water content=0,25, dry mass=0, wet mass=1000, carbon content, fossil=0, water in wet mass=1000, carbon content, non-fossil=0, carbon content, fossil=0, water in wet mass=0, wet mass=0, dry mass=0, carbon content, non-fossil=0, wet mass=1, carbon content, fossil=0,272916486782489, water content=0, water in wet mass=0, carbon content, non-fossil=0, dry mass=1, water in wet mass=1000, wet mass=1000, carbon content, non-fossil=0, carbon content, fossil=0, dry mass=0, water content=0, carbon content, fossil=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, water in wet mass=1000, wet mass=1000, dry mass=0, carbon content, fossil=0, carbon content, non-fossil=0, wet mass=1, water content=0, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, wet mass=1, water content=0, carbon content, fossil=0, dry mass=1, water in wet mass=0, carbon content, non-fossil=0, water in wet mass=0, wet mass=1, water content=0, carbon content, fossil=0, dry mass=1, carbon content, non-fossil=0, dry mass=1, wet mass=1, water content=0, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0, water in wet mass=0, wet mass=1, carbon content, non-fossil=0, dry mass=1, carbon content, fossil=0, water content=0, wet mass=1, water content=0, carbon content, fossil=0, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, wet mass=1, water in wet mass=0, water content=0, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0,588230757365568, water content=0, carbon content, fossil=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0,420946605914281, wet mass=1, dry mass=1, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, dry mass=1, carbon content, fossil=0, water content=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0,624306825675794, water content=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, fossil=0,588436811443917, water in wet mass=0, wet mass=1, dry mass=1, water content=0, carbon content, non-fossil=0, carbon content, non-fossil=0, dry mass=1, water content=0, water in wet mass=0, wet mass=1, carbon content, fossil=0,177590069416448, wet mass=1, water in wet mass=0, water content=0, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0,166248770141815, carbon content, non-fossil=0, dry mass=1, water content=0, wet mass=1, water in wet mass=0, carbon content, fossil=0,50060917066895, dry mass=1, water content=0, wet mass=1, water in wet mass=0, carbon content, non-fossil=0,673294397890932, carbon content, fossil=0, water content=0, carbon content, fossil=0,446770017785933, carbon content, non-fossil=0, wet mass=1, dry mass=1, water in wet mass=0, wet mass=1, water content=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0,655046602058235, dry mass=1, carbon content, fossil=0,561720618764273, water content=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, water content=0, wet mass=1, water in wet mass=0, carbon content, fossil=0, dry mass=1, carbon content, non-fossil=0, carbon content, non-fossil=0, wet mass=1, dry mass=1, carbon content, fossil=0, water content=0, water in wet mass=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0,659689668148146, water content=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water content=0, carbon content, non-fossil=0, water content=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, fossil=0, wet mass=1, carbon content, fossil=0, water content=0, water in wet mass=0, dry mass=1, carbon content, non-fossil=0, water content=0, carbon content, non-fossil=0, wet mass=1, dry mass=1, carbon content, fossil=0, water in wet mass=0, water content=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, dry mass=1, wet mass=1, water content=0, carbon content, non-fossil=0, carbon content, fossil=0, wet mass=1, water in wet mass=0, dry mass=1, dry mass=1, wet mass=1, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, water content=0, water content=0, carbon content, fossil=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, carbon content, non-fossil=0, carbon content, fossil=0, water in wet mass=0, dry mass=1, wet mass=1, water content=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water content=0, water content=0, carbon content, non-fossil=0, dry mass=1, carbon content, fossil=0, wet mass=1, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water content=0, dry mass=1, wet mass=1, water in wet mass=0, water in wet mass=0, wet mass=1, carbon content, non-fossil=0, carbon content, fossil=0, water content=0, dry mass=1, water content=0, wet mass=1, dry mass=1, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, water content=0, water in wet mass=0, carbon content, fossil=0, dry mass=1, carbon content, non-fossil=0, wet mass=1, water content=0, dry mass=1, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, carbon content, non-fossil=0,272916486782489, carbon content, fossil=0, dry mass=1, water in wet mass=0, water content=0 -- Parameter(s): fraction, irrigation water, to air, nitrogen crop residues, erosivity factor, fraction, irrigation water to surface water, fraction loss soil to river, fraction, irrigation water, to ground water, soil loss due to erosion, Phosphorus content, enrichment factor P, slope factor, Factor for tillage practice, crop factor, erodibility factor, nitrogen availability for plants, nitrogen from NH4NO3, nitrogen uptake by plant, precipitation, organic nitrogen into soil, emission factor ammoniumnitrate_ammonia, clay content into soil, amount of N from urea, precipitation, annual, generic nitrogen, emission factor Nfertilizer_ammonia, yield kgha, practice factor for anti-erosion practice, rooting depth, emission factor urea_ammonia, LUC_crop_specific - Pedigree information shall always be provided for all uncertainties of primary data inputs (exchange amounts, properties and parameters), except for the amount and properties of reference products. -- Exchange(s): land use change, perennial crop, Phosphate, Phosphate, Nickel -- Property(ies): water in wet mass=0,2, carbon content, fossil=0, carbon content, non-fossil=0,4788, dry mass=0,8, wet mass=1, water content=0,25, dry mass=0, wet mass=1000, carbon content, fossil=0, water in wet mass=1000, carbon content, non-fossil=0, carbon content, fossil=0, water in wet mass=0, wet mass=0, dry mass=0, carbon content, non-fossil=0, wet mass=1, carbon content, fossil=0,272916486782489, water content=0, water in wet mass=0, carbon content, non-fossil=0, dry mass=1, water in wet mass=1000, wet mass=1000, carbon content, non-fossil=0, carbon content, fossil=0, dry mass=0, water content=0, carbon content, fossil=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, water in wet mass=1000, wet mass=1000, dry mass=0, carbon content, fossil=0, carbon content, non-fossil=0, wet mass=1, water content=0, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, wet mass=1, water content=0, carbon content, fossil=0, dry mass=1, water in wet mass=0, carbon content, non-fossil=0, water in wet mass=0, wet mass=1, water content=0, carbon content, fossil=0, dry mass=1, carbon content, non-fossil=0, dry mass=1, wet mass=1, water content=0, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0, water in wet mass=0, wet mass=1, carbon content, non-fossil=0, dry mass=1, carbon content, fossil=0, water content=0, wet mass=1, water content=0, carbon