The impact of demographic
dynamics on food consumption and its environmental outcomes: Evidence from
China

doi:10.1016/j.jia.2023.11.017

Journal of Integrative Agriculture

2024, Vol. 23

Issue (02): 414-429 DOI: 10.1016/j.jia.2023.11.017

Section 2: Sustainability

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The impact of demographic dynamics on food consumption and its environmental outcomes: Evidence from China

Shaoting Li^{1, 3}, Xuan Chen^{1, 3}, Yanjun Ren^{1, 2, 3#}, Thomas Glauben²

¹College of Economics and Management, Northwest A&F University, Yangling 712100, China

²Leibniz Institute of Agricultural Development in Transition Economies (IAMO), Halle (Saale) 06120, Germany

³Sino-German Center for Agricultural and Food Economics, Northwest A&F University, Yangling 712100, China

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Abstract

With increasing population and changing demographics, food consumption has experienced a significant transition in quantity and quality. However, a dearth of knowledge remains regarding its environmental impacts and how it responds to demographic dynamics, particularly in emerging economies like China. Using the two-stage Quadratic Almost Demand System (QUAIDS) model, this study empirically examines the impact of demographic dynamics on food consumption and its environmental outcomes based on the provincial data from 2000 to 2020 in China. Under various scenarios, according to changes in demographics, we extend our analysis to project the long-term trend of food consumption and its environmental impacts, including greenhouse gas (GHG) emissions, water footprint (WF), and land appropriation (LA). The results reveal that an increase in the proportion of senior people significantly decreases the consumption of grain and livestock meat and increases the consumption of poultry, egg, and aquatic products, particularly for urban residents. Moreover, an increase in the proportion of males in the population leads to higher consumption of poultry and aquatic products. Correspondingly, in the current scenario of an increased aging population and sex ratio, it is anticipated that GHG emissions, WF, and LA are likely to decrease by 1.37, 2.52, and 3.56%, respectively. More importantly, in the scenario adhering to the standards of nutritional intake according to the Dietary Guidelines for Chinese Residents in 2022, GHG emissions, WF, and LA in urban areas would increase by 12.78, 20.94, and 18.32%, respectively. Our findings suggest that changing demographics should be considered when designing policies to mitigate the diet-environment-health trilemma and achieve sustainable food consumption.

Keywords: demographic dynamics food consumption environmental impacts nutrition intakes

Received: 20 February 2023 Accepted: 26 May 2023

Fund: This work was supported by the Qinchuangyuan Project of Shaanxi Province, China (QCYRCXM-2022-145), the Major Project of the Key Research Base of Humanities and Social Sciences of the Ministry of Education, China (22JJD790052), the Chinese Universities Scientific Fund (Z1010422003) and the National Natural Science Foundation of China (72373117).

About author: Shaoting Li, E-mail: shotting0324@gmail.com; #Correspondence Yanjun Ren, E-mail: yanjun.ren@nwafu.edu.cn

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Shaoting Li, Xuan Chen, Yanjun Ren, Thomas Glauben. 2024.

The impact of demographic dynamics on food consumption and its environmental outcomes: Evidence from China . Journal of Integrative Agriculture, 23(02): 414-429.

Abdulai A, Aubert D. 2004. A cross-section analysis of household demand for food and nutrients in Tanzania. Agricultural Economics, 31, 67–79.

Abler D. 2010. Demand growth in developing countries. [2023-12-10]. https://doi.org/10.1787/5km91p2xcsd4-en

Adebayo F A, Itkonen S T, Koponen P, Prattala R, Harkanen T, Lamberg-Allardt C, Erkkola M. 2017. Consumption of healthy foods and associated socio-demographic factors among Russian, Somali and Kurdish immigrants in Finland. Scandinavian Journal of Public Health, 45, 277–287.

Astbury C C, Penney T L, Adams J. 2019. Home-prepared food, dietary quality and socio-demographic factors: A cross-sectional analysis of the UK national diet and nutrition survey 2008–16. International Journal of Behavioral Nutrition and Physical Activity, 16, 82.

Aston L M, Smith J N, Powles J W. 2012. Impact of a reduced red and processed meat dietary pattern on disease risks and greenhouse gas emissions in the UK: A modelling study. BMJ Open, 2, e001072.

Banks J, Blundell R, Lewbel A. 1997. Quadratic engel curves and consumer demand. Review of Economics and Statistics, 79, 527–539.

