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Development of a calculation model and production cost index for feedlot beef cattle

ABSTRACT

The objective of this study was to develop a feedlot beef cattle calculation model and production cost analysis and, from the results obtained, devise a production cost index. A case study was conducted to understand the characteristics of the productive processes of a commercial feedlot. Then, based on the Economic Theory, cost items of the farm under analysis were identified and transferred to a spreadsheet. The survey included ten feedlot farmers from the state of São Paulo and other nine from the state of Goiás and was carried out to determine representative properties, and prices of items used were monitored. Production costs of each farm were calculated, and theoretical concepts of index numbers were used to devise the feedlot cattle production cost index. The cost allocation scheme was divided into four cost groups: variable, semi-fixed, fixed, and production remuneration factors. The developed model allowed a cost prognosis of the analyzed systems. Highest total costs for São Paulo State feedlots were R$ 9.17 kg−1 and R$ 9.08 kg−1 for average-sized and large farms, respectively, as contrasted to that of Goiás, of R$ 8.29 kg−1. Between the months April and June, the cost of production for feedlot beef cattle showed reductions of 1.48 and 1.40% for the average and large feedlots in the State of São Paulo and 9.13% for the Goiás feedlot by the Konüs Exact Index, respectively. Studies available in literature were compared and it was concluded that the model can help feedlot cattle farmers take production decisions. The Konüs Index allows for a methodological advancement in relation to other studies carried out on the Brazilian livestock industry; besides, it can contribute to the sector organization.

Key Words
economic indicators; economy; livestock; mathematical model; production systems; survey

Introduction

Brazilian beef cattle production has evolved over time and production costs have pushed profit margins of farmers, especially those of feedlot beef cattle farmers (Lobato et al., 2014Lobato, J. F. P.; Freitas, A. K.; Devincenzi, T.; Cardoso, L. L.; Tarouco, J. U.; Vieira, R. M.; Dillenburg, D. R. and Castro, I. 2014. Brazilian beef produced on pastures: sustainable and healthy. Meat Science 98:336-345. https://doi.org/10.1016/j.meatsci.2014.06.022
https://doi.org/10.1016/j.meatsci.2014.0...
; Kamali et al., 2016Kamali, F. P.; Linden, A.; Meuwissen, M. P. M.; Malafaia, G. C.; Lansink, A. G. J. M. O. and Boer, I. J. M. 2016. Environmental and economic performance of beef farming systems with different feeding strategies in southern Brazil. Agricultural Systems 146:70-79. https://doi.org/10.1016/j.agsy.2016.04.003
https://doi.org/10.1016/j.agsy.2016.04.0...
). The changes in the sector have raised a debate over whether there are economic advantages of using feedlots as a productive system strategy.

Production cost monitoring of feedlot cattle in Brazil has aroused interest since the system was first introduced, as reported by Wedekin and Amaral (1991)Wedekin, V. P. and Amaral, A. M. P. 1991. Confinamento de bovinos em 1991. Informações Econômicas 21:9-18. and Wedekin et al. (1994)Wedekin, V. P.; Bueno, C. R. and Amaral, A. M. P. 1994. Análise econômica do confinamento de bovinos. Informações Econômicas 24:123-131.. In more recent studies, although complex cost analyses have been performed, there have been difficulties in comparing and following production costs.

Some agencies, such as CEPEA – Centro de Estudos Avançados em Economia Aplicada – and CNA – Confederação da Agricultura e Pecuária do Brasil – have monitored costs on a regular basis and have developed a cost index for extensive beef cattle production (CEPEA and CNA, 2017CEPEA - Centro de estudos avançados em economia aplicada and CNA - Confederação da Agricultura e Pecuária do Brasil. 2017. Metodologia boi e leite. Available at: <http://www.cepea.esalq.usp.br/br/metodologia-boi-leite.aspx>. Accessed on: Mar. 02, 2017.
http://www.cepea.esalq.usp.br/br/metodol...
). The Milk Cattle branch of Empresa Brasileira de Pesquisa Agropecuária (EMBRAPA) calculated the Milk Production Cost Index (Carneiro et al., 2010Carneiro, A. V.; Carvalho, G. R.; Yamaguchi, L. C. T. and Alves, J. D. 2010. Índice de custo de produção de leite e o comportamento da relação de troca entre o preço recebido pelo produtor e o custo de produção entre 2006 e 2009. In: Anais do 48º Congresso da Sociedade Brasileira de Economia, Administração e Sociologia Rural. Sociedade Brasileira de Economia, Administração e Sociologia Rural, Campo Grande.); Raineri et al. (2015aRaineri, C.; Stivari, T. S. S. and Gameiro, A. H. 2015a. Development of a cost calculation model and cost index for sheep production. Revista Brasileira de Zootecnia 44:443-455. https://doi.org/10.1590/S1806-92902015001200005
https://doi.org/10.1590/S1806-9290201500...
) developed the Lamb Production Cost Index for the state of São Paulo; in addition, EMBRAPA developed the Swine and Poultry Production Cost Indexes (Girotto and Santos Filho, 2000Girotto, A. F. and Santos Filho, J. I. 2000. Custo de produção de suínos. Documentos Embrapa Suínos e Aves Nº 62, Concórdia.; Miele et al., 2010Miele, M.; Martins, F. M.; Santos Filho, J. I. and Sandi, A. J. 2010. Metodologia para o cálculo do custo de produção de frango de corte: versão 2. Documentos Embrapa Suínos e Aves Nº 140, Concórdia.). Despite the relevance of this issue, the calculation and monitoring of costs have not been properly discussed in feedlot cattle studies.

