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Process Data set: maize grain production (en) en

Key Data Set Information
Location BR-PR
Geographical representativeness description The inventory is modelled for the state of Parana, in Brazil.
Reference year 2012
Name
maize grain production
Technical purpose of product or process Cultivation of maize grains like second harvest in cropping system (e.g. soybean followed by maize).
Synonyms corn production
Classification
Class name : Hierarchy level
  • ILCD: A.Agriculture, forestry and fishing / 01:Crop and animal production, hunting and related service activities / 011:Growing of non-perennial crops / 0111:Growing of cereals (except rice), leguminous crops and oil seeds
General comment on data set Type of process: ordinary transforming activity Parent relation Ecospold2: none Tags: Macroeconomic Scenario: Business-as-Usual This dataset represents the production of 1 kg of maize grain (fresh matter). The average annual yield is 5449 kg/ha at a moisture content of 14% after drying. This activity represents the production of maize grain in cropping system (e.g. crop rotation with other grain in the agricultural cycle, mainly soybean). There is no maize monoculture in Brazil. Therefore, exchanges that are shared (land occupation and liming) are related to the time occupation of maize production. The total amount of mineral fertilizers (N-P-K) and pesticides (glyphosate, atrazine, imidacloprid, beta-cyfluthrin, methyl ester, teflubenzurom, lufenuron, nicosulfuron, trifloxystrobin and tebuconazole) applied are 64 kg N.ha-1; 50 kg P2O5.ha-1; 50 kg K2O.ha-1 and 3.77 a.i.ha-1, respectively.
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 maize grains like second harvest in cropping system (e.g. soybean followed by maize). Included activities start: This activity starts after the harvest of the previous crop. Included activities end: The dataset includes the inputs of seeds, mineral fertilisers and pesticides. 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: limestone and gypsum application, by spreader; application of plant protection product, by field sprayer; planting with starter fertiliser, by no till planter; fertilising, by broadcaster; combine harvesting and drying of grains. Includes the transportation of products inside the farm: water from water source to field, fertilisers from farm gate to field and grains from harvester to truck. Furthermore, direct field and land use change emissions are included, with important regionalizations added. The dataset doesn't include: cleaning and storage of harvested grains. 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
Math_Rel_for_7225e2a6_7fd6_40e2_b341_f097b027d119 5*T_t*1E-04 9.200000000000001 0.037564135317218916 2253.213052429883 LOG_NORMAL 244.91446222063945 %
Math_Rel_for_cf52c0fe_72b3_4f42_a475_16a5b2a6f850 1*T_t*1E-04 1.84 0.007512827063443783 450.6426104859766 LOG_NORMAL 244.91446222063945 %
water_drying REF_PRODUCT*( REF_PRODUCT_WWM- harvest_wc)/( harvest_wc-1) 4.8780487804878004E-5 4.423466954409395E-5 5.379346144114144E-5 LOG_NORMAL 1.1027659595434005 %
Math_Rel_for_1d32b849_121f_4d23_853c_fa2bf55c42e9 0*LUC_crop_specific+(0*(1-LUC_crop_specific)) 0.0 %
water_dilution 5*T_t*1E-04*200 0.184 0.17748396110383116 0.1907552648106251 LOG_NORMAL 1.036713395709919 %
Math_Rel_for_f054b1e6_24cd_4d22_a001_1271cfa17a83 1/3*occupation_time*T_t*1E-04 0.201643835616438 0.11427549050782213 0.35580889884105016 LOG_NORMAL 1.7645414140894502 %
Math_Rel_for_75168394_3da2_467a_90a1_285836ccd00d 1*T_t*1E-04 1.84 1.0427638508838788 3.2467562019245886 LOG_NORMAL 1.7645414140894502 %
Math_Rel_for_f66846ab_83a7_41ec_8139_d879268bada0 1*T_t*1E-04 1.84 1.0427638508838788 3.2467562019245886 LOG_NORMAL 1.7645414140894502 %
Math_Rel_for_a00b7e35_1bc7_4b73_9df8_05f3dd07ffdb L_total*T_t*1E-04 0.0403287671232877 0.03890059421453836 0.041809373109178136 LOG_NORMAL 1.036713395709919 % Variance of log-transformed data as recommended by Ecoinvent for "Primary energy carriers, metals, salts" for agriculture.
REF_PRODUCT 1.0 %
Math_Rel_[product volume]_for_dadc7057_9041_4fae_893c_20aba9725f29 1.5777409E10 % Production Volume of maize grain in the state of ParanĂ¡ in Brazil, 2015 harvest, according to the Municipal Agricultural Production Data of the Brazilian Institute of Geography and Statistics (SIDRA - IBGE). See more in: <http://www.sidra.ibge.gov.br/>.
REF_PRODUCT_WM 1.0 %
REF_PRODUCT_WWM 0.14 % Grains are harvested at a moisture content of 18% and are dryed to 14% final moisture content. From May et al. (2016).
REF_PRODUCT_C_content_non_fossil 0.46957 % Based on ecoinvent database.
REF_PRODUCT_DM REF_PRODUCT_WM- REF_PRODUCT_WWM 0.86 % Grains are harvested at a moisture content of 18%. From May et al. (2016).
SEED 0.00385 0.0037136589687486415 0.003991346573483189 LOG_NORMAL 1.036713395709919 %
maize_seed_sowing_water_content maize_seed_sowing_WWM/ maize_seed_sowing_DM 0.136363636363636 % water content on a dry matter basis
maize_seed_sowing_DM maize_seed_sowing_WM- maize_seed_sowing_WWM 0.88 %
maize_seed_sowing_WWM 0.12 % water content on a wet matter basis; ecoinvent report n 15a, Tab 14.2
maize_seed_sowing_C_content_non_fossil 0.45263 % biogene carbon content on a dry matter basis; Composition data obtained from Corn Grain Whole, in (http://beefmagazine.com/images/2009%20feed%20table.pdf). First, composition data were refered to 1 kg dry mass. Then, C-contents were calculated considering a C-content/dry mass of 44% in carbohydrates (including fibres), 53% in proteins and 75% in fats. All data from ecoinvent report, n 15a, pg 40, except C-content in protein, that comes from Determination of protein concentration by total organic carbon analysis, Rouwenhorst et al., 1991, J Biochem and Biophys Methods, 22:119-128.
