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Process Data set: beef cattle production on pasture and proteic supplement (en) en

Key Data Set Information
Location BR
Reference year 2006
Name
beef cattle production on pasture and proteic supplement
Technical purpose of product or process Pasture is not regularly fertilized but is replanted every 20 years. Mineral salt is served as supplement feed for all cattle in troughs on the field. Besides pasture and mineral salt, proteic suplement (maize, soybean meal, urea and salt) is served to fat steers during the second and third dry seasons and are sold for slaughter under 42 months. The dataset does not include pharmaceuticals, although typical production systems use them. Use of hormones for cattle raising is forbidden in Brazil.
Classification
Class name : Hierarchy level
  • ILCD: A.Agriculture, forestry and fishing / 01:Crop and animal production, hunting and related service activities / 014:Animal production / 0141:Raising of cattle and buffaloes
General comment on data set Type of process: ordinary transforming activity Parent relation Ecospold2: none Tags: Macroeconomic Scenario: Business-as-Usual ImageURL: https://db3.ecoinvent.org/images/66c4a7f3-296e-4876-9133-4a0dcfd89df5 This dataset represents the production of 1 kg of live weight of beef cattle, in Brazil, on planted pasture, at farm, for slaughtering. Discarded cattle (bulls and culled cows) are considered part of the product. Culled cows are replaced by some of the weaned heifers, all other weaned heifers are sold for fattening by other systems, and are considered by product. The dataset include operations for pasture maintenance and replanting. Fences are the only infrastructure included. Acquisition and use of grass seeds are not included (less then 3% of product mass). The production of young bulls for reproduction is not included for the same reason, but their emissions in the farm and their live weight as product are considered. Direct field emissions are included, with important regionalizations added. Farm manure as an organic fertiliser is only accounted for in terms of direct field emissions.
Copyright Yes
Data set LCA report, background info
Quantitative reference
Reference flow(s)
Time representativeness
Data set valid until 2016
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 Pasture is not regularly fertilized but is replanted every 20 years. Mineral salt is served as supplement feed for all cattle in troughs on the field. Besides pasture and mineral salt, proteic suplement (maize, soybean meal, urea and salt) is served to fat steers during the second and third dry seasons and are sold for slaughter under 42 months. The dataset does not include pharmaceuticals, although typical production systems use them. Use of hormones for cattle raising is forbidden in Brazil. Included activities start: This activity starts at the replanting of pasture. Included activities end: This activity ends with the provision of fat steers, culled cows and bulls at farm gate, ready to be sent to slaughterhouses as live weight.
Mathematical model
Variable / parameter Formula Mean value Minimum value Maximum value Uncertainty distribution type Relative StdDev in % General comment
poles 6.4049E-8 5.742968295257605E-8 7.143125627887504E-8 LOG_NORMAL 1.1152595087960004 %
WOOD_WWM 412.5 %
WOOD 5.553E-5 4.979110203682411E-5 6.193036052344191E-5 LOG_NORMAL 1.1152595087960004 %
BY_PRODUCT 0.14439 0.12946762512330331 0.1610323204750545 LOG_NORMAL 1.1152595087960004 %
Math_Rel_[product volume]_for_4a62806e_17d6_473e_95fc_394ac760261e REF_PRODUCT_VOLUME * BY_PRODUCT 1.21660816499712E8 % Calculated from production volume of reference product using the relative outputs.
BY_PRODUCT_C_content_non_fossil 0.4928 % biogene carbon content on a dry matter basis
BY_PRODUCT_WM 1.0 %
BY_PRODUCT_price_EUR2005 1.18 % Calculated price specifically and exclusively for Brazil. The price is calculated using yearly values from 2006 till 2015 in Brazil. Data from embrapa are used.
BY_PRODUCT_C_content_fossil 0.0 % fossil carbon content on a dry matter basis
BY_PRODUCT_WWM 0.4 % water content on a wet matter basis
BY_PRODUCT_DM BY_PRODUCT_WM - BY_PRODUCT_WWM 0.6 %
BY_PRODUCT_water_content BY_PRODUCT_WWM / BY_PRODUCT_DM 0.666666666666667 % water content on a dry matter basis
BY_PRODUCT_energy_content 14.937 % as gross calorific value (when relevant)
BY_PRODUCT_1 poles*1237.5 7.92606375E-5 %
BY_PRODUCT_1_VOLUME REF_PRODUCT_VOLUME * (BY_PRODUCT_1 / REF_PRODUCT) 66783.8068740058 % Calculated from production volume of reference product using the relative outputs.