The difficulty of performing a full cost analysis occurs, among other reasons, because there is no previously defined standard protocol, once there are different ways of conceptualizing costs (Gameiro, 2009Gameiro, A. H. 2009. Análise econômica aplicada à Zootecnia: avanços e desafios. p.9-32. In: Novos desafios da pesquisa em nutrição e produção animal. 5D, Pirassununga.). Due to this methodological diversity, it is difficult to compare costs and economic indicators between different studies and farms, and it is necessary to first define which cost items will be considered in the analysis.

The objective of this study was to develop a feedlot cattle calculation model and production cost analysis for the states of São Paulo and Goiás and, from the results obtained, devise a production cost index to follow cost behavior over time.

Material and Methods

To accomplish better results, the study was divided into two stages. The first stage was subdivided into two phases: a case study was carried out to understand the holistic characteristics of a commercial feedlot productive process; and cost items were identified, and a spreadsheet based on the Economic Theory was devised.

After the development of the cost calculation model, the second stage was initiated, which was divided into four phases: a survey with feedlot cattle farmers from the states of São Paulo and Goiás to determine three representative farms; monthly monitoring of prices of items used; production cost calculations on each farm; and the establishment of a feedlot cattle production cost index (ICBC).

The case study followed the methodology proposed by Yin (2010)Yin, R. K. 2010. Estudo de caso: planejamento e métodos. 4a ed. Bookman, Porto Alegre., in which questions and propositions are formulated to guide the field research, which was a feedlot cattle unit in the state of São Paulo in this study. Data collection was performed during scheduled visits with the presence of the owner and/or managers between October 2014 and February 2015.

The Microsoft Excel® software was used as a calculation tool. The cost allocation scheme was based on the Economic Theory and on a study performed by Raineri et al. (2015a)Raineri, C.; Stivari, T. S. S. and Gameiro, A. H. 2015a. Development of a cost calculation model and cost index for sheep production. Revista Brasileira de Zootecnia 44:443-455. https://doi.org/10.1590/S1806-92902015001200005
https://doi.org/10.1590/S1806-9290201500...
; however, cost method adaptations had to be made.

The variable cost method allows the understanding and decision-making processes by managers, in this case by feedlot cattle farmers (Carareto et al., 2006Carareto, E. S.; Jayme, G.; Tavares, M. P. and Vale, V. P. 2006. Gestão estratégica de custos: custos na tomada de decisão. Revista de Economia da Universidade Estadual de Goiás 2:1-24.). From this, cost items were grouped into the following categories: variable costs, semi-fixed costs, fixed costs, and production factor income (Table 1).

Table 1
Production cost allocation scheme for each beef cattle feedlot unit

Variable costs (CV) included all items that varied according to the number of animals raised: animal purchase, feed, health and identification management, and others, including feedlot cleaning and dead animal disposal, as well as variable taxes related to the activity.

One of the methodological innovations of the study was the use of semi-fixed costs (CSF) which, according to Powers (1987)Powers, T. L. 1987. Breakeven analysis with semifixed costs. Industrial Marketing Management 16:35-41., include a base cost – even if the amount produced is zero. According to this method, costs are supposed to increase as greater quantities are produced, but to a lesser extent when compared with variable cost changes. The items included in this group were electricity, telephone and internet services, and fuel; managing and/or animal consultancy services were also included as semi-fixed costs (Table 1).

Fixed costs (CF) are those that do not change when the production volume varies, that is, in the short term (Young, 1958Young, H. B. 1958. Certain cost concepts. The Journal of Higher Education 29:89-94 and 116.; Rushton, 2009Rushton, J. 2009. The economics of animal health and production. CABI Head Office, London.). Items included in this group were labor, depreciation, maintenance, and fixed taxes. Among available depreciation methods, a linear method that considers the same discount rate over the years, easier to understand and more frequently employed, was chosen (Croitoru et al., 2015Croitoru, E. L.; Toader, S. A.; Silvia, O. and Pletescu, C. 2015. The impact of fiscal depreciation over the economic and fiscal performance of the company. Romanian Economic and Business Review 10:119-129.).

Even though the opportunity cost (CO) group includes variable, semi-fixed, and fixed-cost items, these were separated from other costs. The CO was divided into three items and sub-items (Table 1) to facilitate understanding as well as to allow the development of other economic indexes such as the effective operational cost (COE) and the total operational cost (COT) based on a study by Matsunaga et al. (1976)Matsunaga, M.; Bemelmans, P. F.; Toledo, P. E. N.; Dulley, R. D.; Okawa, H. and Pedroso, I. A. 1976. Metodologia de custo de produção utilizada pelo IEA. In: Anais do Seminário Internacional Sobre Custos de Produção Agrícola. Sociedade Brasileira de Economia Rural e Instituto de Economia Agrícola, São Paulo, SP., adapted; there were also costs used in the field by technicians and feedlot cattle farmers on a daily basis, such as the daily operating cost (COPd) and cattle daily cost (CDB) (Table 1).

