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Processoepd.additionalLciaResults = Indicadores adicionais de impacto ambientalConjunto de dados: coffee green bean production, arabica, semi-mechanized (br) en

Informações sobre o conjunto de dados-chave
Localização BR-MG
Descrição da representatividade geográfica The inventory is modelled for Brazil, Minas Gerais
Ano de referência 2020
Nome
coffee green bean production, arabica, semi-mechanized
Sinônimos coffee cultivation, coffee beans production, green coffee beans production
Classificação
Nome da classe : Nível hierárquico
  • ISIC rev.4 ecoinvent: A.Agriculture, forestry and fishing / 01:Crop and animal production, hunting and related service activities / 012:Growing of perennial crops / 0127:Growing of beverage crops
Comentário geral sobre o conjunto de dados Activity Linkable Id: 47661ad0-78f3-59a0-a4a6-ba9b2d67bc2e Activity Subtype: ordinary transforming activity Tag: No Macroeconomic Scenario: Business-as-Usual The raw data collected in interviews were organized in electronic spreadsheets and checked for completeness and consistency. Agricultural inputs were detailed as to their composition and physical characteristics. Agricultural operations were characterized in terms type of fuel and specific consumption. Precipitation is enought to supply water to the crop, no extra water needed. Emissions from the agricultural process were estimated using the BRCalc/ICVCalc tool, developed by Embrapa Environment, which includes specific climate and soil databases for the 137 Brazilian agricultural mesoregions, in addition to databases of parameters related to agricultural crops, fertilisers and pesticides. The main emission models adopted by BRCalc/ICVCalc (Folegatti-Matsuura et al., 2022) derive from the references: Nemecek et al. (2015), IPCC (2019), Nemecek & Kagi (2007), Folegatti-Matsuura & Picoli (2018). It was used the model BRLUC (Donke et al., 2020) to estimate the LUC emissions.
Direitos autorais Sim
Referência quantitativa
Fluxo(s) de referência
Conteúdo biogênico de carbono
  • carbon content, non-fossil: 0.44472171808805205 kg
Representatividade de tempo
Conjunto de dados válido até 2023
Descrição da representatividade de tempo Validity: Data is valid for the entire period. Time period of the most of the data collected for this dataset.
Representatividade tecnológica
Descrição da tecnologia, incluindo sistema de fundo Technology Level: Current This dataset represents the production of 1 kg of green coffee beans (Arabic) in the South region in the state of Minas Gerais, which is composed of the coffee production region of South/Southwest. Planting is a manual activity while cultivation and harvesting are a combination of manual and mechanized practices. The period of 20 years was adopted as the average life span of a coffee plantation, from the cleaning of the land to the last year of the coffee plantation in production, before a new cleaning. In this study, it was assumed that the phases of implantation and formation of the coffee plantation last one year and two years, respectively. For the formation phase, the data collected correspond to the average of two years. The full production phase lasts 18 years. Grain production data were “annualized” (ie calculated for the reference of 1 hectare of coffee per year). Therefore, the input flows (natural resources, agricultural inputs and energy) and outflows (emissions to air, water and soil) of the initial phases were divided by 20. The input flows of the full production phase correspond to the average of two consecutive agricultural years, considering the behavior of the coffee plantation of alternating years of higher and lower production in succession. Mineral fertiliser input is 18.7 kg ammonium sulphate/ha, 919 kg ammonium nitrate/ha, 197 kg monoammonium phosphate/ha, 22.2 kg single superphosphate/ha, 670 kg potassium chloride/ha, 4 kg N (inorganic nitrogen fertiliser)/ha and 25.1 kg P2O5 (inorganic phosphorus fertiliser)/ha. Total active ingredients (a.i.) applied as pesticides amount to 12.4 kg a.i./ha. The cattle manure input is 250 kg/ha. The average productivity is 2280 kg/ha, at 10% moisture. The amount of packing for fertilisers was calculated by adding the NPK inputs (elements and not commercial fertiliser) multiplying this total by two. Agricultural operation was modelled based on the total diesel consumed to perform the operation and the emissions to air related to diesel burning. Activity Start: This activity starts with reforming and cleaning of the area after the harvest of the previous crop Activity End: The dataset includes the inputs of correctives, mineral fertilisers and pesticides and organic fertiliser. The dataset includes the agricultural operations and the amount of fuel consumed during operations and emissions related. The dataset also includes direct field emissions and land use change emissions, with important regionalizations added. The dataset doesn't include: seedlings production, drying, cleaning and storage of harvested grains. The activity ends after harvest at the farm gate.
Modelo matemático
Variável / parâmetro Fórmula Valor médio Valor mínimo Valor máximo Tipo de distribuição de incertezas StdDev relativo em % Comentário geral
Eq_uv_2 2.19e-05*__ha_to_m2__ 0.219 0.027648709062411916 1.7346560337315133 LOG_NORMAL 7.920803806993211 % [m2] Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07
__ha_to_m2__ 10000.0 % Conversion from ha to m2
Eq_uv_3 0.00268*__ha_to_m2__ 26.8 3.3834949902860245 212.27754202741806 LOG_NORMAL 7.920803806993211 % [m2] Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07
Eq_uv_4 1.43e-05*__ha_to_m2__ 0.14300000000000002 0.015580186734122337 1.3125003152378416 LOG_NORMAL 9.178323882782108 % [m2] Uncertainty Comment: Pedigree: (2,1,1,2,3); Basic Variance: 1.22
Eq_uv_5 0.117*__kWh_to_MJ__ 0.4212 0.05317642126524155 3.336242563505541 LOG_NORMAL 7.920803806993211 % [MJ] Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07
__kWh_to_MJ__ 3.6 % Conversion from kWh to MJ
Eq_uv_6 2.19e-05*__ha_to_m2__ 0.219 0.027648709062411916 1.7346560337315133 LOG_NORMAL 7.920803806993211 % [m2] Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07
Eq_uv_7 0.000439*__ha_to_m2__ 4.39 0.554236679378942 34.772328712700194 LOG_NORMAL 7.920803806993211 % [m2] Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07
Eq_uv_8 0.000504*__ha_to_m2__ 5.04 0.6362990578746852 39.92085118724579 LOG_NORMAL 7.920803806993211 % [m2] Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07
Eq_uv_9 2.19e-05*__ha_to_m2__ 0.219 0.027648709062411916 1.7346560337315133 LOG_NORMAL 7.920803806993211 % [m2] Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07
manganese_sulfate_output_MW 0.0 % [g_per_mol]
Eq_uv_10 0.0027*__ha_to_m2__ 27.0 3.4087449529000993 213.8617027888167 LOG_NORMAL 7.920803806993211 % [m2] Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07
Método LCI e alocação
Tipo de conjunto de dados Unit process, black box
Princípio do Método LCI Not applicable
Desvio do princípio do método LCI / explicações Original ecoinvent System Model: Undefined
O método LCI se aproxima
  • Not applicable
Desvios do método LCI aproximam-se / explicações Coffee is a perennial crop and is cultivated in dedicated areas, not requiring any allocation actions.
Fontes de dados, tratamento e representatividade
Desvio dos princípios/explicações de corte e completude de dados none
Desvio da seleção de dados e princípios/explicações de combinação none
Desvio do tratamento de dados e princípios / explicações das extrapolações none
Volume anual de fornecimento ou produção Production volume for coffee, green bean is 939723000.0 kilogram
Procedimento de amostragem The main source of data for agricultural inputs and operations is interview with relevant coffee producers located in Minas Gerais state. Emissions from the agricultural process are estimated using BRCalc/ICVCalc (Folegatti-Matsuura et al., 2022).