BY_PRODUCT_1_price_EUR2005 0.0 % Waste products are assigned a price of zero as they are assumed to require further treatment.
BY_PRODUCT_3 wire 0.0011219 %
BY_PRODUCT_3_VOLUME REF_PRODUCT_VOLUME * ( BY_PRODUCT_3 / REF_PRODUCT) 945295.86557952 % Calculated from production volume of reference product using the relative outputs.
BY_PRODUCT_3_price_EUR2005 0.149 % Temporary price data. Calculated as 90% of purchasers price based on: estimated at 85% of sorted scrap
REF_PRODUCT 1.0 %
REF_PRODUCT_VOLUME 8358976000 * 5.60/100 * (1 - 10/100) / 0.5 8.425847808E8 % (BR beef production in 2015) * (% of system in BR in 2015) * (1 - % beef production from milk cattle in BR) / (carcass as live weight, BR average).
REF_PRODUCT_WWM 0.4 % Moisture content for generic cattle, empty body live weight, of 40% wet mass. Johnson, I.R. et al. (2012). J. Anim. Sci. 90(13):4741-475. Williams, C.B. (2005). J. Anim. Sci. 83(6):1262-1266.
REF_PRODUCT_C_content_fossil 0.0 %
REF_PRODUCT_water_content REF_PRODUCT_WWM / REF_PRODUCT_DM 0.666666666666667 %
REF_PRODUCT_C_content_non_fossil 0.4928 % Calculated from live weight empty body composition in fat and protein ( Johnson, I.R. et al. (2012). J. Anim. Sci. 90(13):4741-475 ; Williams, C.B. (2005). J. Anim. Sci. 83(6):1262-1266) and from C content of nutrients (protein, fat) according to A.D. Kay and T. Vrede ('Evolutionary and Biochemical Aspects', in Global Ecology, 2010, Elsevier B.V., S.E. Jørgensen Ed.).
REF_PRODUCT_price_EUR2005 1.25 % Calculated price specifically and exclusively for Brazil. The price is calculated using yearly values from 2006 till 2015 in Brazil. Data from embrapa are used.
REF_PRODUCT_WM 1.0 %
REF_PRODUCT_energy_content 14.9367 % Energy content calculated from animal fat and protein composition and energy content for animal fat and protein of 39.3 and 23.6 MJ/kg, respectively. Johnson, I.R. et al. (2012). J. Anim. Sci. 90(13):4741-475. Williams, C.B. (2005). J. Anim. Sci. 83(6):1262-1266.
REF_PRODUCT_DM REF_PRODUCT_WM - REF_PRODUCT_WWM 0.6 % Moisture content for generic cattle, empty body live weight, of 40% wet mass.