For the second stage, after the calculation model was fully developed, a survey was performed to select representative farms. In this method, the sampling of a diverse group of individuals allows managers to understand different productive environments and experiences on the investigated subject (Pinsonneault and Kraemer, 1993Pinsonneault, A. and Kraemer, K. L. 1993. Survey research methodology in management information systems: an assessment. Journal of Management Information Systems 10:75-105. https://doi.org/10.1080/07421222.1993.11518001
https://doi.org/10.1080/07421222.1993.11...
).

Representative farms were established to bring cost analysis and field reality close together without, however, representing any specific feedlots, according to Marshall's (1996)Marshall, A. 1996. Conclusão: correlação entre as tendências ao rendimento crescente e ao rendimento decrescente. p.359-365. In: Princípios de economia: tratado introdutório. Nova Cultural, São Paulo. conception. The design was based on a preliminary data examination which included a feedlot that could show representative structure and operation for input and final product trade.

Information was collected through a semi-structured form containing 45 questions related to technical and general aspects as well as activity expectations, which was applied during interviews with feedlot cattle farmers. Interviews were carried out in 19 commercial feedlot beef cattle farms, ten of which located in São Paulo and nine in Goiás. São Paulo was chosen because of the historical tradition in beef cattle production in Brazil, because it has a large and representative slaughter capacity for cattle, and because it hosts the research center where the study was developed. Goiás is among the largest beef cattle producers in feedlot system in the country. Additionally, the state presents different technical characteristics of São Paulo, thus allowing diversity in the results. These data were collected in the field from July 2015 to February 2016.

All study guarantees were agreed upon by both parties involved, who signed a Free and Informed Consent Agreement as required by the Ethics Committee of the educational institution – case number 2999120215. In this form, among other guarantees, researchers were committed to keep confidential all strategic information collected and use it only within the context of the present research.

Reference parameters of proposed farms were based on survey data, contacts, and validations with technicians and technical experts in the area. The quantities of production inputs considered were those actually used in the activity in a one-year period. Therefore, for the cost estimates, stocked quantities were disregarded, so that the calculated total costs would represent annual costs.

Prices of all inputs included in the three representative farms were updated for the months of April, May, and June 2017 in the study. A database containing a list of suppliers, including representatives, machinery dealers, equipment, vehicles, service providers, and cooperatives from São Paulo and Goiás was organized to update prices by telephone. Values of interest were those practiced by the spot market in the months in question. The average price for each input was preferably defined from three suppliers, and only new items were considered so that this would be an objective price survey over time.

As animal feed plays a significant role in the cost of the activity and feedlot beef cattle farmers change the quantities and ingredients used according to price fluctuations in the agricultural commodity market, a Linear Programming model to calculate diet composition according to relative price changes was proposed. For such, the RLM® software version 3.2 was used to find the minimum cost of diet. Thus, relative price composition was calculated for each period, maintaining the desired animal performance unchanged and opting for a minimum cost diet per kilo of dry matter. The maintenance of these productive indexes was necessary to compare and understand the behavior of costs among representative farms over time.

The calculation formula used to monitor the evolution of feedlot cattle production costs was the Konüs exact index (Konüs, 1939Konüs, A. A. 1939. The problem of the true index of the cost of living. Econometrica 7:10-29.). The use of this index was another methodological novelty in this study, since it is characterized by the flexibility of quantities consumed between two periods in which the comparison is made, for example, the base month diet and the current diet as demonstrated in Equation 1 (Tables 2 and 3).

Table 2
Equations that make up the cost calculation model for finishing beef feedlot cattle
Table 3
Acronyms and definitions of formulas used in the calculation model

Finally, in addition to estimating the change in production costs on a monthly basis, results between farms, even when located in different states and/or showing different production scales, were compared.

Results

According to the cost allocation (Table 1), item organization was divided into four groups: variable costs, semi-fixed costs, fixed costs, and production factor remuneration costs. The sum of these items resulted in the total cost of the activity, as described in Equation 2 (Tables 2 and 3). Mathematical equations and classifications were used to transfer the feedlot cattle production cost calculation model to a spreadsheet.

Variable costs were calculated according to Equations 3 and 4. Health management items were included in the cost group according to data collected in the field. Therefore, drugs for the prevention and control of endo- and ectoparasites as well as bacteria of the genus ClostridiumC. botulinum (botulism) and C. chauvoei (symptomatic carbuncle) – were prescribed for average-sized representative feedlot (SPFa) animals. On the other large production representative farms of São Paulo (SPFl) and Goiás (GOF), bovine respiratory system diseases were treated in addition to drug prescription, as described previously.

Cost items for animal identification, among which cattle management ear tags, traceability, and electronic chips, did not differ among the three representative farms. Due to the reuse of electronic chips, their cost was divided by four, the number of times this input is used, on average.

Still within the CV group, variable taxes showed different figures among representative farms. The SPFl was taxed as a legal entity based on a deemed profit system for providing third party services; on the other hand, SPFa and GOF feedlots were taxed as private individuals.

