Mapping the path to decarbonised agri‐food products: a hybrid geographic information system and life cycle inventory methodology for assessing sustainable agriculture-Reference-Cited by-同舟云学术

Mapping the path to decarbonised agri‐food products: a hybrid geographic information system and life cycle inventory methodology for assessing sustainable agriculture

Published:2024-07-16 Issue:9 Volume:59 Page:6078-6086
ISSN:0950-5423
Container-title:International Journal of Food Science & Technology
language:en
Short-container-title:Int J of Food Sci Tech

Author:

Martindale Wayne¹^ORCID,Saeidan Ali¹,Tahernezhad‐Javazm Farajollah¹,Hollands Tom Æ²,Duong Linh³^ORCID,Jagtap Sandeep⁴⁵

Affiliation:

1. Food Insights and Sustainability, National Centre for Food Manufacturing University of Lincoln – Centre of Excellence in Agri‐food Technology Building 2 Peppermint Way Holbeach Lincolnshire PE12 7FJ UK

2. Raynor Foods Ltd 4 Farrow Road, Widford Industrial Estate Chelmsford, Essex CM1 3TH UK

3. Faculty of Business and Law University of the West of England Frenchay Campus, Coldharbour Lane Bristol BS16 1QY UK

4. Division of Engineering Logistics, Department of Industrial Management and Logistics, Faculty of Engineering Lund University Ole Römers Väg 1, M‐Building Lund 22363 Sweden

5. Sustainable Manufacturing Systems Centre Cranfield University Cranfield MK43 0AL Bedfordshire UK

Abstract

SummaryThe development of a decarbonised food industry will depend on a sustainable agricultural system where embodied food product greenhouse gas emissions (GHG) can be associated with agricultural production. The method presented demonstrates how mapping agri‐production can be used to calculate regional carbon footprints so GHG emission reduction is geographically strategic. Different agronomic and husbandry outcomes are mapped using Geographic Information Systems (GIS's) and carbon footprints are calculated using Life Cycle Inventory (LCI) libraries. The hybridised GIS‐LCI approach reports unique insights for decarbonisation, demonstrating how farming practices can be further integrated to best deliver food security. We use the GIS‐LCI method to show; (1), geography limits crop and livestock production types; (2), agri‐product density data can be used to calculate a food system carbon footprint; and (3), GIS's can be used to focus food policy for sustainability.

Publisher

Wiley

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