lime 0.93965 0.8425393306123137 1.0479535974401617 LOG_NORMAL 1.1152595087960004 %
MAIZE 0.0045194 0.004052330389793317 0.005040303824052644 LOG_NORMAL 1.1152595087960004 %
MAIZE_energy_content 15.927 % as gross calorific value (when relevant)
MAIZE_WWM 0.14 %
Math_Rel_for_85086b85_ef0a_55c6_be1f_66e45e7aeaaa 0.00100232*LUC_crop_specific+(0.00207777356977073*(1-LUC_crop_specific)) 10.0232 %
MEAL 0.0010609 9.512584215895319E-4 0.001183178812881677 LOG_NORMAL 1.1152595087960004 %
MEAL_WWM 0.11 %
MEAL_energy_content 19.7 % From https://www.feedipedia.org/node/674, as in 15/nov/2017
wire 0.0011219 0.0010059542116894107 0.0012512096429182328 LOG_NORMAL 1.1152595087960004 %
Math_Rel_for_9e0c9c28_7d8f_4f18_a769_bff3a4c8c1e5 (N_urea_feed + N_urea_fert)*2.14379903903132 0.00205238744800703 0.0018402779190134176 0.0022889446171233973 LOG_NORMAL 1.1152595087960004 %
T_t 125.29 111.64290442412351 140.60530027386235 LOG_NORMAL 1.1222388081559769 %
Math_Rel_for_2c126bcc_bb63_4d63_bd72_f02a1e616809 T_t*1/20 6.2645 5.451955419040258 7.198144011402858 LOG_NORMAL 1.1490372753456555 %
Math_Rel_for_7a16b680_6d9a_4db3_a23e_0ec64aca5995 T_t*1/20 6.2645 5.451955419040258 7.198144011402858 LOG_NORMAL 1.1490372753456555 %
Math_Rel_for_01c12fca_ad8b_4902_8b48_2d5afe3d3a0f REF_PRODUCT_energy_content + BY_PRODUCT_energy_content * BY_PRODUCT -MAIZE_energy_content * MAIZE - MEAL_energy_content * MEAL 17.0005732162 15.24360301985077 18.960050934349653 LOG_NORMAL 1.1152595087960004 %
NO3 T_t*10^-4 * 62/14 * (( 21.37 + precipitation / ( Clay_content * root_depth) * (0.0037 * Ntot + 0.0000601 * Norg_soil - 0.00362 * Nuptake_plant))) 0.624160595935899 0.5596550318676264 0.6961010396332896 LOG_NORMAL 1.1152595087960004 %
drinking_water 0.219252061 0.20290996622207824 0.2369103260316701 LOG_NORMAL 1.0805386501323246 %
Math_Rel_for_aa7cac3a_3625_41d4_bc54_33e2cf11ec46 44/12 * 0.13 * lime + 1.57 * N_fert 0.447899833333333 0.4016104142585359 0.49952454811314345 LOG_NORMAL 1.1152595087960004 %
Math_Rel_for_075e433b_4be4_448e_9510_9a5029c1ce94 drinking_water*fraction_PW_to_air 0.03288780915 0.029488929608414333 0.03667844187800561 LOG_NORMAL 1.1152595087960004 %
Math_Rel_for_db4566b1_bd88_427d_92da_2d25879063b9 drinking_water*fraction_PWtoW_to_surface_water 0.18636425185 0.1671039344476812 0.2078445039753651 LOG_NORMAL 1.1152595087960004 %
Math_Rel_for_77357947_ccc5_438e_9996_95e65e1e1bce N2O*0.21 0.00510385437227709 0.004165232095303212 0.006253992300401613 LOG_NORMAL 1.225346932775315 %
N2O N2O_feedlot + 44/28*((0.01*(N_fert + Ncrop_residues)+ 0.01*14/17*NH3 + 0.0075*14/62*NO3) + N_ex* EF_N2O) 0.0243040684394147 0.019834438549062906 0.02978091571619814 LOG_NORMAL 1.225346932775315 %
NH3 17/14 * (N_fert*0.20 + N_ex*0.6*0.06) 0.0309374742857143 0.026924691608814545 0.035548311159333434 LOG_NORMAL 1.1490372753456555 %
Math_Rel_for_b2631209_8374_431e_b7d5_56c96c6b6d79 T_t*10^-4 * soil_eroded * 0.00095 * 1.86 * 0.2 8.8554972E-4 7.060694273329474E-4 0.0011106532533978267 LOG_NORMAL 1.2541963802979088 %
precipitation 1201.3 945.5676156493263 1526.1961874709516 LOG_NORMAL 1.2704538312419476 % Average annual precipitation in the BR-CO geographic region. Used in the SQCB-NO3 model for the calculation of leaching of NO3.
N_urea_fert 0.0 % Urea as fertilizer for pasture planting and maintenance.
root_depth 0.2205 0.1735600260140485 0.28013506978884944 LOG_NORMAL 1.2704538312419476 % Plant rooting depth for pasture. Used in the SQCB-NO3 model for the calculation of leaching of NO3. From Cunha et al. (2010).
Ncrop_residues 0.0 % N contained in the crop residues. Used for the calculation of emissions of N2O to the air. Not considered for pastures because root is semiperennial.