The new cost item proposed by this study – semi-fixed costs (CSF) – was calculated by Equations 5 and 6. Quantities consumed by each representative farm were assigned according to operational capacity.

Fixed costs are shown in Equation 7. The linear depreciation method (Equation 8) was used to calculate the residual value of production assets; in practice, it was calculated as a percentage in relation to the new asset rather than a real value; this variable had to be included in the calculation (Equation 9). Table 4 data were considered standard in this study for useful life and residual depreciation value calculation of all items used in the cattle feedlot operation, as well as maintenance (Equation 10).

Table 4
Production assets used in the cattle feedlot activity

Other differences observed among representative farms were related to pen construction structures (Table 5), as well as management and animal performance and structural parameters in general (Table 6).

Table 5
Materials and measurements employed in the construction of pens in the representative properties studied
Table 6
Reference data from representative farms

In São Paulo, farms were further subdivided into two groups according to the operational size identified by the survey: average-capacity production farmers (SPFa), that is, annual slaughter of 3,000 animals, and large-capacity production farmers (SPFl), with annual slaughter of 27,000 animals. In Goiás, a feedlot was defined with annual slaughter of 16,500 animals (Table 6).

The production factor income is summarized in Equation 11. The Working Opportunity Cost of Capital (COG), although usually a variable cost item, was subdivided into animals, food, and other items. The opportunity cost of the working capital of animals corresponded to the amount spent on their acquisition (Equation 13). Feed COG, in turn, took into consideration half the days on which the animals remained in feedlots (Equation 14), based on the practice of cattle feedlot farmers of buying food supplies frequently.

The third COG sub-item (for other items, see Equation 15) was calculated from the effective operational cost (COE), which was the sum of items 1 to 11 (in Table 1), represented by Equation 16. The COG was then calculated by Equation 12, and its remuneration made use of the Selic (Basic Interest Rate) average in the last 12 months previous to the research period. In the months included in the price survey, values for this rate were 13.1, 13.2, and 13.0% for the months of April, May, and June of 2017, respectively.

To calculate the opportunity cost of fixed assets, all fixed assets that make up the production system (acquisition of machinery, vehicles, equipment, office materials, buildings, facilities, work animals, and others) were added. These assets were connected to the long-term interest rate (TJLP), which has been institutionalized by the Federal Government to remunerate fixed capital, corresponding to 7.0% annually in this study (Equation 17).

Land use remuneration, expressed in a more simplified way than that of other opportunity costs, is shown in Equation 18. The method adopted considered that the area (in hectares – ha) where the farm was located should be compared to the most profitable lease in the region. Values per ha were R$ 1,170.31 for São Paulo and R$ 690.00 for Goiás in June 2017.

In addition to the COE index, the COT, which is often referred to in technical and scientific articles, is calculated in Equation 19. On the other hand, in the field, feedlot farmers and professionals use the activity COP index and the COPd, which were calculated by Equations 20 and 21, respectively. Among these costs, by definition, all activity items – except those related to food, animal purchase, and variable taxes – were included. However, COPd calculation was divided by the amount of cattle daily rate (QDB) produced.

The QDB is calculated in Equation 22, in which the number of animals in feedlot systems is multiplied by the days they remained in the fattening period minus the mortality period with its corresponding rates (Table 6). Cattle daily cost has been another index employed by Brazilian feedlot cattle farmers. In their view, costs related to animal purchase should not be included in the calculations, as shown in Equation 29.

The average daily cattle cost is shown in Equation 23 and the average cost per animal in Equation 24, while the average cost per kilo produced is calculated by Equation 28. Finally, the activity income is calculated by Equation 30.

The equations cited above, and mentioned in Tables 2 and 3, allowed the results of cost per kilogram of the beef cattle from representative farms for the month of June 2017 (Table 7). Due to the monthly monitoring of production costs on the farms, Equation 1 was applied, thus allowing the formulation of the feedlot cattle production cost index – ICBC (Table 8).

Table 7
Cost per kilogram of the beef cattle carcass with yield discount for representative feedlot farms for the month of June 2017
Table 8
Feedlot cattle daily cost production index for the months of April-June 2017

Discussion

The cost allocation results of the proposed calculation model are in agreement with those proposed by Raineri et al. (2015a)Raineri, C.; Stivari, T. S. S. and Gameiro, A. H. 2015a. Development of a cost calculation model and cost index for sheep production. Revista Brasileira de Zootecnia 44:443-455. https://doi.org/10.1590/S1806-92902015001200005
https://doi.org/10.1590/S1806-9290201500...
and the experience reported by productive chain agents. Costs were organized aiming at objectivity to enable understanding, comparison, and decision-making, without, however, neglecting other items.

The use of CSF (Young, 1958Young, H. B. 1958. Certain cost concepts. The Journal of Higher Education 29:89-94 and 116.; Powers, 1987Powers, T. L. 1987. Breakeven analysis with semifixed costs. Industrial Marketing Management 16:35-41.) allowed a more accurate classification of items currently variable, which exist independently of production. The disaggregation of these cost items, according to Homme (1953)Homme, H. A. 1953. Estimation and use of cost functions in Iowa creameries. Journal of Farm Economics 35:931-937. https://doi.org/10.2307/1233287
https://doi.org/10.2307/1233287...
, allows the estimate of typical management situations more accurately.

