A new dietary guideline balancing sustainability and nutrition for China’s rural and urban residents

[1]  OECD-FAO Agricultural Outlook 2021-2030 , 2021, OECD-FAO Agricultural Outlook.

[2]  Xiaoling Zhang,et al.  Urbanization can benefit agricultural production with large-scale farming in China , 2021, Nature Food.

[3]  F. Tubiello,et al.  Food systems are responsible for a third of global anthropogenic GHG emissions , 2021, Nature Food.

[4]  What differentiates food-related environmental footprints of rural Chinese households? , 2021 .

[5]  Minjuan Zhao,et al.  Environmental improvement value of agricultural carbon reduction and its spatiotemporal dynamic evolution: Evidence from China. , 2021, The Science of the total environment.

[6]  S. Morris,et al.  Conceptual framework of food systems for children and adolescents , 2020, Global Food Security.

[7]  C. Binder,et al.  Increasing organic food consumption: An integrating model of drivers and barriers , 2020 .

[8]  G. Guillén‐Gosálbez,et al.  Global environmental and nutritional assessment of national food supply patterns: Insights from a data envelopment analysis approach. , 2020, The Science of the total environment.

[9]  T. Nemecek,et al.  Assessing nutritional, health, and environmental sustainability dimensions of agri-food production , 2020 .

[10]  S. de Pee,et al.  Adoption of the ‘planetary health diet’ has different impacts on countries’ greenhouse gas emissions , 2020, Nature Food.

[11]  P. Scarborough,et al.  The healthiness and sustainability of national and global food based dietary guidelines: modelling study , 2020, BMJ.

[12]  N. Rao The achievement of food and nutrition security in South Asia is deeply gendered , 2020, Nature Food.

[13]  X. Gabarrell,et al.  Exploring nutrient recovery from hydroponics in urban agriculture: An environmental assessment , 2020 .

[14]  Yan-sui Liu,et al.  Assessment and analysis of agricultural non-point source pollution loads in China: 1978-2017. , 2020, Journal of environmental management.

[15]  Shenghui Cui,et al.  Diet shift: Considering environment, health and food culture. , 2020, The Science of the total environment.

[16]  E. Tipping,et al.  Simulating long-term carbon nitrogen and phosphorus biogeochemical cycling in agricultural environments. , 2020, The Science of the total environment.

[17]  D. Mozaffarian Dietary and policy priorities to reduce the global crises of obesity and diabetes , 2020, Nature Food.

[18]  S. Friel,et al.  The nexus between international trade, food systems, malnutrition and climate change , 2020, Nature Food.

[19]  Nawel Achir,et al.  How to meet nutritional recommendations and reduce diet environmental impact in the Mediterranean region? An optimization study to identify more sustainable diets in Tunisia , 2019 .

[20]  A. Tukker,et al.  Life Cycle Assessment of Food Systems , 2019, One Earth.

[21]  Fusuo Zhang,et al.  Cropland acidification increases risk of yield losses and food insecurity in China. , 2019, Environmental pollution.

[22]  U. Sonesson,et al.  Dietary-dependent nutrient quality indexes as a complementary functional unit in LCA: A feasible option? , 2019, Journal of Cleaner Production.

[23]  W. Willett,et al.  Food in the Anthropocene: the EAT–Lancet Commission on healthy diets from sustainable food systems , 2019, The Lancet.

[24]  Yu Sheng,et al.  Agricultural production and food consumption in China: A long-term projection , 2019, China Economic Review.

[25]  Guobao Song,et al.  Shift from feeding to sustainably nourishing urban China: A crossing-disciplinary methodology for global environment-food-health nexus. , 2019, The Science of the total environment.

[26]  W. Willett,et al.  Options for keeping the food system within environmental limits , 2018, Nature.

[27]  P. Scarborough,et al.  Accounting for consumers’ preferences in the analysis of dietary recommendations , 2018, European Journal of Clinical Nutrition.

[28]  Ling Zhang,et al.  Nutrient-derived environmental impacts in Chinese agriculture during 1978-2015. , 2018, Journal of environmental management.

[29]  B. Liu,et al.  Progress towards sustainable intensification in China challenged by land-use change , 2018, Nature Sustainability.

[30]  T. Nemecek,et al.  Reducing food’s environmental impacts through producers and consumers , 2018, Science.

[31]  G. Baiocchi,et al.  The environmental impacts of rapidly changing diets and their nutritional quality in China , 2018, Nature Sustainability.

[32]  Mengru Wang,et al.  Exploring nutrient management options to increase nitrogen and phosphorus use efficiencies in food production of China , 2017, Agricultural Systems.