Bopape L, Myers R. 2007. Analysis of household demand for food in South Africa: Model selection, expenditure endogeneity, and the influence of socio-demographic effects. In: Proceedings of the African Econometrics Society Annual Conference. Cape Town, South Africa.

Brunin J, Pointereau P, Alles B, Touvier M, Hercberg S, Lairon D, Baudry J, Kesse-Guyot E. 2022. Are recent dietary changes observed in the NutriNet-Santé participants healthier and more sustainable? European Journal of Nutrition, 61, 141–155.

Carpentier A, Guyomard H. 2001. Unconditional elasticities in two-stage demand systems: An approximate solution. American Journal of Agricultural Economics, 83, 222–229.

Carter C A, Zhong F, Zhu J. 2009. China’s role in the 2007–2008 global food price boom and bust. EuroChoices, 8, 17–23.

Cranfield J A, Eales J S, Hertel T W, Preckel P V. 2003. Model selection when estimating and predicting consumer demands using international, cross section data. Empirical Economics, 28, 353–364.

Cranfield J A, Preckel P V, Eales J S, Hertel T W. 2002. Estimating consumer demands across the development spectrum: Maximum likelihood estimates of an implicit direct additivity model. Journal of Development Economics, 68, 289–307.

Culliford A, Bradbury J. 2020. A cross-sectional survey of the readiness of consumers to adopt an environmentally sustainable diet. Nutrition Journal, 19, 138.

Deaton A, Muellbauer J. 1980a. An almost ideal demand system. The American Economic Review, 70, 312–326.

Deaton A, Muellbauer J. 1980b. Economics and Consumer Behavior. Cambridge University Press, New York.

Drewnowski A, Shultz J M. 2001. Impact of aging on eating behaviors, food choices, nutrition, and health status. The Journal of Nutrition, Health & Aging, 5, 75–79.

Edgerton D L. 1997. Weak separability and the estimation of elasticities in multistage demand systems. American Journal of Agricultural Economics, 79, 62–79.

Fraser G E, Welch A, Luben R, Bingham S A, Day N E. 2000. The effect of age, sex, and education on food consumption of a middle-aged English cohort-EPIC in East Anglia. Preventive Medicine, 30, 26–34.

Gao M, Wu B, Jin W C, Wei J S, Wang J W, Li J K. 2022. Impact of aging on food consumption in rural China: Implications for dietary upgrading and health improvement. Frontiers in Nutrition, 9, 933343.

Gould B W, Villarreal H J. 2006. An assessment of the current structure of food demand in urban China. Agricultural Economics, 34, 1–16.

Grabs J. 2015. The rebound effects of switching to vegetarianism. A microeconomic analysis of Swedish consumption behavior. Ecological Economics, 116, 270–279.

Han X, Wei C, Cao G Y. 2022. Aging, generational shifts, and energy consumption in urban China. Proceedings of the National Academy of Sciences of the United States of America, 119, e2210853119.

He P, Baiocchi G, Feng K S, Hubacek K, Yu Y. 2019. Environmental impacts of dietary quality improvement in China. Journal of Environmental Management, 240, 518–526.

He P, Baiocchi G, Hubacek K, Feng K S, Yu Y. 2018. The environmental impacts of rapidly changing diets and their nutritional quality in China. Nature Sustainability, 1, 122–127.

He P, Feng K S, Baiocchi G, Sun L X, Hubacek K. 2021. Shifts towards healthy diets in the US can reduce environmental impacts but would be unaffordable for poorer minorities. Nature Food, 2, 664–672.

Hoekstra A Y, Mekonnen M M. 2012. The water footprint of humanity. Proceedings of the National Academy of Sciences of the United States of America, 109, 3232–3237.

Hoekstra P Q, Hung A Y. 2002. Virtual water trade a quantification of virtual water flows between nations in relation to international crop trade. Water Science & Technology, 49, 203-209.

Hu F B. 2011. Globalization of diabetes the role of diet, lifestyle, and genes. Diabetes Care, 34, 1249–1257.

Huang J K. 1999. Social development, urbanization and food consumption. Social Science in China, 4, 102–116. (in Chinese)

Huang J K, David C C. 1993. Demand for cereal-grains in Asia - the effect of urbanization. Agricultural Economics, 8, 107–124.

Jiang Q B, Feng Q S, 2022. Aging and health in China. Frontiers in Public Health, 10, 998769.