Integralidade
Completude do modelo do produto No statement
Validação
Detalhes da revisão
Date of Review: 2022-09-16 Review Version: 3.1.0.3 Validation failed with errors: - Non-global datasets cannot be uploaded unless a global dataset (for the same activity name, time period and macro-economic scenario) exists in the database or is uploaded together with the non-global dataset. No matching activities found. If you have already submitted a corresponding global dataset for review, you make ask the database administrator to abort this submission, so that you can upload your non-global datasets together with the global. - No GLO dataset found! Related datasets:
Comentários de revisão subseqüente
Validation warnings: - Mass and/or economic deficit in activity dataset exceeds either 0.1% of input or output sum: Property 'dry mass': - Input='3.80343235324986', Output='1.56770308379306' - Input > output by 2.23572926945679 kg (142.61% of output) Property 'carbon content, non-fossil': - Input='0.465646163191107', Output='0.480342046056418' - Input < output by 0.0146958828653117 kg (3.06% of output) Property 'water in wet mass': - Input='0.0858', Output='0.0925589836661' - Input < output by 0.0067589836661 kg (7.3% of output) Property 'carbon content, fossil': - Input='0.682324453254472', Output='0.093357513191905' - Input > output by 0.588966940062567 kg (630.87% of output) Property 'wet mass': - Input='3.88923235324986', Output='1.66026206745906' - Input > output by 2.22897028579079 kg (134.25% of output) Property 'price': - Input='0.04570398', Output='0' - Input > output by 0.04570398 EUR2005 - Amount of property 'nitrogen content=0' of exchange 'manure, solid, cattle' deviates from the default amount in the master file. - The total water in wet mass of all input exchanges (0.0858) and output exchanges (0.0925589836661) 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. -- Property(ies): water content=0, dry mass=1, carbon content, non-fossil=0.748686634968048, water in wet mass=0, carbon content, fossil=0, wet mass=1, carbon content, non-fossil=0, dry mass=1, carbon content, fossil=0, water in wet mass=0, water content=0, wet mass=1, carbon content, fossil=0.213119671335434, dry mass=1, water content=0, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, carbon content, fossil=0, dry mass=1, water content=0, wet mass=1, carbon content, non-fossil=0, water in wet mass=0, wet mass=1, dry mass=1, carbon content, fossil=0.272916486782489, water in wet mass=0, carbon content, non-fossil=0, water content=0, water in wet mass=0, dry mass=1, carbon content, non-fossil=0, water content=0, wet mass=1, carbon content, fossil=0, wet mass=0, dry mass=0, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0, carbon content, non-fossil=0, wet mass=1, dry mass=1, water content=0, water in wet mass=0, carbon content, fossil=0.797535211267606, wet mass=1, water content=0, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0.308335276395981, 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, dry mass=1, water in wet mass=0, dry mass=1, wet mass=1, water content=0, carbon content, non-fossil=0, carbon content, fossil=0.617468132866023, water in wet mass=0, carbon content, fossil=0, wet mass=1, water content=0, carbon content, non-fossil=0, dry mass=1, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0.428805015280039, wet mass=1, water in wet mass=0, water content=0, water in wet mass=0, carbon content, non-fossil=0, dry mass=1, carbon content, fossil=0.588436811443917, wet mass=1, water content=0, carbon content, non-fossil=0, water content=0, wet mass=1, water in wet mass=0, dry mass=1, carbon content, fossil=0, carbon content, non-fossil=0, wet mass=1, carbon content, fossil=0.637259782933386, dry mass=1, water content=0, water in wet mass=0, water in wet mass=0, dry mass=1, carbon content, non-fossil=0.272916486782489, wet mass=1, carbon content, fossil=0, water content=0, carbon content, fossil=0, water content=0, carbon content, non-fossil=0.272916486782489, water in wet mass=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, dry mass=1, wet mass=1, carbon content, fossil=0.434314460785212, water content=0, water in wet mass=0, water content=0, wet mass=1, water in wet mass=0, carbon content, non-fossil=0.428805015280039, dry mass=1, carbon content, fossil=0, water content=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0.42281732714395, 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, water content=0, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, dry mass=1, carbon content, fossil=0.619197040190902, water content=0, water in wet mass=0, dry mass=1, carbon content, fossil=0.922578950360014, carbon content, non-fossil=0, wet mass=1, wet mass=1, water in wet mass=0, dry mass=1, carbon content, fossil=0, water content=0, carbon content, non-fossil=0, dry mass=1, carbon content, fossil=0, wet mass=1, carbon content, non-fossil=0, water in wet mass=0, water content=0, dry mass=1, water in wet mass=0, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, wet mass=1, carbon content, fossil=0.0952062831866544, carbon content, non-fossil=0, water content=0, wet mass=1, dry mass=1, water in wet mass=0, water in wet mass=0, water content=0, wet mass=1, carbon content, fossil=0.748686634968048, carbon content, non-fossil=0, dry mass=1, carbon content, fossil=0.476031415933272, wet mass=1, water content=0, dry mass=1, water in wet mass=0, carbon content, non-fossil=0.476031415933272, water content=0, carbon content, fossil=0.440921815395685, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, fossil=0, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, wet mass=1, 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, carbon content, non-fossil=0, water content=0, dry mass=1, water in wet mass=0, carbon content, fossil=0.329386599387079, wet mass=1, dry mass=1, water content=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0.498099844957013, wet mass=1, dry mass=1, carbon content, fossil=0.629737609329, water in wet mass=0, water content=0, wet mass=1, carbon content, non-fossil=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0, dry mass=1, wet mass=1, water in wet mass=0, dry mass=1, water in wet mass=0, water content=0, wet mass=1, carbon content, fossil=0, 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, carbon content, fossil=0, wet mass=1, water content=0, carbon content, non-fossil=0, dry mass=1, water in wet mass=0, water content=0, dry mass=1, wet mass=1, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0, carbon content, fossil=0, 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, dry mass=1, water in wet mass=0, carbon content, fossil=0, wet mass=1, water in wet mass=0, water content=0, carbon content, non-fossil=0, wet mass=1, dry mass=1, carbon content, fossil=0, water content=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0.922578950360014, water in wet mass=0, carbon content, non-fossil=0.659689668148146, water content=0, carbon content, fossil=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, wet mass=1, water in wet mass=0, water content=0, carbon content, fossil=0, dry mass=1, dry mass=1, water content=0, carbon content, fossil=0, wet mass=1, carbon content, non-fossil=0, water in wet mass=0, water in wet mass=0, carbon content, fossil=0, water content=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, water content=0, wet mass=1, water in wet mass=0, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0, wet mass=1, water in wet mass=0, dry mass=1, carbon content, fossil=0, water content=0, carbon content, non-fossil=0 - 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. -- Property(ies): water content=0, dry mass=1, carbon content, non-fossil=0.748686634968048, water in wet mass=0, carbon content, fossil=0, wet mass=1, carbon content, non-fossil=0, dry mass=1, carbon content, fossil=0, water in wet mass=0, water content=0, wet mass=1, carbon content, fossil=0.213119671335434, dry mass=1, water content=0, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, carbon content, fossil=0, dry mass=1, water content=0, wet mass=1, carbon content, non-fossil=0, water in wet mass=0, wet mass=1, dry mass=1, carbon content, fossil=0.272916486782489, water in wet mass=0, carbon content, non-fossil=0, water content=0, water in wet mass=0, dry mass=1, carbon content, non-fossil=0, water content=0, wet mass=1, carbon content, fossil=0, wet mass=0, dry mass=0, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0, carbon content, non-fossil=0, wet mass=1, dry mass=1, water content=0, water in wet mass=0, carbon content, fossil=0.797535211267606, wet mass=1, water content=0, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0.308335276395981, 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, dry mass=1, water in wet mass=0, dry mass=1, wet mass=1, water content=0, carbon content, non-fossil=0, carbon content, fossil=0.617468132866023, water in wet mass=0, carbon content, fossil=0, wet mass=1, water content=0, carbon content, non-fossil=0, dry mass=1, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0.428805015280039, wet mass=1, water in wet mass=0, water content=0, water in wet mass=0, carbon content, non-fossil=0, dry mass=1, carbon content, fossil=0.588436811443917, wet mass=1, water content=0, carbon content, non-fossil=0, water content=0, wet mass=1, water in wet mass=0, dry mass=1, carbon content, fossil=0, carbon content, non-fossil=0, wet mass=1, carbon content, fossil=0.637259782933386, dry