Food consumption in Brazil: influence of beef on environmental impact and nutritional quality of the diet

Josefa Maria Fellegger Garzillo Vanessa Fadanelli Schoenardie Poli Fernanda Helena Marrocos Leite Euridice Martinez-Steele Priscila Pereira Machado Maria Laura da Costa Louzada Renata Bertazzi Levy Carlos Augusto Monteiro About the authors

ABSTRACT

OBJECTIVE

To estimate beef consumption and its influence on carbon and water footprints, as well as to improve the nutritional quality of the Brazilian diet.

METHODS

The amount of beef and other foods consumed was evaluated by two 24-hour food records in a representative sample of the Brazilian population ≥ 10 years of age (n = 32,853) from 2008 to 2009. The environmental impact of the diet considered the coefficients of the carbon footprint (gCO2 and/kg) and the water footprint (liters/kg) of the foods, as well as their nutritional quality considering the nutrient composition of each food associated with the prevention of nutritional deficiencies or the increase/decrease in chronic disease risk. Linear and logistic regression models, crude and adjusted for sex, age, education, income, region, and area, were used to respectively study the association of fifths of the caloric contribution of beef with the environmental impacts of the diet and inadequate nutrient intake.

RESULTS

Carbon and water footprints and protein, iron, zinc, vitamin B12, saturated fat, and sodium contents were higher in the fraction of the diet composed of beef, whereas fiber and added sugar contents were higher in the fraction composed by the other foods. Dietary beef contribution was directly associated with the carbon and water footprints of the diet and the risk of saturated fat and sodium excess, besides fiber insufficiency, inversely associated with the risk of protein, iron, zinc, and vitamin B12 insufficiency.

CONCLUSION

Reducing beef consumption in Brazil would also reduce the carbon and water footprints of the diet, as well as the risk of chronic diseases related to food. Therefore, in order not to increase the risk of nutritional deficiencies, monitoring the increased intake of other foods rich in protein, iron, zinc, and vitamin B12 is suggested.

DESCRIPTORS
Eating; Meat; Nutrition Assessment; Carbon Footprint; Water Use

INTRODUCTION

Actions to reduce global greenhouse gas emissions have not been sufficient so far, challenging the climate stability goals defined in the Paris Agreement11 Weinstein P, Daszak P. Failing efforts to mitigate climate change are a futile band-aid that will not stop other elephants filling the room. EcoHealth. 2020;17:421-3. https://doi.org/10.1007/s10393-020-01512-w
https://doi.org/10.1007/s10393-020-01512...
. This stability will only be achieved with restrictions on fossil fuels and changes in the consumption pattern of populations, including food22 United Nations Environment Programme. Emission gap report 2020. Nairobi (KE): UNEP; 2020.. Climate impact studies conclude that the strategy of greater power to alleviate climate change by food is promoting diets with lower consumption of animal-based foods, especially beef33 Batlle-Bayer L, Bala A, García-Herrero I, Lemaire E, Song G, Aldaco R, et al. The Spanish dietary guidelines: a potential tool to reduce greenhouse gas emisssions of current dietary patterns. J Clean Prod. 2019;213:588-98. https://doi.org/10.1016/j.jclepro.2018.12.215
https://doi.org/10.1016/j.jclepro.2018.1...
,44 Hallström E, Carlsson-Kanyama A, Börjesson P. Environmental impact of dietary change: a systematic review. J Clean Prod. 2015;91:1-11. https://doi.org/10.1016/j.jclepro.2014.12.008
https://doi.org/10.1016/j.jclepro.2014.1...
.