maize_seed_sowing_C_content_fossil 0.0 %
maize_seed_sowing_WM 1.0 %
Math_Rel_for_ba4b7781_39f2_465b_8d98_0bc1c4c82e61 3.7204 * T_t * 1E-04 6.845536E-4 3.949171694893288E-4 0.0011866124531352453 LOG_NORMAL 1.7334105804647664 %
N_fert (N_total * T_t * 1E-04)*2.14379903903132 0.0252453774836328 0.024351356496503364 0.02617222101703569 LOG_NORMAL 1.036713395709919 %
Math_Rel_for_e97b784a_ec09_4b1b_9f14_cc0ce9799c9e T_t 1.84 1.6825707842372795 2.012159031713317 LOG_NORMAL 1.0935646911485417 %
Math_Rel_for_4b420f19_0421_461e_a0b6_7efbf580089b T_t 1.84 1.6825707842372795 2.012159031713317 LOG_NORMAL 1.0935646911485417 %
Math_Rel_for_aa7cac3a_3625_41d4_bc54_33e2cf11ec46 ((44/12*0.125*L_total)+(N_total*1.57))* T_t*1E-04 0.0369723382648402 0.033573380668391765 0.04071540516790163 LOG_NORMAL 1.1012396585860786 % Variance of log-transformed data as recommended by Ecoinvent for "CO2" for combustion emissions.
Math_Rel_for_e063ee9c_9850_42b5_b01e_4cc9b5ad7152 T_t*occupation_time 0.604931506849315 0.5784741610755797 0.632598917294028 LOG_NORMAL 1.0457364348384068 % Variance of log-transformed data as recommended by Ecoinvent for "Land use, occupation" for agriculture.
NH3 17/14*N_fert*0.466461632733939*0.2 0.00285988571428571 0.002513190808273108 0.0032544072148646347 LOG_NORMAL 1.1379500931132351 % Variance of log-transformed data as recommended by Ecoinvent for "CH4, NH3" for agriculture.
Math_Rel_for_b2631209_8374_431e_b7d5_56c96c6b6d79 soil_eroded * 0.00095 * 1.86 * 0.2 * T_t*1E-04 1.63214256E-5 1.3089337058463716E-5 2.0351598589485876E-5 LOG_NORMAL 1.2469253047041353 % Variance of log-transformed data as recommended by Ecoinvent for "NO3, PO4" for agriculture.
N2O 44/28*(0.01*((N_total+ Ncrop_residues)*T_t*1E-04)+ 0.01*14/17*NH3 + 0.0075*14/62*NO3) 3.62914592857143E-4 2.32388314863497E-4 5.667539772213997E-4 LOG_NORMAL 1.561673154996266 % Variance of log-transformed data as recommended by Ecoinvent for "NOX, N2O" for agriculture.
Math_Rel_for_77357947_ccc5_438e_9996_95e65e1e1bce N2O*0.21 7.62120645E-5 6.260196210860759E-5 9.27810979035358E-5 LOG_NORMAL 1.2174069619060879 % Variance of log-transformed data as recommended by Ecoinvent for "NOX, N2O" for agriculture.
NO3 62/14*((21.37 + precipitation/(Clay_content*root_depth) * (0.0037*N_total + 0.0000601*Norg_soil - 0.00362*Nuptake_plant)) * T_t * 1E-04) 0.0203322504761905 0.016305908942167824 0.02535279762034464 LOG_NORMAL 1.2469253047041353 % Variance of log-transformed data as recommended by Ecoinvent for "NO3, PO4" for agriculture.
Math_Rel_for_cc6a1abb_b123_4ca6_8f16_38209df609be 44/12 * (REF_PRODUCT_C_content_non_fossil * REF_PRODUCT * REF_PRODUCT_DM - maize_seed_sowing_C_content_non_fossil * SEED * maize_seed_sowing_DM) 1.47508786172 1.4228501993165543 1.5292433460942247 LOG_NORMAL 1.036713395709919 % Variance of log-transformed data as recommended by Ecoinvent for "Primary energy carriers, metals, salts" for agriculture.
Math_Rel_for_db4566b1_bd88_427d_92da_2d25879063b9 water_dilution*1E-03 1.84E-4 1.4673989351719535E-4 2.3072117055906592E-4 LOG_NORMAL 1.2539194052123148 %
Math_Rel_for_075e433b_4be4_448e_9510_9a5029c1ce94 water_drying*1E-03 4.8780487804878E-5 3.890241079459046E-5 6.11668002542592E-5 LOG_NORMAL 1.2539194052123148 %
Nuptake_plant 196.0 153.23060160340003 250.707101571202 LOG_NORMAL 1.279117865159194 % This value represents the N taken by plant during its growth (kg N/ha). Used in the SQCB-NO3 model for the calculation of leaching of NO3. From Nemececk & Schnetzer (2011),
Norg_soil 9000.0 7217.753915207839 11222.327742337218 LOG_NORMAL 1.2469253047041353 % Norg is the mass of organic nitrogen contained in the upper 50 cm of soil per ha (kg N/ha). Used in the SQCB-NO3 model for the calculation of leaching of NO3. From May et al. (2016).
N_total 64.0 62.32892291127024 65.71587970212407 LOG_NORMAL 1.0268106203456886 % This value represents the total nitrogen in mineral fertilisers (kg N/ha). From May et al. (2016).
occupation_time 120/365 0.328767123287671 % Liming is proportional to the occupation time of maize production in cropping system (4 months).
Ncrop_residues 30.0 24.169597792721543 37.23686292665685 LOG_NORMAL 1.2412287642218949 % This value represents the nitrogen contained in the crop residues (kg N/ha). Used for the calculation of emissions of N2O to the air. From Coelho (2007).
root_depth 0.46 0.3670933612499112 0.5764201217900701 LOG_NORMAL 1.253087221282761 % This value represents the rooting depth of the crop (m). Used in the SQCB-NO3 model for the calculation of leaching of NO3. From Bordin et al. (2008).
soil_eroded 251.0 203.16718144287339 310.09437426149776 LOG_NORMAL 1.2354357540298715 % This value represents the quantity of soil eroded (kg/(ha*yr)). Used for the calculation of P emissions through water erosion to surface water. From Zolin et al. (2016).
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.
precipitation 1450.0 1398.6507804378 1503.2344237793827 LOG_NORMAL 1.036713395709919 % This value represents the average annual precipitation in Parana, Brazil. Used in the SQCB-NO3 model for the calculation of leaching of NO3.
Clay_content 60.0 48.118359434718926 74.81551828224812 LOG_NORMAL 1.2469253047041353 % This value represents the fraction of clay content into soil (%). Used in the SQCB-NO3 model for the calculation of leaching of NO3. From May et al. (2016).
harvest_wc 0.18 0.17530009568794755 0.18482591166222395 LOG_NORMAL 1.0268106203456886 % Crop water content at harvest (% fresh basis). From May et al. (2016).