content, fossil=0, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, wet mass=1, water in wet mass=0, water content=0, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0,588230757365568, water content=0, carbon content, fossil=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0,420946605914281, wet mass=1, dry mass=1, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, dry mass=1, carbon content, fossil=0, water content=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0,624306825675794, water content=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, fossil=0,588436811443917, water in wet mass=0, wet mass=1, dry mass=1, water content=0, carbon content, non-fossil=0, carbon content, non-fossil=0, dry mass=1, water content=0, water in wet mass=0, wet mass=1, carbon content, fossil=0,177590069416448, wet mass=1, water in wet mass=0, water content=0, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0,166248770141815, carbon content, non-fossil=0, dry mass=1, water content=0, wet mass=1, water in wet mass=0, carbon content, fossil=0,50060917066895, dry mass=1, water content=0, wet mass=1, water in wet mass=0, carbon content, non-fossil=0,673294397890932, carbon content, fossil=0, water content=0, carbon content, fossil=0,446770017785933, carbon content, non-fossil=0, wet mass=1, dry mass=1, water in wet mass=0, wet mass=1, water content=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0,655046602058235, dry mass=1, carbon content, fossil=0,561720618764273, water content=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, water content=0, wet mass=1, water in wet mass=0, carbon content, fossil=0, dry mass=1, carbon content, non-fossil=0, carbon content, non-fossil=0, wet mass=1, dry mass=1, carbon content, fossil=0, water content=0, water in wet mass=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0,659689668148146, water content=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water content=0, carbon content, non-fossil=0, water content=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, fossil=0, wet mass=1, carbon content, fossil=0, water content=0, water in wet mass=0, dry mass=1, carbon content, non-fossil=0, water content=0, carbon content, non-fossil=0, wet mass=1, dry mass=1, carbon content, fossil=0, water in wet mass=0, water content=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, dry mass=1, wet mass=1, water content=0, carbon content, non-fossil=0, carbon content, fossil=0, wet mass=1, water in wet mass=0, dry mass=1, dry mass=1, wet mass=1, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, water content=0, water content=0, carbon content, fossil=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, carbon content, non-fossil=0, carbon content, fossil=0, water in wet mass=0, dry mass=1, wet mass=1, water content=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water content=0, water content=0, carbon content, non-fossil=0, dry mass=1, carbon content, fossil=0, wet mass=1, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water content=0, dry mass=1, wet mass=1, water in wet mass=0, water in wet mass=0, wet mass=1, carbon content, non-fossil=0, carbon content, fossil=0, water content=0, dry mass=1, water content=0, wet mass=1, dry mass=1, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, water content=0, water in wet mass=0, carbon content, fossil=0, dry mass=1, carbon content, non-fossil=0, wet mass=1, water content=0, dry mass=1, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, carbon content, non-fossil=0,272916486782489, carbon content, fossil=0, dry mass=1, water in wet mass=0, water content=0 -- Parameter(s): fraction, irrigation water, to air, nitrogen crop residues, erosivity factor, fraction, irrigation water to surface water, fraction loss soil to river, fraction, irrigation water, to ground water, soil loss due to erosion, Phosphorus content, enrichment factor P, slope factor, Factor for tillage practice, crop factor, erodibility factor, nitrogen availability for plants, nitrogen from NH4NO3, nitrogen uptake by plant, precipitation, organic nitrogen into soil, emission factor ammoniumnitrate_ammonia, clay content into soil, amount of N from urea, precipitation, annual, generic nitrogen, emission factor Nfertilizer_ammonia, yield kgha, practice factor for anti-erosion practice, rooting depth, emission factor urea_ammonia, LUC_crop_specific
Reviewer name and institution
Review details
Date of last review: 2018-05-04; Major version: 3.2; Minor version: 0.6
Subsequent review comments
Validation warnings: - Mass and/or economic deficit in activity dataset exceeds either 0.1% of input or output sum: Property 'dry mass': - Input='2,92095123718376', Output='0,240697018949732' - Input > output by 2,68025421823402 kg (1113,54% of output) Property 'carbon content, fossil': - Input='0,0362116125846373', Output='0,000629981029025028' - Input > output by 0,0355816315556122 kg (5648,05% of output) Property 'wet mass': - Input='370,88054041383', Output='369,118103942026' - Input > output by 1,76243647180451 kg (0,48% of output) Property 'water in wet mass': - Input='367,959589176647', Output='368,877406923076' - Input < output by 0,917817746429478 kg (0,25% of output) Property 'carbon content, non-fossil': - Input='0,0840582734890743', Output='0,099717981732431' - Input < output by 0,0156597082433567 kg (15,7% of output) - Amount of property 'water content=0' of exchange 'mango seedling' deviates from the default amount in the master file. Amount of property 'carbon content, non-fossil=0,48' of exchange 'mango seedling' deviates from the default amount in the master file. Amount of property 'water in wet mass=0' of exchange 'mango seedling' deviates from the default amount in the master file. Amount of property 'wet mass=0,03683' of exchange 'mango seedling' deviates from the default amount in the master file. Amount of property 'dry mass=0,03683' of exchange 'mango seedling' deviates from the default amount in the master file. Amount of property 'carbon content, non-fossil=0,4788' of exchange 'waste wood, untreated' deviates from the default amount in the master file. Property 'net heating value=0' of master data exchange was removed from exchange 'waste wood, untreated'. Amount of property 'carbon content, non-fossil=0,42' of exchange 'mango' deviates from the default amount in the master file. Amount of property 'wet mass=1' of exchange 'Energy, gross calorific value, in biomass' deviates from the default amount in the master file. Amount of property 'dry mass=1' of exchange 'Energy, gross calorific value, in biomass' deviates from the default amount in the master file. - Due to the use of the reference product property(s) 'carbon content, non-fossil', 'dry mass' by other exchanges this dataset will be subdivided by linking rule 3 (see Data Quality Guidelines for details) prior to the calculation of the database. If this is not intended, do not use the properties in question in mathematical relations of other exchanges. - The total water in wet mass of all input exchanges (367,959589176647) and output exchanges (368,877406923076) is unbalanced. - Uncertainty shall always be provided for all primary data inputs (exchange amounts, properties and parameters), except for the amount and properties of reference products. -- Exchange(s): land use