@article{RogersDoraTsolakisetal.2024, author = {Rogers, Helen and Dora, Manoj and Tsolakis, Naoum and Kumar, Mukesh}, title = {Plant-based Food Supply Chains : Recognising Market Opportunities and Industry Challenges of Pea Protein}, series = {Applied Food Research}, volume = {4}, journal = {Applied Food Research}, number = {2}, issn = {2772-5022}, doi = {10.1016/j.afres.2024.100440}, year = {2024}, abstract = {Plant-based protein food products are considered healthier, more nutritious, and substantially 'greener' than meat-based dietary offerings. For reasons such as these plant protein sources including peas/legumes, soy and algae are experiencing unpre-cedented market popularity. Amidst the multitude of alternative protein-based foods on offer, peas are the most promising plant-protein source as they contain all the essential amino acids and have a well-balanced nutritional profile in terms of fat and fibre. However, understanding the extent of the market feasibility of the respective pea protein supply chains (SCs), based on practical expertise, is of utmost importance for policymakers and industrialists alike to evaluate the growth potential of peas as a protein source. To this end, a survey was conducted among pea SC stakeholders to create an understanding of the level of market feasibility of pea protein-based products. A SWOT analysis consolidated the different views and resulted in the identification of specific strengths, weaknesses, opportunities, and threats within the industry. By focusing on understanding the challenges and prospects within peaprotein product SCs, this research provides a springboard for further research investigations into related plant protein-based products. The resulting blueprint of recommended initiatives can help inform the further development of pea protein SCs.}, language = {en} } @article{RogersSrivastavaTsakouetal.2024, author = {Rogers, Helen and Srivastava, Mohit and Tsakou, Miriam and Prashad, Anisha}, title = {Sustainable supply chain models for 3D printed houses}, series = {Supply Chain Forum}, journal = {Supply Chain Forum}, doi = {10.1080/16258312.2023.2298186}, pages = {1-16}, year = {2024}, abstract = {Although steps have been taken to improve sustainable practices in the construction industry, progress to date has been slow. Advances in 3D printing technology provide a significant opportunity to reconfigure construction industry supply chains to improve its sustainability credentials. This study investigates the adoption of 3D construction printing (3DCP) as a sustainable alternative and/or to augment traditional construction industry supply chains. By analysing six 3DCP organisations and feeding six critical insights into the Business Model Navigator, this study proposes three supply chain models i.e. generative construction service, hybrid service, and emergency service. A generative supply chain model can be used as an on-demand service for customers with limited knowledge of 3DCP. The hybrid model can integrate 3DCP with a traditional construction supply chain to construct part of the building. Finally, the emergency services model can be used to rapidly construct cost-effective housing (e.g for refugees). The adoption of 3D Printing using these supply chain models in housing construction supply chains has the potential to offer considerable benefits both for construction companies and end-users, while at the same time improving sustainability, affordability and productivity.}, language = {en} } @article{WagnerRogersLe2024, author = {Wagner, Andreas and Rogers, Helen and Le, Alina}, title = {Exploring New Frontiers in Multi-Material Additive Manufacturing}, series = {IEEE Engineering Management Review}, journal = {IEEE Engineering Management Review}, issn = {0360-8581}, doi = {10.1109/EMR.2024.3412403}, pages = {1 -- 9}, year = {2024}, abstract = {Multi-Material Additive Manufacturing (MMAM) introduces a new dimension to production technologies by seamlessly integrating multiple materials into a single object, enabling unparalleled design possibilities. This paper explores MMAM value chains and methods and showcases real-world applications in the aerospace, biomedical and industrial sectors. While MMAM holds promise for application in high-tech industries, its widespread adoption is contingent on quantity, utilization and technical requirements. Continued research into developing material properties and reducing unit costs is needed. Only once these two key challenges have been addressed is mainstream adoption likely.}, language = {en} } @article{RogersDora2024, author = {Rogers, Helen and Dora, Manoj}, title = {Guest editorial: The interplay between new innovations, sustainability and food supply chains}, series = {Supply Chain Management}, volume = {29}, journal = {Supply Chain Management}, number = {3}, issn = {1359-8546}, doi = {10.1108/SCM-05-2024-644}, pages = {409-413}, year = {2024}, language = {en} } @article{O'ReillyKalverkampRogers2024, author = {O'Reilly, Seamus and Kalverkamp, Matthias and Rogers, Helen}, title = {Editorial: Journey to sustainable supply chains}, series = {The International Journal of Logistics Management}, volume = {35}, journal = {The International Journal of Logistics Management}, number = {5}, publisher = {Emerald}, issn = {0957-4093}, doi = {10.1108/IJLM-09-2024-608}, pages = {1369 -- 1372}, year = {2024}, language = {en} } @article{BagSarkarSarkaretal.2024, author = {Bag, Surajit and Sarkar, Abhigyan and Sarkar, Juhi Gahlot and Rogers, Helen and Srivastava, Gautam}, title = {Exploring the nexus of industry dynamism, climate risk exposure and mental health and well-being of owners of small and micro-sized suppliers: implications for sustainable supply chain management}, series = {The International Journal of Logistics Management}, journal = {The International Journal of Logistics Management}, publisher = {Emerald}, issn = {0957-4093}, doi = {10.1108/IJLM-12-2023-0557}, year = {2024}, abstract = {Although climate change-related risks affect all stakeholders along the supply chain, the potential impact on small and micro-sized suppliers is incredibly excessive. The corresponding toll of these climate risk threats on the mental health and well-being of owners of small and micro-sized suppliers can adversely affect their participation in sustainability efforts, ultimately impacting the firm's performance. This often overlooked dynamic forms the core of our research. We probe into two pivotal aspects: how industry dynamism and climate risk affect the mental health and well-being of owners of small and micro-sized suppliers and how, in turn, dictate involvement and, consequently, supply chain sustainability performance. This is further nuanced by the moderating role of the abusive behavior of buyers. Our study is built on resource dependency theory and the supporting empirical evidence is fortified by a mixed-methods sequential explanatory design. This study comprises three phases. In the first phase, our experiment examines the effect of industry dynamism and climate risk exposure on sustainable supply chain management performance. Hypotheses H1a and H1b are tested in the first phase. The second phase involves using a survey and structural equation modeling to test the comprehensiveness of the model. Here, the relationship between industry dynamism, climate risk exposure, mental health and well-being of owners of small and micro-sized supplier firms, supplier involvement and sustainable supply chain management (H2-H7) is tested in the second phase. In the third phase, we adopt a qualitative approach to verify and provide descriptive explanations of phase two findings. Our findings underscore the significance of small and micro-sized suppliers in sustainability, offering invaluable insights for both theoretical understanding and practical implementation. Our study highlights that buyers must allocate sufficient resources to support small and micro-sized supplier firms and collaborate closely to address climate change and its impacts. The key takeaway from this study is that buyer firms should consider SDG 3, which focuses on the good health and well-being of their employees and the mental health and well-being of owners of small and micro-sized suppliers in their upstream supply chain. This approach enhances sustainability performance in supply chains. This is one of the first studies that shows that industry dynamism and climate risk exposure can negatively impact small and micro-sized suppliers in the presence of a contextual element, i.e. abusive behavior of buyers, and ultimately, it negatively impacts sustainable supply chain performance dimensions.}, language = {en} }