L_total 2000/3*occupation_time 219.178082191781 213.4552154495558 225.05438254152097 LOG_NORMAL 1.0268106203456886 % Amount for typical system from May et al. (2016) alocated between soybean and maize in cropping system where maize occupies the ground for four months and limestone is applied each three years.
T_t 1.84 1.6825707842372795 2.012159031713317 LOG_NORMAL 1.0935646911485417 % Variance of log-transformed data as recommended by Ecoinvent for "Land use, transformation" for agriculture.
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 37 %
Annual supply or production volume Annual Production of maize grain is 15777409000 kg
Sampling procedure The main source of data for agricultural inputs and operations are projects conducted by Embrapa Milho e Sorgo (CNPMS) and Embrapa Soja (CNPSO). Data are also provided by relevant experts related to agricultural sector of maize in Parana state (BR). Emissions from the agricultural process are estimated according to Nemecek and Schnetzer (2011) and Canals (2003). The system of maize grain production analyzed corresponds to the west region of ParanĂ¡ state that represents 37% of the total production in BR-PR, according to grains survey IBGE/SIDRA (2016) (https://sidra.ibge.gov.br/home/ipca15/brasil).
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
Reviewer name and institution
Review details
Date of last review: 2017-10-03; Major version: 3.0; Minor version: 0.163
Subsequent review comments
Validation warnings: - Mass and/or economic deficit in activity dataset exceeds either 0.1% of input or output sum: Property 'water in wet mass': - Input='0,184399904387281', Output='0,224' - Input < output by 0,0396000956127186 kg (17,68% of output) Property 'carbon content, fossil': - Input='0,00747616820550891', Output='0,0103704771672647' - Input < output by 0,00289430896175583 kg (27,91% of output) Property 'wet mass': - Input='17,6441281648966', Output='1,14532087745267' - Input > output by 16,4988072874439 kg (1440,54% of output) Property 'dry mass': - Input='17,4597282605093', Output='0,921320877452674' - Input > output by 16,5384073830566 kg (1795,08% of output) - 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. - Specified amount (1,84) did not match amount calculated by uncertainty (1,6) at exchange 'Transformation, from annual crop, non-irrigated, intensive' - Due to the use of the reference product property(s) 'wet mass', 'dry mass', 'carbon content, non-fossil', 'water in wet 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 (0,184399904387281) and output exchanges (0,224) 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. - limestone and gypsum application, by spreader - planting with starter fertiliser, by no till planter - 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): Copper, ion, Zinc, Zinc, ion, Copper -- Property(ies): water in wet mass=0, carbon content, 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, carbon content, non-fossil=0, water content=0, wet mass=1, dry mass=1, water content=0, carbon content, non-fossil=0, carbon content, fossil=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, fossil=0, carbon content, non-fossil=0, water content=0, water in wet mass=0, wet mass=1, dry 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, non-fossil=0, carbon content, fossil=0, water content=0, wet mass=1, dry 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 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, 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, 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 in wet mass=0, water content=0, wet mass=1, dry mass=1, water in wet mass=0, water content=0, carbon content, fossil=0,213119671335434, carbon content, non-fossil=0, dry mass=1, wet mass=1, 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, fossil=0, water content=0, carbon content, non-fossil=0, dry mass=1, wet 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, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0,42281732714395, 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, non-fossil=0, water content=0, water in wet mass=0, carbon content, fossil=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0,445500384912184, water content=0, wet mass=1, dry mass=1, carbon content, fossil=0,441218299165522, carbon content, non-fossil=0, water in wet mass=0, water content=0, wet mass=1, dry mass=1, carbon content, fossil=0,438987028507732, 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=1000, carbon content, non-fossil=0, carbon content, fossil=0, dry mass=0, wet mass=1000, water content=0, carbon content, non-fossil=0, carbon content, fossil=0,588230757365568, 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, 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 content=0, water in wet mass=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, dry mass=0, wet mass=0, carbon content, non-fossil=0, water in wet mass=0, water content=0, carbon content, fossil=0,272916486782489, wet mass=1, dry mass=1 -- Parameter(s): fraction - 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): Copper, ion, Zinc, Zinc, ion, Copper -- Property(ies): water in wet mass=0, carbon content, 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, carbon content, non-fossil=0, water content=0, wet mass=1, dry mass=1, water content=0, carbon content, non-fossil=0, carbon content, fossil=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, fossil=0, carbon content, non-fossil=0, water content=0, water in wet mass=0, wet mass=1, dry 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, non-fossil=0, carbon content, fossil=0, water content=0, wet mass=1, dry 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 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, 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, 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 in wet mass=0, water content=0, wet mass=1, dry mass=1, water in wet mass=0, water content=0, carbon content, fossil=0,213119671335434, carbon content, non-fossil=0, dry mass=1, wet mass=1, 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, fossil=0, water content=0, carbon content, non-fossil=0, dry mass=1, wet 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, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0,42281732714395, 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, non-fossil=0, water content=0, water in wet mass=0, carbon content, fossil=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0,445500384912184, water content=0, wet mass=1, dry mass=1, carbon content, fossil=0,441218299165522, carbon content, non-fossil=0, water in wet mass=0, water content=0, wet mass=1, dry mass=1, carbon content, fossil=0,438987028507732, 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=1000, carbon content, non-fossil=0, carbon content, fossil=0, dry mass=0, wet mass=1000, water content=0, carbon content, non-fossil=0, carbon content, fossil=0,588230757365568, 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, 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 content=0, water in wet mass=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, dry mass=0, wet mass=0, carbon content, non-fossil=0, water in wet mass=0, water content=0, carbon content, fossil=0,272916486782489, wet mass=1, dry mass=1 -- Parameter(s): fraction - The input exchange 'limestone and gypsum application, by spreader' 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 'drying of maize grain' has an activity link and therefore requires a valid product exchange for that input to be available. If the valid product exchange is not available the dataset will be put on hold at the end of its review and will remain on hold until such a valid product exchange has been accepted into the ecoinvent database. - The input exchange 'planting with starter fertiliser, by no till planter' has an activity link and therefore requires a valid product exchange for that input to be available. If the valid product exchange is not available the dataset will be put on hold at the end of its review and will remain on hold until such a valid product exchange has been accepted into the ecoinvent database.