change, perennial crop, Nickel, Phosphate, Phosphate -- Property(ies): dry mass=0,8, water in wet mass=0,2, carbon content, fossil=0, carbon content, non-fossil=0,4788, wet mass=1, water content=0,25, dry mass=1, carbon content, fossil=0, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, water content=0, wet mass=1, carbon content, non-fossil=0,272916486782489, carbon content, fossil=0, water content=0, dry mass=1, water in wet mass=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, water content=0, carbon content, fossil=0, water in wet mass=0, dry mass=1, carbon content, fossil=0, water in wet mass=0, wet mass=1, carbon content, non-fossil=0, water content=0, water in wet mass=0, water content=0, wet mass=1, dry mass=1, carbon content, fossil=0, carbon content, non-fossil=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, wet mass=1, water content=0, carbon content, non-fossil=0, water content=0, water in wet mass=0, dry mass=1, carbon content, fossil=0, wet mass=1, carbon content, fossil=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, water in wet mass=0, water content=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, carbon content, fossil=0, water in wet mass=0, water content=0, dry mass=1, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, carbon content, fossil=0, water content=0, wet mass=1, carbon content, non-fossil=0, carbon content, fossil=0, water content=0, water in wet mass=0, dry mass=1, water in wet mass=0, dry mass=1, water content=0, carbon content, non-fossil=0, wet mass=1, carbon content, fossil=0, water content=0, wet mass=1, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, carbon content, fossil=0, water content=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, wet mass=1, carbon content, fossil=0, water in wet mass=0, dry mass=1, carbon content, non-fossil=0, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, water content=0, dry mass=1, wet mass=1, dry mass=1, water in wet mass=0, wet mass=1, carbon content, fossil=0, water content=0, carbon content, non-fossil=0,659689668148146, dry mass=1, carbon content, fossil=0, water content=0, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, water in wet mass=0, carbon content, fossil=0,561720618764273, water content=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, carbon content, fossil=0,655046602058235, water content=0, dry mass=1, water content=0, carbon content, non-fossil=0, carbon content, fossil=0, wet mass=1, dry mass=1, water in wet mass=0, water in wet mass=0, water content=0, dry mass=1, carbon content, fossil=0, wet mass=1, carbon content, non-fossil=0,673294397890932, water in wet mass=0, carbon content, fossil=0,446770017785933, carbon content, non-fossil=0, dry mass=1, water content=0, wet mass=1, carbon content, fossil=0,50060917066895, carbon content, non-fossil=0, water in wet mass=0, wet mass=1, water content=0, dry mass=1, water content=0, wet mass=1, carbon content, non-fossil=0, dry mass=1, water in wet mass=0, carbon content, fossil=0,166248770141815, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, dry mass=1, water content=0, carbon content, fossil=0,177590069416448, water in wet mass=0, wet mass=1, carbon content, non-fossil=0, water content=0, carbon content, fossil=0,588436811443917, dry mass=1, wet mass=1, water in wet mass=0, water content=0, dry mass=1, carbon content, fossil=0,624306825675794, carbon content, non-fossil=0, carbon content, fossil=0,588230757365568, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, dry mass=1, water content=0, water content=0, carbon content, non-fossil=0, dry mass=1, water in wet mass=0, wet mass=1, carbon content, fossil=0,420946605914281, carbon content, fossil=0, water content=0, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, dry mass=1, carbon content, fossil=0, wet mass=1, dry mass=1, water content=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water content=0, water in wet mass=0, dry mass=1, wet mass=1, water in wet mass=0, water content=0, wet mass=1, carbon content, non-fossil=0, carbon content, fossil=0, dry mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0, wet mass=1, carbon content, non-fossil=0, water content=0, wet mass=1, carbon content, non-fossil=0, carbon content, fossil=0, dry mass=1, water content=0, water in wet mass=0, dry mass=1, wet mass=1, water content=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, carbon content, fossil=0, dry mass=1, water in wet mass=0, water content=0, wet mass=1, carbon content, non-fossil=0, water in wet mass=1000, dry mass=0, carbon content, fossil=0, wet mass=1000, water in wet mass=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, water content=0, carbon content, fossil=0, dry mass=0, carbon content, non-fossil=0, water in wet mass=1000, carbon content, fossil=0, wet mass=1000, carbon content, fossil=0, wet mass=0, water in wet mass=0, dry mass=0, carbon content, non-fossil=0, wet mass=1, carbon content, fossil=0,272916486782489, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=1000, dry mass=0, wet mass=1000 -- Parameter(s): fraction loss soil to river, erodibility factor, crop factor, nitrogen from NH4NO3, soil loss due to erosion, slope factor, enrichment factor P, clay content into soil, Phosphorus content, emission factor ammoniumnitrate_ammonia, emission factor Nfertilizer_ammonia, organic nitrogen into soil, nitrogen uptake by plant, yield kgha, precipitation, fraction, irrigation water, to ground water, erosivity factor, nitrogen crop residues, fraction, irrigation water to surface water, fraction, irrigation water, to air, practice factor for anti-erosion practice, emission factor urea_ammonia, rooting depth, LUC_crop_specific, amount of N from urea, precipitation, annual, generic nitrogen, nitrogen availability for plants, Factor for tillage practice - Pedigree information shall always be provided for all uncertainties of primary data inputs (exchange amounts, properties and parameters), except for the amount and properties of reference products. -- Exchange(s): land use change, perennial crop, Nickel, Phosphate, Phosphate -- Property(ies): dry mass=0,8, water in wet mass=0,2, carbon content, fossil=0, carbon content, non-fossil=0,4788, wet mass=1, water content=0,25, dry mass=1, carbon content, fossil=0, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, water content=0, wet mass=1, carbon content, non-fossil=0,272916486782489, carbon content, fossil=0, water content=0, dry mass=1, water in wet mass=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, water content=0, carbon content, fossil=0, water in wet mass=0, dry mass=1, carbon content, fossil=0, water in wet mass=0, wet mass=1, carbon content, non-fossil=0, water content=0, water in wet mass=0, water content=0, wet mass=1, dry mass=1, carbon content, fossil=0, carbon content, non-fossil=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, wet mass=1, water content=0, carbon content, non-fossil=0, water content=0, water in wet mass=0, dry mass=1, carbon content, fossil=0, wet mass=1, carbon content, fossil=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, water in wet mass=0, water content=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, carbon content, fossil=0, water in wet mass=0, water content=0, dry