Each country has its own food consumption patterns. For example, daily beef consumption in Sweden55 Hallström E, Röös E, Börjesson P. Sustainable meat consumption: a quantitative analysis of nutritional intake, greenhouse gas emissions and land use from a Swedish perspective. Food Policy. 2014;47:81-90. https://doi.org/10.1016/j.foodpol.2014.04.002
https://doi.org/10.1016/j.foodpol.2014.0...
, Australia66 Hendrie GA, Ridoutt BG, Wiedmann TO, Noakes M. Greenhouse gas emissions and the Australian diet: comparing dietary recommendations with average intakes. Nutrients. 2014;6(1):289-303. https://doi.org/10.3390/nu6010289
https://doi.org/10.3390/nu6010289...
, and Argentina77 Arrieta EM, González AD. Impact of current, National Dietary Guidelines and alternative diets on greenhouse gas emissions in Argentina. Food Policy. 2018;79:58-66. https://doi.org/10.1016/j.foodpol.2018.05.003
https://doi.org/10.1016/j.foodpol.2018.0...
is 50g, 73g, and 135g per person, respectively. These and other variations imply different nutritional impacts for the reduction in beef consumption, which population studies should evaluate, considering all foods consumed by the population88 Macdiarmid JI. Is a healthy diet an environmentally sustainable diet? Proc Nutr Soc. 2013;72(1):13-20. https://doi.org/10.1017/S0029665112002893
https://doi.org/10.1017/S002966511200289...
1010 Vieux F, Privet L, Soler LG, Irz X, Ferrari M. Sette S, et al. More sustainable European diets based on self-selection do not require exclusion of entire categories of food. J Clean Prod. 2020;248:119298. https://doi.org/10.1016/j.jclepro.2019.119298
https://doi.org/10.1016/j.jclepro.2019.1...
. If, on the one hand, beef is an important protein, iron, zinc, and vitamin B12 source, on the other hand, we found evidence that its consumption can affect the nutritional quality of the diet and increase the risk of chronic non-communicable diseases, including diabetes, cardiovascular diseases, and some types of cancers1111 World Cancer Research Fund International; American Institute for Cancer Research. Continuous Update Project Report: 2018 London (UK); 2018 [cited 2022 Aug 11]. Available from: https://www.wcrf.org/wp-content/uploads/2021/02/Summary-of-Third-Expert-Report-2018.pdf .
https://www.wcrf.org/wp-content/uploads/...
.

International and national dietary recommendations increasingly emphasize beef consumption reduction, regarding its impact on human and planetary health1212 Swinburn BA, Kraak VI, Allender S, Atkins VJ, Baker, Bogard JR, et al. The global syndemic of obesity, undernutrition, and climate change: The Lancet Commission report. Lancet. 2019;393(10173):791-846. https://doi.org/10.1016/S0140-6736(18)32822-8
https://doi.org/10.1016/S0140-6736(18)32...
. An example is the Dietary Guidelines for the Brazilian population, which recommends red meat consumption in only one third of main meals, with the simultaneous increase in the consumption of plant-based, in natura, and minimally processed foods, such as vegetables1313 Ministério da Saúde (BR), Secretaria de Atenção à Saúde, Departamento de Atenção Básica. Guia alimentar para a população brasileira. 2. ed. Brasília, DF; 2014. 156p.. Given this context, this article aims to describe beef consumption in Brazil and evaluate its association with carbon and water footprints, as well as to analyze the nutritional quality of the Brazilian diet.

METHODS

Data Sources

All data on food consumption analyzed in this study come from the personal food consumption assessment module of the Consumer Expenditure Survey conducted by the Brazilian Institute of Geography and Statistics from May 2008 to May 2009 (POF 2008–2009)1414 Instituto Brasileiro de Geografia e Estatística, Diretoria de Pesquisas, Coordenação de Trabalho e Rendimento. Pesquisa de orçamentos familiares 2008-2009: análise do consumo alimentar pessoal no Brasil. Rio de Janeiro: IBGE; 2011..

POF 2008–2009 employed a complex cluster sampling plan with geographic and socioeconomic stratification of all census tracts in Brazil, followed by random sector draws in the beginning and random household draws later. The number of sectors drawn in each stratum was proportional to the number of households in the stratum. Each sector's household draw was done by simple random sampling without replacement. The sample covered 55,970 households and the personal food consumption assessment module was applied in a random subsample of 13,569 households (24.3% of the total households studied)1414 Instituto Brasileiro de Geografia e Estatística, Diretoria de Pesquisas, Coordenação de Trabalho e Rendimento. Pesquisa de orçamentos familiares 2008-2009: análise do consumo alimentar pessoal no Brasil. Rio de Janeiro: IBGE; 2011..

Interviews conducted in each stratum of the sample were uniformly distributed over the 12 months of research. Residents aged ten years and older from all households selected for the assessment of personal food consumption were invited to complete two 24-hour food records on non-consecutive days (n = 34,003). The participants reported in these records all the food consumed, how it was prepared, and the quantities consumed expressed in homemade measures. Individual data on age, sex, education, family income, and number of people in the household were collected via questionnaires. Household location in urban or rural areas and by Brazilian macro-region completes the record of sociodemographic data available in POF 2008–2009.

