Evaluating the environmental impacts of dietary recommendations
Edited by William C. Clark, Harvard University, Cambridge, MA, and approved October 31, 2017 (received for review July 3, 2017)
Significance
Nationally recommended diets are a prominent method for informing the public on dietary choices. Although dietary choices drive both health and environmental outcomes, these diets make almost no reference to environmental impacts. Our study provides a comparison between the environmental impacts of average dietary intakes and a nation-specific recommended diet across 37 middle- and high-income nations. We find that following a nationally recommended diet in high-income nations results in a reduction in greenhouse gases, eutrophication, and land use. In upper-middle–income nations, we find a smaller reduction in impacts, and in lower-middle–income nations we find a substantial increase. The net result from large-scale adoption of nationally recommended diets for countries studied here results in a reduction in environmental impacts.
Abstract
Dietary choices drive both health and environmental outcomes. Information on diets come from many sources, with nationally recommended diets (NRDs) by governmental or similar advisory bodies the most authoritative. Little or no attention is placed on the environmental impacts within NRDs. Here we quantify the impact of nation-specific NRDs, compared with an average diet in 37 nations, representing 64% of global population. We focus on greenhouse gases (GHGs), eutrophication, and land use because these have impacts reaching or exceeding planetary boundaries. We show that compared with average diets, NRDs in high-income nations are associated with reductions in GHG, eutrophication, and land use from 13.0 to 24.8%, 9.8 to 21.3%, and 5.7 to 17.6%, respectively. In upper-middle–income nations, NRDs are associated with slight decrease in impacts of 0.8–12.2%, 7.7–19.4%, and 7.2–18.6%. In poorer middle-income nations, impacts increase by 12.4–17.0%, 24.5–31.9%, and 8.8–14.8%. The reduced environmental impact in high-income countries is driven by reductions in calories (∼54% of effect) and a change in composition (∼46%). The increased environmental impacts of NRDs in low- and middle-income nations are associated with increased intake in animal products. Uniform adoption of NRDs across these nations would result in reductions of 0.19–0.53 Gt CO2 eq⋅a−1, 4.32–10.6 Gt eq⋅a−1, and 1.5–2.8 million km2, while providing the health cobenefits of adopting an NRD. As a small number of dietary guidelines are beginning to incorporate more general environmental concerns, we anticipate that this work will provide a standardized baseline for future work to optimize recommended diets further.
Data Availability
Data deposition: Software code is available online at https://github.com/PaulBehrens/EvaluatingEnvironmentalNRD.
Supporting Information
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References
1
JA Foley, Global consequences of land use. Science 309, 570–574 (2005).
2
SJ Vermeulen, BM Campbell, JSI Ingram, Climate change and food systems. Annu Rev Environ Resour 37, 195–222 (2012).
3
SR Carpenter, Eutrophication of aquatic ecosystems: Bistability and soil phosphorus. Proc Natl Acad Sci USA 102, 10002–10005 (2005).
4
S Whitmee, et al., Safeguarding human health in the Anthropocene epoch: Report of The Rockefeller Foundation-Lancet Commission on planetary health. Lancet 386, 1973–2028 (2015).
5
B Machovina, KJ Feeley, WJ Ripple, Biodiversity conservation: The key is reducing meat consumption. Sci Total Environ 536, 419–431 (2015).
6
L Aleksandrowicz, R Green, EJM Joy, P Smith, A Haines, The impacts of dietary change on greenhouse gas emissions, land use, water use, and health: A systematic review. PLoS One 11, e0165797 (2016).
7
; Food and Agriculture Organization State of Food Insecurity in the World 2014: In Brief (Food Agric Organ, Rome, 2014).
8
M Niles, et al., Climate change & food systems: Assessing impacts and opportunities. Available at bit.ly/2oFucpe. Accessed November 10, 2017. (2017).
9
T Garnett, Where are the best opportunities for reducing greenhouse gas emissions in the food system (including the food chain)? A comment. Food Policy 36, 463–466 (2012).
10
A Tukker, et al., Environmental impacts of changes to healthier diets in Europe. Ecol Econ 70, 1776–1788 (2011).
11
M Story, KM Kaphingst, R Robinson-O’Brien, K Glanz, Creating healthy food and eating environments: Policy and environmental approaches. Annu Rev Public Health 29, 253–272 (2008).