mass=1, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, carbon content, fossil=0, water content=0, wet mass=1, carbon content, non-fossil=0, carbon content, fossil=0, water content=0, water in wet mass=0, dry mass=1, water in wet mass=0, dry mass=1, water content=0, carbon content, non-fossil=0, wet mass=1, carbon content, fossil=0, water content=0, wet mass=1, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, carbon content, fossil=0, water content=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, wet mass=1, carbon content, fossil=0, water in wet mass=0, dry mass=1, carbon content, non-fossil=0, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, water content=0, dry mass=1, wet mass=1, dry mass=1, water in wet mass=0, wet mass=1, carbon content, fossil=0, water content=0, carbon content, non-fossil=0,659689668148146, dry mass=1, carbon content, fossil=0, water content=0, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, water in wet mass=0, carbon content, fossil=0,561720618764273, water content=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, carbon content, fossil=0,655046602058235, water content=0, dry mass=1, water content=0, carbon content, non-fossil=0, carbon content, fossil=0, wet mass=1, dry mass=1, water in wet mass=0, water in wet mass=0, water content=0, dry mass=1, carbon content, fossil=0, wet mass=1, carbon content, non-fossil=0,673294397890932, water in wet mass=0, carbon content, fossil=0,446770017785933, carbon content, non-fossil=0, dry mass=1, water content=0, wet mass=1, carbon content, fossil=0,50060917066895, carbon content, non-fossil=0, water in wet mass=0, wet mass=1, water content=0, dry mass=1, water content=0, wet mass=1, carbon content, non-fossil=0, dry mass=1, water in wet mass=0, carbon content, fossil=0,166248770141815, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, dry mass=1, water content=0, carbon content, fossil=0,177590069416448, water in wet mass=0, wet mass=1, carbon content, non-fossil=0, water content=0, carbon content, fossil=0,588436811443917, dry mass=1, wet mass=1, water in wet mass=0, water content=0, dry mass=1, carbon content, fossil=0,624306825675794, carbon content, non-fossil=0, carbon content, fossil=0,588230757365568, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, dry mass=1, water content=0, water content=0, carbon content, non-fossil=0, dry mass=1, water in wet mass=0, wet mass=1, carbon content, fossil=0,420946605914281, carbon content, fossil=0, water content=0, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, dry mass=1, carbon content, fossil=0, wet mass=1, dry mass=1, water content=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water content=0, water in wet mass=0, dry mass=1, wet mass=1, water in wet mass=0, water content=0, wet mass=1, carbon content, non-fossil=0, carbon content, fossil=0, dry mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0, wet mass=1, carbon content, non-fossil=0, water content=0, wet mass=1, carbon content, non-fossil=0, carbon content, fossil=0, dry mass=1, water content=0, water in wet mass=0, dry mass=1, wet mass=1, water content=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, carbon content, fossil=0, dry mass=1, water in wet mass=0, water content=0, wet mass=1, carbon content, non-fossil=0, water in wet mass=1000, dry mass=0, carbon content, fossil=0, wet mass=1000, water in wet mass=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, water content=0, carbon content, fossil=0, dry mass=0, carbon content, non-fossil=0, water in wet mass=1000, carbon content, fossil=0, wet mass=1000, carbon content, fossil=0, wet mass=0, water in wet mass=0, dry mass=0, carbon content, non-fossil=0, wet mass=1, carbon content, fossil=0,272916486782489, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=1000, dry mass=0, wet mass=1000 -- Parameter(s): fraction loss soil to river, erodibility factor, crop factor, nitrogen from NH4NO3, soil loss due to erosion, slope factor, enrichment factor P, clay content into soil, Phosphorus content, emission factor ammoniumnitrate_ammonia, emission factor Nfertilizer_ammonia, organic nitrogen into soil, nitrogen uptake by plant, yield kgha, precipitation, fraction, irrigation water, to ground water, erosivity factor, nitrogen crop residues, fraction, irrigation water to surface water, fraction, irrigation water, to air, practice factor for anti-erosion practice, emission factor urea_ammonia, rooting depth, LUC_crop_specific, amount of N from urea, precipitation, annual, generic nitrogen, nitrogen availability for plants, Factor for tillage practice
Reviewer name and institution
Review details
Date of last review: 2017-11-12; Major version: 3.0; Minor version: 0.33
Subsequent review comments
Reviewer name and institution
Review details
Date of last review: 2018-04-15; Major version: 3.1; Minor version: 0.2
Subsequent review comments
Reviewer name and institution
Review details
Date of last review: 2018-03-21; Major version: 3.0; Minor version: 0.33
Subsequent review comments
Validation warnings: - Mass and/or economic deficit in activity dataset exceeds either 0.1% of input or output sum: Property 'carbon content, fossil': - Input='0,0362116125846373', Output='0,000629981029025028' - Input > output by 0,0355816315556122 kg (5648,05% of output) Property 'carbon content, non-fossil': - Input='0,0840582734890743', Output='0,099717981732431' - Input < output by 0,0156597082433567 kg (15,7% of output) Property 'water in wet mass': - Input='367,959589176647', Output='368,877406923076' - Input < output by 0,917817746429478 kg (0,25% of output) Property 'wet mass': - Input='370,87958866383', Output='369,118103942026' - Input > output by 1,76148472180455 kg (0,48% of output) Property 'dry mass': - Input='2,91999948718375', Output='0,240697018949732' - Input > output by 2,67930246823402 kg (1113,14% of output) - Amount of property 'dry mass=0,03683' of exchange 'mango seedling' deviates from the default amount in the master file. Amount of property 'wet mass=0,03683' of exchange 'mango seedling' deviates from the default amount in the master file. Amount of property 'water in wet mass=0' of exchange 'mango seedling' deviates from the default amount in the master file. Amount of property 'water content=0' of exchange 'mango seedling' deviates from the default amount in the master file. Amount of property 'carbon content, non-fossil=0,4788' of exchange 'waste wood, untreated' deviates from the default amount in the master file. Property 'net heating value=0' of master data exchange was removed from exchange 'waste wood, untreated'. Amount of property 'wet mass=1' of exchange 'Energy, gross calorific value, in biomass' deviates from the default amount in the master file. Amount of property 'dry mass=1' of exchange 'Energy, gross calorific value, in biomass' deviates from the default amount in the master file. - Due to the use of the reference product property(s) 'carbon content, non-fossil', 'dry mass' by other exchanges this dataset will be subdivided by linking rule 3 (see Data Quality Guidelines for details) prior to the calculation of the database. If this is not intended, do not use the properties in question in mathematical relations of other exchanges. - The total water in wet mass of all input exchanges (367,959589176647) and