Food amounts in homemade measures were converted into grams based on the Table of Reference Measures for Food Consumed in Brazil1515 Instituto Brasileiro de Geografia e Estatística, Diretoria de Pesquisas, Coordenação de Trabalho e Rendimento. Pesquisa de orçamentos familiares 2008-2009: tabela de medidas referidas para os alimentos consumidos no Brasil. Rio de Janeiro: IBGE; 2011 and then converted into energy and nutrients based on the Table of Nutritional Composition for Food Consumed in Brazil1616 Instituto Brasileiro de Geografia e Estatística, Diretoria de Pesquisas, Coordenação de Trabalho e Rendimento. Pesquisa de orçamentos familiares 2008-2009: tabelas de composição nutricional dos alimentos consumidos no Brasil. Rio de Janeiro: IBGE; 2011.. Culinary preparations were previously disaggregated in their components according to standardized recipes1717 Garzillo JMF, Machado PP, Louzada MLC, Levy RB, Monteiro, CA. Pegadas dos alimentos e das preparações culinárias consumidos no Brasil. São Paulo: Faculdade de Saúde Pública da USP; 2019 [cited 2020 Feb 19]. 74p. (e-Coleções FSP/USP). Available from: http://colecoes.sibi.usp.br/fsp/items/show/3592
http://colecoes.sibi.usp.br/fsp/items/sh...
.

Data Analysis

All analyses were performed with food consumption data of individuals who completed the two days of the 24-hour food record (n = 32,853), corresponding to 96.8% of the total sample (n = 34,003), always using the daily mean of consumption observed in those two days.

Evaluation of the Environmental Impact of the Diet Indicators

The potential of environmental impact of the diet was assessed based on its carbon and water footprints. To estimate them, coefficients that quantify, for beef and for all other foods, atmospheric greenhouse gas emissions and the amount of water involved in their production process were used. The carbon footprint coefficient is expressed in grams of carbon dioxide equivalent per kilogram (gCO2 and/kg) and the water footprint coefficient, in liters per kilogram (l/kg), both of which are estimated by the life cycle assessment of products methodology1818 Associação Brasileira de Normas Técnicas. NBR ISO 14040. Gestão Ambiental – Avaliação do ciclo de vida – Princípios e estrutura. Rio de Janeiro: ABNT; 2001..

The coefficients of carbon footprint and water footprint used in this study are described in the publication “Footprints of food and culinary preparations consumed in Brazil”1717 Garzillo JMF, Machado PP, Louzada MLC, Levy RB, Monteiro, CA. Pegadas dos alimentos e das preparações culinárias consumidos no Brasil. São Paulo: Faculdade de Saúde Pública da USP; 2019 [cited 2020 Feb 19]. 74p. (e-Coleções FSP/USP). Available from: http://colecoes.sibi.usp.br/fsp/items/show/3592
http://colecoes.sibi.usp.br/fsp/items/sh...
. This publication presents mean environmental impact coefficients calculated based on coefficients estimated by studies published in scientific articles or used in environmental performance reports of products for each food item reported by the people studied by POF 2008-2009, adopting similar food coefficients in the case of foods that did not have available estimates. Regarding culinary preparations, the coefficients took into account all ingredients included in the preparation. The coefficients also consider conversion factors and cooking indexes that respectively account for the removal of inedible parts and the incorporation or loss of water by the cooking effect. In the carbon footprints estimate emissions related to heating food in an oven or stove during preparation were also included.

The carbon and water footprints were estimated by adding the product of the amount consumed of each food item by its respective footprint coefficient, always expressed by the quotient 1,000 kcal (gCO2e/1,000 kcal and l/1,000 kcal).

Assessment of the Nutritional Quality of the Diet

Assessment of the nutritional quality of the diet considered its content in nutrients whose consumption is associated with the prevention of nutritional deficiencies (protein, iron, zinc, and vitamin B12) or the increase (added sugar, saturated fat, and sodium) or decrease (fiber) of chronic non-communicable diseases1919 World Health Organization. Diet, nutrition, and the prevention of chronic diseases: report of a Joint WHO/FAO Expert Consultation. Geneva (CH): WHO; 2003. (WHO Technical Report Series; N° 916).. The daily intake of protein, added sugar, and saturated fat was expressed as a percentage of total energy intake and the intake of the other nutrients was expressed in g, mg, or mcg per 1,000 kcal.