12
WD Clay, Preparation and Use of Food-Based Dietary Guidelines. Available at www.fao.org/docrep/W5849T/w5849t0a.htm. Accessed November 10, 2017. (1997).
13
BM Popkin, Global nutrition dynamics: The world is shifting rapidly toward a diet linked with noncommunicable diseases. Am J Clin Nutr 84, 289–298 (2006).
14
BF Sunguya, et al., Strong nutrition governance is a key to addressing nutrition transition in low and middle-income countries: Review of countries’ nutrition policies. Nutr J 13, 65 (2014).
15
C Montagnese, et al., European food-based dietary guidelines: A comparison and update. Nutrition 31, 908–915 (2015).
16
RU Ayres, Life cycle analysis: A critique. Resour Conserv Recycl 14, 199–223 (1995).
17
AB Arenas, et al., Guía Alimentaria y Actividad Física. Available at guiasalimentacionyactividadfisica.org.mx/wp-content/uploads/2015/10/Guias-alimentarias-y-de-actividad-fisica.pdf. Accessed November 10, 2017. (2015).
18
HA Udo De Haes, Life-cycle assessment and developing countries. J Ind Ecol 8, 8–10 (2004).
19
W Steffen, et al., Sustainability. Planetary boundaries: Guiding human development on a changing planet. Science 347, 1259855 (2015).
20
; World Bank, World Bank country and lending groups. Available at https://datahelpdesk.worldbank.org/knowledgebase/articles/906519-world-bank-country-and-lending-groups. Accessed November 10, 2017. (2016).
21
; National Institute of Nutrition, Dietary Guidelines for Indians–A Manual. Available at ninindia.org/DietaryGuidelinesforNINwebsite.pdf. Accessed November 10, 2017. (2011).
22
; US Department of Health and Human Services and US Department of Agriculture, Dietary Guidelines for Americans, 2015–2020, 8th Ed, Available at http://health.gov/dietaryguidelines/2015/guidelines/. Accessed November 10, 2017. (2015).
23
R Imre, et al., Táplálkozási ajánlások a magyarországi felnőtt lakosság számára. Available at www.fao.org/3/a-as684o.pdf. Accessed November 10, 2017. Hungarian. (2004).
24
KA Degac, et al., Prehrambene smjernice za odrasle. Available at www.fao.org/3/a-as670o.pdf. Accessed November 10, 2017. Croatian. (2002).
25
LA Harper, OT Denmead, JR Freney, FM Byers, Direct measurements of methane emissions from grazing and feedlot cattle. J Anim Sci 77, 1392–1401 (1999).
26
PH Tyedmers, R Watson, D Pauly, Fueling global fishing fleets. AMBIO A J Hum Environ 34, 635–638 (2005).
27
B Notarnicola, G Tassielli, PA Renzulli, V Castellani, S Sala, Environmental impacts of food consumption in Europe. J Clean Prod 140, 753–765 (2017).
28
G Majeau-Bettez, AH Strømman, EG Hertwich, Evaluation of process- and input-output-based life cycle inventory data with regard to truncation and aggregation issues. Environ Sci Technol 45, 10170–10177 (2011).
29
F Stoessel, R Juraske, S Pfister, S Hellweg, Life cycle inventory and carbon and water FoodPrint of fruits and vegetables: Application to a Swiss retailer. Environ Sci Technol 46, 3253–3262 (2012).
30
MS Nnyepi, N Gwisai, M Lekgoa, T Seru, Evidence of nutrition transition in Southern Africa. Proc Nutr Soc 74, 478–486 (2015).
31
L Wyness, The role of red meat in the diet: Nutrition and health benefits. Proc Nutr Soc 25, 1–6 (2015).
32
D Tilman, M Clark, Global diets link environmental sustainability and human health. Nature 515, 518–522 (2014).
33
; Food and Agricultural Organization, Human energy requirements: Report of a joint FAO/WHO/UNU expert consultation (Food and Agriculture Organization, Rome), Food and Nutrition Technical Report Series, p 96. (2001).
34
SM Seves, J Verkaik-Kloosterman, S Biesbroek, EH Temme, Are more environmentally sustainable diets with less meat and dairy nutritionally adequate? Public Health Nutr 20, 2050–2062 (2017).
