Showing results for: Life cycle analysis
This new 712 page book in 28 chapters is edited by Rajeev Bhat. It addresses a very wide range of topics on agriculture, food and sustainability.
This article by T.C. Ponsioen of Wageningen University, and H.M.G. van der Werf of INRA, discusses the major sources of inconsistency in life cycle assessment (LCA) analyses of food and drink, and makes recommendations to address these inconsistencies. The article begins by describing the many attempts that have been made to standardise (or ‘harmonise’) environmental footprints of food and drink, and identifies five main areas which lack consensus.
This paper by FCRN member Corné van Dooren and colleagues reports that higher greenhouse gas emissions tend to be generated in the production of energy dense foods and lower in nutrient dense foods, and that emissions show significant correlations with 15 nutrients, including saturated fat, animal protein and sodium. Using these finding, the authors propose a ‘Sustainable Nutrient Rich Foods’ (SNRF) index, which summarises both climate and nutritional impacts of individual foods.
In this article co-written by FCRN member Erasmus zu Ermgassen, the authors use what they call a holistic approach (described below) to estimate the GHG emissions savings from preventing UK household food waste. In particular, they include the consideration of a potential rebound effect: the GHG emissions that result from money saved (because of reduced food waste) being spent elsewhere.
At a time when interest in the sustainability of food is increasing, the need for well-defined, interdisciplinary metrics of the sustainability of diets is evident. In this study, a group of researchers from Michigan performed a systematic literature review of empirical research studies on sustainable diets to identify the components of sustainability that were measured and the methods applied to do so.
While insects have physiological and biological differences which make them more efficient than traditional livestock species, little information exists pertaining to the factors which influence the assessment of the environmental sustainability of insects and their subsequent production systems.
This study estimates the environmental impacts of what it terms discretionary foods - foods and drinks that do not provide nutrients that the body particularly needs. It finds that these foods account for 33-39% of food-related footprints in Australia.
An academic debate on the controversial possibility of decreasing greenhouse gas emissions via increased beef production in the Brazilian Cerrado finds a new set of commentators, who have responded to an original paper by de Oliveira Silva et al. earlier in 2016 in the same journal, Nature Climate Change.
Performing full life cycle assessment on foods and diets is a data- and resource-intensive undertaking and as a result many studies tend to adopt a simplified approach, for example by limiting the number of food studied (in the case of diets), using proxy data, or limiting the system boundaries (cradle to farm gate; cradle to retailer – ie. not the full cradle to the consumer’s mouth).
This paper provides a detailed case study of the history and controversy surrounding the proposed inclusion of sustainability information in the 2015 Dietary Guidelines for Americans, as recommended by the Dietary Guidelines Advisory Committee (DGAC) – a body composed of nutritionists, physicians, and public health experts, tasked with reviewing the evidence base for the guidelines every 5 years.
Nanotechnology – the designing of ultra-small particles – is part of the evolving science of precision agriculture, and could potentially solve some of the world’s most pressing problems at the food-energy-water nexus as it requires fewer natural resources and water, and enhances plant nutritional values.
This report quantifies the losses of reactive nitrogen from EU agriculture and food systems by food type, and assesses the impact of alternative diets (especially reduced meat) on the environment (through nitrogen emissions, greenhouse gas emissions and land use) and human health. Reactive nitrogen losses associated with agriculture refer mainly to the release of ammonia and nitrous oxide into the air, and nitrates into the ground. Nitrous oxide is a powerful greenhouse gas, and nitrate excesses in soil can lead to water pollution.
In this article, researchers from Cranfield University, UK, examine the environmental burden associated with the production, manufacturing and distribution of potatoes, pasta and rice. The aim of the research is to highlight the difference that can be made to an individual’s environmental footprint (here focusing on water use and greenhouse gas (GHG) emissions) by making dietary changes within food groups, rather than between them.
This thesis by PhD student Esther Sanyé-Mengual (Autonomous University of Barcelona) discusses urban rooftop farming, its potential and its associated environmental impacts and economic costs.