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The production of ammonia-based nitrogen fertilizers, key to food production, is highly concentrated and therefore susceptible to price volatility and supply chain disruptions. This study examines the cost-competitiveness of a decentralized ammonia industry with low-carbon ammonia production using small modular technologies, such as electric Haber–Bosch or electrocatalytic reduction.
The food system of urban agglomeration undergoes continuous transitions and poses changing pressure to the environment, especially in terms of nitrogen (N) pollution. This study highlights the decreased N use efficiency and intensified local N pollution in the context of uneven agricultural contraction in urban agglomeration and reveals how cities can leverage synergies for coordinated N pollution mitigation.
By analysing the genome of over 9,000 pig-associated isolates, this study shows that modernized agricultural systems have favoured the acquisition of antimicrobial resistance genes, population expansion and global transmission of pig-enriched Salmonella over the past century.
Greenhouse gas emissions, antimicrobial use, land use and animal welfare data representing most global commercial pig production systems show that no single system performs well across all measures, but trade-offs may be avoidable if mitigation measures are implemented within farming systems.
Neurotoxic methylmercury (MeHg) in rice poses health risks. This study explores the roles of various cropland microbial communities in MeHg formation on a large scale and identifies that Geobacteraceae are the key predictors of MeHg bioaccumulation in paddy soil systems, which holds the potential for mitigating global mercury exposure.
Food packaging is an important environmental concern and susceptible to counterfeit-prone labelling. This study presents a newly developed water-soluble food label using nanocomposite ink that addresses these issues.
The exact quantification of environmental and human health gains achieved through sustainable nitrogen management is often impaired by real-world data availability. Drawing on an extensive database in China, this study estimates the costs and benefits of combining organic and chemical fertilizers, straw recycling and deep placement of fertilizer.
Using spatial statistics on a detailed land use map, the study highlights the impact of cropland fragmentation in China. Optimizing cropping structures to meet animal food demand or relocating fragmented croplands for large-scale farming can release the potential of the fragmented croplands for increased agricultural productivity and environmental protection.
A mass-balance and fish-in/fish-out ratio approach demonstrates that redistributing wild-caught fish used in salmon aquaculture to human consumption could improve nutrient retention and support sustainable marine resource use.
Organic nitrogen (N) sources management is critical to achieve high rice yield and carbon (C) neutrality. This study scaled up the field findings using machine learning and showed that the co-benefits of improved rice yield and reduced net C emission can be realized with integrated management of organic N and water on a global scale.
High-income groups contribute significantly to air pollution through their food choices, but most of the associated health burden is borne by low-income groups living close to agricultural areas. This study measures this discrepancy along the Chinese food supply chain and examines pathways to reduce it.
Trade-off analyses are common in agriculture, but differences in their design and application make comparisons difficult. This systematic review examines the existing trade-off analysis literature in terms of methods, spatial scale, farming system, indicators and other analytical features.
Most people in sub-Saharan Africa cannot afford a nutritious diet. Using consumer demand system modelling, this study estimates diet quality sensitivity to changing income and prices of specific foods in Malawi, Niger, Uganda, Tanzania and Nigeria.
Canada’s Food Guide recommends greater consumption of plant protein foods, but replacing animal with plant protein sources might have important consequences. Based on actual food intake values, this study assesses the impacts of partial replacement (that is, 25% and 50%) on nutrient inadequacy, health outcomes and diet-related GHG emissions.
The coupled impacts of diets on health and the environment must be considered when setting food policy targets and evaluating the effectiveness of specific interventions. A newly proposed health–environment efficiency indicator applied to 195 countries over two decades can aid this process, revealing important trends and drivers.
A database addresses the magnitude, composition, location and environmental footprint of global food loss and waste, providing a link to global trade, nutritional security and environmental impacts.
The patterns of how yield gaps change can suggest likely future outcomes for crop growth. This study conducts a spatial and temporal analysis of yield gaps for ten major crops from 1975 to 2010 and identifies regions where crops are experiencing ‘ceiling pressure’, signalling opportunities to improve future food security.
A natural pathway in rice and in seven other major crop species degrades 57–89% of accumulated methylmercury and releases Hg into the air. The MeHg demethylation within rice mitigates Hg flux into human food webs, diminishing human cognitive damage and generating global economic benefits of US$30.7–84.2 billion.
Protein production and consumption changes are needed to support healthy and sustainable food transformations. This systematic review explores narratives, gaps in the literature and paths forwards by focusing on the protein shift as a transition process in high-income countries.
This study analyses the synergistic effects of reductions in ozone and aerosols on China’s maize, rice and wheat yields, showing that meeting air quality targets would help the country to achieve grain self-sufficiency.