Kim Y G, Eves A, ScarleS C. 2009. Building a model of local food consumption on trips and holidays: A grounded theory approach. International Journal of Hospitality Management, 28, 423–431.

Lecocq S, Robin J M. 2015. Estimating almost-ideal demand systems with endogenous regressors. Stata Journal, 15, 554–573.

Li H M, Wu T, Wang X, Qi Y. 2016. The greenhouse gas footprint of China’s food system: An analysis of recent trends and future scenarios. Journal of Industrial Ecology, 20, 803–817.

Liu J, Savenije H H G. 2008. Food consumption patterns and their effect on water requirement in China. Hydrology and Earth System Sciences, 12, 887–898.

Macdiarmid J I, Kyle J, Horgan G W, Loe J, Fyfe C, Johnstone A, McNeill G. 2012. Sustainable diets for the future: Can we contribute to reducing greenhouse gas emissions by eating a healthy diet? American Journal of Clinical Nutrition, 96, 632–639.

Meier T, Christen O. 2013. Environmental impacts of dietary recommendations and dietary styles: Germany as an example. Environmental Science & Technology, 47, 877–888.

Mendonca N, Hill T R, Granic A, Davies K, Collerton J, Mathers J C, Siervo M, Wrieden W L, Seal C J, Kirkwood T B L, Jagger C, Adamson A J. 2016. Micronutrient intake and food sources in the very old: Analysis of the Newcastle 85+ study. British Journal of Nutrition, 116, 751–761.

Min S, Bai J F, Seale J, Wahl T. 2015. Demographics, societal aging, and meat consumption in China. Journal of Integrative Agriculture, 14, 995–1007.

Min S, Wang X B, Yu X H. 2021. Does dietary knowledge affect household food waste in the developing economy of China? Food Policy, 98, 101896.

Modigliani F, Cao S L. 2004. The Chinese saving puzzle and the life-cycle hypothesis. Journal of Economic Literature, 42, 145–170.

Moro D, Sckokai P. 2000. Heterogenous preferences in India’s food and expenditure pattern: A complete demand system approach. European Review of Agricultural Economics, 27, 305–323.

Morrison K T, Nelson T A, Ostry A S. 2011. Mapping spatial variation in food consumption. Applied Geography, 31, 1262–1267.

NBSC (National Bureau of Statistics of China). 2001. China Statistical Yearbook. China Statistics Press, Beijing. (in Chinese)

NBSC (National Bureau of Statistics of China). 2021a. China Statistical Yearbook. China Statistics Press, Beijing. (in Chinese)

NBSC (National Bureau of Statistics of China). 2021b. The Bulletin of the Seventh National Population Census. [2021-5-13]. https://www.gov.cn/guoqing/2021-05/13/content_5606149.htm (in Chinese)

Peng X Z. 2011. China’s demographic history and future challenges. Science, 333, 581–587.

Poi B P. 2012. Easy demand-system estimation with quaids. Stata Journal, 12, 433–446.

Pollak R A, Wales T J. 1978. Estimation of complete demand systems from household budget data: The linear and quadratic expenditure systems. The American Economic Review, 68, 348–359.

Pollak R A, Wales T J. 1981. Demographic variables in demand analysis. Econometrica: Journal of the Econometric Society, 49, 1533–1551.

Power S E, Jeffery I B, Ross R P, Stanton C, O’Toole P W, O’Connor E M, Fitzgerald G F. 2014. Food and nutrient intake of Irish community-dwelling elderly subjects: Who is at nutritional risk? Journal of Nutrition Health & Aging, 18, 561–572.

Rae A N. 1998. The effects of expenditure growth and urbanisation on food consumption in East Asia: A note on animal products. Agricultural Economics, 18, 291–299.

Ranganathan J. 2013. The global food challenge explained in 18 graphics. [2014-4-2]. http://www.wri.org/blog/global-food-challengeexplained-18-graphics

Ren Y J, Li H, Wang X B. 2019. Family income and nutrition-related health: Evidence from food consumption in China. Social Science & Medicine, 232, 58–76.

Ren Y J, Zhang Y J, Loy J P, Glauben T. 2018. Food consumption among income classes and its response to changes in income distribution in rural China. China Agricultural Economic Review, 10, 406–424.