Ntot (N_ex + N_urea_fert + N_fert) / (T_t * 10^-4) 56.4865512012132 44.461711092636946 71.76355538722575 LOG_NORMAL 1.2704538312419476 % Total nitrogen in mineral and organic fertilisers (kg N/ha)
Clay_content 53.06 41.76460308528532 67.41028028569774 LOG_NORMAL 1.2704538312419476 % Fraction of clay content into soil. Used in the SQCB-NO3 model for the calculation of leaching of NO3. From Folegatti et al. (2015).
N_urea_feed 9.5736E-4 8.584190427872129E-4 0.001067704843340939 LOG_NORMAL 1.1152595087960004 % Urea for cattle feed.
N2O_feedlot 0.0 % N2O from manure management in feedlot, direct and indirect emissions (IPCC 2006).
fraction_PW_to_air 0.15 %
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.
soil_eroded 200.0 157.42405987668798 254.0907662483895 LOG_NORMAL 1.2704538312419476 % Soil eroded. Used for the calculation of P emissions through water erosion to surface water. From Macedo et al. (2005).
EF_N2O 0.02 0.0157424059876688 0.02540907662483895 LOG_NORMAL 1.2704538312419476 % Emission factor of N2O from manure deposited in pasture. From IPCC (2006).
N_fert 0.0 % Nitrogen fertilizer (not urea) for fertilization.
fraction_PWtoW_to_surface_water 0.85 %
Norg_soil 5520.7 4345.455036806156 7013.7944661374195 LOG_NORMAL 1.2704538312419476 % Mass of organic N contained in the upper 50 cm of soil per ha. Used in the SQCB-NO3 model for the calculation of leaching of NO3. From Folegatti et al. (2015).
N_ex 0.70772 0.5570607782796481 0.8991255854465512 LOG_NORMAL 1.2704538312419476 % Manure deposited on pasture, as N, per year and kg of product.
Nuptake_plant 176.62 139.02118727710317 224.3875556739528 LOG_NORMAL 1.2704538312419476 % N taken by plant during its growth. Used in the SQCB-NO3 model for the calculation of leaching of NO3. From Bernardi (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 3 %
Annual supply or production volume Annual Production of weaned heifers, live weight is 121660816.499712 kg
Sampling procedure Inventory data for cattle systems obtained from Embrapa’s PECUS Project, literature and expert knowledge. Emissions from the agricultural process estimated according to Nemecek and Schnetzer (2011) and Canals (2003) and other references mentioned.
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: 2019-08-09; Major version: 3.4; 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='1,2568531803411', Output='2,47783290667064' - Input < output by 1,22097972632954 kg (49,28% of output) Property 'carbon content, fossil': - Input='0,113206349634401', Output='0,122239248943796' - Input < output by 0,00903289930939427 kg (7,39% of output) Property 'wet mass': - Input='220,485550363638', Output='222,187665758798' - Input < output by 1,7021153951606 kg (0,77% of output) Property 'water in wet mass': - Input='219,228697183296', Output='219,709832852128' - Input < output by 0,481135668831115 kg (0,22% of output) Property 'carbon content, non-fossil': - Input='0,00230026083303', Output='0,712380365403385' - Input < output by 0,710080104570355 kg (99,68% of output) Property 'price': - Input='0', Output='1,4205473631' - Input < output by 1,4205473631 EUR2005 (100% of output) - Amount of property 'water content=0,666666666666667' of exchange 'weaned heifers, live weight' deviates from the default amount in the master file. - Due to the use of the reference product property(s) 'energy content' 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 (219,228697183296) and output exchanges (219,709832852127) 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, pasture, man made, Phosphorus -- Property(ies): price=0, dry mass=0,8, water in wet mass=0,2, carbon content, non-fossil=0,483675937122128, carbon content, fossil=0, wet mass=1, water content=0,25, price=0,149, water in wet mass=0, carbon content, non-fossil=0, water content=0, dry mass=1, carbon content, fossil=0, wet mass=1, carbon content, non-fossil=0,4928, carbon content, fossil=0, wet mass=1, water in wet mass=0,4, dry mass=0,6, price=1,18, energy content=14,937, water content=0,666666666666667, dry mass=1, carbon content, fossil=0, wet mass=1, 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, dry mass=1, water content=0, carbon content, non-fossil=0, carbon content, fossil=0, dry mass=1, 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, wet mass=1, dry mass=1, water content=0, wet mass=1, dry mass=1, carbon content, fossil=0, water content=0, water in wet mass=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, carbon content, fossil=0, dry mass=1, water content=0, water content=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, wet mass=1, water content=0, carbon content, fossil=0, dry mass=1, wet mass=1, dry mass=1, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, water content=0, carbon content, fossil=0, water