mass=1, water content=0, water in wet mass=0, water in wet mass=0, dry mass=1, carbon content, non-fossil=0.272916486782489, wet mass=1, carbon content, fossil=0, water content=0, carbon content, fossil=0, water content=0, carbon content, non-fossil=0.272916486782489, water in wet mass=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, dry mass=1, wet mass=1, carbon content, fossil=0.434314460785212, water content=0, water in wet mass=0, water content=0, wet mass=1, water in wet mass=0, carbon content, non-fossil=0.428805015280039, dry mass=1, carbon content, fossil=0, water content=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0.42281732714395, 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, water content=0, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, dry mass=1, carbon content, fossil=0.619197040190902, water content=0, water in wet mass=0, dry mass=1, carbon content, fossil=0.922578950360014, carbon content, non-fossil=0, wet mass=1, wet mass=1, water in wet mass=0, dry mass=1, carbon content, fossil=0, water content=0, carbon content, non-fossil=0, dry mass=1, carbon content, fossil=0, wet mass=1, carbon content, non-fossil=0, water in wet mass=0, water content=0, dry mass=1, water in wet mass=0, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, wet mass=1, carbon content, fossil=0.0952062831866544, carbon content, non-fossil=0, water content=0, wet mass=1, dry mass=1, water in wet mass=0, water in wet mass=0, water content=0, wet mass=1, carbon content, fossil=0.748686634968048, carbon content, non-fossil=0, dry mass=1, carbon content, fossil=0.476031415933272, wet mass=1, water content=0, dry mass=1, water in wet mass=0, carbon content, non-fossil=0.476031415933272, water content=0, carbon content, fossil=0.440921815395685, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, fossil=0, dry mass=1, carbon content, non-fossil=0, water in wet mass=0, wet mass=1, 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, carbon content, non-fossil=0, water content=0, dry mass=1, water in wet mass=0, carbon content, fossil=0.329386599387079, wet mass=1, dry mass=1, water content=0, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0.498099844957013, wet mass=1, dry mass=1, carbon content, fossil=0.629737609329, water in wet mass=0, water content=0, wet mass=1, carbon content, non-fossil=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0, dry mass=1, wet mass=1, water in wet mass=0, dry mass=1, water in wet mass=0, water content=0, wet mass=1, carbon content, fossil=0, 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, carbon content, fossil=0, wet mass=1, water content=0, carbon content, non-fossil=0, dry mass=1, water in wet mass=0, water content=0, dry mass=1, wet mass=1, carbon content, fossil=0, water in wet mass=0, carbon content, non-fossil=0, carbon content, fossil=0, 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, dry mass=1, water in wet mass=0, carbon content, fossil=0, wet mass=1, water in wet mass=0, water content=0, carbon content, non-fossil=0, wet mass=1, dry mass=1, carbon content, fossil=0, water content=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0.922578950360014, water in wet mass=0, carbon content, non-fossil=0.659689668148146, water content=0, carbon content, fossil=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, wet mass=1, water in wet mass=0, water content=0, carbon content, fossil=0, dry mass=1, dry mass=1, water content=0, carbon content, fossil=0, wet mass=1, carbon content, non-fossil=0, water in wet mass=0, water in wet mass=0, carbon content, fossil=0, water content=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, water content=0, wet mass=1, water in wet mass=0, dry mass=1, carbon content, non-fossil=0, carbon content, fossil=0, wet mass=1, water in wet mass=0, dry mass=1, carbon content, fossil=0, water content=0, carbon content, non-fossil=0
Nome do revisor e instituição
Detalhes da revisão
Date of Review: 2022-07-29 Review Version: 3.0.0.10 Validation failed with errors: - Non-global datasets cannot be uploaded unless a global dataset (for the same activity name, time period and macro-economic scenario) exists in the database or is uploaded together with the non-global dataset. No matching activities found. If you have already submitted a corresponding global dataset for review, you make ask the database administrator to abort this submission, so that you can upload your non-global datasets together with the global. - No GLO dataset found! Related datasets:
Comentários de revisão subseqüente
Validation warnings: - Mass and/or economic deficit in activity dataset exceeds either 0.1% of input or output sum: Property 'carbon content, fossil': - Input='0.682324453254472', Output='0.093357513191905' - Input > output by 0.588966940062567 kg (630.87% of output) Property 'carbon content, non-fossil': - Input='0.465646163191107', Output='0.480342046056418' - Input < output by 0.0146958828653117 kg (3.06% of output) Property 'water in wet mass': - Input='0.0858', Output='0.0925589836661' - Input < output by 0.0067589836661 kg (7.3% of output) Property 'dry mass': - Input='3.99338186756967', Output='1.75765259811288' - Input > output by 2.23572926945679 kg (127.2% of output) Property 'wet mass': - Input='4.07918186756967', Output='1.85021158177888' - Input > output by 2.22897028579079 kg (120.47% of output) Property 'price': - Input='0.04570398', Output='0' - Input > output by 0.04570398 EUR2005 - Amount of property 'nitrogen content=0' of exchange 'manure, solid, cattle' deviates from the default amount in the master file. - The total water in wet mass of all input exchanges (0.0858) and output exchanges (0.0925589836661) 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. - Flutriafol - Copper oxychloride - Uncertainty shall always be provided for all primary data inputs (exchange amounts, properties and parameters), except for the amount and properties of reference products. -- Property(ies): water content=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, carbon content, fossil=0, water content=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, water content=0, dry mass=1, wet mass=1, carbon content, fossil=0, water in wet mass=0, water content=0, carbon content, non-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, 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, non-fossil=0, carbon content, fossil=0, water in wet mass=0, water content=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0, water content=0, carbon content, non-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, 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, water content=0, carbon content, fossil=0, wet mass=1, dry mass=1, water content=0, water in wet mass=0, carbon content, non-fossil=0, carbon content, fossil=0, dry mass=1, wet mass=1, water in wet mass=0, water content=0, carbon content, fossil=0.0952062831866544, carbon content, non-fossil=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water content=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water content=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, fossil=0, water content=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, non-fossil=0.476031415933272, water content=0, carbon content, fossil=0.476031415933272, water in wet mass=0, wet mass=1, dry mass=1, carbon content, fossil=0, water in wet mass=0, water content=0, carbon content, non-fossil=0.659689668148146, wet mass=1, dry mass=1, carbon content, fossil=0.922578950360014, water content=0, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, non-fossil=0, carbon content, fossil=0.922578950360014, water content=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0.329386599387079, water content=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, carbon content, fossil=0.748686634968048, water content=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0.440921815395685, wet mass=1, dry mass=1, 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, non-fossil=0, water in wet mass=0, carbon content, fossil=0.498099844957013, water content=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, wet mass=1, water in wet mass=0, dry mass=1, carbon content, fossil=0.629737609329, water content=0, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0.797535211267606, wet mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0.619197040190902, water content=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, carbon content, fossil=0.617468132866023, carbon content, non-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, carbon content, non-fossil=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0.428805015280039, dry mass=1, wet mass=1, carbon content, fossil=0.588436811443917, water in wet mass=0, carbon content, non-fossil=0, water content=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0.42281732714395, wet mass=1, dry mass=1, dry mass=1, wet mass=1, water content=0, water in wet mass=0, carbon content, non-fossil=0, carbon content, fossil=0.637259782933386, carbon content, non-fossil=0, carbon content, fossil=0.308335276395981, water in wet mass=0, water content=0, wet mass=1, dry mass=1, water content=0, water in wet mass=0, carbon content, fossil=0.434314460785212, carbon content, non-fossil=0, wet mass=1, dry mass=1, dry mass=1, wet mass=1, water content=0, water in wet mass=0, carbon content, non-fossil=0, carbon content, fossil=0, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water content=0, dry