35
K Bälter, et al., Is a diet low in greenhouse gas emissions a nutritious diet?–Analyses of self-selected diets in the LifeGene study. Arch Public Health 75, 17 (2017).
36
SK Raatz, JT Silverstein, L Jahns, MJ Picklo, Issues of fish consumption for cardiovascular disease risk reduction. Nutrients 5, 1081–1097 (2013).
37
D Pauly, VV Christensen, J Dalsgaard, R Froese, Jr F Torres, Fishing down marine food webs. Science 279, 860–863 (1998).
38
K Teo, et al., Prevalence of a healthy lifestyle among individuals with cardiovascular disease in high-, middle- and low-income countries: The Prospective Urban Rural Epidemiology (PURE) study. JAMA; PURE Investigators 309, 1613–1621 (2013).
39
LM Bodnar, et al., Racial or ethnic and socioeconomic inequalities in adherence to national dietary guidance in a large cohort of US pregnant women. J Acad Nutr Diet 117, 867–877.e3 (2017).
40
SM Sturkenboom, et al., Acculturation and dietary patterns among residents of Surinamese origin in The Netherlands: The HELIUS dietary pattern study. Public Health Nutr 19, 682–692 (2016).
41
I-M Doyle, B Borrmann, A Grosser, O Razum, J Spallek, Determinants of dietary patterns and diet quality during pregnancy: A systematic review with narrative synthesis. Public Health Nutr 20, 1009–1028 (2017).
42
; Food and Agriculture Organization, Food wastage footprint & climate change global food loss and waste (Food and Agriculture Organization, Rome), pp 1–4. (2015).
43
JW Finley, et al., Nutritional sustainability: Aligning priorities in nutrition and public health with agricultural production. Adv Nutr 8, 780–788 (2017).
44
M Michalský, PS Hooda, Greenhouse gas emissions of imported and locally produced fruit and vegetable commodities: A quantitative assessment. Environ Sci Policy 48, 32–43 (2015).
45
MM Ulaszewska, G Luzzani, S Pignatelli, E Capri, Assessment of diet-related GHG emissions using the environmental hourglass approach for the Mediterranean and new Nordic diets. Sci Total Environ 574, 829–836 (2017).
46
L Wellesley, C Happer, A Froggatt, Changing climate, changing diets: Pathways to lower meat consumption (Chatham House, The Royal Institute of International Affairs, London). (2015).
47
; Food and Agriculture Organization Food Balance Sheets (Food Agric Organ, Rome, 2016).
48
; Food and Agriculture Organization, Global Food Losses and Food Waste (Food Agric Organ, Rome). Available at www.fao.org/docrep/014/mb060e/mb060e00.pdf. Accessed November 10, 2017. (2011).
49
LC Del Gobbo, et al., Assessing global dietary habits: A comparison of national estimates from the FAO and the Global Dietary Database. Am J Clin Nutr 101, 1038–1046 (2015).
50
E Archer, GA Hand, SN Blair, Validity of U.S. nutritional surveillance: National Health and Nutrition Examination survey caloric energy intake data, 1971-2010. PLoS One 8, e76632 (2013).
51
AA Usfar, U Fahmida, Do Indonesians follow its dietary guidelines? Evidence related to food consumption, healthy lifestyle, and nutritional status within the period 2000-2010. Asia Pac J Clin Nutr 20, 484–494 (2011).
52
L van der Heijden, Maten, gewichten en codenummers 2003. Informatorium Voor Voeding En Diëtetiek (Bohn Stafleu Van Loghum, Houten, The Netherlands), pp. 732–735 (2013).
53
R Wood, et al., Global sustainability accounting-developing EXIOBASE for multi-regional footprint analysis. Sustainability 7, 138–163 (2015).
54
R Heijungs, et al. Environmental Life Cycle Assessment of Products: Guide and backgrounds, Part 1 (Institute of Environmental Sciences, Leiden, The Netherlands) Vol 1 (1992).
55
RE Miller, PD Blair Input-Output Analysis Foundations and Extensions (Cambridge Univ Press, 2nd Ed, Cambridge, UK, 2009).
56
; National Health and Medical Research Council, Department of Health, Eat for health: Australian dietary guidelines (Australian Government, Canberra, ACT, Australia). (2013).