Reviewer name and institution
Review details
Date of last review: 2018-07-12; Major version: 3.3; Minor version: 0.7
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='17,5257658605093', Output='0,921320877452674' - Input > output by 16,6044449830566 kg (1802,24% of output) Property 'water in wet mass': - Input='0,184399904387281', Output='0,372780487804878' - Input < output by 0,188380583417597 kg (50,53% of output) Property 'wet mass': - Input='17,7101657648966', Output='1,29410136525755' - Input > output by 16,416064399639 kg (1268,53% of output) Property 'carbon content, fossil': - Input='0,0669957713224118', Output='0,0103704771672647' - Input > output by 0,056625294155147 kg (546,02% of output) - 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. - Specified amount (0,0369723382648402) did not match amount calculated by uncertainty (0,0694486173515982) at exchange 'Carbon dioxide, fossil' - Due to the use of the reference product property(s) 'water in wet mass', 'wet mass', '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 (0,184399904387281) and output exchanges (0,372780487804878) 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, annual crop, Copper, ion, Zinc, ion, Zinc, Copper -- Property(ies): dry mass=1, water content=0, water in wet mass=0, wet mass=1, carbon content, non-fossil=0, carbon content, fossil=0,441218299165522, carbon content, non-fossil=0, carbon content, fossil=0, wet mass=1000, dry mass=0, water in wet mass=1000, dry mass=0, wet mass=1000, carbon content, fossil=0, water in wet mass=1000, carbon content, non-fossil=0, dry mass=1, water content=0, carbon content, non-fossil=0, wet mass=1, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0, water in wet mass=0, wet mass=1, dry mass=1, water content=0, carbon content, fossil=0,624306825675794, dry mass=1, water in wet mass=0, water content=0, wet mass=1, carbon content, non-fossil=0, carbon content, fossil=0,438987028507732, carbon content, fossil=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, water in wet mass=0, water content=0, water content=0, dry mass=1, carbon content, non-fossil=0, wet mass=1, water in wet mass=0, carbon content, fossil=0,445500384912184, dry mass=1, carbon content, fossil=0, wet mass=1, 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 content=0, carbon content, fossil=0,446770017785933, water in wet mass=0, carbon content, fossil=0,42281732714395, water content=0, carbon content, non-fossil=0, wet mass=1, water in wet mass=0, dry mass=1, water in wet mass=0, wet mass=1, dry mass=1, carbon content, fossil=0,213119671335434, water content=0, carbon content, non-fossil=0, water content=0, wet mass=1, carbon content, fossil=0, water in wet mass=0, dry mass=1, carbon content, non-fossil=0, carbon content, non-fossil=0, water content=0, wet mass=1, water in wet mass=0, dry mass=1, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0,272916486782489, carbon content, fossil=0, wet mass=1, water content=0, dry mass=1, water content=0, dry mass=1, carbon content, fossil=0, carbon content, non-fossil=0, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, water content=0, carbon content, fossil=0, water in wet mass=0, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, water content=0, wet mass=1, carbon content, fossil=0, water content=0, carbon content, non-fossil=0, carbon content, fossil=0, dry mass=1, water in wet mass=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, wet mass=1, water in wet mass=0, water content=0, carbon content, fossil=0, water content=0, water in wet mass=0, dry mass=1, carbon content, fossil=0, wet mass=1, carbon content, non-fossil=0, carbon content, non-fossil=0, water content=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, fossil=0, wet 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, carbon content, fossil=0, wet mass=1, water in wet mass=0, dry mass=1, water content=0, wet mass=1, water in wet mass=0, water content=0, carbon content, fossil=0, dry mass=1, carbon content, non-fossil=0, dry mass=1, carbon content, non-fossil=0, wet mass=1, water in wet mass=0, water content=0, carbon content, fossil=0,272916486782489, 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=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, water content=0, carbon content, fossil=0,588230757365568, water in wet mass=0, water in wet mass=0, wet mass=1, water content=0, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, water content=0, wet mass=1, dry mass=1 -- Parameter(s): LUC_crop_specific, occupation time - 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, annual crop, Copper, ion, Zinc, ion, Zinc, Copper -- Property(ies): dry mass=1, water content=0, water in wet mass=0, wet mass=1, carbon content, non-fossil=0, carbon content, fossil=0,441218299165522, carbon content, non-fossil=0, carbon content, fossil=0, wet mass=1000, dry mass=0, water in wet mass=1000, dry mass=0, wet mass=1000, carbon content, fossil=0, water in wet mass=1000, carbon content, non-fossil=0, dry mass=1, water content=0, carbon content, non-fossil=0, wet mass=1, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0, water in wet mass=0, wet mass=1, dry mass=1, water content=0, carbon content, fossil=0,624306825675794, dry mass=1, water in wet mass=0, water content=0, wet mass=1, carbon content, non-fossil=0, carbon content, fossil=0,438987028507732, carbon content, fossil=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, water in wet mass=0, water content=0, water content=0, dry mass=1, carbon content, non-fossil=0, wet mass=1, water in wet mass=0, carbon content, fossil=0,445500384912184, dry mass=1, carbon content, fossil=0, wet mass=1, 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 content=0, carbon content, fossil=0,446770017785933, water in wet mass=0, carbon content, fossil=0,42281732714395, water content=0, carbon content, non-fossil=0, wet mass=1, water in wet mass=0, dry mass=1, water in wet mass=0, wet mass=1, dry mass=1, carbon content, fossil=0,213119671335434, water content=0, carbon content, non-fossil=0, water content=0, wet mass=1, carbon content, fossil=0, water in wet mass=0, dry mass=1, carbon content, non-fossil=0, carbon content, non-fossil=0, water content=0, wet mass=1, water in wet mass=0, dry mass=1, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0,272916486782489, carbon content, fossil=0, wet mass=1, water content=0, dry mass=1, water content=0, dry mass=1, carbon content, fossil=0, carbon content, non-fossil=0, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, water content=0, carbon content, fossil=0, water in wet mass=0, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, water content=0, wet mass=1, carbon content, fossil=0, water content=0, carbon content, non-fossil=0, carbon content, fossil=0, dry mass=1, water in wet mass=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, wet mass=1, water in wet mass=0, water content=0, carbon content, fossil=0, water content=0, water in wet mass=0, dry mass=1, carbon content, fossil=0, wet mass=1, carbon content, non-fossil=0, carbon content, non-fossil=0, water content=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, fossil=0, wet 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, carbon content, fossil=0, wet mass=1, water in wet mass=0, dry mass=1, water content=0, wet mass=1, water in wet mass=0, water content=0, carbon content, fossil=0, dry mass=1, carbon content, non-fossil=0, dry mass=1, carbon content, non-fossil=0, wet mass=1, water in wet mass=0, water content=0, carbon content, fossil=0,272916486782489, 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=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, water content=0, carbon content, fossil=0,588230757365568, water in wet mass=0, water in wet mass=0, wet mass=1, water content=0, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, water content=0, wet mass=1, dry mass=1 -- Parameter(s): LUC_crop_specific, occupation time
Reviewer name and institution
Reviewer name and institution
Review details
Date of last review: 2017-05-31; Major version: 3.0; Minor version: 0.163
Subsequent review comments
Both documentation and modelling of the exchanges are well done.