mass=1, wet mass=1, water in wet mass=0, water content=0, carbon content, fossil=0.213119671335434, carbon content, non-fossil=0, dry mass=1, wet mass=1, carbon content, non-fossil=0.748686634968048, water content=0, carbon content, fossil=0, water in wet mass=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, fossil=0, water content=0, carbon content, non-fossil=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, carbon content, fossil=0, carbon content, non-fossil=0.272916486782489, water content=0, wet mass=1, dry mass=1, water in wet mass=0, water content=0, carbon content, fossil=0, carbon content, non-fossil=0.428805015280039, 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, carbon content, non-fossil=0, water in wet mass=0, water content=0, carbon content, fossil=0.272916486782489, wet mass=1, dry 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, non-fossil=0, carbon content, fossil=0, dry mass=0, wet mass=0 - 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. -- Property(ies): water content=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, carbon content, fossil=0, water content=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, water content=0, dry mass=1, wet mass=1, carbon content, fossil=0, water in wet mass=0, water content=0, carbon content, non-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, 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, non-fossil=0, carbon content, fossil=0, water in wet mass=0, water content=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0, water content=0, carbon content, non-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, 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, water content=0, carbon content, fossil=0, wet mass=1, dry mass=1, water content=0, water in wet mass=0, carbon content, non-fossil=0, carbon content, fossil=0, dry mass=1, wet mass=1, water in wet mass=0, water content=0, carbon content, fossil=0.0952062831866544, carbon content, non-fossil=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water content=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water content=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, fossil=0, water content=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, water content=0, carbon content, fossil=0, carbon content, non-fossil=0, water in wet mass=0, dry mass=1, wet mass=1, carbon content, non-fossil=0.476031415933272, water content=0, carbon content, fossil=0.476031415933272, water in wet mass=0, wet mass=1, dry mass=1, carbon content, fossil=0, water in wet mass=0, water content=0, carbon content, non-fossil=0.659689668148146, wet mass=1, dry mass=1, carbon content, fossil=0.922578950360014, water content=0, water in wet mass=0, carbon content, non-fossil=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, non-fossil=0, carbon content, fossil=0.922578950360014, water content=0, dry mass=1, wet mass=1, carbon content, non-fossil=0, water in wet mass=0, carbon content, fossil=0.329386599387079, water content=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, carbon content, fossil=0.748686634968048, water content=0, wet mass=1, dry mass=1, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0.440921815395685, wet mass=1, dry mass=1, 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, non-fossil=0, water in wet mass=0, carbon content, fossil=0.498099844957013, water content=0, wet mass=1, dry mass=1, carbon content, non-fossil=0, wet mass=1, water in wet mass=0, dry mass=1, carbon content, fossil=0.629737609329, water content=0, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0.797535211267606, wet mass=1, dry mass=1, water in wet mass=0, carbon content, fossil=0.619197040190902, water content=0, carbon content, non-fossil=0, dry mass=1, wet mass=1, carbon content, fossil=0.617468132866023, carbon content, non-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, carbon content, non-fossil=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0.428805015280039, dry mass=1, wet mass=1, carbon content, fossil=0.588436811443917, water in wet mass=0, carbon content, non-fossil=0, water content=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, non-fossil=0, water content=0, carbon content, fossil=0.42281732714395, wet mass=1, dry mass=1, dry mass=1, wet mass=1, water content=0, water in wet mass=0, carbon content, non-fossil=0, carbon content, fossil=0.637259782933386, carbon content, non-fossil=0, carbon content, fossil=0.308335276395981, water in wet mass=0, water content=0, wet mass=1, dry mass=1, water content=0, water in wet mass=0, carbon content, fossil=0.434314460785212, carbon content, non-fossil=0, wet mass=1, dry mass=1, dry mass=1, wet mass=1, water content=0, water in wet mass=0, carbon content, non-fossil=0, carbon content, fossil=0, water in wet mass=0, carbon content, fossil=0, carbon content, non-fossil=0, water content=0, dry mass=1, wet mass=1, water in wet mass=0, water content=0, carbon content, fossil=0.213119671335434, carbon content, non-fossil=0, dry mass=1, wet mass=1, carbon content, non-fossil=0.748686634968048, water content=0, carbon content, fossil=0, water in wet mass=0, dry mass=1, wet mass=1, water in wet mass=0, carbon content, fossil=0, water content=0, carbon content, non-fossil=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, carbon content, fossil=0, carbon content, non-fossil=0.272916486782489, water content=0, wet mass=1, dry mass=1, water in wet mass=0, water content=0, carbon content, fossil=0, carbon content, non-fossil=0.428805015280039, 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, carbon content, non-fossil=0, water in wet mass=0, water content=0, carbon content, fossil=0.272916486782489, wet mass=1, dry 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, non-fossil=0, carbon content, fossil=0, dry mass=0, wet mass=0
Nome do revisor e instituição
Nome do revisor e instituição
Detalhes da revisão
Date of Review: 2022-07-29 Review Version: 3.0.0.10 all the review comments have been addressed, solved or better explained
Comentários de revisão subseqüente
agricultural operations with minor consumption (fertilizer distribution, pesticide application, etc) should be better defined in the future updates, for the sake of precision even if the overall impact don't change significantly
Nome do revisor e instituição
Gerador de dados
Gerador / modelador de conjunto de dados
Entrada de dados por
Carimbo de tempo (último gravado) 2023-02-24T01:39:04
Formato(s) do(s) conjunto(s) de dados
Conjunto de dados original convertido de
Entrada de dados por
Publicação e propriedade
UUID cccb2b9c-6742-5b69-98db-a7301e916af6
Data da última revisão 2022-09-16T00:00:00
Versão do conjunto de dados 03.01.000
Fluxo de trabalho e status de publicação Data set finalised; entirely published
Republicação sem alterações de
Direitos autorais Sim
Tipo de licença License fee
Restrições de acesso e uso Licensees; Licensees

Entradas

Tipo de fluxo Classificação Fluxo Variável Valor médio Valor resultante Montante mínimo Montante máximo
Product flow
allocatable product 0.403 kg0.403 kg 0.05087867466736074 3.1920839342182643
Comentário geral Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07 The amount of fertiliser was obtained from interviews with producers and experts. The nutrient content in the input was obtained from technical literature and technical regulation documents. The selection of the fertiliser from the ecoinvent database and its ammount was based on the commercial product.
Product flow
8: Business and production services / 86: Support and operation services to agriculture, hunting, forestry, fishing, mining and utilities / 861: Support and operation services to agriculture, hunting, forestry and fishing / 8612: Animal husbandry services / 86122: Support services to farm animal husbandry Eq_uv_2 1.0 m20.219 m2 0.027648709062411916 1.7346560337315133
Comentário geral Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07 Refers to weed control operation
Product flow
allocatable product Eq_uv_3 1.0 m226.8 m2 3.3834949902860245 212.27754202741806
Comentário geral Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07 The amount of pesticide or adjuvant was obtained from interviews with producers and experts. Concentration of the active ingredient was obtained in the Material Safety Data Sheet. The amount of dilution water was 200 L/ha per application.
0.00173 0.00173 2.1841217661174709E-4 0.013702990586098255
Comentário geral Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07 Direct and indirect N2O emissions according to IPCC (2019) plus emissions derived from fuel combustion (diesel 88%, and biodiesel 12%), using emission factors from Nemecek & Kagi (2007) plus emissions from burning coffee husks and from burning plant residues during coffee area renovation according to IPCC (2019)
Product flow
3: Other transportable goods, except metal products, machinery and equipment / 34: Basic chemicals / 346: Fertilizers and pesticides / 3463: Mineral or chemical fertilizers, potassic / 34631: Potassium chloride (muriate of potash) 0.294 kg0.294 kg 0.03711744504268997 2.328716319256004
Comentário geral Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07 The amount of fertiliser was obtained from interviews with producers and experts. The nutrient content in the input was obtained from technical literature and technical regulation documents. The selection of the fertiliser from the ecoinvent database and its ammount was based on the commercial product.