Beef Consumption in Brazil

Mean beef consumption in Brazil, with confidence intervals of 95%, was described absolutely (kcal/day) and relatively (% total energy) for the population as a whole and according to sex, age (10–19, 20–29, 30–39, 40–49, 50–59 and ≥ 60 years), fifths of per capita family income, years of education (≤ 4, 5–8, 9–12, > 12), and household location (macro-region, rural, or urban area). Beef consumption included fresh meat and viscera, processed meat and ultra-processed beef products, even though they contained plant components (e.g., ‘frozen lasagna’).

Beef Consumption and Environmental Footprints of the Diet

The relation between beef consumption and environmental footprints of the diet was initially evaluated by comparing the means of carbon and water footprints of the diet fractions composed of beef or all other foods (paired t-test). We then evaluated the association between beef consumption (quintiles of its contribution to total energy intake) and the environmental footprint of the diet through linear regression models and linear trend tests, considering the sociodemographic variables that were associated with beef consumption.

Beef Consumption and Nutritional Quality of the Diet

The relation between beef consumption and nutritional quality of the diet was studied similarly to that adopted for the analysis of environmental footprints, comparing the average content of protein, iron, zinc, and vitamin B12 and added sugar, saturated fat, sodium, and fiber in the diet fractions composed of beef and all other foods (paired t-test), evaluating the association between fifths of beef consumption and diet content in the nutrients studied. The crude and adjusted association between fifths of beef consumption and the prevalence of inadequate intake of each of the studied nutrients was also analyzed, using it for many logistic regression models. Recommendations of the World Health Organization1919 World Health Organization. Diet, nutrition, and the prevention of chronic diseases: report of a Joint WHO/FAO Expert Consultation. Geneva (CH): WHO; 2003. (WHO Technical Report Series; N° 916). were used to define adequate levels of protein intake (10–15% of total energy), saturated fat (< 10% of total energy), added sugar (< 10% of total energy), sodium (< 1mg/1,000 kcal), and fiber (≥ 25g/1,000 kcal) as reference values recommended by the Institute of Medicine of the United States (estimated average requirement) according to sex and age group were used to define adequate levels of iron, zinc, and vitamin B121414 Instituto Brasileiro de Geografia e Estatística, Diretoria de Pesquisas, Coordenação de Trabalho e Rendimento. Pesquisa de orçamentos familiares 2008-2009: análise do consumo alimentar pessoal no Brasil. Rio de Janeiro: IBGE; 2011.,2020 Institute of Medicine (US). Standing Committee on the Scientific Evaluation of Dietary Reference Intakes. Dietary reference intakes: applications in dietary assessment. Washington, DC: National Academies Press; 2000 [cited 2021 Feb 19]. 287 p. Available from: http://books.nap.edu/openbook.php?record_id=9956
http://books.nap.edu/openbook.php?record...
.

All analyses were performed in the survey module of the Stata/SE software version 14.0, which considers the effects of complex sampling allowing the extrapolation of the results for the Brazilian population. P-value < 0.05 was used to identify significant differences or associations.

RESULTS

Food intake of the Brazilian population aged ten years or more corresponded to a mean daily intake of 1,901 kcal, of which 177 kcal, or 9.4%, came from beef. Total calorie consumption and beef consumption were higher in males, decreased with age and increased with education and income, with no significant difference between people living in urban or rural areas. Total calorie consumption was higher in the North than in other regions of Brazil and beef consumption was higher in the Midwest and the North. The contribution of beef to total calorie consumption was higher in males, increasing with education and income, also being higher in the Midwest and urban areas (Table 1).

Table 1
Total food and beef consumption according to sociodemographic variables. Brazilian population aged ten years or more, 2008–2009, (n = 32,853).

Table 2 presents the estimates of environmental impact indicators and nutritional quality of the Brazilian diet and two fractions of this diet restricted to beef and other foods, respectively. Carbon and water footprints per 1,000 kcal were significantly higher in the beef fraction exceeding by 18 and 11 times, respectively, the footprints observed in the other foods fraction.

Table 2
Means (with 95% confidence intervals) of environmental impact and nutritional quality of total food consumption indicators and two fractions of this consumption. Brazilian population aged ten years or more, 2008–2009, (n = 32,853).