Reviewer name and institution
Reviewer name and institution
Review details
Date of last review: 2018-04-15; Major version: 3.2; 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='17,5257658605093', Output='0,921320877452674' - Input > output by 16,6044449830566 kg (1802,24% of output) Property 'carbon content, fossil': - Input='0,0669957713224118', Output='0,0103704771672647' - Input > output by 0,056625294155147 kg (546,02% of output) Property 'wet mass': - Input='17,7101657648966', Output='1,29410136525755' - Input > output by 16,416064399639 kg (1268,53% of output) Property 'water in wet mass': - Input='0,184399904387281', Output='0,372780487804878' - Input < output by 0,188380583417597 kg (50,53% of output) - 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. - Specified amount (1,84) did not match amount calculated by uncertainty (1,6) at exchange 'Transformation, from annual crop, non-irrigated, intensive' - Due to the use of the reference product property(s) 'wet mass', 'water in wet mass', '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 (0,184399904387281) and output exchanges (0,372780487804878) 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, annual crop, Copper, Zinc, Zinc, ion, Copper, ion -- Property(ies): dry mass=1, water content=0, carbon content, fossil=0, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, water content=0, carbon content, fossil=0,588230757365568, carbon content, non-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, carbon content, non-fossil=0, water content=0, dry mass=0, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0, wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, dry mass=1, water content=0, water in wet mass=0, wet mass=1, dry mass=1, carbon content, fossil=0,272916486782489, water content=0, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, carbon content, non-fossil=0, dry mass=1, water content=0, water in wet mass=0, wet mass=1, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, water content=0, carbon content, fossil=0, dry mass=1, wet mass=1, water in wet mass=0, wet mass=1, carbon content, non-fossil=0, water content=0, carbon content, fossil=0, dry mass=1, water content=0, carbon content, fossil=0, wet mass=1, carbon content, non-fossil=0, dry mass=1, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, water in wet mass=0, carbon content, fossil=0, dry mass=1, water content=0, carbon content, fossil=0, water content=0, water in wet mass=0, dry mass=1, carbon content, non-fossil=0, wet mass=1, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, water content=0, carbon content, fossil=0, wet mass=1, carbon content, non-fossil=0, water content=0, carbon content, fossil=0, water in wet mass=0, dry mass=1, wet mass=1, wet mass=1, carbon content, non-fossil=0, water in wet mass=0, water content=0, dry mass=1, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0, water content=0, dry mass=1, carbon content, fossil=0, wet mass=1, 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, carbon content, fossil=0, water content=0, wet mass=1, dry 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=0,213119671335434, water content=0, carbon content, fossil=0,42281732714395, water in wet mass=0, wet mass=1, carbon content, non-fossil=0, dry mass=1, water content=0, water content=0, carbon content, non-fossil=0, dry mass=1, wet 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=0,446770017785933, dry mass=1, wet mass=1, water in wet mass=0, wet mass=1, dry mass=1, carbon content, fossil=0, water content=0, carbon content, non-fossil=0, carbon content, non-fossil=0, water content=0, dry mass=1, water in wet mass=0, wet mass=1, carbon content, fossil=0,445500384912184, water content=0, water in wet mass=0, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0, wet mass=1, carbon content, fossil=0,624306825675794, dry mass=1, wet mass=1, water content=0, water in wet mass=0, carbon content, non-fossil=0, water content=0, water in wet mass=0, carbon content, fossil=0, wet mass=1, carbon content, non-fossil=0, dry mass=1, water in wet mass=0, wet mass=1, water content=0, carbon content, non-fossil=0, dry mass=1, carbon content, fossil=0,438987028507732, carbon content, non-fossil=0, dry mass=0, water in wet mass=1000, carbon content, fossil=0, wet mass=1000, wet mass=1000, dry mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=1000, water content=0, carbon content, non-fossil=0, carbon content, fossil=0,441218299165522, dry mass=1, water in wet mass=0, wet mass=1 -- Parameter(s): occupation time, 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, annual crop, Copper, Zinc, Zinc, ion, Copper, ion -- Property(ies): dry mass=1, water content=0, carbon content, fossil=0, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, water content=0, carbon content, fossil=0,588230757365568, carbon content, non-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, carbon content, non-fossil=0, water content=0, dry mass=0, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0, wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, dry mass=1, water content=0, water in wet mass=0, wet mass=1, dry mass=1, carbon content, fossil=0,272916486782489, water content=0, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, carbon content, non-fossil=0, dry mass=1, water content=0, water in wet mass=0, wet mass=1, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, water content=0, carbon content, fossil=0, dry mass=1, wet mass=1, water in wet mass=0, wet mass=1, carbon content, non-fossil=0, water content=0, carbon content, fossil=0, dry mass=1, water content=0, carbon content, fossil=0, wet mass=1, carbon content, non-fossil=0, dry mass=1, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, water in wet mass=0, carbon content, fossil=0, dry mass=1, water content=0, carbon content, fossil=0, water content=0, water in wet mass=0, dry mass=1, carbon content, non-fossil=0, wet mass=1, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, water content=0, carbon content, fossil=0, wet mass=1, carbon content, non-fossil=0, water content=0, carbon content, fossil=0, water in wet mass=0, dry mass=1, wet mass=1, wet mass=1, carbon content, non-fossil=0, water in wet mass=0, water content=0, dry mass=1, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0, water content=0, dry mass=1, carbon content, fossil=0, wet mass=1, 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, carbon content, fossil=0, water content=0, wet mass=1, dry 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=0,213119671335434, water content=0, carbon content, fossil=0,42281732714395, water in wet mass=0, wet mass=1, carbon content, non-fossil=0, dry mass=1, water content=0, water content=0, carbon content, non-fossil=0, dry mass=1, wet 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=0,446770017785933, dry mass=1, wet mass=1, water in wet mass=0, wet mass=1, dry mass=1, carbon content, fossil=0, water content=0, carbon content, non-fossil=0, carbon content, non-fossil=0, water content=0, dry mass=1, water in wet mass=0, wet mass=1, carbon content, fossil=0,445500384912184, water content=0, water in wet mass=0, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0, wet mass=1, carbon content, fossil=0,624306825675794, dry mass=1, wet mass=1, water content=0, water in wet mass=0, carbon content, non-fossil=0, water content=0, water in wet mass=0, carbon content, fossil=0, wet mass=1, carbon content, non-fossil=0, dry mass=1, water in wet mass=0, wet mass=1, water content=0, carbon content, non-fossil=0, dry mass=1, carbon content, fossil=0,438987028507732, carbon content, non-fossil=0, dry mass=0, water in wet mass=1000, carbon content, fossil=0, wet mass=1000, wet mass=1000, dry mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=1000, water content=0, carbon content, non-fossil=0, carbon content, fossil=0,441218299165522, dry mass=1, water in wet mass=0, wet mass=1 -- Parameter(s): occupation time, LUC_crop_specific