Product flow
allocatable product Eq_uv_4 1.0 m20.14300000000000002 m2 0.015580186734122337 1.3125003152378416
Comentário geral Uncertainty Comment: Pedigree: (2,1,1,2,3); Basic Variance: 1.22 LUC modeling implemented in ecoinvent for Brazil is based on Donke et al. (2020). LUC amount was updated, based on yield and crop expansion rate from IBGE (2022). Reference years: average among 2017, 2018, 2019. Equation: (1/yield * % crop expansion). The yield is the average for the years 2017 to 2019. Expansion: difference of the average area of the years 2017 to 2019 (t1=t0+20) for the years 1998 to 2000 (t0), by the formula (1-(t0/t1)).
Product flow
1: Ores and minerals; electricity, gas and water / 16: Other minerals / 163: Precious and semi-precious stones; pumice stone; emery; natural abrasives; other minerals / 1633: Chalk and dolomite / 16330: Chalk and dolomite 0.581 kg0.581 kg 0.07335114139388732 4.601987011863056
Comentário geral Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07 The amount of soil corrective was obtained from interviews with producers and experts.
Product flow
allocatable product Eq_uv_5 1.0 MJ0.4212 MJ 0.05317642126524155 3.336242563505541
Comentário geral Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07 Electricity amount used in agricultural field
Product flow
8: Business and production services / 86: Support and operation services to agriculture, hunting, forestry, fishing, mining and utilities / 861: Support and operation services to agriculture, hunting, forestry and fishing / 8611: Support and operation services to crop production / 86119: Other support services to crop production Eq_uv_6 1.0 m20.219 m2 0.027648709062411916 1.7346560337315133
Comentário geral Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07 Refers to the operation of subsoiling, for preparing the field before the seedlings are planted
Product flow
allocatable product Eq_uv_7 1.0 m24.39 m2 0.554236679378942 34.772328712700194
Comentário geral Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07 Refers to harvesting of coffee grains
Product flow
3: Other transportable goods, except metal products, machinery and equipment / 34: Basic chemicals / 346: Fertilizers and pesticides / 3461: Mineral or chemical fertilizers, nitrogenous 2.7E-4 kg2.7E-4 kg 3.408744952900099E-5 0.0021386170278881672
Comentário geral Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07 The amount of fertiliser was obtained from interviews with producers and experts. The nutrient content in the input was obtained from technical literature and technical regulation documents. The selection of the fertiliser from the ecoinvent database and its ammount was based on the commercial product.
Product flow
allocatable product 0.00268 kg0.00268 kg 2.8898550395592274E-4 0.024853841807565166
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,1,3); Basic Variance: 1.23 Refers to application of pesticides
Product flow
3: Other transportable goods, except metal products, machinery and equipment / 34: Basic chemicals / 346: Fertilizers and pesticides 0.0035 kg0.0035 kg 4.4187434574630916E-4 0.02772281332447624
Comentário geral Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07 The commercial pesticides not found in the ecoinvent database were summed up and added as “pesticide, unspecified”
Product flow
3: Other transportable goods, except metal products, machinery and equipment / 34: Basic chemicals / 346: Fertilizers and pesticides / 3465: Other fertilizers / 34654: Excreta of animals useful for manure/fertilizer and fuel preparation 0.11 kg0.11 kg 0.013887479437741145 0.8712884187692532
Comentário geral Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07 This fertiliser is a mixture of animal manure and coffee straw, in a 50:50 ratio.
Product flow
3: Other transportable goods, except metal products, machinery and equipment / 33: Coke oven products; refined petroleum products; nuclear fuel / 333: Petroleum oils and oils obtained from bituminous materials, other than crude; preparations n.e.c. containing by weight 70% or more of these oils, such oils being the basic constituents of the preparations / 3336: Gas oil / 33360: Gas oil 0.019 kg0.019 kg 0.0020487778265531834 0.17620260982975303
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,1,3); Basic Variance: 1.23 The amount of diesel fuel (B12 mix in Brazil) used in agricultural operations not found in ecoinvent
Product flow
3: Other transportable goods, except metal products, machinery and equipment / 36: Rubber and plastics products / 364: Packaging products of plastics / 3649: Other articles for the conveyance or packing of goods, of plastics; stoppers, lids, caps and other closures, of plastics / 36490: Other articles for the conveyance or packing of goods, of plastics; stoppers, lids, caps and other closures, of plastics 0.0109 kg0.0109 kg 8.411751437270786E-4 0.14124288013739525
Comentário geral Uncertainty Comment: Pedigree: (4,3,1,5,4); Basic Variance: 1.59 The HDPE packaging was considered for macronutrient fertilisers. Soil correctives were not considered in the packaging calculation since these are transported in bulk. The amount of packaging for pesticides was also estimated. It was considered twice the value of the active ingredient of fertilisers and pesticides applied in the field to account for the packaging of the diluted products. The production and disposal of the packaging were included in this exchange.
Product flow
3: Other transportable goods, except metal products, machinery and equipment / 36: Rubber and plastics products / 364: Packaging products of plastics / 3641: Sacks and bags, of plastics / 36410: Sacks and bags, of plastics 0.701 kg0.701 kg 0.05409759410575065 9.083601740946245
Comentário geral Uncertainty Comment: Pedigree: (4,3,1,5,4); Basic Variance: 1.59 The HDPE packaging was considered for macronutrient fertilisers. Soil correctives were not considered in the packaging calculation since these are transported in bulk. The amount of packaging for pesticides was also estimated. It was considered twice the value of the active ingredient of fertilisers and pesticides applied in the field to account for the packaging of the diluted products. The production and disposal of the packaging were included in this exchange.
Product flow
3: Other transportable goods, except metal products, machinery and equipment / 34: Basic chemicals / 346: Fertilizers and pesticides / 3466: Insecticides, fungicides, herbicides and disinfectants / 34663: Herbicides, anti-sprouting products and plant-growth regulators 0.00193 kg0.00193 kg 2.436621392258219E-4 0.015287151347496898
Comentário geral Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07 The amount of pesticide or adjuvant was obtained from interviews with producers and experts. Concentration of the active ingredient was obtained in the Material Safety Data Sheet. The amount of dilution water was 200 L/ha per application.
Product flow
8: Business and production services / 86: Support and operation services to agriculture, hunting, forestry, fishing, mining and utilities / 861: Support and operation services to agriculture, hunting, forestry and fishing / 8611: Support and operation services to crop production / 86119: Other support services to crop production Eq_uv_8 1.0 m25.04 m2 0.6362990578746852 39.92085118724579
Comentário geral Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07 The amount of soil corrective was obtained from interviews with producers and experts.
Product flow
8: Business and production services / 86: Support and operation services to agriculture, hunting, forestry, fishing, mining and utilities / 861: Support and operation services to agriculture, hunting, forestry and fishing / 8611: Support and operation services to crop production / 86119: Other support services to crop production Eq_uv_9 1.0 m20.219 m2 0.027648709062411916 1.7346560337315133
Comentário geral Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07 Refers to seedlings planting
Product flow
allocatable product 0.00175 kg0.00175 kg 2.2093717287315458E-4 0.01386140666223812
Comentário geral Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07 The amount of fertiliser was obtained from interviews with producers and experts. The nutrient content in the input was obtained from technical literature and technical regulation documents. The selection of the fertiliser from the ecoinvent database and its ammount was based on the commercial product.