output exchanges (368,877406923076) is unbalanced. - The dataset contains user added exchange master data entries. The following user added exchanges do not contain product information data. Please consider adding the appropriate data before submitting the dataset for review. - tillage, harrowing, by offset leveling disc harrow - tillage, subsoiling, by subsoiler plow - Uncertainty shall always be provided for all primary data inputs (exchange amounts, properties and parameters), except for the amount and properties of reference products. -- Exchange(s): Nickel, Phosphate, Phosphate -- Property(ies): water content=0,25, wet mass=1, carbon content, non-fossil=0,4788, carbon content, fossil=0, water in wet mass=0,2, dry mass=0,8, carbon content, fossil=0, carbon content, non-fossil=0,272916486782489, water in wet mass=0, water content=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, non-fossil=0, carbon content, fossil=0, water content=0, dry mass=1, wet mass=1, carbon content, fossil=0, water in wet mass=0, water content=0, carbon content, non-fossil=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water content=0, dry mass=1, wet mass=1, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, water content=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, water content=0, dry mass=1, wet mass=1, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0, water in wet mass=0, water content=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water content=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0, dry mass=1, wet mass=1, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, wet mass=1, water content=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, water content=0, water in wet mass=0, carbon content, fossil=0, wet mass=1, dry mass=1, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, carbon content, fossil=0, water content=0, water in wet mass=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0, dry mass=1, wet mass=1, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, water content=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, carbon content, fossil=0, water content=0, wet mass=1, dry mass=1, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, fossil=0, water in wet mass=0, water content=0, carbon content, non-fossil=0,659689668148146, wet mass=1, dry mass=1, water content=0, water in wet mass=0, carbon content, fossil=0,655046602058235, carbon content, non-fossil=0, wet mass=1, dry mass=1, wet mass=1, dry mass=1, carbon content, fossil=0,446770017785933, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0,561720618764273, water in wet mass=0, carbon content, non-fossil=0, water content=0, dry mass=1, wet mass=1, carbon content, non-fossil=0,673294397890932, water in wet mass=0, water content=0, carbon content, fossil=0, wet mass=1, dry mass=1, carbon content, fossil=0,166248770141815, carbon content, non-fossil=0, water content=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, water content=0, carbon content, fossil=0,50060917066895, water in wet mass=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0,177590069416448, dry mass=1, wet mass=1, carbon content, fossil=0,588436811443917, water in wet mass=0, carbon content, non-fossil=0, water content=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0,624306825675794, wet mass=1, dry mass=1, water in wet mass=0, carbon content, non-fossil=0, carbon content, fossil=0,420946605914281, water content=0, wet mass=1, dry mass=1, water content=0, carbon content, non-fossil=0, carbon content, fossil=0,588230757365568, water in wet mass=0, dry mass=1, wet mass=1, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0, water content=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, water content=0, carbon content, fossil=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0, water content=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, water in wet mass=0, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water content=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0, water content=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, carbon content, fossil=0, water content=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, fossil=0,272916486782489, carbon content, non-fossil=0, water in wet mass=0, water content=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, water in wet mass=1000, carbon content, fossil=0, wet mass=1000, dry mass=0, water in wet mass=1000, carbon content, non-fossil=0, carbon content, fossil=0, dry mass=0, wet mass=1000, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, water content=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0, water in wet mass=1000, wet mass=1000, dry mass=0, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0, wet mass=0, dry mass=0 -- Parameter(s): precipitation, annual, yield kgha, clay content into soil, rooting depth, nitrogen availability for plants, organic nitrogen into soil, nitrogen uptake by plant, emission factor urea_ammonia, emission factor Nfertilizer_ammonia, emission factor ammoniumnitrate_ammonia, amount of N from urea, generic nitrogen, nitrogen from NH4NO3, precipitation, practice factor for anti-erosion practice, erodibility factor, slope factor, crop factor, Factor for tillage practice, Phosphorus content, enrichment factor P, erosivity factor, fraction loss soil to river, nitrogen crop residues, fraction, irrigation water, to air, fraction, irrigation water to surface water, fraction, irrigation water, to ground water, soil loss due to erosion - Pedigree information shall always be provided for all uncertainties of primary data inputs (exchange amounts, properties and parameters), except for the amount and properties of reference products. -- Exchange(s): Nickel, Phosphate, Phosphate -- Property(ies): water content=0,25, wet mass=1, carbon content, non-fossil=0,4788, carbon content, fossil=0, water in wet mass=0,2, dry mass=0,8, carbon content, fossil=0, carbon content, non-fossil=0,272916486782489, water in wet mass=0, water content=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, non-fossil=0, carbon content, fossil=0, water content=0, dry mass=1, wet mass=1, carbon content, fossil=0, water in wet mass=0, water content=0, carbon content, non-fossil=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water content=0, dry mass=1, wet mass=1, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, water content=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, water content=0, dry mass=1, wet mass=1, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0, water in wet mass=0, water content=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water content=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0, dry mass=1, wet mass=1, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, wet mass=1, water content=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, water content=0, water in wet mass=0, carbon content, fossil=0, wet mass=1, dry mass=1, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, carbon content, fossil=0, water content=0, water in wet mass=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0, dry mass=1, wet mass=1, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, water content=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, carbon