Reviewer name and institution
Review details
Date of last review: 2018-04-04; Major version: 3.1; Minor version: 0.3
Subsequent review comments
Validation warnings: - Mass and/or economic deficit in activity dataset exceeds either 0.1% of input or output sum: Property 'water in wet mass': - Input='0,184399904387281', Output='0,372780487804878' - Input < output by 0,188380583417597 kg (50,53% of output) Property 'wet mass': - Input='17,7101657648966', Output='1,29410136525755' - Input > output by 16,416064399639 kg (1268,53% of output) Property 'carbon content, fossil': - Input='0,0669957713224118', Output='0,0103704771672647' - Input > output by 0,056625294155147 kg (546,02% of output) Property 'dry mass': - Input='17,5257658605093', Output='0,921320877452674' - Input > output by 16,6044449830566 kg (1802,24% of output) - 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. - Specified amount (0,0369723382648402) did not match amount calculated by uncertainty (0,0694486173515982) at exchange 'Carbon dioxide, fossil' - Due to the use of the reference product property(s) 'water in wet mass', 'carbon content, non-fossil', 'dry mass', 'wet 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 (0,184399904387281) and output exchanges (0,372780487804878) 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): Copper, ion, Zinc, ion, Copper, Zinc -- Property(ies): water in wet mass=0, wet mass=1, water content=0, carbon content, fossil=0,624306825675794, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, water content=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, carbon content, fossil=0,438987028507732, carbon content, fossil=0, water in wet mass=0, wet mass=1, water content=0, carbon content, non-fossil=0, dry mass=1, carbon content, fossil=0,445500384912184, water in wet mass=0, wet mass=1, dry mass=1, water content=0, carbon content, non-fossil=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0, wet mass=1, dry mass=1, water in wet mass=0, water content=0, water in wet mass=0, carbon content, fossil=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0,446770017785933, water in wet mass=0, water content=0, dry mass=1, carbon content, non-fossil=0, wet mass=1, carbon content, fossil=0,42281732714395, dry mass=1, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, water content=0, carbon content, fossil=0, wet mass=1, water in wet mass=0, water content=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, dry mass=1, carbon content, fossil=0, carbon content, non-fossil=0,272916486782489, water content=0, water in wet mass=0, dry mass=1, water in wet mass=0, water content=0, carbon content, fossil=0,213119671335434, carbon content, non-fossil=0, wet mass=1, water in wet mass=0, wet mass=1, carbon content, non-fossil=0, dry mass=1, water content=0, carbon content, fossil=0, wet mass=1, water in wet mass=0, carbon content, fossil=0, water content=0, dry 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, carbon content, non-fossil=0, dry mass=1, water content=0, carbon content, non-fossil=0, wet mass=1, water in wet mass=0, carbon content, fossil=0, carbon content, fossil=0, wet mass=1, water content=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, wet mass=1, water content=0, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, water in wet mass=0, dry mass=1, wet mass=1, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, carbon content, non-fossil=0, dry mass=1, water content=0, water in wet mass=0, carbon content, fossil=0, wet mass=1, 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, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, dry mass=1, water content=0, dry mass=1, water content=0, wet mass=1, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, carbon content, fossil=0,272916486782489, carbon content, non-fossil=0, dry mass=1, water content=0, water in wet mass=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, wet mass=1, dry mass=1, water content=0, water in wet mass=0, wet mass=1, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, dry mass=1, wet mass=0, dry mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, water in wet mass=0, carbon content, fossil=0,588230757365568, wet mass=1, carbon content, non-fossil=0, water content=0, water content=0, carbon content, fossil=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, wet mass=1000, water in wet mass=1000, carbon content, fossil=0, dry mass=0, carbon content, non-fossil=0, wet mass=1, carbon content, non-fossil=0, water content=0, dry mass=1, carbon content, fossil=0,441218299165522, water in wet mass=0, carbon content, non-fossil=0, carbon content, fossil=0, water in wet mass=1000, wet mass=1000, dry mass=0 -- Parameter(s): occupation time - 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): Copper, ion, Zinc, ion, Copper, Zinc -- Property(ies): water in wet mass=0, wet mass=1, water content=0, carbon content, fossil=0,624306825675794, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, water content=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, carbon content, fossil=0,438987028507732, carbon content, fossil=0, water in wet mass=0, wet mass=1, water content=0, carbon content, non-fossil=0, dry mass=1, carbon content, fossil=0,445500384912184, water in wet mass=0, wet mass=1, dry mass=1, water content=0, carbon content, non-fossil=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0, wet mass=1, dry mass=1, water in wet mass=0, water content=0, water in wet mass=0, carbon content, fossil=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0,446770017785933, water in wet mass=0, water content=0, dry mass=1, carbon content, non-fossil=0, wet mass=1, carbon content, fossil=0,42281732714395, dry mass=1, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, water content=0, carbon content, fossil=0, wet mass=1, water in wet mass=0, water content=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, dry mass=1, carbon content, fossil=0, carbon content, non-fossil=0,272916486782489, water content=0, water in wet mass=0, dry mass=1, water in wet mass=0, water content=0, carbon content, fossil=0,213119671335434, carbon content, non-fossil=0, wet mass=1, water in wet mass=0, wet mass=1, carbon content, non-fossil=0, dry mass=1, water content=0, carbon content, fossil=0, wet mass=1, water in wet mass=0, carbon content, fossil=0, water