Product flow
allocatable product 3.67E-4 kg3.67E-4 kg 4.633368139682727E-5 0.002906934997166508
Comentário geral Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07 No specific inventory was found in ecoinvent with chemical formula corresponding to a fertilizer with micronutients. It was necessary to adapt the amount of micronutrients to a processes (flows) available in this database, based on the molar masse of the micronutrients.
0.09 0.09 0.010839627386467522 0.7472581585334062
Comentário geral Uncertainty Comment: Pedigree: (1,1,1,1,1); Basic Variance: 1.12 The amount of coffee seedlings used to start coffee production
Product flow
allocatable product Eq_uv_10 1.0 m227.0 m2 3.4087449529000993 213.8617027888167
Comentário geral Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07 Refers to application of fertilisers
Product flow
allocatable product 0.00822 kg0.00822 kg 0.0010377734634384745 0.06510900729348419
Comentário geral Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07 The amount of fertiliser was obtained from interviews with producers and experts. The nutrient content in the input was obtained from technical literature and technical regulation documents. The selection of the fertiliser from the ecoinvent database and its ammount was based on the commercial product.
Product flow
3: Other transportable goods, except metal products, machinery and equipment / 34: Basic chemicals / 346: Fertilizers and pesticides / 3464: Mineral or chemical fertilizers containing at least two nutrients of nitrogen, phosphate and potash / 34643: Monoammonium phosphate 0.0862 kg0.0862 kg 0.010882733886666243 0.6827732881628148
Comentário geral Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07 The amount of fertiliser was obtained from interviews with producers and experts. The nutrient content in the input was obtained from technical literature and technical regulation documents. The selection of the fertiliser from the ecoinvent database and its ammount was based on the commercial product.
Product flow
3: Other transportable goods, except metal products, machinery and equipment / 34: Basic chemicals / 346: Fertilizers and pesticides / 3462: Mineral or chemical fertilizers, phosphatic / 34621: Superphosphate 0.00975 kg0.00975 kg 0.001230935677436147 0.0772278371181838
Comentário geral Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07 The amount of fertiliser was obtained from interviews with producers and experts. The nutrient content in the input was obtained from technical literature and technical regulation documents. The selection of the fertiliser from the ecoinvent database and its ammount was based on the commercial product.
Elementary flow
Land use / Land transformation 0.219 m20.219 m2 0.027920550996916513 1.7177669597314433
Comentário geral Uncertainty Comment: Pedigree: (2,1,1,1,1); Basic Variance: 1.06 The LUC input comprises the actual data related to land transformation. This land transformation flow is irrelevant to LUC and the amounts are equal in both the 'land transformation from' and 'land transformation to'.
Elementary flow
Land use / Land transformation 0.219 m20.219 m2 0.027920550996916513 1.7177669597314433
Comentário geral Uncertainty Comment: Pedigree: (2,1,1,1,1); Basic Variance: 1.06 The LUC input comprises the actual data related to land transformation. This land transformation flow is irrelevant to LUC and the amounts are equal in both the 'land transformation from' and 'land transformation to'.
Elementary flow
Land use / Land occupation 4.39 m2*a4.39 m2*a 0.537839802282911 35.83241686129919
Comentário geral Uncertainty Comment: Pedigree: (3,1,1,1,1); Basic Variance: 1.1 The land occupation was calculated based on crop yield
Elementary flow
Resources / Resources from air / Renewable material resources from air 1.65 kg1.65 kg 0.20831219156611716 13.069326281538798
Comentário geral Uncertainty Comment: Pedigree: (2,2,1,1,1); Basic Variance: 1.07 Carbon dioxide (CO2) absorption from air during photosynthesis was also included, according to Nemecek and Schnetzer (2012). It considers the carbon content of the reference product based on the ecoinvent database (Jungbluth et al., 2007).

Saídas

Tipo de fluxo Classificação Fluxo Variável Valor médio Valor resultante Montante mínimo Montante máximo
Product flow
0: Agriculture, forestry and fishery products / 01: Products of agriculture, horticulture and market gardening / 016: Stimulant, spice and aromatic crops / 0161: Coffee, green / 01610: Coffee, green 1.0 kg1.0 kg
Comentário geral This dataset represents the production of 1 kg of green coffee beans (Arabic) in the South region in the state of Minas Gerais, which is composed of the coffee production region of South/Southwest. Planting is a manual activity while cultivation and harvesting are a combination of manual and mechanized practices. The period of 20 years was adopted as the average life span of a coffee plantation, from the cleaning of the land to the last year of the coffee plantation in production, before a new cleaning. In this study, it was assumed that the phases of implantation and formation of the coffee plantation last one year and two years, respectively. For the formation phase, the data collected correspond to the average of two years. The full production phase lasts 18 years. Grain production data were “annualized” (ie calculated for the reference of 1 hectare of coffee per year). Therefore, the input flows (natural resources, agricultural inputs and energy) and outflows (emissions to air, water and soil) of the initial phases were divided by 20. The input flows of the full production phase correspond to the average of two consecutive agricultural years, considering the behavior of the coffee plantation of alternating years of higher and lower production in succession. Mineral fertiliser input is 18.7 kg ammonium sulphate/ha, 919 kg ammonium nitrate/ha, 197 kg monoammonium phosphate/ha, 22.2 kg single superphosphate/ha, 670 kg potassium chloride/ha, 4 kg N (inorganic nitrogen fertiliser)/ha and 25.1 kg P2O5 (inorganic phosphorus fertiliser)/ha. Total active ingredients (a.i.) applied as pesticides amount to 12.4 kg a.i./ha. The cattle manure input is 250 kg/ha. The average productivity is 2280 kg/ha, at 10% moisture Production Volume Comment: IBGE, 2020. Brazilian Institute of Geography and Statistic. Municipal Agricultural Production – PAM. Produção Agrícola Municipal [in Portuguese]. Available at: https://sidra.ibge.gov.br/home/ipp/brasil
Elementary flow
Emissions / Emissions to air / Emissions to non-urban air or from high stacks 3.23E-8 kg3.23E-8 kg 3.889854262858597E-9 2.6820799173933605E-7
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,1,3); Basic Variance: 1.11 Emissions derived from fuel combustion (diesel 88%, and biodiesel 12%), using emission factors from Nemecek & Kagi (2007)
Elementary flow
Emissions / Emissions to air / Emissions to non-urban air or from high stacks 2.45E-6 kg2.45E-6 kg 2.950508651394292E-7 2.0343949837813418E-5
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,1,3); Basic Variance: 1.11 Emissions derived from fuel combustion (diesel 88%, and biodiesel 12%), using emission factors from Nemecek & Kagi (2007)
Elementary flow
Emissions / Emissions to soil / Emissions to agricultural soil 3.16E-5 kg3.16E-5 kg 3.432047838868672E-6 2.909516553618792E-4
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,2,1); Basic Variance: 1.23 All the pesticides emissions were destinated to agricultural soil, according to Nemecek and Schnetzer (2012).
Elementary flow
Emissions / Emissions to water / Emissions to fresh water 6.24400986842105E-12 kg6.24400986842105E-12 kg 7.576752180490365E-13 5.1456954521133876E-11
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,2,1); Basic Variance: 1.11 Emissions of heavy metals to surface water are calculated according to Schmidt (2007)
Elementary flow
Emissions / Emissions to soil / Emissions to agricultural soil 4.26E-4 kg4.26E-4 kg 4.62674803594321E-5 0.003922322948865839
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,2,1); Basic Variance: 1.23 All the pesticides emissions were destinated to agricultural soil, according to Nemecek and Schnetzer (2012).