Significant and equally high-magnitude differences were observed between the beef fraction and the other foods fraction for all studied nutrients. The beef content associated with the prevention of nutritional deficiencies—protein, iron, zinc, and vitamin B12—and the content of saturated fat and sodium, nutrients associated with the risk of chronic non-communicable diseases, were higher in the fraction. The added sugar content associated with the risk of chronic diseases and the fiber content associated with the prevention of those diseases were higher in the other foods fraction (Table 2).

Table 3 evaluates the association between beef in the diet (fifths of the contribution of food to total calorie consumption) and indicators of environmental impact and nutritional quality of the diet.

Table 3
Means (with 95% confidence intervals) of environmental impact and nutritional quality of food consumption indicators per fifth of beef contribution to total energy intake. Brazilian population aged ten years or more, 2008–2009, (n = 32,853).

Increases in beef consumption lead to a linear and significant increase in the carbon and water footprints of the diet, which are, respectively, three to four times higher among 20% of the population with higher relative beef consumption than among the 20% with lower consumption.

Increases in beef consumption lead to a substantial increase in the diet content of protein, iron, zinc, and vitamin B12, and a slight, albeit significant, decrease in added sugar content. Besides, they lead to a substantial reduction in fiber diet content and a substantial increase in saturated fat and sodium content.

Table 4 presents estimates of the prevalence of inadequate nutrient intake in the Brazilian population and evaluates the association of this prevalence with beef consumption (fifths). The prevalence is very high (about 90%) for fiber insufficiency and for sodium excess, high (55.6%) for saturated and moderate fat excess (around 30%), added sugar excess, and for iron, zinc, and vitamin B12 insufficiency. Prevalence of protein insufficiency is low (4.2%). Increases in beef consumption lead to substantial reductions in protein, iron, zinc, and vitamin B12 insufficiency, and also substantial increases in fiber insufficiency or saturated fat and sodium excess. A statistically significant association was not observed between relative beef consumption and the prevalence of added sugar excess.

Table 4
Prevalence (%) and crude and adjusted odds ratio (with 95% confidence intervals) for inadequate nutrient intake per fifth of beef contribution to total energy intake. Brazilian population aged ten years or more, 2008–2009, (n = 32,853).

DISCUSSION

Based on the food intake of a representative sample of the Brazilian population aged ten years or older (n = 32,853)1414 Instituto Brasileiro de Geografia e Estatística, Diretoria de Pesquisas, Coordenação de Trabalho e Rendimento. Pesquisa de orçamentos familiares 2008-2009: análise do consumo alimentar pessoal no Brasil. Rio de Janeiro: IBGE; 2011., our study estimated that beef consumption in the Brazilian diet corresponds to 9.4% of the total energy intake. This consumption is higher among men, increases with income level and education and is higher among residents of the Midwest and urban areas. The carbon and water footprints of the diet increase linearly with fifths of beef consumption, being three to four times higher among the 20% with higher consumption than among the 20% with lower consumption. The same increase in beef consumption produces mixed results in the nutritional quality of the diet. On the one hand, it increases its protein, iron, zinc, and vitamin B12 content, substantially reducing the prevalence of insufficient intake of these nutrients—which is low in the case of protein and moderate in the case of micronutrients. On the other hand, it reduces the fiber content of the diet and increases its saturated fat and sodium content, increasing the high or very high prevalence of inadequate intake of these three nutrients.

We did not find any studies in the literature that have contrasted the relation that beef consumption maintains with the environmental footprints of the diet and with its nutritional quality. We found, however, several studies that describe the association of the carbon footprint of food or dietary patterns with its nutritional quality, evidencing in general a heterogeneous pattern of association. A systematic review of these studies, mostly conducted in high-income countries, indicates that foods and dietary patterns with low carbon footprint promote a nutritional quality of the diet, as they are associated with lower saturated fat content, but act differently when the content of micronutrients such as iron, zinc, and vitamin B1299 Payne CLR, Scarborough P, Cobiac L. Do low-carbon-emission diets lead to higher nutritional quality and positive health outcomes? A systematic review of the literature. Public Health Nutr. 2016;19(14):2654-61 https://doi.org/10.1017/S1368980016000495
https://doi.org/10.1017/S136898001600049...
is reduced. These results are consistent with our study data.