[33]  Dalia Streimikiene,et al.  Energy-related CO2 emission in European Union agriculture: Driving forces and possibilities for reduction , 2016 .

[34]  Karen C. Seto,et al.  Hidden linkages between urbanization and food systems , 2016, Science.

[35]  Leonor Patricia Güereca,et al.  Environmental impact of beef production in Mexico through life cycle assessment , 2016 .

[36]  Jillian P. Fry,et al.  Environmental health impacts of feeding crops to farmed fish. , 2016, Environment international.

[37]  Paolo D'Odorico,et al.  Environmental impact food labels combining carbon, nitrogen, and water footprints , 2016 .

[38]  J. Elser,et al.  Intensification of phosphorus cycling in China since the 1600s , 2016, Proceedings of the National Academy of Sciences.

[39]  Stephen Wiedemann,et al.  Environmental impacts and resource use of Australian beef and lamb exported to the USA determined using life cycle assessment , 2015 .

[40]  D. Tilman,et al.  Global diets link environmental sustainability and human health , 2014, Nature.

[41]  Fusuo Zhang,et al.  Impacts of urban expansion on nitrogen and phosphorus flows in the food system of Beijing from 1978 to 2008 , 2014 .

[42]  N. Mueller,et al.  Leverage points for improving global food security and the environment , 2014, Science.

[43]  Ana Cláudia Dias,et al.  Life Cycle Assessment of broiler chicken production: a Portuguese case study , 2014 .

[44]  L. Serra-Majem,et al.  The Mediterranean Diet and Nutritional Adequacy: A Review , 2014, Nutrients.

[45]  T. Hager,et al.  Energy and Greenhouse Gases Footprint of Food Processing , 2014 .

[46]  Meng Xiang-ha Analyze on the spatialtemporal characteristics of GHG estimation of livestock's by life cycle assessment in China , 2014 .

[47]  Fusuo Zhang,et al.  Phosphorus flows and use efficiencies in production and consumption of wheat, rice, and maize in China. , 2011, Chemosphere.

[48]  G. Velthof,et al.  Modeling nutrient flows in the food chain of China. , 2010, Journal of environmental quality.

[49]  P. Vitousek,et al.  Significant Acidification in Major Chinese Croplands , 2010, Science.

[50]  A. Drewnowski,et al.  Development and validation of the nutrient-rich foods index: a tool to measure nutritional quality of foods. , 2009, The Journal of nutrition.

[51]  R. Venterea Climate Change 2007: Mitigation of Climate Change , 2009 .

[52]  杨 月欣,et al.  中国食物成分表 = China food composition , 2009 .

[53]  Lin Ma,et al.  Nitrogen flow and use efficiency in production and utilization of wheat, rice and maize in China , 2008 .

[54]  Ge Chen,et al.  Estimation of methane and nitrous oxide emission from livestock and poultry in China during 1949-2003 , 2007 .

[55]  Bas Eickhout,et al.  Exploring changes in world ruminant production systems , 2005 .

[56]  Zbigniew Klimont,et al.  Modelling of Emissions of Air Pollutants and Greenhouse Gases from Agricultural Sources in Europe , 2004 .

[57]  Keith A. Smith,et al.  Nitric oxide emissions from agricultural soils in temperate and tropical climates: sources, controls and mitigation options , 2004, Nutrient Cycling in Agroecosystems.

[58]  Jeroen B. Guinee,et al.  Handbook on life cycle assessment operational guide to the ISO standards , 2002 .

[59]  M. Huijbregts Uncertainty and variability in environmental life-cycle assessment , 2002 .

[60]  V. Smil PHOSPHORUS IN THE ENVIRONMENT: Natural Flows and Human Interferences , 2000 .

[61]  V. R. Phillips,et al.  A UK inventory of nitrous oxide emissions from farmed livestock , 1999 .

[62]  Joint Fao,et al.  Preparation and use of food-based dietary guidelines : report of a Joint FAO/WHO Consultation , 1998 .

[63]  磯貝 明,et al.  研究所紹介 米国農務省林産研究所,Atalla博士のグル-プ--Forest Products Laboratory(FPL),Forest Service(FS),United States Department of Agriculture(USDA) , 1997 .

[64]  S. Zelmanowitz,et al.  Development and selection of ammonia emission factors for the 1985 NAPAP emissions inventory. Final report, August 1987-December 1989 , 1990 .

[65]  中華人民共和国国家統計局 China statistical yearbook , 1988 .

[66]  J. L. Harrison,et al.  The Government Printing Office , 1968, American Journal of Pharmaceutical Education.