in wet mass=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0, wet mass=1, carbon content, non-fossil=0, dry mass=1, water content=0, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, dry mass=1, water content=0, water in wet mass=0, carbon content, fossil=0, carbon content, fossil=0, dry mass=1, carbon content, non-fossil=0, wet mass=1, water content=0, water in wet mass=0, carbon content, 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, water in wet mass=0, wet mass=1, 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, dry mass=1, carbon content, fossil=0, dry mass=1, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, carbon content, fossil=0, water content=0, dry mass=0, wet mass=1000, carbon content, fossil=0, water in wet mass=1000, carbon content, non-fossil=0, dry mass=0, wet mass=1000, water in wet mass=1000, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0,272916486782489, dry mass=1, water content=0, wet mass=1, carbon content, non-fossil=0, water in wet mass=0, water content=0, dry mass=1, carbon content, non-fossil=0,748686634968048, wet mass=1, carbon content, fossil=0, carbon content, fossil=0, water content=0, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, dry mass=1, wet mass=1000, water content=9081,65213442325, water in wet mass=999,8899, dry mass=0,1101, carbon content, fossil=0,0104328554239022, carbon content, non-fossil=0, carbon content, fossil=0, carbon content, non-fossil=0, dry mass=0, wet mass=0, water content=0, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, wet mass=0, water in wet mass=0, dry mass=0 -- Parameter(s): fraction, process water to water, to surface water, nitrogen fertilizer, as N, LUC_crop_specific, fraction, process water, to air, nitrogen in crop residues, dinitrogen monoxide from manure in feedlot, urea, as N, as fertilizer - 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, pasture, man made, Phosphorus -- Property(ies): price=0, dry mass=0,8, water in wet mass=0,2, carbon content, non-fossil=0,483675937122128, carbon content, fossil=0, wet mass=1, water content=0,25, price=0,149, water in wet mass=0, carbon content, non-fossil=0, water content=0, dry mass=1, carbon content, fossil=0, wet mass=1, carbon content, non-fossil=0,4928, carbon content, fossil=0, wet mass=1, water in wet mass=0,4, dry mass=0,6, price=1,18, energy content=14,937, water content=0,666666666666667, dry mass=1, carbon content, fossil=0, wet mass=1, 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, dry mass=1, water content=0, carbon content, non-fossil=0, carbon content, fossil=0, dry mass=1, 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, wet mass=1, dry mass=1, water content=0, wet mass=1, dry mass=1, carbon content, fossil=0, water content=0, water in wet mass=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, carbon content, fossil=0, dry mass=1, water content=0, water content=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, wet mass=1, water content=0, carbon content, fossil=0, dry mass=1, wet mass=1, dry mass=1, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, water content=0, carbon content, fossil=0, water in wet mass=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0, wet mass=1, carbon content, non-fossil=0, dry mass=1, water content=0, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, dry mass=1, water content=0, water in wet mass=0, carbon content, fossil=0, carbon content, fossil=0, dry mass=1, carbon content, non-fossil=0, wet mass=1, water content=0, water in wet mass=0, carbon content, 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, water in wet mass=0, wet mass=1, 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, dry mass=1, carbon content, fossil=0, dry mass=1, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, carbon content, fossil=0, water content=0, dry mass=0, wet mass=1000, carbon content, fossil=0, water in wet mass=1000, carbon content, non-fossil=0, dry mass=0, wet mass=1000, water in wet mass=1000, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0,272916486782489, dry mass=1, water content=0, wet mass=1, carbon content, non-fossil=0, water in wet mass=0, water content=0, dry mass=1, carbon content, non-fossil=0,748686634968048, wet mass=1, carbon content, fossil=0, carbon content, fossil=0, water content=0, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, dry mass=1, wet mass=1000, water content=9081,65213442325, water in wet mass=999,8899, dry mass=0,1101, carbon content, fossil=0,0104328554239022, carbon content, non-fossil=0, carbon content, fossil=0, carbon content, non-fossil=0, dry mass=0, wet mass=0, water content=0, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, wet mass=0, water in wet mass=0, dry mass=0 -- Parameter(s): fraction, process water to water, to surface water, nitrogen fertilizer, as N, LUC_crop_specific, fraction, process water, to air, nitrogen in crop residues, dinitrogen monoxide from manure in feedlot, urea, as N, as fertilizer