57
; Ministerium Faruen Gesundheit, Die Österreichische Ernahrunspyramide. Available at https://www.bmgf.gv.at/home/Ernaehrungspyramide. Accessed November 10, 2017. German. (2010).
58
; Minister van Sociale Zaken en Volksgezondheid, Lekker aanbevolen voor jong en minder jong. Available at www.fao.org/3/a-as664o.pdf. Accessed November 10, 2017. Dutch. (2005).
59
; Ministry of Health Brazil, Dietary guidelines for the Brazilian. Available at www.foodpolitics.com/wp-content/uploads/Brazilian-Dietary-Guidelines-2014.pdf. Accessed November 10, 2017. (2014).
60
; Health Canada, Food guide servings. Available at www.hc-sc.gc.ca/fn-an/alt_formats/hpfb-dgpsa/pdf/food-guide-aliment/view_eatwell_vue_bienmang-eng.pdf. Accessed November 10, 2017. (2011).
61
; Chinese Nutrition Society, The Chinese dietary guidelines. Available at dg.en.cnsoc.org/. Accessed November 10, 2017. (2016).
62
; Ministeriet for Fødevarer Landbrug of Fiskeri, De Officielle Kostråd. Available at www.fao.org/3/a-as675o.pdf. Accessed November 10, 2017. Danish. (2013).
63
; Ministry of Health and the Ministry of Education, National nutrition and exercise guidelines, Ministry of Health. Available at http://www.fao.org/3/a-as673o.pdf. Accessed November 10, 2017. (2007).
64
; Valtion ravitsemusneuvottelukunta, Suomalaiset Ravitsemussuositukset. Available at www.ravitsemusneuvottelukunta.fi/files/attachments/fi/vrn/ravitsemussuositukset_2014_fi_web.3.pdf. Accessed November 10, 2017. Finnish. (2014).
65
; Programme National Nutrition Santé, La Santé Vient En Mangeant-Guide Alimentaire Pour Tous. Available at www.inpes.sante.fr/CFESBases/catalogue/pdf/581.pdf. Accessed November 10, 2017. French. (2011).
66
; National Institute for Health Development, Eesti toitumis ja eesti toitumis ja. Available at www.fao.org/3/a-as677o.pdf. Accessed November 10, 2017. Estonian. (2006).
67
; Supreme Scientific Health Council, Food-based dietary guidelines, Hellenic Ministry of Health. Available at http://www.hhf-greece.gr/hydria-nhns.gr/adultdietary_eng.html. Accessed November 10, 2017. (1999).
68
; German Nutrition Society, DGE nutritional circle. Available at https://www.dge.de/ernaehrungspraxis/vollwertige-ernaehrung/ernaehrungskreis/. Accessed November 10, 2017. (2013).
69
; An Roinn Sláinte, Your guide to healthy eating using the food pyramid. Available at https://www.healthpromotion.ie/hp-files/docs/HPM00796.pdf. Accessed November 10, 2017. (2012).
70
; Ministry of Health, Labour and Welfare and Ministry of Agriculture, Forestry and Fisheries, Japanese food guide spinning top. Available at www.maff.go.jp/j/balance_guide/b_use/pdf/eng_reiari.pdf. Accessed November 10, 2017. (2010).
71
; Veselibas ministrija, Veseliga uztura ieteikumi pieaugusajiem. Available at www.fao.org/3/a-as687o.pdf. Accessed November 10, 2017. Latvian. (2008).
72
; Istituto Nazionale di Ricerca per gli Alimenti e la Nutrizione, Linee guida per una sana alimentazione Italiana. Available at www.salute.gov.it/imgs/C_17_pubblicazioni_652_allegato.pdf. Accessed November 10, 2017. Italian. (2003).
73
L Brink, A Postma-Smeets, A Stafleu, D Wolvers, Richtlijnen Schijf van Vijf. Available at www.voedingscentrum.nl/Assets/Uploads/voedingscentrum/Documents/Consumenten/Schijf van Vijf 2016/VC_Richtlijnen_Schijf_van_Vijf_2016.pdf. Accessed November 10, 2017. Dutch. (2016).