Riediger N D, Moghadasian M H. 2008. Patterns of fruit and vegetable consumption and the influence of sex, age and socio-demographic factors among Canadian elderly. Journal of the American College of Nutrition, 27, 306–313.

Rolls B J. 1993. Appetite, hunger, and satiety in the elderly. Critical Reviews in Food Science and Nutrition, 33, 39–44.

Rowe J W, Kahn R L. 1987. Human aging: Usual and successful. Science, 237, 143–149.

Seale J L, Bai J F, Wahl T I, Lohmar B T. 2012. Household engel curve analysis for food, Beijing, China. China Agricultural Economic Review, 4, 427–439.

Seale Jr J L, Regmi A. 2006. Modeling international consumption patterns. Review of Income and Wealth, 52, 603–624.

Song G B, Li M J, Fullana-i-Palmer P, Williamson D, Wang Y X. 2017. Dietary changes to mitigate climate change and benefit public health in China. Science of the Total Environment, 577, 289–298.

Song G B, Li M J, Semakula H M, Zhang S S. 2015. Food consumption and waste and the embedded carbon, water and ecological footprints of households in China. Science of the Total Environment, 529, 191–197.

Springmann M, Clark M, Mason-D’Croz D, Wiebe K, Bodirsky B L, Lassaletta L, de Vries W, Vermeulen S J, Herrero M, Carlson K M, Jonell M, Troell M, DeClerck F, Gordon L J, Zurayk R, Scarborough P, Rayner M, Loken B, Fanzo J, Godfray H C J, Tilman D, Rockstrom J, Willett W. 2018. Options for keeping the food system within environmental limits. Nature, 562, 519.

Tilman D, Fargione J, Wolff B, D’Antonio C, Dobson A, Howarth R, Schindler D, Schlesinger W H, Simberloff D, Swackhamer D. 2001. Forecasting agriculturally driven global environmental change. Science, 292, 281–284.

Vermeulen S J, Campbell B M, Ingram J S I. 2012. Climate change and food systems. In: Gadgil A, Liverman D M. eds., Annual Review of Environment and Resources, 37, 195–222.

Wang L, Cui S H, Hu Y C, Connor O, Gao B, Huang W, Zhang Y, Xu S. 2021. The co-benefits for food carbon footprint and overweight and obesity from dietary adjustments in China. Journal of Cleaner Production, 289, 125675.

Wang L, Gao B, Hu Y C, Huang W, Cui S H. 2020. Environmental effects of sustainability-oriented diet transition in China. Resources Conservation and Recycling, 158, 104802.

Xiong X, Zhang L X, Hao Y, Zhang P P, Chang Y, Liu G Y. 2020. Urban dietary changes and linked carbon footprint in China: A case study of Beijing. Journal of Environmental Management, 255, 109877.

Xu F, Bai J F, Zhang C P. 2018. Impact of meat consumption in urban China on water resources: A consistent two-step QUAIDS model. Journal of Agrotechnical Economics, doi: 10.13246/j.cnki.jae.2018.08.001. (in Chinese)

Yen S T, Kan K, Su S J. 2002. Household demand for fats and oils: Two-step estimation of a censored demand system. Applied Economics, 34, 1799–1806.

Yen S T, Lin B H, Smallwood D M. 2003. Quasi and simulated likelihood approaches to censored demand systems: Food consumption by food stamp recipients in the United States. American Journal of Agricultural Economics, 85, 458–478.

Yu D M, Zhao L Y, Zhao W H. 2020. Status and trends in consumption of grains and dietary fiber among Chinese adults (1982–2015). Nutrition Reviews, 78, 43–53.

Yu W, Hertel T W, Preckel P V, Eales J S. 2004. Projecting world food demand using alternative demand systems. Economic Modelling, 21, 99–129.

Zheng Z H, Henneberry S R. 2010. The impact of changes in income distribution on current and future food demand in urban China. Journal of Agricultural and Resource Economics, 35, 51–71.

Zheng Z H, Henneberry S R, Zhao Y Y, Gao Y. 2019. Predicting the changes in the structure of food demand in China. Agribusiness, 35, 301–328.

Zhong F N, Xiang J, Zhu J. 2012. Impact of demographic dynamics on food consumption - A case study of energy intake in China. China Economic Review, 23, 1011–1019.

Zhu Y Y, Wang Z W, Zhu X H. 2023. New reflections on food security and land use strategies based on the evolution of Chinese dietary patterns. Land Use Policy, 126, 106520.

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