content, fossil=0, water content=0, wet mass=1, dry mass=1, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, fossil=0, water in wet mass=0, water content=0, carbon content, non-fossil=0,659689668148146, wet mass=1, dry mass=1, water content=0, water in wet mass=0, carbon content, fossil=0,655046602058235, carbon content, non-fossil=0, wet mass=1, dry mass=1, wet mass=1, dry mass=1, carbon content, fossil=0,446770017785933, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0,561720618764273, water in wet mass=0, carbon content, non-fossil=0, water content=0, dry mass=1, wet mass=1, carbon content, non-fossil=0,673294397890932, water in wet mass=0, water content=0, carbon content, fossil=0, wet mass=1, dry mass=1, carbon content, fossil=0,166248770141815, carbon content, non-fossil=0, water content=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, water content=0, carbon content, fossil=0,50060917066895, water in wet mass=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0,177590069416448, dry mass=1, wet mass=1, carbon content, fossil=0,588436811443917, water in wet mass=0, carbon content, non-fossil=0, water content=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0,624306825675794, wet mass=1, dry mass=1, water in wet mass=0, carbon content, non-fossil=0, carbon content, fossil=0,420946605914281, water content=0, wet mass=1, dry mass=1, water content=0, carbon content, non-fossil=0, carbon content, fossil=0,588230757365568, water in wet mass=0, dry mass=1, wet mass=1, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0, water content=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, water content=0, carbon content, fossil=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0, water content=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, water in wet mass=0, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water content=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0, water content=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, carbon content, fossil=0, water content=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, fossil=0,272916486782489, carbon content, non-fossil=0, water in wet mass=0, water content=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, water in wet mass=1000, carbon content, fossil=0, wet mass=1000, dry mass=0, water in wet mass=1000, carbon content, non-fossil=0, carbon content, fossil=0, dry mass=0, wet mass=1000, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, water content=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0, water in wet mass=1000, wet mass=1000, dry mass=0, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0, wet mass=0, dry mass=0 -- Parameter(s): precipitation, annual, yield kgha, clay content into soil, rooting depth, nitrogen availability for plants, organic nitrogen into soil, nitrogen uptake by plant, emission factor urea_ammonia, emission factor Nfertilizer_ammonia, emission factor ammoniumnitrate_ammonia, amount of N from urea, generic nitrogen, nitrogen from NH4NO3, precipitation, practice factor for anti-erosion practice, erodibility factor, slope factor, crop factor, Factor for tillage practice, Phosphorus content, enrichment factor P, erosivity factor, fraction loss soil to river, nitrogen crop residues, fraction, irrigation water, to air, fraction, irrigation water to surface water, fraction, irrigation water, to ground water, soil loss due to erosion - The input exchange 'mango seedling' does not have an activity link and therefore requires a market for that input to be available. If the market is not available the dataset will be put on hold at the end of its review and will remain on hold until such a market has been accepted into the ecoinvent database. - The input exchange 'tillage, harrowing, by offset leveling disc harrow' does not have an activity link and therefore requires a market for that input to be available. If the market is not available the dataset will be put on hold at the end of its review and will remain on hold until such a market has been accepted into the ecoinvent database. - The input exchange 'tillage, subsoiling, by subsoiler plow' does not have an activity link and therefore requires a market for that input to be available. If the market is not available the dataset will be put on hold at the end of its review and will remain on hold until such a market has been accepted into the ecoinvent database.
Reviewer name and institution
Commissioner and goal
Intended applications Can be used for any types of LCA studies
Data generator
Data set generator / modeller
Data entry by
Time stamp (last saved) 2020-12-10T15:53:10
Data set format(s)
Converted original data set from
Data entry by
Publication and ownership
UUID a48f2878-32d2-4869-a85c-501129f82ab0
Date of last revision 2018-07-16T11:19:45
Data set version 03.00.000
Permanent data set URI http://sicv.acv.ibict.br
Workflow and publication status Data set finalised; entirely published
Unchanged re-publication of
Copyright Yes
License type License fee
Access and use restrictions License type for this dataset: Licensees

Inputs

Type of flow Classification Flow Variable Mean amount Resulting amount Minimum amount Maximum amount
Product flow
1.07E-4 kg1.07E-4 kg 1.016808147086491E-4 1.1259744557324178E-4
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (1,4,1,1,1)
Product flow
8.4E-6 kg8.4E-6 kg 7.98241909862292E-6 8.839425633787204E-6
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (1,4,1,1,1)
Product flow
seedling_mango 1.0 Item(s)3.62E-4 Item(s) 3.440042516311306E-4 3.809371523132105E-4
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (1,4,1,1,1)
Product flow
1.33E-5 kg1.33E-5 kg 1.2638830239486291E-5 1.3995757253496408E-5
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (1,4,1,1,1)
Product flow
A:Agriculture, forestry and fishing / 01:Crop and animal production, hunting and related service activities / 016:Support activities to agriculture and post-harvest crop activities / 0161:Support activities for crop production application_pesticides 1.0 m23.46 m2 1.4127381325823636E-6 0.08474040392834126
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (2,4,1,1,1)
Product flow
C:Manufacturing / 20:Manufacture of chemicals and chemical products / 202:Manufacture of other chemical products / 2021:Manufacture of pesticides and other agrochemical products 2.08E-4 kg2.08E-4 kg 1.976599014897104E-4 2.188810156937784E-4
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (1,4,1,1,1)
Product flow
0.001 t*km0.001 t*km 5.761645683895777E-4 0.0017356152302024984
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Product flow
Math_Rel_for_b90634dc_b7d5_4c1c_98dc_7cb18fccaa1f 1.0 d4.006410256025025E-7 d 7.495167640929559E-6 1.2335364025630894E-5
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Product flow
1.52E-6 kg1.52E-6 kg 1.4203268696628193E-6 1.6266678110148555E-6
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Product flow
4.86E-6 kg4.86E-6 kg 4.541308280632435E-6 5.201056290481709E-6
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Product flow
L:Real estate activities / 68:Real estate activities Math_Rel_for_f372d4c2_7310_4fb9_8bb6_bee214fd08d1 1.0 m20.0173076923060281 m2
General comment Calculated value. Land use change (LUC) from Novaes et al. (2017).