content=0, dry 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, carbon content, non-fossil=0, dry mass=1, water content=0, carbon content, non-fossil=0, wet mass=1, water in wet mass=0, carbon content, fossil=0, carbon content, fossil=0, wet mass=1, water content=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, wet mass=1, water content=0, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, water in wet mass=0, dry mass=1, wet mass=1, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, carbon content, non-fossil=0, dry mass=1, water content=0, water in wet mass=0, carbon content, fossil=0, wet mass=1, 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, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, dry mass=1, water content=0, dry mass=1, water content=0, wet mass=1, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, carbon content, fossil=0,272916486782489, carbon content, non-fossil=0, dry mass=1, water content=0, water in wet mass=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, wet mass=1, dry mass=1, water content=0, water in wet mass=0, wet mass=1, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, dry mass=1, wet mass=0, dry mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, water in wet mass=0, carbon content, fossil=0,588230757365568, wet mass=1, carbon content, non-fossil=0, water content=0, water content=0, carbon content, fossil=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, wet mass=1000, water in wet mass=1000, carbon content, fossil=0, dry mass=0, carbon content, non-fossil=0, wet mass=1, carbon content, non-fossil=0, water content=0, dry mass=1, carbon content, fossil=0,441218299165522, water in wet mass=0, carbon content, non-fossil=0, carbon content, fossil=0, water in wet mass=1000, wet mass=1000, dry mass=0 -- Parameter(s): occupation time
Reviewer name and institution
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 c0ef9630-e732-440b-9ca6-f55959762e21
Date of last revision 2020-08-26T16:34:19
Data set version 03.01.000
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
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 Math_Rel_for_7225e2a6_7fd6_40e2_b341_f097b027d119 1.0 m29.200000000000001 m2 3.7564135317218917E-6 0.2253213052429883
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,1,1,1)
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 Math_Rel_for_cf52c0fe_72b3_4f42_a475_16a5b2a6f850 1.0 m21.84 m2 7.512827063443782E-7 0.04506426104859766
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,1,1,1)
Product flow
water_drying 1.0 m34.8780487804878004E-5 m3 0.044234669544093955 0.05379346144114144
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,1,1,1)
Product flow
Math_Rel_for_1d32b849_121f_4d23_853c_fa2bf55c42e9 1.0 m20.0 m2
General comment Calculated value. Land use change (LUC) from Novaes et al. (2017).
Product flow
water_dilution 1.0 kg0.184 kg 0.17748396110383116 0.1907552648106251
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (2,2,1,1,1)
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 Math_Rel_for_f054b1e6_24cd_4d22_a001_1271cfa17a83 1.0 m20.201643835616438 m2 1.1427549050782213E-5 3.558088988410501E-5
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,1,2,1)
Product flow
Math_Rel_for_75168394_3da2_467a_90a1_285836ccd00d 1.0 m21.84 m2 1.0427638508838787E-4 3.246756201924588E-4
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,1,2,1)
Product flow
C:Manufacturing / 22:Manufacture of rubber and plastics products / 222:Manufacture of plastics products / 2220:Manufacture of plastics products 0.00139 kg0.00139 kg 0.0011085241955918561 0.0017429479732451176
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 0.140929534246575 kg0.140929534246575 kg 0.11239122200418669 0.1767142777593139
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,5,4)
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 Math_Rel_for_f66846ab_83a7_41ec_8139_d879268bada0 1.0 m21.84 m2 1.0427638508838787E-4 3.246756201924588E-4
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,1,2,1)
Product flow
Math_Rel_for_a00b7e35_1bc7_4b73_9df8_05f3dd07ffdb 1.0 kg0.0403287671232877 kg 0.03890059421453836 0.041809373109178136
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (2,2,1,1,1)
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 0.00918 kg0.00918 kg 0.008854906320288968 0.009517028972617058
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (2,2,1,1,1)
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 2.9E-4 kg2.9E-4 kg 2.7973015608756E-4 3.0064688475587653E-4
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (2,2,1,1,1)
Product flow
SEED 1.0 kg0.00385 kg 0.0037136589687486415 0.003991346573483189
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (2,2,1,1,1)
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 0.00918 kg0.00918 kg 0.008854906320288968 0.009517028972617058
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (2,2,1,1,1)
Product flow
2.29E-4 kg2.29E-4 kg 2.2089036463465944E-4 2.3740736761757147E-4
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (2,2,1,1,1)
Product flow
1.76E-4 kg1.76E-4 kg 1.6976726714279503E-4 1.8246155764494574E-4
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (2,2,1,1,1)
Product flow
Math_Rel_for_ba4b7781_39f2_465b_8d98_0bc1c4c82e61 1.0 t*km6.845536E-4 t*km 3.949171694893288E-4 0.0011866124531352453
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,1,1,1)
Product flow
N_fert 1.0 kg0.0252453774836328 kg 0.024351356496503364 0.02617222101703569
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (2,2,1,1,1)
Elementary flow
Elementary flows / Land occupation / land Math_Rel_for_e97b784a_ec09_4b1b_9f14_cc0ce9799c9e 1.0 m21.84 m2 1.6825707842372795 2.012159031713317
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (1,1,1,1,1)
Elementary flow
Elementary flows / Land occupation / land Math_Rel_for_4b420f19_0421_461e_a0b6_7efbf580089b 1.0 m21.84 m2 1.6825707842372795 2.012159031713317
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (1,1,1,1,1)
Elementary flow
Elementary flows / Land occupation / land Math_Rel_for_e063ee9c_9850_42b5_b01e_4cc9b5ad7152 1.0 m2*a0.604931506849315 m2*a 0.5784741610755797 0.632598917294028
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (1,1,1,1,1)
Elementary flow
Elementary flows / Resources from air / in air Math_Rel_for_cc6a1abb_b123_4ca6_8f16_38209df609be 1.0 kg1.47508786172 kg 1.4228501993165543 1.5292433460942247
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (2,2,1,1,1)
Elementary flow
Resources / Resources from biosphere / Renewable energy resources from biosphere 15.91 MJ15.91 MJ 15.34657511501062 16.49411012574481
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (2,2,1,1,1)

Outputs

Type of flow Classification Flow Variable Mean amount Resulting amount Minimum amount Maximum amount
Product flow
A:Agriculture, forestry and fishing / 01:Crop and animal production, hunting and related service activities / 011:Growing of non-perennial crops / 0111:Growing of cereals (except rice), leguminous crops and oil seeds REF_PRODUCT 1.0 kg1.0 kg
General comment 1 Kg of maize grain produced used as reference. The corn cob, straw and biomass are left on the field.
