Comparing the Performance of Bread and Breakfast Cereals, Dairy, and Meat in Nutritionally Balanced and Sustainable Diets

Kramer, G.F.H.; Martinez, Elsa V.; Espinoza‐Orias, Namy; Cooper, Karen; Tyszler, Marcelo; Blonk, Hans

doi:10.3389/fnut.2018.00051

Cited by 21 publications

(17 citation statements)

References 19 publications

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“…As such, these analyses provide with valuable insights in the options to improve a product’s environmental impact. Along those lines, our findings are in agreement with previous studies that identified similar hotspots and changes in the same range for similar indicators [ 11 , 49 , 50 , 51 , 52 ].…”

Section: Discussionsupporting

confidence: 94%

“…In terms of carbon footprint, the current analysis estimated that greenhouse gas emissions of the analyzed products fall in the range of 67–100 g CO 2 -eq for every 30 g portion after reformulation. Previous studies that followed a similar methodology and carried out a full LCA analysis (bar end of life analysis) indicate that greenhouse gas emissions for cereal products fall in the range of 80–117 g CO 2 -eq, with exception of two studies that indicated much lower emissions 21–30 g CO 2 -eq, potentially due to the studies’ limited scope (studying specific aspects of the cereal product production or use of different life cycle inventory (LCI) databases) [ 11 , 49 , 50 , 51 , 52 ]. As with all LCA analyses, the results of this study should be treated with caution, as they are relevant to the specific products and the regions they are produced.…”

Section: Discussionmentioning

confidence: 99%

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Nutrition-Oriented Reformulation of Extruded Cereals and Associated Environmental Footprint: A Case Study

Espinoza‐Orias

Vlassopoulos²,

Gabriel³

2020

Foods

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The global food system faces a dual challenge for the decades ahead: to (re)formulate foods capable to feed a growing population while reducing their environmental footprint. In this analysis, nutritional composition, recipe, and sourcing data were analyzed alongside five environmental indicators: climate change (CC), freshwater consumption scarcity (FWCS), abiotic resource depletion (ARD), land use impacts on biodiversity (LUIB), and impacts on ecosphere/ecosystems quality (IEEQ) to assess improvement after three reformulation cycles (2003, 2010, 2018) in three extruded breakfast cereals. A life cycle assessment (LCA) was performed using life cycle inventory (LCI) composed by both primary data from the manufacturer and secondary data from usual third-party LCI datasets. Reformulation led to improved nutritional quality for all three products. In terms of environmental impact, improvements were observed for the CC, ARD, and IEEQ indicators, with average reductions of 12%, 14%, and 2% between 2003 and 2018, respectively. Conversely, the FWCS and LUIB indicators were increased by 57% and 70%, respectively. For all indicators but ARD, ingredients contributed most to the environmental impact. This study highlights the need for further focus on the selection of less demanding ingredients and improvements in agricultural practices in order to achieve environmental and nutritional improvements.

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Section: Discussionsupporting

confidence: 94%

Section: Discussionmentioning

confidence: 99%

Nutrition-Oriented Reformulation of Extruded Cereals and Associated Environmental Footprint: A Case Study

Espinoza‐Orias

Vlassopoulos²,

Gabriel³

2020

Foods

View full text Add to dashboard Cite

show abstract

“…Some of the environmental data in the studies showed decreased environmental footprints from the replacement of animal-based foods with plant-based foods, while others showed that plants had a higher footprint [13,14,15,16]. Whereas most studies showed lower environmental impacts from plant-based diets, a few studies showed a higher water footprint, and GHG emissions were observed from the replacement of calories from meat-reduction scenarios with increased plant-based foods [17,18]. Studies have shown that the formulation of substitute dietary patterns was also a factor in instances of higher environmental effects.…”

Section: Resultsmentioning

confidence: 99%

Review of Methodologies for Assessing Sustainable Diets and Potential for Development of Harmonised Indicators

