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Nutritional implications of Australians switching from traditional animal-source foods to plant-based ‘alternatives’: an exploratory study

Published online by Cambridge University Press:  22 March 2023

H. Huang
Affiliation:
School of Agriculture and Food, University of Melbourne, Parkville, Vic. 3052, Australia
B.J. Johnson
Affiliation:
Caring Futures Institute, College of Nursing and Health Sciences, Flinders University, Adelaide, SA 5042, Australia
T.P. Wycherley
Affiliation:
Alliance for Research in Exercise, Nutrition and Activity, University of South Australia, Adelaide, SA 5001, Australia
A.S. Lawrence
Affiliation:
School of Agriculture and Food, University of Melbourne, Parkville, Vic. 3052, Australia
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Abstract

Type
Abstract
Copyright
Copyright © The Authors 2023

Although there are many ways to make a diet more environmentally sustainable, much attention is focused on transitioning to diets containing less animal-source food and more plant-source foods. Plant-based meat and milk alternatives, even though often ultra-processed, are perceived by consumers to be more environmentally beneficial than the minimally processed animal-source foods they mimic. Sales of such alternatives have increased rapidly in recent years in many western countries.(Reference Sridhar, Bouhallab and Croguennec1) In Australia, there was a five-fold increase in the number of plant-based ‘meat’ products available in Australian supermarkets between 2015 and 2019(Reference Curtain and Grafenauer2) and a doubling in demand for plant-based ‘milk’ between 2011–2012 and 2021–2022.(3) As plant-based meat and milk alternatives are partial rather than complete nutritional replacements for their animal source originals,(Reference van Vliet, Kronberg and Provenza4,Reference Singhal, Baker and Baker5) and sales are predicted to continue to increase, it is timely to consider the nutritional impact of these dietary changes at a population level. The aim of this study was to estimate the nutritional implications for the Australian population of substitution of animal-source meat and milk with plant-based ‘alternative’ products. Computer simulation modelling was undertaken using dietary intake data collected in 2011–2012 from a nationally representative survey sample of 12,153 persons (2 y and over).(6) Scenarios based on sales reports and economic projections were modelled in which various amounts of cows’ milk and/or meat (chicken, beef and sausages) were replaced with plant-based ‘milk’ (mostly soy and almond-based) and plant-based ‘meat’ (soy/wheat/pea meat alternatives and vegetarian sausages) respectively, for the entire population and for various sub-populations: young children (2–3 y), men and women (19–30 y) and older adults (71 y and over). Compared with the base case, replacing meat and cows’ milk with plant-based alternatives resulted in theoretical increases in intake of dietary fibre, polyunsaturated fatty acids, vitamin E and iron and decreases in intake of protein, long chain omega 3 fatty acids, naturally occurring trans fatty acids, vitamin B12 and zinc. Replacing cows’ milk with plant-based ‘milk’ could reduce saturated fat, calcium and iodine intake. Of the sub-population groups considered, young children would likely experience the most pronounced nutrient intake changes. For this group, substantial hypothetical reductions in intake of protein, saturated, trans and long chain omega 3 fatty acids, vitamin B12, iodine and zinc and increases in intake of iron, vitamin E and polyunsaturated fat intake were observed. Although sometimes described as a ‘win–win’ for health and the environment, widespread replacement of milk and meat with plant-based alternatives may increase risk of nutritional inadequacies in the Australian population. These results highlight the need for ongoing nutritional surveillance of the Australian population as consumers select diets they perceive to be more environmentally sustainable.

References

Sridhar, K, Bouhallab, S, Croguennec, T, et al. . (2022) Crit Rev Food Sci Nutr, 1-16.CrossRefGoogle Scholar
Curtain, F & Grafenauer, S (2019) Nutrients 11 (2603), 114.Google Scholar
IBISWorld (2021) Soy and almond milk production in Australia. Available from: https://www.ibisworld.com/au/industry/soy-almond-milk-production/5256/Google Scholar
van Vliet, S, Kronberg, SL & Provenza, FD (2020) Front Sustain Food Syst 4 (128), 1-17.CrossRefGoogle Scholar
Singhal, S, Baker, RD & Baker, SS (2017) J Pediatr Gastroenterol Nutr 64, 799805.CrossRefGoogle Scholar
Australian Bureau of Statistics (2016) 4324.0.55.002 Microdata: Australian health survey, nutrition and physical activity, 2011-12 basic confidentialised unit record data item list. Available from: https://www.abs.gov.au/statistics/microdata-tablebuilder/available-microdata-tablebuilder/australian-health-survey-nutrition-and-physical-activity/4324055002DO002.xlsGoogle Scholar