Given so many variables, it is still possible to find diets that fit nutritional adequacy and alleviate environmental impacts. The Mediterranean and new Nordic diets—both with vegetable predominance and low meat consumption—are examples of healthy eating patterns that contribute to alleviating environmental impacts2121 Mazzocchi A, De Cosmi V, Scaglioni S, Agostoni C. Towards a more sustainable nutrition: complementary feeding and early taste experiences as a basis for future food choices. Nutrients. 2021;13(8):2695. https://doi.org/10.3390/nu13082695
https://doi.org/10.3390/nu13082695...
. The adoption of food standards recommended by the Dutch dietary guidelines offers the possibility of reducing all causes of mortality, while moderately reducing climate impacts2222 Biesbroek S, Verschuren WMM, Boer JMA, Kamp ME, Schouw YT, Geelen A, et al. Does a better adherence to dietary guidelines reduce mortality risk and environmental impact in the Dutch sub-cohort of the European Prospective Investigation into Cancer and Nutrition? Br J Nutr. 2017;118(1):69-80. https://doi.org/10.1017/S0007114517001878
https://doi.org/10.1017/S000711451700187...
. A study of the average Brazilian diet (POF 2008/09) adjusted to the recommendations of the Dietary Guidelines for the Brazilian population1414 Instituto Brasileiro de Geografia e Estatística, Diretoria de Pesquisas, Coordenação de Trabalho e Rendimento. Pesquisa de orçamentos familiares 2008-2009: análise do consumo alimentar pessoal no Brasil. Rio de Janeiro: IBGE; 2011. showed the possibility of reducing carbon footprint by 14.8% and water footprint by 18.0%2323 Garzillo JMF. A alimentação e seus impactos ambientais: abordagens dos guias alimentares nacionais e estudo da dieta dos brasileiros [tese]. São Paulo: Faculdade de Saúde Pública da Universidade de São Paulo; 2019. 450 p..

Measures to restrict beef consumption should be done cautiously, since it is a source of essential micronutrients. Our study found an upward trend in inadequate iron, zinc, and vitamin B12 consumption the lower the beef consumption. Replacing all meat and dairy products with plant-based foods in the diet of children in the Netherlands resulted in a decrease of 5% to 13% in calcium, zinc, and vitamin B12 intake and 49% in vitamin B12 intake, besides increasing iron intake with lower bioavailability2424 Temme EHM, Bakker HME, Brosens MCC, Verkaik-Kloosterman J, Raaij JMA, Ocké MC. Environmental and nutritional impact of diets with less meat and dairy: modeling studies in Dutch children. Proc Nutr Soc. 2013;72(OCE5):E321. https://doi.org/10.1017/S0029665113003558
https://doi.org/10.1017/S002966511300355...
.

The relationship between beef consumption (and other animal-based foods) and micronutrient content in the diet serves as a warning so that the nutritional quality of food is always considered when characterizing environmentally sustainable diets. For beef reduction recommendations to be consistent with climate impact alleviation, nutritional challenges cannot be overlooked.

The intensity of the environmental impact of food is one of several criteria to be used in dietary choices. The nutritional quality of the foods that make up the plant fraction of diets is important, since not all plant-based foods have beneficial cardiovascular effects and even some of them may be harmful to health, as is the case of ultra-processed plant-based foods2525 Hemler EC, Hu FB. Plant-based diets for cardiovascular disease prevention: all plant foods are not created equal. Curr Atheroscler Rep. 2019;21(5):18 https://doi.org/10.1007/s11883-019-0779-5
https://doi.org/10.1007/s11883-019-0779-...
. This means that such foods should be avoided regardless of their high or low environmental impact potential.

Reduction of beef consumption by the Brazilian population is a key strategy in alleviating climate impacts in the country, but its effectiveness is limited. Although beef consumption in Brazil decreases, the country is the main beef supplier in the international market. Environmental sustainability of the food system cannot simply depend on changes in domestic demand for beef; the increase in volume of beef exports or interruptions in slaughter could annul possible positive environmental results achieved by lower domestic consumption2626 Mota CV. Por que carne segue tão cara no Brasil mesmo com queda em exportações. BBC News Brasil. 8 dez 2021 [cited 2021 Dec 10]. Available from: https://www.bbc.com/portuguese/brasil-59571837
https://www.bbc.com/portuguese/brasil-59...
,2727 Centro de Estudos Avançados em Economia Aplicada. BOI/CEPEA: exportação recorde no 1° semestre sustenta preço interno. Piracicaba, SP: Universidade de São Paulo, ESALQ, Departamento de Economia, Administração e Sociologia CEPEA; 7 jul 2022 [cited 2022 Aug 12]. Available from: https://www.cepea.esalq.usp.br/br/diarias-de-mercado/boi-cepea-exportacao-recorde-no-1-semestre-sustenta-preco-interno.aspx
https://www.cepea.esalq.usp.br/br/diaria...
. The transformations in livestock production that result in low environmental impact production systems are urgent.