Eme

Douwes

Kim

et al. 2019

IJERPH

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The underlying values and priorities that drive policy responses depend largely on the constructs that researchers and decision makers select to measure and the metrics used. Despite much recent attention being given to sustainable diets and food systems and to the importance of clearly measuring sustainability to meet targets, to achieve goals, and to appraise dietary and environmental policies, it is not commonly agreed how the different indicators of sustainable diets are assessed. The evidence base for assessment of these indicators are frequently weak, fragmented, and arbitrary. The aim of this paper was to compare a range of published methods and indicators for assessing sustainable diets and food systems in order to harmonise them. Keyword and reference searches were performed in PubMed, Scopus, CAB Abstracts, and Web of Knowledge. Fifty-two studies (21 proposed methods and 31 used methods) that combined environment, nutrition and health, and socioeconomic aspects of sustainable diets were reviewed. The majority (over 90%) of the studies focused on high-income countries. Twenty-eight studies assessed the environmental effects of different dietary practices, eight of the studies examined the nutrition and health indicators used for assessing sustainable food systems, and seven studies assessed the social and economic costs of diets. A classification of the elements was developed, and common elements are proposed for standardizing. These elements were categorized into nutrition and health indicators, environment indicators, and socioeconomic indicators. Standardized or harmonized indicators can be used for consistency and applicability purposes and to support, implement, and monitor relevant policies.

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“…In terms of carbon footprint, the current analysis estimated that greenhouse gas emissions of the analyzed products fall in the range of 67-100 g CO 2 -eq for every 30 g portion after reformulation. Previous studies that followed a similar methodology and carried out a full LCA analysis (bar end of life analysis) indicate that greenhouse gas emissions for cereal products fall in the range of 80-117 g CO 2 -eq with exception of two studies that indicated much lower emissions 21-30 g CO 2 -eq, potentially due to the studies' limited scope (studying speci c aspects of the cereal product production or use of different LCI databases) (11,(49)(50)(51)(52).…”

Section: Discussionmentioning

confidence: 99%

Nutrition-oriented reformulation of extruded cereals and associated environmental footprint: a case study

Espinoza‐Orias

Vlassopoulos

Gabriel³

2020

Preprint

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Abstract Background The global food system faces a dual challenge for the decades ahead: providing nutritious food to a growing population while reducing its environmental footprint. Reformulation of food has been identified as a strategy to improve the nutritional quality of products; but the environmental consequences of such reformulations have rarely been studied. The objective was to assess the evolution of five environmental impact indicators following reformulations of extruded breakfast cereals. Methods Recipe, nutritional composition and sourcing data for three extruded breakfast cereals were retrieved from the manufacturer, at three distinctive time points of a 15-year reformulation cycle: 2003, 2010, and 2018. Nutritional information was summarized using the Nutri-Score indicator. The environmental impact of all recipes was assessed by Life Cycle Assessment (LCA) using five indicators: climate change (CC), Freshwater consumption scarcity (FWCS), Abiotic resource depletion (ARD), Land use impacts on biodiversity (LUIB), and Impacts on ecosphere/ecosystems quality (IEEQ). Life cycle inventory (LCI) was both primary data from the manufacturer and secondary data from usual third-party LCI datasets. Results Reformulation led to improved nutritional quality for all three products. In terms of environmental impact, improvements were observed for the CC, ARD and IEEQ indicators, with average reductions of 12%, 14% and 2% between 2003 and 208, respectively. Conversely, the FWCS and LUIB indicators were increased by 57% and 70%, respectively. For all indicators but ARD, ingredients contributed most to the environmental impact, while the absolute impacts of other stages of the supply chain (i.e. manufacturing, packaging, transport and end-of-life) reduced. A sensitivity analysis simulating no deforestation agricultural practices suggested that the CC indicator could be further reduced by 21 to 49% for the 2018 recipes. Conclusions This study highlighted the need to better account for the environmental consequences of changing food product recipes. While improvements can be achieved at all stages of products’ life cycles, agricultural commodities need to be the focus for further improvement, in particular in shelf-stable grain-based products such as extruded cereals. This could be achieved through selection of less demanding ingredients and improvements in agricultural practices.

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Comparing the Performance of Bread and Breakfast Cereals, Dairy, and Meat in Nutritionally Balanced and Sustainable Diets

Cited by 21 publications

References 19 publications

Nutrition-Oriented Reformulation of Extruded Cereals and Associated Environmental Footprint: A Case Study

Nutrition-Oriented Reformulation of Extruded Cereals and Associated Environmental Footprint: A Case Study

Review of Methodologies for Assessing Sustainable Diets and Potential for Development of Harmonised Indicators

Nutrition-oriented reformulation of extruded cereals and associated environmental footprint: a case study

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