Regarding labor costs, allocation in this item depends on considerations of who makes the analysis. For example, while Raineri et al. (2015a)Raineri, C.; Stivari, T. S. S. and Gameiro, A. H. 2015a. Development of a cost calculation model and cost index for sheep production. Revista Brasileira de Zootecnia 44:443-455. https://doi.org/10.1590/S1806-92902015001200005
https://doi.org/10.1590/S1806-9290201500...
considered them to be fixed operational costs, Silva et al. (2014)Silva, A. H. G.; Restle, J.; Missio, R. L.; Bilego, U. O.; Fernandes, J. J. R.; Rezende, P. L. P.; Silva, R. M.; Pereira, M. L. R. and Lino, F. A. 2014. Milheto em substituição ao milho na dieta de novilhos confinados. Semina: Ciências Agrárias 35:2077-2094. classified them as variable costs. In this study, however, labor costs were fixed, as a short-term economic analysis was considered. In addition, the model contemplates the use of temporary labor, which is allocated in variable costs.

Fixed costs attributed to the construction of the animal feed factory, shed, and other facilities considered half of the square meter (m²) value of the industrial warehouse cost index (GI); for the construction of houses and offices, the total m2 value of a state-subsidized home (RP1Q) was used. These indexes have been published in the economic monthly CUB (Basic Unit Cost) bulletin by the Sindicato da Indústria da Construção Civil no Estado de São Paulo (SINDUSCON-SP, 2012SINDUSCON-SP - Sindicato da Indústria da Construção Civil no Estado de São Paulo. 2012. Custo Unitário Básico da Construção Civil. Available at: http://www.sindusconsp.com.br/cub>. Accessed on: Apr. 10, 2017.
http://www.sindusconsp.com.br/cub...
). Thus, this information was used to update monthly index costs; this bulletin was also used by Raineri et al. (2015a)Raineri, C.; Stivari, T. S. S. and Gameiro, A. H. 2015a. Development of a cost calculation model and cost index for sheep production. Revista Brasileira de Zootecnia 44:443-455. https://doi.org/10.1590/S1806-92902015001200005
https://doi.org/10.1590/S1806-9290201500...
upon carrying out similar attributions to calculate the cost of buildings in Brazilian sheep farming.

Asset depreciation is a fixed cost item and corresponds to the financial reserve necessary to acquire assets of the same characteristics when their useful life comes to an end, thus avoiding enterprise decapitalization. Determining the ideal or more appropriate time for productive asset depreciation is something that raises questions among farmers. Thus, a standard recommendation was made (Table 4) based on research data obtained from feedlot farmers by using the weighted survey method between data practiced by the Receita Federal Brasileira (Secretaria da Receita Federal, 2017Secretaria da Receita Federal. 2017. Instrução Normativa RFB nº 1700/2017. Available at: <http://normas.receita.fazenda.gov.br/sijut2consulta/link.action?visao=anotado&idAto=81268#1706802>. Accessed on: Apr. 10, 2017.
http://normas.receita.fazenda.gov.br/sij...
) and previous research experience obtained by those involved in the study.

Difficulties in determining depreciation causes some studies to take only variable costs in consideration – or part of these – as is the case of studies by Herrington and Tonsor (2013)Herrington, M. A. and Tonsor, G. T. 2013. Econometric estimations of performance improvements in Kansas feedlot cattle. The Professional Animal Scientist 29:435-442. https://doi.org/10.15232/S1080-7446(15)30257-6
https://doi.org/10.15232/S1080-7446(15)3...
and Retallick et al. (2013)Retallick, K. M.; Faulkner, D. B.; Rodriguez-Zas, S. L.; Nkrumah, J. D. and Shike, D. W. 2013. Relationship among performance, carcass, and feed efficiency characteristics, and their ability to predict economic value in the feedlot. Journal of Animal Science 91:5954-5961. https://doi.org/10.2527/jas.2013-6156
https://doi.org/10.2527/jas.2013-6156...
. The calculation model developed was characterized as managerial rather than accounting. Thus, the user can adapt the reality of his production to the model and does not necessarily need to follow the norms established by the Receita Federal Brasileira.

The inadequate calculation of fixed costs by including only part of them may underestimate true results. Berthiaume et al. (2006)Berthiaume, R.; Mandell, I.; Faucitano, L. and Lafrenière, C. 2006. Comparison of alternative beef production systems based on forage finishing or grain-forage diets with or without growth promotants: 1. Feedlot performance, carcass quality, and production costs. Journal of Animal Science 84:2168-2177. https://doi.org/10.2527/jas.2005-328
https://doi.org/10.2527/jas.2005-328...
, for instance, did not describe machinery depreciation, maintenance, and betterment costs in a comparative study of cattle finishing systems with or without growth promoters in Canada. Stackhouse et al. (2012)Stackhouse, K. R.; Rotz, C. A.; Oltjen, J. W. and Mitloehner, F. M. 2012. Growth-promoting technologies decrease the carbon footprint, ammonia emissions, and costs of California beef production systems. Journal of Animal Science 90:4656-4665. https://doi.org/10.2527/jas.2011-4654
https://doi.org/10.2527/jas.2011-4654...
did not consider opportunity costs, fixed assets, and working capital in a study conducted in the USA. Failure to account for income factors, including land use remuneration, is also commonly observed in livestock research.