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
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Publication and ownership
UUID 1014c948-26a8-4ecf-b201-09392d8c16ec
Date of last revision 2020-08-10T10:36:03
Data set version 03.03.000
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
poles 1.0 m36.4049E-8 m3 5.742968295257605E-8 7.143125627887504E-8
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Product flow
6.2644 m26.2644 m2 2.1043604613723543E-4 0.0018648282022181671
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Product flow
WOOD 1.0 kg5.553E-5 kg 4.979110203682411E-5 6.193036052344191E-5
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Product flow
6.2644 m26.2644 m2 2.1043604613723543E-4 0.0018648282022181671
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Product flow
2.6644E-4 m22.6644E-4 m2 2.3890403793789695E-4 2.9714974352360637E-4
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
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 6.2644 m26.2644 m2 2.1043604613723543E-4 0.0018648282022181671
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Product flow
C:Manufacturing / 10:Manufacture of food products / 108:Manufacture of prepared animal feeds / 1080:Manufacture of prepared animal feeds 0.199521443 kg0.199521443 kg 0.18464998265038113 0.21559063069167356
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,2,5,2)
Product flow
lime 1.0 kg0.93965 kg 0.8425393306123137 1.0479535974401617
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
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 0.050115 kg0.050115 kg 0.04493572985008897 0.05589123028331156
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
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 MAIZE 1.0 kg0.0045194 kg 0.004052330389793317 0.005040303824052644
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
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 0.037586 kg0.037586 kg 0.03370157322449255 0.04191814389760647
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Product flow
12.529 m212.529 m2 4.2087881074858287E-4 0.0037297159417648
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Product flow
37.586 m237.586 m2 0.0012626028398751885 0.011188850138652071
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Product flow
Math_Rel_for_85086b85_ef0a_55c6_be1f_66e45e7aeaaa 1.0 m210.0232 m2
General comment Calculated value. Land use change (LUC) from Novaes et al. (2017).
Product flow
C:Manufacturing / 10:Manufacture of food products / 104:Manufacture of vegetable and animal oils and fats / 1040:Manufacture of vegetable and animal oils and fats MEAL 1.0 kg0.0010609 kg 9.512584215895319E-4 0.001183178812881677
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Product flow
wire 1.0 kg0.0011219 kg 0.0010059542116894107 0.0012512096429182328
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Product flow
Math_Rel_for_9e0c9c28_7d8f_4f18_a769_bff3a4c8c1e5 1.0 kg0.00205238744800703 kg 0.0018402779190134176 0.0022889446171233973
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Product flow
6.2644 m26.2644 m2 2.1043604613723543E-4 0.0018648282022181671
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Elementary flows / Land occupation / land T_t 1.0 m2*a125.29 m2*a 111.64290442412351 140.60530027386235
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Elementary flows / Land occupation / land Math_Rel_for_2c126bcc_bb63_4d63_bd72_f02a1e616809 1.0 m26.2645 m2 5.451955419040258 7.198144011402858
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Elementary flows / Land occupation / land Math_Rel_for_7a16b680_6d9a_4db3_a23e_0ec64aca5995 1.0 m26.2645 m2 5.451955419040258 7.198144011402858
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Resources / Resources from biosphere / Renewable energy resources from biosphere Math_Rel_for_01c12fca_ad8b_4902_8b48_2d5afe3d3a0f 1.0 MJ17.0005732162 MJ 15.24360301985077 18.960050934349653
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Elementary flows / Resources from water / in water drinking_water 1.0 kg0.219252061 kg 0.20290996622207824 0.2369103260316701
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,2,5,2)

Outputs

Type of flow Classification Flow Variable Mean amount Resulting amount Minimum amount Maximum amount
Product flow REF_PRODUCT 1.0 kg1.0 kg
Waste flow
BY_PRODUCT 1.0 kg0.14439 kg 0.12946762512330331 0.1610323204750545
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Waste flow
BY_PRODUCT_1 1.0 kg7.92606375E-5 kg
General comment Fencing the farm: waste wood poles from fences (after periodic replacement).