Elementary flow
Emissions / Emissions to air / Emissions to non-urban air or from high stacks 5.69E-5 kg5.69E-5 kg 6.917605452701604E-6 4.680246686713801E-4
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,1,3); Basic Variance: 1.1 Emissions derived from fuel combustion (diesel 88%, and biodiesel 12%), using emission factors from Nemecek & Kagi (2007)
Elementary flow
Emissions / Emissions to air / Emissions to non-urban air or from high stacks 1.01E-4 kg1.01E-4 kg 1.2163321379217286E-5 8.386689524976144E-4
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,1,3); Basic Variance: 1.11 Emissions derived from fuel combustion (diesel 88%, and biodiesel 12%), using emission factors from Nemecek & Kagi (2007)
Elementary flow
Emissions / Emissions to air / Emissions to non-urban air or from high stacks 0.006864 kg0.006864 kg 8.13806777623328E-4 0.05789395873255684
Comentário geral Uncertainty Comment: Pedigree: (4,3,1,3,3); Basic Variance: 1.12 Emissions of NOx from applied mineral fertilisers, according to WFLDB (2019) plus emissions from burning plant residues during coffee area renovation, according to IPCC (2019)
Elementary flow
Emissions / Emissions to air / Emissions to non-urban air or from high stacks 0.00445034 kg0.00445034 kg 4.8570720509593773E-4 0.04077667761112989
Comentário geral Uncertainty Comment: Pedigree: (4,3,1,3,3); Basic Variance: 1.21 Direct and indirect N2O emissions according to IPCC (2019) plus emissions derived from fuel combustion (diesel 88%, and biodiesel 12%), using emission factors from Nemecek & Kagi (2007) plus emissions from burning coffee husks and from burning plant residues during coffee area renovation according to IPCC (2019)
Elementary flow
Emissions / Emissions to air / Emissions to non-urban air or from high stacks 0.3362 kg0.3362 kg 0.04092780812557924 2.7617027438456385
Comentário geral Uncertainty Comment: Pedigree: (4,3,1,3,1); Basic Variance: 1.1 Carbon dioxide releases from urea and limestone application, according to IPCC (2006) plus emissions derived from fuel combustion (diesel 88%, and biodiesel 12%), using emission factors from Nemecek & Kagi (2007)
Elementary flow
Emissions / Emissions to water / Emissions to fresh water 8.25E-5 kg8.25E-5 kg 1.0010907542792245E-5 6.798834142565259E-4
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,2,1); Basic Variance: 1.11 Only the phosphorus emission to surface water caused by soil erosion was calculated, according to Nemecek et al., 2015. Required technical parameters are available in the BRCalc/ICVCalc tool (Folegatti-Matsuura et al., 2022).
Elementary flow
Emissions / Emissions to soil / Emissions to agricultural soil 0.00193 kg0.00193 kg 2.3419456433441252E-4 0.01590515138806176
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,2,1); Basic Variance: 1.11 All the pesticides emissions were destinated to agricultural soil, according to Nemecek and Schnetzer (2012).
Elementary flow
Emissions / Emissions to air / Emissions to non-urban air or from high stacks 0.00324038 kg0.00324038 kg 3.227398747915226E-4 0.0325341346531247
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,2,3); Basic Variance: 1.32 Ammonia releases to air, according to the AGRAMMON model: 'Plant production' (Nemecek & Schnetzer, 2011)
Elementary flow
Emissions / Emissions to soil / Emissions to agricultural soil 1.8E-4 kg1.8E-4 kg 1.9549639588492437E-5 0.0016573195558588054
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,2,1); Basic Variance: 1.23 All the pesticides emissions were destinated to agricultural soil, according to Nemecek and Schnetzer (2012).
Elementary flow
Emissions / Emissions to air / Emissions to non-urban air or from high stacks 0.00261101 kg0.00261101 kg 2.8496392850378726E-4 0.023923635724334827
Comentário geral Uncertainty Comment: Pedigree: (4,3,1,3,3); Basic Variance: 1.21 Emissions derived from fuel combustion (diesel 88%, and biodiesel 12%), using emission factors from Nemecek & Kagi (2007) plus emissions from burning coffee husks and from burning plant residues during coffee area renovation, according to IPCC (2019)
Elementary flow
Emissions / Emissions to soil / Emissions to agricultural soil 6.8E-5 kg6.8E-5 kg 7.385419400097142E-6 6.260984988799932E-4
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,2,1); Basic Variance: 1.23 All the pesticides emissions were destinated to agricultural soil, according to Nemecek and Schnetzer (2012).
Elementary flow
Emissions / Emissions to water / Emissions to fresh water 7.71785047149123E-10 kg7.71785047149123E-10 kg 9.365174242326574E-11 6.36028912639854E-9
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,2,1); Basic Variance: 1.11 Emissions of heavy metals to surface water are calculated according to Schmidt (2007)
Elementary flow
Emissions / Emissions to soil / Emissions to agricultural soil -5.35324985593202E-6 kg-5.35324985593202E-6 kg -2.3832804108124526 2.383269704312741
Comentário geral Uncertainty Comment: Emissions of heavy metals to soil estimated based on WFLDB adapted to Brazil Pedigree: (5,5,5,5,5); Basic Variance: 1.21 Heavy metals emissions to agricultural soil through erosion are estimated by using the SALCA-heavy metal model (Nemecek et al., 2015).
Elementary flow
Emissions / Emissions to soil / Emissions to agricultural soil 3.42E-5 kg3.42E-5 kg 3.7144315218135623E-6 3.14890715613173E-4
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,2,1); Basic Variance: 1.23 All the pesticides emissions were destinated to agricultural soil, according to Nemecek and Schnetzer (2012).
Elementary flow
Emissions / Emissions to soil / Emissions to agricultural soil 1.75E-6 kg1.75E-6 kg 1.9353585715849776E-7 1.582394107719243E-5
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,2,1); Basic Variance: 1.21 All the pesticides emissions were destinated to agricultural soil, according to Nemecek and Schnetzer (2012).
Elementary flow
Emissions / Emissions to air / Emissions to non-urban air or from high stacks 1.06E-6 kg1.06E-6 kg 1.2765466001950815E-7 8.801872174727438E-6
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,1,3); Basic Variance: 1.11 Emissions derived from fuel combustion (diesel 88%, and biodiesel 12%), using emission factors from Nemecek & Kagi (2007)
Elementary flow
Emissions / Emissions to air / Emissions to non-urban air or from high stacks 6.24E-8 kg6.24E-8 kg 7.514764891714442E-9 5.181479468896152E-7
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,1,3); Basic Variance: 1.11 Emissions derived from fuel combustion (diesel 88%, and biodiesel 12%), using emission factors from Nemecek & Kagi (2007)
Elementary flow
Emissions / Emissions to soil / Emissions to agricultural soil 2.10742055515351E-8 kg2.10742055515351E-8 kg -2.3832750364883912 2.383275078636802
Comentário geral Uncertainty Comment: Emissions of heavy metals to soil estimated based on WFLDB adapted to Brazil Pedigree: (5,5,5,5,5); Basic Variance: 1.21 Heavy metals emissions to agricultural soil through erosion are estimated by using the SALCA-heavy metal model (Nemecek et al., 2015).
Elementary flow
Emissions / Emissions to air / Emissions to non-urban air or from high stacks 0.0738 kg0.0738 kg 0.008899422828901061 0.6119992391318426
Comentário geral Uncertainty Comment: Pedigree: (4,3,1,3,1); Basic Variance: 1.11 Emissions from burning plant residues during coffee area renovation, according to IPCC (2019)
Elementary flow
Emissions / Emissions to air / Emissions to non-urban air or from high stacks 1.39E-7 kg1.39E-7 kg 1.6739620511992107E-8 1.154207766308598E-6
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,1,3); Basic Variance: 1.11 Emissions derived from fuel combustion (diesel 88%, and biodiesel 12%), using emission factors from Nemecek & Kagi (2007)
Elementary flow
Emissions / Emissions to soil / Emissions to agricultural soil 3.37518121680811E-6 kg3.37518121680811E-6 kg -2.38327168238138 2.3832784327438135
Comentário geral Uncertainty Comment: Emissions of heavy metals to soil estimated based on WFLDB adapted to Brazil Pedigree: (5,5,5,5,5); Basic Variance: 1.21 Heavy metals emissions to agricultural soil through erosion are estimated by using the SALCA-heavy metal model (Nemecek et al., 2015).