This study's strong points include a representative sample of the Brazilian population, a food consumption measurement by the record of all foods in two 24-hour periods, and an evaluation of the impact of beef consumption on the environment and the nutritional quality of the diet, enabling diet evaluations in real consumption situations in different population strata. This study focused on beef, a relevant food in Brazil's culinary culture, whose productive sector is responsible for about 25% of the greenhouse gas emissions recorded in the national inventory2828 Sistema de Estimativa de Emissões de Gases de Efeito Estufa. Emissões totais. São Paulo SEEG Brasil; 2021 [cited 2021 Aug 12]. Available from: http://plataforma.seeg.eco.br/total_emission#
http://plataforma.seeg.eco.br/total_emis...
. The comprehensive assessment of the nutritional quality of diets in parallel with measures of inadequate consumption of critical nutrients and others that should be limited was an innovation of our research.

One of the main limitations of this study concerns the use of carbon and water footprint coefficients estimated not always based on the production conditions observed in Brazil. Another limitation is the inaccuracy in quantifying food and nutrient consumption due to self-reported food intake and the use of nutritional composition tables of foods that do not always translate the composition of the foods ingested by the participants. The environmental footprints of ultra-processed beef products were considered for the product as a whole, consisting of other plant-based ingredients and additives, and not only for the beef portion. Finally, the non-inclusion of children under ten years of age in the sample studied makes it impossible to generalize results for this age group.

Another limitation is based on a food consumption survey conducted more than ten years ago. However, by comparing the estimated consumption by the POF carried out in 2008/091414 Instituto Brasileiro de Geografia e Estatística, Diretoria de Pesquisas, Coordenação de Trabalho e Rendimento. Pesquisa de orçamentos familiares 2008-2009: análise do consumo alimentar pessoal no Brasil. Rio de Janeiro: IBGE; 2011. with that estimated by the most recent POF of 2017/18,2929 Instituto Brasileiro de Geografia e Estatística, Diretoria de Pesquisas, Coordenação de Trabalho e Rendimento. Pesquisa de orçamentos familiares 2017-2018: análise do consumo alimentar pessoal no Brasil. Rio de Janeiro: IBGE; 2020. we observe minute changes, including beef consumption: 63 g/person/day and 60 g/person/day, respectively.

This study aimed to show some nutritional and environmental influences of beef consumption in Brazilian diets. Recent frameworks of reduced beef consumption, food insecurity, and hunger due to an impoverishing Brazilian population—parallel with the food production and deforestation records—only confirm the unsustainability of the Brazilian food system. We reiterate that a sustainable food system assumes the population's food security and must be evaluated in the various dimensions of sustainable development: social, cultural, environmental, ecological, territorial, economic, and political3030 Sachs I. Caminhos para o desenvolvimento sustentável. Organização de Paula Yone Stroh. 3. ed. Rio de Janeiro: Garamond; 2008. 96 p..

CONCLUSION

Reduction in beef consumption in Brazil would cause the carbon and water footprints of the diet and the risk of chronic diseases related to food to decrease, but in order not to increase the risk of nutritional deficiencies, the reduction would have to be accompanied by an increased intake of other foods rich in protein, iron, zinc, and vitamin B12.

  • Funding: Climate and Land Use Alliance (CLUA – Grant Number: G-1910-56390 (December 2019 to June 2022)); CLUA does not necessarily share the positions expressed in this article.

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Publication Dates

  • Publication in this collection
    09 Dec 2022
  • Date of issue
    2022

History

  • Received
    05 May 2022
  • Accepted
    02 Aug 2022
Faculdade de Saúde Pública da Universidade de São Paulo São Paulo - SP - Brazil
E-mail: revsp@org.usp.br