The remuneration of production factors has not been taken into account at times, since it depends on the profile of those who lead the activity or analysis. According to Knight (1928)Knight, F. H. 1928. A suggestion for simplifying the statement of the general theory of price. Journal of Political Economy 36:353-370., factor remuneration is either associated to a dismissed opportunity or represents the best unchosen alternative. Therefore, it presupposes the occurrence of two or more viable alternatives in which the option for one alternative implies the abandonment or renunciation of that/those not chosen.

The opportunity cost of a given production factor in a company is not only the choice for the best internal alternative, but also the value of its most adequate use outside the company (Raineri et al., 2015bRaineri, C.; Rojas, O. A. O. and Gameiro, A. H. 2015b. Custo de produção na agropecuária: da teoria econômica à aplicação no campo. Empreendedorismo, Gestão e Negócios 4:194-211.). Thus, the capital owner should include in the product cost the remuneration he would obtain if all his capital assets on land, when his own, or his working capital – monthly expenditures – were allocated to the second-best option.

The rate that remunerates production factors varies among researchers. In studies carried out by Berthiaume et al. (2006)Berthiaume, R.; Mandell, I.; Faucitano, L. and Lafrenière, C. 2006. Comparison of alternative beef production systems based on forage finishing or grain-forage diets with or without growth promotants: 1. Feedlot performance, carcass quality, and production costs. Journal of Animal Science 84:2168-2177. https://doi.org/10.2527/jas.2005-328
https://doi.org/10.2527/jas.2005-328...
, Lopes et al. (2011)Lopes, L. S.; Ladeira, M. M.; Machado Neto, O. R.; Silveira, A. R. M. C.; Reis, R. R. and Campos, F. R. 2011. Viabilidade econômica da terminação de novilhos Nelore e Red Norte em confinamento na região de Lavras-MG. Ciência e Agrotecnologia 35:774-780. https://doi.org/10.1590/S1413-70542011000400017
https://doi.org/10.1590/S1413-7054201100...
, and Damasceno et al. (2012)Damasceno, T. K.; Lopes, M. A. and Costa, F. P. 2012. Análise de rentabilidade de produção de bovinos de corte em sistema de pastejo: um estudo de caso. Acta Tecnológica 7:18-24., the rates used were 6.5, 6, and 6% per year, respectively. These rates were lower than those used in the representative properties for the production cost calculation in this research. Factor income costs in this study, even with adjustments in cost allocation, were in agreement with those in studies by Lopes et al. (2011)Lopes, L. S.; Ladeira, M. M.; Machado Neto, O. R.; Silveira, A. R. M. C.; Reis, R. R. and Campos, F. R. 2011. Viabilidade econômica da terminação de novilhos Nelore e Red Norte em confinamento na região de Lavras-MG. Ciência e Agrotecnologia 35:774-780. https://doi.org/10.1590/S1413-70542011000400017
https://doi.org/10.1590/S1413-7054201100...
, Pacheco et al. (2014Pacheco, P. S.; Silva, R. M.; Padua, J. T.; Restle, J.; Taveira, R. Z.; Vaz, F. N.; Pascoal, L. L.; Olegario, J. L. and Menezes, F. R. 2014. Análise econômica da terminação de novilhos em confinamento recebendo diferentes proporções de cana-de-açúcar e concentrado. Ciências Agrárias 45:999-1012.; 2015Pacheco, P. S.; Vaz, F. N.; Restle, J.; Ávila, M. M.; Olegario, J. L.; Menezes, F. R.; Valença, K. G.; Lemes, D. B. and Vargas, F. V. 2015. Deterministic economic analysis of feedlot Red Angus young steers: slaughter weights and bonus. Ciência Rural 45:492-498. https://doi.org/10.1590/0103-8478cr20140631
https://doi.org/10.1590/0103-8478cr20140...
), which were 2.38, 3.25, and 4.40% of the total cost per year, respectively.