Elementary flow
Emissions / Emissions to air / Emissions to non-urban air or from high stacks 1.9E-10 kg1.9E-10 kg 2.2881495663874102E-11 1.5776940690549181E-9
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,1,3); Basic Variance: 1.11 Emissions derived from fuel combustion (diesel 88%, and biodiesel 12%), using emission factors from Nemecek & Kagi (2007)
Elementary flow
Emissions / Emissions to air / Emissions to non-urban air or from high stacks 1.33E-9 kg1.33E-9 kg 1.601704696471187E-10 1.1043858483384427E-8
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,1,3); Basic Variance: 1.11 Emissions derived from fuel combustion (diesel 88%, and biodiesel 12%), using emission factors from Nemecek & Kagi (2007)
Elementary flow
Emissions / Emissions to soil / Emissions to agricultural soil 1.18E-7 kg1.18E-7 kg 1.3049846368401563E-8 1.0669857412049754E-6
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,2,1); Basic Variance: 1.21 All the pesticides emissions were destinated to agricultural soil, according to Nemecek and Schnetzer (2012).
Elementary flow
Emissions / Emissions to soil / Emissions to agricultural soil 6.58E-5 kg6.58E-5 kg 7.146479360682235E-6 6.058423709750522E-4
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,2,1); Basic Variance: 1.23 All the pesticides emissions were destinated to agricultural soil, according to Nemecek and Schnetzer (2012).
Elementary flow
Emissions / Emissions to air / Emissions to non-urban air or from high stacks 1.9E-10 kg1.9E-10 kg 2.2881495663874102E-11 1.5776940690549181E-9
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,1,3); Basic Variance: 1.11 Emissions derived from fuel combustion (diesel 88%, and biodiesel 12%), using emission factors from Nemecek & Kagi (2007)
Elementary flow
Emissions / Emissions to water / Emissions to fresh water 1.0469108004386E-10 kg1.0469108004386E-10 kg 1.2703669368171453E-11 8.627603508172459E-10
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,2,1); Basic Variance: 1.11 Emissions of heavy metals to surface water are calculated according to Schmidt (2007)
Elementary flow
Emissions / Emissions to air / Emissions to non-urban air or from high stacks 0.0074 kg0.0074 kg 8.923540505944154E-4 0.06136577736552352
Comentário geral Uncertainty Comment: Pedigree: (4,3,1,3,1); Basic Variance: 1.11 Emissions derived from fuel combustion (diesel 88%, and biodiesel 12%), using emission factors from Nemecek & Kagi (2007)
Elementary flow
Emissions / Emissions to air / Emissions to non-urban air or from high stacks 9.49E-10 kg9.49E-10 kg 1.0233106091573531E-10 8.800856669917664E-9
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,1,3); Basic Variance: 1.23 Emissions derived from fuel combustion (diesel 88%, and biodiesel 12%), using emission factors from Nemecek & Kagi (2007)
Elementary flow
Emissions / Emissions to air / Emissions to non-urban air or from high stacks 5.69E-10 kg5.69E-10 kg 6.85240580670756E-11 4.724778554169729E-9
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,1,3); Basic Variance: 1.11 Emissions derived from fuel combustion (diesel 88%, and biodiesel 12%), using emission factors from Nemecek & Kagi (2007)
Elementary flow
Emissions / Emissions to soil / Emissions to agricultural soil 7.62471026539145E-6 kg7.62471026539145E-6 kg -2.3832674328523313 2.383282682272862
Comentário geral Uncertainty Comment: Emissions of heavy metals to soil estimated based on WFLDB adapted to Brazil Pedigree: (5,5,5,5,5); Basic Variance: 1.21 Heavy metals emissions to agricultural soil through erosion are estimated by using the SALCA-heavy metal model (Nemecek et al., 2015).
Elementary flow
Emissions / Emissions to air / Emissions to non-urban air or from high stacks 1.9E-8 kg1.9E-8 kg 2.0487778265531836E-9 1.7620260982975304E-7
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,1,3); Basic Variance: 1.23 Emissions derived from fuel combustion (diesel 88%, and biodiesel 12%), using emission factors from Nemecek & Kagi (2007)
Elementary flow
Emissions / Emissions to soil / Emissions to agricultural soil 1.04680610935855E-6 kg1.04680610935855E-6 kg -2.3832740107564874 2.383276104368706
Comentário geral Uncertainty Comment: Emissions of heavy metals to soil estimated based on WFLDB adapted to Brazil Pedigree: (5,5,5,5,5); Basic Variance: 1.21 Heavy metals emissions to agricultural soil through erosion are estimated by using the SALCA-heavy metal model (Nemecek et al., 2015).
Elementary flow
Emissions / Emissions to soil / Emissions to agricultural soil 4.3859649122807E-8 kg4.3859649122807E-8 kg 5.2919658202650666E-9 3.635074160549645E-7
Comentário geral Uncertainty Comment: Pedigree: (4,2,1,1,1); Basic Variance: 1.11 Heavy metals emissions to agricultural soil through erosion are estimated by using the SALCA-heavy metal model (Nemecek et al., 2015).
Elementary flow
Emissions / Emissions to water / Emissions to fresh water 7.12684879385965E-10 kg7.12684879385965E-10 kg 8.648027193550228E-11 5.8732439889203664E-9
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,2,1); Basic Variance: 1.11 Emissions of heavy metals to surface water are calculated according to Schmidt (2007)
Elementary flow
Emissions / Emissions to soil / Emissions to agricultural soil 5.39E-6 kg5.39E-6 kg 5.960904400481731E-7 4.8737738517752694E-5
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,2,1); Basic Variance: 1.21 All the pesticides emissions were destinated to agricultural soil, according to Nemecek and Schnetzer (2012).
Elementary flow
Emissions / Emissions to water / Emissions to fresh water 3.04210823464912E-10 kg3.04210823464912E-10 kg 3.69142597239264E-11 2.507004767407438E-9
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,2,1); Basic Variance: 1.11 Emissions of heavy metals to surface water are calculated according to Schmidt (2007)
Elementary flow
Emissions / Emissions to air / Emissions to non-urban air or from high stacks 1.92E-5 kg1.92E-5 kg 2.29053873757612E-6 1.6094030367288175E-4
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,1,3); Basic Variance: 1.12 Emissions derived from fuel combustion (diesel 88%, and biodiesel 12%), using emission factors from Nemecek & Kagi (2007)
Elementary flow
Emissions / Emissions to soil / Emissions to agricultural soil 9.54E-4 kg9.54E-4 kg 1.0361308981900991E-4 0.008783793646051669
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,2,1); Basic Variance: 1.23 All the pesticides emissions were destinated to agricultural soil, according to Nemecek and Schnetzer (2012).
Elementary flow
Emissions / Emissions to soil / Emissions to agricultural soil 3.07E-4 kg3.07E-4 kg 3.334299640926209E-5 0.002826650575825851
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,2,1); Basic Variance: 1.23 All the pesticides emissions were destinated to agricultural soil, according to Nemecek and Schnetzer (2012).
Elementary flow
Emissions / Emissions to water / Emissions to fresh water 0.22 kg0.22 kg 0.026695753447445986 1.8130224380174025
Comentário geral Uncertainty Comment: Pedigree: (3,2,1,2,1); Basic Variance: 1.11 The SQCB-NO3 model was used according to Nemecek et al. (2015), considering only the quantity of water from precipitation (no irrigation was applied). Technical parameters are available in the BRCalc/ICVCalc tool (Folegatti-Matsuura et al., 2022).