Elementary flow
Elementary flows / Emissions to soil / agricultural -2.99E-5 kg-2.99E-5 kg
General comment Emissions of heavy metals to soil and surface water estimated from mineral fertilisers and liming as recommended by Canals (2003), metal content in maize from Anjos & Mattiazzo (2000). Nemecek & Schnetzer (2011) state that "some of the values for emissions of heavy metals to the soil are negative. This means that more heavy metals are exported than imported. It must, however, be borne in mind that these heavy metals are transferred either to the water bodies or to the products harvested from the field".
Elementary flow
Elementary flows / Emissions to soil / agricultural -6.33E-7 kg-6.33E-7 kg
General comment Emissions of heavy metals to soil and surface water estimated from mineral fertilisers and liming as recommended by Canals (2003), metal content in maize from Anjos & Mattiazzo (2000). Nemecek & Schnetzer (2011) state that "some of the values for emissions of heavy metals to the soil are negative. This means that more heavy metals are exported than imported. It must, however, be borne in mind that these heavy metals are transferred either to the water bodies or to the products harvested from the field".
Elementary flow
Elementary flows / Emissions to soil / agricultural 2.57E-5 kg2.57E-5 kg 2.0958204892795714E-5 3.1514626533069177E-5
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,1,1)
Elementary flow
Elementary flows / Emissions to air / non-urban air or from high stacks Math_Rel_for_aa7cac3a_3625_41d4_bc54_33e2cf11ec46 1.0 kg0.0369723382648402 kg 0.033573380668391765 0.04071540516790163
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,3,1)
Elementary flow
Elementary flows / Emissions to water / unspecified -2.99E-9 kg-2.99E-9 kg
General comment Emissions of heavy metals to soil and surface water estimated from mineral fertilisers and liming as recommended by Canals (2003), metal content in maize from Anjos & Mattiazzo (2000). Nemecek & Schnetzer (2011) state that "some of the values for emissions of heavy metals to the soil are negative. This means that more heavy metals are exported than imported. It must, however, be borne in mind that these heavy metals are transferred either to the water bodies or to the products harvested from the field".
Elementary flow
Elementary flows / Emissions to air / non-urban air or from high stacks NH3 1.0 kg0.00285988571428571 kg 0.002513190808273108 0.0032544072148646347
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,3,1)
Elementary flow
Elementary flows / Emissions to water / surface water Math_Rel_for_b2631209_8374_431e_b7d5_56c96c6b6d79 1.0 kg1.63214256E-5 kg 1.3089337058463716E-5 2.0351598589485876E-5
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,3,1)
Elementary flow
Elementary flows / Emissions to air / non-urban air or from high stacks N2O 1.0 kg3.62914592857143E-4 kg 2.32388314863497E-4 5.667539772213997E-4
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,5,3,5)
Elementary flow
Elementary flows / Emissions to air / non-urban air or from high stacks Math_Rel_for_77357947_ccc5_438e_9996_95e65e1e1bce 1.0 kg7.62120645E-5 kg 6.260196210860759E-5 9.27810979035358E-5
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,3,1)
Elementary flow
Elementary flows / Emissions to water / ground water NO3 1.0 kg0.0203322504761905 kg 0.016305908942167824 0.02535279762034464
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,3,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 2.04E-6 kg2.04E-6 kg 1.636395129970443E-6 2.5431510542781726E-6
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,1,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 4.55E-6 kg4.55E-6 kg 3.6498028634144686E-6 5.6722241651792576E-6
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,1,1)
Elementary flow
Elementary flows / Emissions to water / surface water 4.55E-10 kg4.55E-10 kg 3.3233113203412186E-10 6.22947957757818E-10
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,3,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 2.38E-6 kg2.38E-6 kg 1.9091276516321836E-6 2.967009563324535E-6
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,1,1)
Elementary flow
Elementary flows / Emissions to water / surface water 2.38E-10 kg2.38E-10 kg 1.7383474598707915E-10 3.258497009810125E-10
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,3,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 1.74E-7 kg1.74E-7 kg 1.3957487873277308E-7 2.1691582521784415E-7
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,1,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 1.76E-4 kg1.76E-4 kg 1.435270062697294E-4 2.1582001049883946E-4
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,1,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 1.1E-5 kg1.1E-5 kg 8.970437891858088E-6 1.3488750656177466E-5
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,1,1)
Elementary flow
Elementary flows / Emissions to water / surface water 1.74E-11 kg1.74E-11 kg 1.2708926807458726E-11 2.3822625197771503E-11
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,3,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 1.91E-4 kg1.91E-4 kg 1.5575942157680862E-4 2.3421376139362693E-4
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,1,1)
Elementary flow
Elementary flows / Emissions to water / surface water -6.33E-11 kg-6.33E-11 kg
General comment Emissions of heavy metals to soil and surface water estimated from mineral fertilisers and liming as recommended by Canals (2003), metal content in maize from Anjos & Mattiazzo (2000). Nemecek & Schnetzer (2011) state that "some of the values for emissions of heavy metals to the soil are negative. This means that more heavy metals are exported than imported. It must, however, be borne in mind that these heavy metals are transferred either to the water bodies or to the products harvested from the field".
Elementary flow
Elementary flows / Emissions to soil / agricultural 2.2E-6 kg2.2E-6 kg 1.7940875783716176E-6 2.6977501312354937E-6
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,1,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 5.14E-5 kg5.14E-5 kg 4.191640978559143E-5 6.302925306613835E-5
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,1,1)
Elementary flow
Elementary flows / Emissions to soil / agricultural 2.29E-4 kg2.29E-4 kg 1.867482070214093E-4 2.8081126366042184E-4
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,1,1)
Elementary flow
Elementary flows / Emissions to water / surface water 2.04E-10 kg2.04E-10 kg 1.4900121084606782E-10 2.792997436980107E-10
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,3,1)
Elementary flow
Elementary flows / Emissions to water / surface water Math_Rel_for_db4566b1_bd88_427d_92da_2d25879063b9 1.0 m31.84E-4 m3 1.4673989351719535E-4 2.3072117055906592E-4
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,5,4)
Elementary flow
Elementary flows / Emissions to air / unspecified Math_Rel_for_075e433b_4be4_448e_9510_9a5029c1ce94 1.0 m34.8780487804878E-5 m3 3.890241079459046E-5 6.11668002542592E-5
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,5,4)
Elementary flow
Elementary flows / Emissions to soil / agricultural 5.51E-6 kg5.51E-6 kg 4.493373889467097E-6 6.756637828685258E-6
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (4,3,1,1,1)