74
; Health Promotion & Disease Prevention Directorate, The healthy plate: Dietary guidelines for Maltese adults. Available at health.gov.mt/en/health-promotion/Documents/library/publications/Healthy plate EN.pdf. Accessed November 10, 2017. (2015).
75
; Programa Nacional para a Promação de Alimentação Saudável, Dia alimentar, completo equilibrado e variado. Available at nutrimento.pt/noticias/cartaz-porcoes-diarias-recomendadas-segundo-a-nova-roda-dos-alimentos/. Accessed November 10, 2017. Portuguese. (2003).
76
Helsedirektoratet (2014) Anbefalinger om kosthold, ernæring og fysisk aktivitet. Available at https://helsedirektoratet.no/Lists/Publikasjoner/Attachments/806/Anbefalinger-om-kosthold-ernering-og-fysisk-aktivitet-IS-2170.pdf. Accessed November 10, 2017. Norwegian.
77
E Chabros, et al., Zasady Zdrowego Zywienia. Available at www.fao.org/3/a-as837o.pdf. Accessed November 10, 2017. Polish. (2010).
78
S Park, S Moon, H Kim, K Shim, JE Hwang, Development of Korean healthy eating index for adults using the Korea national health and nutrition examination survey data. J Nutr Health 48, 419–428 (2015).
79
M Graur, et al., Ghid pentru alimentaţia sănătoasă. Available at www.fao.org/3/a-as693o.pdf. Accessed November 10, 2017. Romanian. (2006).
80
Rosminzdrav (2015) Healthy eating guidelines. Available at https://goo.gl/ufwy8T. Accessed November 10, 2017.
81
; Schweizerische Gesellschaft für Ernährung, Swiss food pyramid recommendations for a healthy and enjoyable adult diet. Available at https://www.ag.ch/media/kanton_aargau/dgs/dokumente_4/gesundheit_1/gesundheitsfoerderung___praevention/merkblaetter_1/lebensmittelpyramide/lebensmittel_en.pdf. Accessed November 10, 2017. (2011).
82
CH Ribic, Priporočila za Zdravo Prehranjevanje. Available at www.fao.org/3/a-az910o.pdf. Accessed November 10, 2017. Slovenian. (2007).
83
HH Vorster, JB Badham, CS Venter, Food-based dietary guidelines for South Africa. South Afr J Clin Nutr 26, 32–72 (2013).
84
; Public Health England, The eatwell guide. Available at https://www.nhs.uk/Livewell/Goodfood/Documents/The-Eatwell-Guide-2016.pdf. Accessed November 10, 2017. (2016).
85
JT Mari, MS Alias, JN Cruz, M V. Ibanez Una alimentación sana ¡para todos! (Ministerio de Sanidad, Política, Social e Igualdad, Madrid, 2010).
86
Å Brugård Konde, et al., Swedish dietary guidelines - risk and benefit management report. Available at http://www.fao.org/3/a-az854e.pdf. Accessed November 10, 2017. (2015).
87
; Food Safety Department Community Nutrition Division, Dietary guidelines for Turkey. Available at www.fao.org/3/a-as697e.pdf. Accessed November 10, 2017. (2006).
88
Intergovernmental Panel on Climate Change (IPCC) (2013) Climate change 2013: The physical science basis. Contribution of Working Group I to the fifth assessment report of the Intergovernmental Panel on Climate Change, eds Stocker TF, et al. (Cambridge Univ Press, Cambridge, UK).
89
MAJ Huijbregts, W Schöpp, E Verkuijlen, R Heijungs, L Reijnders, Spatically explicit characteristics of acidifying and eutrophying air pollution in life-cycle assessment. J Ind Ecol 4, 75–92 (2000).
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Copyright © 2017 the Author(s). Published by PNAS. This open access article is distributed under Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND).
Data Availability
Data deposition: Software code is available online at https://github.com/PaulBehrens/EvaluatingEnvironmentalNRD.
Submission history
Published online: December 4, 2017
Published in issue: December 19, 2017
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This article is a PNAS Direct Submission.
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The authors declare no conflict of interest.
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Cite this article
Evaluating the environmental impacts of dietary recommendations, Proc. Natl. Acad. Sci. U.S.A.
114 (51) 13412-13417,
https://doi.org/10.1073/pnas.1711889114
(2017).
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