When COE, COT, and CT rates in this study were compared to those of Lopes et al. (2011)Lopes, L. S.; Ladeira, M. M.; Machado Neto, O. R.; Silveira, A. R. M. C.; Reis, R. R. and Campos, F. R. 2011. Viabilidade econômica da terminação de novilhos Nelore e Red Norte em confinamento na região de Lavras-MG. Ciência e Agrotecnologia 35:774-780. https://doi.org/10.1590/S1413-70542011000400017
https://doi.org/10.1590/S1413-7054201100...
, Pacheco et al. (2014Pacheco, P. S.; Silva, R. M.; Padua, J. T.; Restle, J.; Taveira, R. Z.; Vaz, F. N.; Pascoal, L. L.; Olegario, J. L. and Menezes, F. R. 2014. Análise econômica da terminação de novilhos em confinamento recebendo diferentes proporções de cana-de-açúcar e concentrado. Ciências Agrárias 45:999-1012.; 2015Pacheco, P. S.; Vaz, F. N.; Restle, J.; Ávila, M. M.; Olegario, J. L.; Menezes, F. R.; Valença, K. G.; Lemes, D. B. and Vargas, F. V. 2015. Deterministic economic analysis of feedlot Red Angus young steers: slaughter weights and bonus. Ciência Rural 45:492-498. https://doi.org/10.1590/0103-8478cr20140631
https://doi.org/10.1590/0103-8478cr20140...
), Silva et al. (2014)Silva, A. H. G.; Restle, J.; Missio, R. L.; Bilego, U. O.; Fernandes, J. J. R.; Rezende, P. L. P.; Silva, R. M.; Pereira, M. L. R. and Lino, F. A. 2014. Milheto em substituição ao milho na dieta de novilhos confinados. Semina: Ciências Agrárias 35:2077-2094., and Moreira et al. (2015)Moreira, F. S.; Oliveira, M. N. N. F.; Villela, S. D. J.; Barbosa, F. A.; Mourthe, M. H. F. and Diniz, F. B. 2015. Desempenho produtivo e econômico de três grupos genéticos de bovinos recriados a pasto com suplementação e terminados em confinamento. Arquivo Brasileiro Medicina Veterinária e Zootecnia 67:140-148. https://doi.org/10.1590/1678-7250
https://doi.org/10.1590/1678-7250...
– all deflated to June 2017 for comparison purposes –, equivalent costs were identified among studies, except those of Pacheco et al. (2014)Pacheco, P. S.; Silva, R. M.; Padua, J. T.; Restle, J.; Taveira, R. Z.; Vaz, F. N.; Pascoal, L. L.; Olegario, J. L. and Menezes, F. R. 2014. Análise econômica da terminação de novilhos em confinamento recebendo diferentes proporções de cana-de-açúcar e concentrado. Ciências Agrárias 45:999-1012. and Moreira et al. (2015)Moreira, F. S.; Oliveira, M. N. N. F.; Villela, S. D. J.; Barbosa, F. A.; Mourthe, M. H. F. and Diniz, F. B. 2015. Desempenho produtivo e econômico de três grupos genéticos de bovinos recriados a pasto com suplementação e terminados em confinamento. Arquivo Brasileiro Medicina Veterinária e Zootecnia 67:140-148. https://doi.org/10.1590/1678-7250
https://doi.org/10.1590/1678-7250...
.

Cost variations found by different authors are due to different methodologies used in the analyses. None of the studies published by the aforementioned authors highlights or specifies maintenance costs of capital assets used in the productive process. However, it was noted that maintenance costs are as relevant as depreciation costs (Table 7) and, therefore, cannot be disregarded.

In practice, the rates which feedlot farmers considered relevant were those that included all fixed cost items and part of variable cost items, such as the cattle daily cost (CDB) and daily operation costs (COPd). One of the advantages of using COPd is that it allows an overview of the economy of scale of production. Hanson (1964)Hanson, N. W. 1964. Economy of scale as a cost factor in financing public schools. National Tax Journal 17:92-95. stated that unit costs consistently decrease as the amount produced increases, until production unit size exceeds ideal levels, thus raising costs. In this study, such effect of economies of scale of production is described in Table 7.

In contrast, cattle daily cost is not directly related to the effect of economies of scale, and the most representative item is animal feed cost. There are several studies that have sought to minimize costs by including and mixing food ingredients and/or strategies (Stackhouse et al., 2012Stackhouse, K. R.; Rotz, C. A.; Oltjen, J. W. and Mitloehner, F. M. 2012. Growth-promoting technologies decrease the carbon footprint, ammonia emissions, and costs of California beef production systems. Journal of Animal Science 90:4656-4665. https://doi.org/10.2527/jas.2011-4654
https://doi.org/10.2527/jas.2011-4654...
; Onyango, 2014Onyango, J. 2014. Advances in intensive feedlot beef production in developed countries with particular focus on the United States. International Journal of Livestock Research 4:1-8. https://doi.org/10.5455/ijlr.20140610035714
https://doi.org/10.5455/ijlr.20140610035...
; Pacheco et al., 2014Pacheco, P. S.; Silva, R. M.; Padua, J. T.; Restle, J.; Taveira, R. Z.; Vaz, F. N.; Pascoal, L. L.; Olegario, J. L. and Menezes, F. R. 2014. Análise econômica da terminação de novilhos em confinamento recebendo diferentes proporções de cana-de-açúcar e concentrado. Ciências Agrárias 45:999-1012.; Silva et al., 2014Silva, A. H. G.; Restle, J.; Missio, R. L.; Bilego, U. O.; Fernandes, J. J. R.; Rezende, P. L. P.; Silva, R. M.; Pereira, M. L. R. and Lino, F. A. 2014. Milheto em substituição ao milho na dieta de novilhos confinados. Semina: Ciências Agrárias 35:2077-2094.; Salim et al., 2017Salim, H.; Wood, K. M.; Cant, J. P. and Swanson, K. C. 2017. Influence of feeding increasing levels of dry or modified wet corn distillers grains plus solubles in whole corn grain-based finishing cattle diets on pancreatic α-amylase and trypsin activity. Canadian Journal of Animal Science 96:294-298. https://doi.org/10.1139/cjas-2015-0150
https://doi.org/10.1139/cjas-2015-0150...
). In the field, feedlot farmers have been guided by the same notion to minimize feed cost. Therefore, this study chose to use the food cost optimization tool.