Product flow
water_dilution 1.0 kg6.92E-5 kg 5.6281229572705795E-5 8.508413970973911E-5
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (5,4,1,3,1)
Product flow
A:Agriculture, forestry and fishing / 01:Crop and animal production, hunting and related service activities / 016:Support activities to agriculture and post-harvest crop activities / 0161:Support activities for crop production 0.00962 m20.00962 m2 2.775796807389723E-9 3.3339760227992345E-4
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (5,4,1,1,1)
Product flow
8.8E-7 kg8.8E-7 kg 8.222945034890006E-7 9.417550484822848E-7
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Product flow
1.73 m21.73 m2 4.991817543434741E-7 0.05995611766572428
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (5,4,1,1,1)
Product flow
0.019230999999999998 m20.019230999999999998 m2 5.548996715479393E-9 6.664832941211233E-4
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (5,4,1,1,1)
Product flow
2.65E-8 kg2.65E-8 kg 2.4762277661884677E-8 2.8359669073614255E-8
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Product flow
irrigation 1.0 m30.368 m3 0.3497059795587184 0.38725102776591563
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (1,4,1,1,1)
Product flow
lime 1.0 kg2.01E-5 kg 1.910078855741913E-5 2.1151482766562242E-5
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (1,4,1,1,1)
Product flow
0.009615400000000001 m20.009615400000000001 m2 2.7744695033030295E-9 3.3323818138902036E-4
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (5,4,1,1,1)
Product flow
B:Mining and quarrying / 08:Other mining and quarrying / 081:Quarrying of stone, sand and clay / 0810:Quarrying of stone, sand and clay gypsium 1.0 kg0.0169 kg 0.01605986699603897 0.017784082525119496
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (1,4,1,1,1)
Product flow
dolomite 1.0 kg4.02E-4 kg 3.8201577114838265E-4 4.2302965533124484E-4
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (1,4,1,1,1)
Product flow
C:Manufacturing / 20:Manufacture of chemicals and chemical products / 201:Manufacture of basic chemicals, fertilizers and nitrogen compounds, plastics and synthetic rubber in primary forms / 2012:Manufacture of fertilizers and nitrogen compounds P2O5 1.0 kg0.00203 kg 0.0019290846155005392 0.0021361945281652413
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (1,4,1,1,1)
Product flow
C:Manufacturing / 20:Manufacture of chemicals and chemical products / 201:Manufacture of basic chemicals, fertilizers and nitrogen compounds, plastics and synthetic rubber in primary forms / 2012:Manufacture of fertilizers and nitrogen compounds N 1.0 kg0.00284 kg 0.0026988178857248924 0.002988567714280436
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (1,4,1,1,1)
Product flow
0.00148 kg0.00148 kg 0.0014064262221383241 0.0015574226116672695
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (1,4,1,1,1)
Product flow
A:Agriculture, forestry and fishing / 01:Crop and animal production, hunting and related service activities / 016:Support activities to agriculture and post-harvest crop activities / 0161:Support activities for crop production K2O 1.0 kg0.00592 kg 0.0056257048885532965 0.006229690446669078
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (1,4,1,1,1)
Product flow
MoO3 1.0 kg4.88E-6 kg 4.637405381104744E-6 5.135285368200186E-6
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (1,4,1,1,1)
Product flow
0.00227 kg0.00227 kg 0.002157153732604051 0.002388749546273447
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (1,4,1,1,1)
Product flow
2.81E-4 kg2.81E-4 kg 2.670309246086953E-4 2.9569983370169103E-4
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (1,4,1,1,1)
Product flow
C:Manufacturing / 22:Manufacture of rubber and plastics products / 222:Manufacture of plastics products / 2220:Manufacture of plastics products 0.004219733 kg0.004219733 kg 0.0033652346254945393 0.005291205093514777
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,5,4)
Product flow
C:Manufacturing / 22:Manufacture of rubber and plastics products / 222:Manufacture of plastics products / 2220:Manufacture of plastics products 0.0607642 kg0.0607642 kg 0.048459414335095444 0.07619340952220213
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,5,4)
Elementary flow
Resources / Resources from biosphere / Renewable energy resources from biosphere 2.5 MJ2.5 MJ 2.033773750103476 3.0731048621716193
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (5,4,1,1,1)
Elementary flow
Elementary flows / Land occupation / land Math_Rel_for_73cba245_5969_4076_8490_75a236073196 1.0 m20.0144230769216901 m2 0.012891649371972912 0.01613642613808956
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (2,4,1,5,1)
Elementary flow
Elementary flows / Land occupation / land Math_Rel_for_1896b498_8d13_4f58_8c17_21fe57740158 1.0 m2*a0.288461538433802 m2*a 0.26954583809329147 0.30870467058295414
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (2,4,1,1,1)
Elementary flow
Elementary flows / Land occupation / land Math_Rel_for_a487b7db_318a_46ff_8e52_2837fab777ad 1.0 m20.0144230769216901 m2 0.012891649371972912 0.01613642613808956
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (2,4,1,5,1)
Elementary flow
Elementary flows / Resources from air / in air Math_Rel_for_cc6a1abb_b123_4ca6_8f16_38209df609be 1.0 kg0.3079765348704 kg 0.2877811498039982 0.32958915514577225
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)

Outputs

Type of flow Classification Flow Variable Mean amount Resulting amount Minimum amount Maximum amount
Product flow
REF_PROD 1.0 kg1.0 kg 0.9450017095003759 1.0581991439239848
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (2,4,1,1,1)
Waste flow
waste_wood 1.0 kg0.0410346153806697 kg 0.03338204944271936 0.05044147041747135
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (5,4,1,1,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 4.21E-9 kg4.21E-9 kg 3.2014421140897267E-9 5.536286263617024E-9
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (5,4,1,1,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 9.12E-7 kg9.12E-7 kg 6.93519051793309E-7 1.199309518389246E-6
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (5,4,1,1,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 1.49E-4 kg1.49E-4 kg 1.1393386501952492E-4 1.9485865766245532E-4
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (5,4,1,1,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 7.41E-6 kg7.41E-6 kg 5.634842295820636E-6 9.744389836912624E-6
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (5,4,1,1,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 8.07E-7 kg8.07E-7 kg 6.136731083302635E-7 1.061231119890484E-6
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (5,4,1,1,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 1.33E-5 kg1.33E-5 kg 1.0113819505319089E-5 1.748993047650984E-5
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (5,4,1,1,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 8.16E-6 kg8.16E-6 kg 6.205170463413817E-6 1.0730664111903781E-5
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (5,4,1,1,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 2.82E-6 kg2.82E-6 kg 2.1444339101503633E-6 3.708391273966748E-6
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (5,4,1,1,1)
Elementary flow
Elementary flows / Emissions to air / unspecified emission_ammonia 1.0 kg2.82466792555257E-4 kg 2.531586794682338E-4 3.151678981105851E-4
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 2.79E-5 kg2.79E-5 kg 2.121620783446636E-5 3.668940302967102E-5
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (5,4,1,1,1)
Elementary flow
Elementary flows / Emissions to water / surface water 0.0 kg0.0 kg
General comment Phosphorus leaching will be disregarded in the inventories because of its low mobility in Brazilian soils. 'Phosphorus, scarce in most Brazilian soils, presents mechanisms for fixation, transforming, with restricted irreversibility, into Non-Labile (non-leachable) P. In more tropical temperate soils, this fixation is even greater and the passage to the non-labile form is faster (Novais & Smyth, 1999). According to Novais & Smyth (1999), the total P content of soils varies between 200 and 3,000 mg / kg P and less than 0.1% of this total is in the form of P-Solution. The current low values of P-labile in Brazilian soils limit the desorption of P and its mobility. Thus, problems caused by leaching, such as eutrophication of aquatic environments, are not observed in Brazil '(Novais & Smyth, 1999).