Waste flow
BY_PRODUCT_3 1.0 kg0.0011219 kg
General comment Fencing the farm: steel wire.
Elementary flow
Elementary flows / Emissions to water / ground water NO3 1.0 kg0.624160595935899 kg 0.5596550318676264 0.6961010396332896
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Elementary flows / Emissions to air / non-urban air or from high stacks 0.49951 kg0.49951 kg 0.43472044877720484 0.5739556094079084
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Elementary flows / Emissions to air / non-urban air or from high stacks Math_Rel_for_aa7cac3a_3625_41d4_bc54_33e2cf11ec46 1.0 kg0.447899833333333 kg 0.4016104142585359 0.49952454811314345
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Elementary flows / Emissions to air / unspecified Math_Rel_for_075e433b_4be4_448e_9510_9a5029c1ce94 1.0 m30.03288780915 m3 0.029488929608414333 0.03667844187800561
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Elementary flows / Emissions to water / surface water Math_Rel_for_db4566b1_bd88_427d_92da_2d25879063b9 1.0 m30.18636425185 m3 0.1671039344476812 0.2078445039753651
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Elementary flows / Emissions to air / non-urban air or from high stacks Math_Rel_for_77357947_ccc5_438e_9996_95e65e1e1bce 1.0 kg0.00510385437227709 kg 0.004165232095303212 0.006253992300401613
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Elementary flows / Emissions to air / non-urban air or from high stacks N2O 1.0 kg0.0243040684394147 kg 0.019834438549062906 0.02978091571619814
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Elementary flows / Emissions to air / non-urban air or from high stacks NH3 1.0 kg0.0309374742857143 kg 0.026924691608814545 0.035548311159333434
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Elementary flows / Emissions to water / surface water 3.9354E-8 kg3.9354E-8 kg -0.3355591953572504 0.3355592740652504
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Elementary flows / Emissions to water / surface water 0.0 kg0.0 kg
General comment Exchange kept with zero amount only for information that phosphorus leaching must be disregarded due to its low mobility in Brazilian soils (Novais & Smyth, 1999).
Elementary flow
Elementary flows / Emissions to water / surface water 3.2898E-7 kg3.2898E-7 kg -0.33555890573125036 0.3355595636912504
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Elementary flows / Emissions to water / surface water Math_Rel_for_b2631209_8374_431e_b7d5_56c96c6b6d79 1.0 kg8.8554972E-4 kg 7.060694273329474E-4 0.0011106532533978267
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Elementary flows / Emissions to water / surface water 3.6222E-7 kg3.6222E-7 kg -0.3355588724912504 0.33555959693125037
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Elementary flows / Emissions to water / surface water 5.0852E-7 kg5.0852E-7 kg -0.3355587261912504 0.3355597432312504
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Elementary flows / Emissions to water / surface water 2.585E-6 kg2.585E-6 kg -0.3355566497112504 0.3355618197112504
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Elementary flows / Emissions to water / surface water 1.1898E-5 kg1.1898E-5 kg -0.33554733671125037 0.3355711327112504
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Elementary flows / Emissions to soil / agricultural 3.935E-4 kg3.935E-4 kg -0.2498064200639361 0.2505934200639361
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Elementary flows / Emissions to soil / agricultural 0.0032894 kg0.0032894 kg -0.2469105200639361 0.2534893200639361
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Elementary flows / Emissions to soil / agricultural 0.11896 kg0.11896 kg -0.1312399200639361 0.3691599200639361
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Elementary flows / Emissions to soil / agricultural 0.025847 kg0.025847 kg -0.2243529200639361 0.2760469200639361
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Elementary flows / Emissions to soil / agricultural 0.0050847 kg0.0050847 kg -0.2451152200639361 0.2552846200639361
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)
Elementary flow
Elementary flows / Emissions to soil / agricultural 0.0036219 kg0.0036219 kg -0.2465780200639361 0.2538218200639361
General comment Pedigree Matrix [reliab, complet, tempCorr, geogCorr, furtherTechCorr]: (3,3,4,3,2)