Eco-design influence on the life cycle assessment of frozen cauliflower gnocchi: a comprehensive cradle-to-grave analysis.

BACKGROUND: Nowadays, when discussing agri-food products, it is important to talk about sustainable production methods. Environmental sustainability has become a production issue, especially when it comes to the design of a product, service, or process. Using frozen fresh cauliflower gnocchi marketed in different packaging and in different global areas as a case study, we aim to highlight the importance of the impact of product eco-design on the entire life cycle. RESULTS: The environmental impact of cauliflower gnocchi was assessed based on the life cycle assessment methodology. With the cradle-to-gate approach, the most influential factors are the cultivation, distribution, and packaging phases. Considering the cradle-to-grave approach, home storage has proven to be the most influential factor for a quarter of the entire life cycle of cauliflower gnocchi. The eco-design of packaging has demonstrated how, by analysing only the packaging, it is possible to achieve significant reductions in impact (-47%), but when compared with the entire life cycle these actions have no significant responsibility (approximately 10%). If, however, the field of action is broadened and eco-design solutions are sought to reduce the impact deriving from the conservation phase, the consumer has the ability, through their decisions, to reduce the impact relating to conservation as much as possible or to double the impact of the product life cycle. CONCLUSION: Overall, to promote prosperity while protecting the environment, according to Agenda 2030, the agri-food system must analyse the supply chains without neglecting any step involved in the life cycle of the product. The eco-design must go beyond the usual factors analysed and shall include downstream activities to aim for more sustainable products, including consumer behaviours, following the cradle-to-grave approach. © 2023 The Authors. Journal of The Science of Food and Agriculture published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.

Is there mutual methodology among the environmental impact assessment studies of wine production chain? A systematic review.

When talking about environmental and sustainability topics, the wine sector plays a fundamental role ensuring that wine remains not only economically but also environmentally sustainable, hence the importance of conducting analyses to measure the impact of food production through Life Cycle Assessment tool. This paper aims to propose a systematic review of the LCA studies related to the grape and wine production chain providing both a qualitative and a quantitative analysis of methodologies used, and results proposed, as well as focusing the attention on carbon and water environmental indicators that can be evaluated using the LCA tool. Both the qualitative and the quantitative analysis showed a strong variability among the studies starting from the selection of the functional unit till the way the impact assessment is carried out. The results indicated the lack of homogeneity on the application of the LCA, emphasizing the need for deeper research on the wine sector. Based on the interpretation of the results, it was possible to identify the main drivers and barriers of the environmental impact assessment, allowing the contribution towards providing insights both for LCA practitioners and stakeholders of the wine sector. To this end, the main novelty of this work was to give an all-around view of the application of LCA tool in the wine sector providing a first step in the creation of a standardized procedure that harmonize the way a LCA study must be done. This opportunity would be a huge advantage for the scientific community, allowing the possibility to compare different wine production realities by using a globally recognized procedure without bias. Future research will have to focus on understanding and developing this scheme for enhancing the added value of the wine product.

A multidisciplinary approach to assess environmental and economic impact of conventional and innovative vineyards management systems in Northern Italy.

Viticulture is gradually shifting to more sustainable production systems and a fair number of studies aim at assessing the environmental impacts of different technologies and techniques adopted in the wine production through the Life Cycle Assessment approach. The main environmental issues identified are on water, soil and energy use, management of organic and inorganic solid waste streams, greenhouse gas emissions and use of chemicals. Precision viticulture (PV) techniques can play an important role in the sustainable use of water and fertilizers in grape production, thanks to the site-specific application of these inputs, improving yield and quality of grapes while minimizing negative effects on the environment. However, PV often implies investments and additional management costs. The objective of this study is to compare different strategies for the management of water and fertilizers in vineyards, ranging from the conventional ones to the most technologically advanced, to assess their sustainability both from an economic and an environmental point of view. Six scenarios have been explored, considering different irrigation water supply systems, and irrigation and fertilizer management strategies. A multidisciplinary approach, including Life Cycle Assessment, economic assessment and multivariate analysis was used to assess the sustainability of the different vineyard management approaches. The results show the higher economic and environmental sustainability for the scenario considering irrigation water supplied from an irrigation consortium, a variable rate drip irrigation system for irrigation and fertigation. Finally, also according to PCA results, at least for the scenarios explored in the study, the introduction of PV technologies led to the reduction of environmental impacts and to the increase in economic advantages, which showed to be inversely correlated.

Environmental Impact of Food Preparations Enriched with Phenolic Extracts from Olive Oil Mill Waste.

Reducing food waste as well as converting waste products into second-life products are global challenges to promote the circular economy business model. In this context, the aim of this study is to quantify the environmental impact of lab-scale food preparations enriched with phenolic extracts from olive oil mill waste, i.e., wastewater and olive leaves. Technological (oxidation induction time) and nutritional (total phenols content) parameters were considered to assess the environmental performance based on benefits deriving by adding the extracts in vegan mayonnaise, salad dressing, biscuits, and gluten-free breadsticks. Phenolic extraction, encapsulation, and addiction to the four food preparations were analyzed, and the input and output processes were identified in order to apply the life cycle assessment to quantify the potential environmental impact of the system analyzed. Extraction and encapsulation processes characterized by low production yields, energy-intensive and complex operations, and the partial use of chemical reagents have a non-negligible environmental impact contribution on the food preparation, ranging from 0.71% to 73.51%. Considering technological and nutritional aspects, the extraction/encapsulation process contributions tend to cancel out. Impacts could be reduced approaching to a scale-up process.