The regular flexibilization of quantities consumed in the diets on representative farms allowed proceeding methodologically in the elaboration of the feedlot cattle production cost index by using the Konüs index (Konüs, 1939Konüs, A. A. 1939. The problem of the true index of the cost of living. Econometrica 7:10-29.). According to Gameiro (2003)Gameiro, A. H. 2003. Índices de preço para o transporte de cargas: o caso da soja a granel. Tese (D.Sc.). Universidade de São Paulo, Piracicaba., it was this author that characterized the utility function which, at the time, the consumer referred to, to minimize costs (or expenses) to achieve a certain level of usefulness in the face of price variations. This concept was applied to feedlot farmers, inasmuch as they seek to maximize profits by reducing costs, which in this case refers to food-related items.

This study is a step forward in relation to other livestock indexes available, such as those by Girotto and Santos Filho (2000)Girotto, A. F. and Santos Filho, J. I. 2000. Custo de produção de suínos. Documentos Embrapa Suínos e Aves Nº 62, Concórdia., Carneiro et al. (2010)Carneiro, A. V.; Carvalho, G. R.; Yamaguchi, L. C. T. and Alves, J. D. 2010. Índice de custo de produção de leite e o comportamento da relação de troca entre o preço recebido pelo produtor e o custo de produção entre 2006 e 2009. In: Anais do 48º Congresso da Sociedade Brasileira de Economia, Administração e Sociologia Rural. Sociedade Brasileira de Economia, Administração e Sociologia Rural, Campo Grande., Miele et al., (2010)Miele, M.; Martins, F. M.; Santos Filho, J. I. and Sandi, A. J. 2010. Metodologia para o cálculo do custo de produção de frango de corte: versão 2. Documentos Embrapa Suínos e Aves Nº 140, Concórdia., Raineri et al. (2015aRaineri, C.; Stivari, T. S. S. and Gameiro, A. H. 2015a. Development of a cost calculation model and cost index for sheep production. Revista Brasileira de Zootecnia 44:443-455. https://doi.org/10.1590/S1806-92902015001200005
https://doi.org/10.1590/S1806-9290201500...
), and CEPEA and CNA (2017)CEPEA - Centro de estudos avançados em economia aplicada and CNA - Confederação da Agricultura e Pecuária do Brasil. 2017. Metodologia boi e leite. Available at: <http://www.cepea.esalq.usp.br/br/metodologia-boi-leite.aspx>. Accessed on: Mar. 02, 2017.
http://www.cepea.esalq.usp.br/br/metodol...
which, due to methodological limitations, used the Laspeyres index. The index proposed by this study gains relevance by incorporating theoretical aspects such as a change in the amount of monthly feed intake, which consequently results in more adequate indexes when compared with other available methods as demonstrated by Sartorello (2016)Sartorello, G. L. 2016. Desenvolvimento de modelo de cálculo e de indicador de custos de produção para bovinos de corte em confinamento. Dissertação (M.Sc.). Universidade de São Paulo, Pirassununga, SP.. The index is also a response to the demand and expectations of feedlot farmers and industrial agents, who needed a useful tool to monitor the activity cost behavior.

Despite the validation and theoretical concepts on which the study was based, the costing method and the ICBC must be analyzed over time, so that they will continue representing the feedlot farmer reality. According to Miele et al. (2010)Miele, M.; Martins, F. M.; Santos Filho, J. I. and Sandi, A. J. 2010. Metodologia para o cálculo do custo de produção de frango de corte: versão 2. Documentos Embrapa Suínos e Aves Nº 140, Concórdia., these technical indexes and parameters should be reviewed due to the productive activity constant development. For this, the opinions and suggestions of the spreadsheet and index users are important and will provide subsidies for further adjustments and improvements.

Conclusions

The methodological proposal of allocating all costs through the application of the Economic Theory allowed the prognosis of results from data collected in the field. The inclusion of all production costs, together with opportunity costs, completed the analysis, which proved to be relevant.

Item cost disaggregation allowed the results obtained to be compared with those obtained by other studies on farming. This tool will also serve as a basis for the feedlot farmer to generate information to assist decision-making and identify production system bottlenecks.

The feedlot cattle production cost index proposed by the present study enabled the development of a research and extension project coordinated by the authors. The monthly release of a cost report can contribute to the sector organization, backing up market transparency and price disclosure, reducing the information gap. Thus, feedlot farmers will be able to regularly compare their economic results with those of the reference properties included in this study, whose costs will be updated monthly.

The calculation model and cost index can be applied to several feedlot cattle farmers in other regions of beef cattle relevance that the study has not covered.

Acknowledgments

The authors wish to thank the owners of the feedlots that allowed us to collect the data and the specialists, for the validation of the cost calculation model. This work was conducted during a master's fellowship supported by the Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) of the first author.

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Publication Dates

  • Publication in this collection
    16 Aug 2018
  • Date of issue
    2018

History

  • Received
    28 Aug 2017
  • Accepted
    05 Dec 2017
Sociedade Brasileira de Zootecnia Universidade Federal de Viçosa / Departamento de Zootecnia, 36570-900 Viçosa MG Brazil, Tel.: +55 31 3612-4602, +55 31 3612-4612 - Viçosa - MG - Brazil
E-mail: rbz@sbz.org.br