Elementary flow
Elementary flows / Emissions to water / surface water 0.0 kg0.0 kg
General comment Disregard the loss of P per runoff to surface waters, since P does not dissolve in soil water under Brazilian conditions, according to Novais & Smyth, 1999. See comment on phosphate emissions to groundwater.
Elementary flow
Elementary flows / Emissions to water / surface water Math_Rel_for_b2631209_8374_431e_b7d5_56c96c6b6d79 1.0 kg1.27986229192233E-6 kg 1.0376833890932304E-6 1.5785619231277004E-6
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Elementary flow
Elementary flows / Emissions to air / unspecified evapotranspiration 1.0 m30.23924498 m3 0.1936843770836211 0.29552285691317504
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,2,4)
Elementary flow
Elementary flows / Emissions to water / ground water emission_nitrate 1.0 kg0.00522460049826731 kg 0.004235987876130982 0.0064439396817695185
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Elementary flow
Elementary flows / Emissions to air / unspecified Math_Rel_for_20185046_64bb_4c09_a8e7_e8a9e144ca98 1.0 kg6.86990305306421E-5 kg 5.7130846993436064E-5 8.260960661746078E-5
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Elementary flow
Elementary flows / Emissions to air / unspecified Math_Rel_for_c1b91234_6f24_417b_8309_46111d09c457 1.0 kg1.11977142857143E-4 kg 9.312138709847054E-5 1.346509208372279E-4
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 2.65E-8 kg2.65E-8 kg 1.9901364788722502E-8 3.528652469090681E-8
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (5,4,1,1,1)
Elementary flow
Elementary flows / Emissions to water / surface water Math_Rel_for_db4566b1_bd88_427d_92da_2d25879063b9 1.0 m30.025764844 m3 0.020858317532082272 0.03182553843680347
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,2,4)
Elementary flow
Elementary flows / Emissions to water / surface water Math_Rel_for_51254820_3456_4373_b7b4_056cf7b16e01 1.0 m30.103059376 m3 0.08343327012832909 0.12730215374721388
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,2,4)
Elementary flow
Elementary flows / Emissions to water / surface water 1.21E-9 kg1.21E-9 kg 8.904985231300855E-10 1.6441352365792994E-9
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Elementary flow
Elementary flows / Emissions to air / unspecified Math_Rel_for_349b29d1_3e58_4c66_98b9_9d1a076efd2e 1.0 kg0.00195610805750948 kg 0.0018278373908188537 0.0020933802710641227
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Elementary flow
Elementary flows / Emissions to water / surface water 5.68E-7 kg5.68E-7 kg 4.1801914143627156E-7 7.717924085760679E-7
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Elementary flow
Elementary flows / Emissions to water / surface water 8.59E-8 kg8.59E-8 kg 6.321803565030937E-8 1.1672001390261308E-7
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Elementary flow
Elementary flows / Emissions to water / surface water 4.42E-7 kg4.42E-7 kg 3.2528954315991554E-7 6.005849376595458E-7
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Elementary flow
Elementary flows / Emissions to water / surface water 0.0 kg0.0 kg
General comment Nickel (Ni) emission to groundwater through soil leaching due to the use of fertilisers and atmospheric deposition, estimated according to Nemecek & Schnetzer (2011).
Elementary flow
Elementary flows / Emissions to water / surface water 3.96E-9 kg3.96E-9 kg 2.9143588029711892E-9 5.3808062288049806E-9
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Elementary flow
Elementary flows / Emissions to water / surface water 2.71E-10 kg2.71E-10 kg 1.9944223121343239E-10 3.682319414156943E-10
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Elementary flow
Elementary flows / Emissions to water / surface water 6.01E-9 kg6.01E-9 kg 4.423054647943647E-9 8.16632460482776E-9
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 8.7E-8 kg8.7E-8 kg 7.053763160372077E-8 1.073044249985953E-7
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Elementary flow
Elementary flows / Emissions to water / surface water 2.24E-8 kg2.24E-8 kg 1.6485261915796623E-8 3.0436883718492815E-8
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Elementary flow
Elementary flows / Emissions to water / surface water 3.1E-8 kg3.1E-8 kg 2.2814424972754257E-8 4.212247300327131E-8
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Elementary flow
Elementary flows / Emissions to water / surface water 3.01E-8 kg3.01E-8 kg 2.2152070699351712E-8 4.089956249672472E-8
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 8.32E-7 kg8.32E-7 kg 6.594811833428153E-7 1.0496493569251152E-6
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Elementary flow
Elementary flows / Emissions to water / surface water 1.93E-8 kg1.93E-8 kg 1.4203819418521199E-8 2.622463641816569E-8
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 1.21E-7 kg1.21E-7 kg 9.201294437169999E-8 1.5911891636523992E-7
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (5,4,1,1,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 1.84E-13 kg1.84E-13 kg 1.1160164138712454E-13 3.0336471380882356E-13
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (5,5,5,5,5)
Elementary flow
Elementary flows / Emissions to soil / agricultural 3.44E-8 kg3.44E-8 kg 2.7890741691586137E-8 4.2428416321283655E-8
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 7.19E-7 kg7.19E-7 kg 5.829489324491406E-7 8.868032364826439E-7
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 5.08E-6 kg5.08E-6 kg 3.8630227884978175E-6 6.680364422606765E-6
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (5,4,1,1,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 1.52E-7 kg1.52E-7 kg 1.232381609628225E-7 1.8747439769869526E-7
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,4,1,1,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 5.62E-6 kg5.62E-6 kg 4.273659069164909E-6 7.390481900600399E-6
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (5,4,1,1,1)