Abstract
In the context of low carbon, this paper discussed the impact of the carbon cap-and-trade policy on the fresh-kee** decision-making of two-echelon fresh agricultural product supply chains under different dominance, and designed cost-sharing contracts to coordinate the supply chain of fresh agricultural products dominated by suppliers and retailers respectively. The results showed that: dominance has no effect on the fresh-kee** decision and total revenue of fresh agricultural product supply chain, but it affects the internal income distribution, and dominance does not always bring more benefits; the implementation of carbon cap-and-trade reduces the fresh-kee** decision-making of fresh agricultural products supply chain and reduces the free-rider income of followers; the role of higher carbon trading price is twofold, which not only brings about the speculation of leading enterprises, but also promotes the application of low-carbon technologies; consumers’ high preference for freshness, low-cost and high-efficiency low-carbon technology are all conducive to improving the fresh-kee** efforts and benefits of the supply chain; cost-sharing contracts can coordinate the supply chain of fresh agricultural products.
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References
Accorsi R, Gallo A, Manzini R (2017). A climate driven decision-support model for the distribution of perishable products. Journal of Cleaner Production 165:917–929.
Bai Q G, Chen M Y, Xu L (2017). Revenue and promotional cost-sharing contract versus two-part tariff contract in coordinating sustainable supply chain systems with deteriorating items. International journal of Production Economics 287:85–101.
Bao C L, Zhang S B (2018). Route optimization of cold chain logistics in joint distribution: With consideration of carbon emission. Industrial Engineering and Management 23:95–107.
Basiri Z, Heydari J (2005). A mathematical model for green supply chain coordination with substitutable products. Journal of Cleaner Production 145:232–249.
Cao X N, Wang Y M, Xue F D, Liu X B (2021). Coordination strategies for dual-channel supply chain of fresh agricultural products considering the fresh-kee** effort of supplier. Chinese Journal of Management Science 29(03):109–118.
Cao Y Wu K, ** effort, ordering and pricing in fresh supply chain. Operations Research and Management Science 28:100–109.
Chandni K, Mridul S, Gaurav G (2021). Agriculture supply chain management: A review (2010–2020). Materials Today: Proceedings 47:3144–3153.
Gaski, Nevin (2019). The differential effects of exercised and unexercised power sources in a marketing channel. Journal of Marketing Research 22:130–142.
Huang Y L, Hou Z P, Yang C (2020). Inventory management strategy with controllable product freshness under permissible delay in payments. Industrial Engineering and Management 25:90–99.
Huang J L, Wang X X, Luo Y X, Yu L Y, Zhang Z Y (2022). Joint green marketing decision-making of green supply chain considering power structure and corporate social responsibility. Entropy 23(5):564.
Li M M, Mizuno S (2022). Dynamic pricing and inventory management of a dual-channel supply chain under different power structures. European Journal of Operational Research 303(l):273–285.
Li RH, **n-Tsair Teng (2005). Pricing and lot-sizing decisions for perishable goods when demand depends on selling price, product freshness, and displayed stocks. European Journal of Operational Research 270:1099–1108.
Li J, Wang D P, Zhang J H (2018). Heterogeneous fixed fleet vehicle routing problem based on fuel and carbon emissions. Journal of Cleaner Production 201:896–908.
Luo M, Zhou G H, Xu H (2022). Three-tier supply chain on temperature control for fresh agricultural products using new differential game model under two decisionmaking situations. Operations Management Research 15(3–4):1028–1047.
Ma X L, Wang J, Bai Q G, Wang S Y (2020). Optimization of a three-echelon cold chain considering freshness kee** efforts under cap-and-trade regulation in Industry 4.0. International Journal of Production Economics 220:107457.
Ma X L, Zhao Y, Bai Q G, Bo H G (2021). Optimal strategies and coordination of three-echelon cold chain of fresh products considering freshness-kee** and carbon abatement. Chinese Journal of Management Science
Micheli G J L, Mantella F (2018). Modelling an environmentally-extended inventory routing problem with demand uncertainty and a heterogeneous fleet under carbon control policies. International journal of Production Economics 204:316–327.
Mohammadreza N, Alireza T (2022). Past, present, and prospective themes of sustainable agricultural supply chains: A content analysis. Journal of Cleaner Production 271:122201.
Shen L, Li C Y, Gan Y, Zhao G (2021). Distribution route optimization of fresh products considering cargo damage and carbon emission. Journal of Shanghai Maritime University 42:45–49, 70.
Song Z L, He S W (2019). Contract coordination of new fresh produce three-layer supply chain. Industrial Management & Data Systems 119(1): 148–169.
Tiwari S, Daryanto Y, Wee H M (2018). Sustainable inventory management with deteriorating and imperfect quality items considering carbon emission. Journal of Cleaner Production 192:281–292.
Tayal S, Singh S R (2016). An integrated production inventory model for perishable products with trade credit period and investment in preservation technology. International Journal of Mathematics in Operational Research 82:137–163.
Wang X P, Dong J, Han T, Ruan J H (2018). The optimization of cold chain delivery routes considering carbon emission and temporal-spatial distance. Journal of Systems Engineering 34:556–565.
Wu Z H, Chen H, Zhao Q, Wu X Z (2019). Supply chain disruptions coordination for fresh agricultural products under time constrains. Journal of Systems and Management 23:49–56.
Yan B, Fan J, Cai C Y, Fang J (2020a). Supply chain coordination of fresh agri-products based on value loss. Operations Management Research 13(3–4):185–196.
Yan B, Chen X X, Cai C Y, Guan S Y (2020b). Supply chain coordination of fresh agricultural products based on consumer behavior. Computers & Operations Research 123:105038.
Yan B, Chen Y R, He S Y (2020c). Decision making and coordination of fresh agriculture product supply chain considering fairness concerns. Rairo-Operations Research 54(4):1231–1248.
Yang H X, Chen W B (2018). Retailer-driven carbon emission abatement with consumer environmental aware-ness and carbon tax: Revenue-sharing versus costing-sharing. Omega 78:179–191.
Yang L, Ji J N, Wang M Z, Wang Z Z (2018). The manufacturer’s joint decisions of channel selections and carbon emission reductions under the cap-and-trade regulation. Journal of Cleaner Production 193:506–523.
Yang Y, Yao G X (2023). Fresh agricultural products supply chain coordination considering consumers’ dual preferences under carbon cap-and-trade mechanism. Journal of Industrial and Management Optimization 19(3):2071–2090.
Zhang K J, Ma M Q (2021). Differential game model of a fresh dual-channel supply chain under different return modes. IEEE Access 9:8888–8901.
Zheng Q, Ieromonachou P, Fan T J, Zhou L (2017). Supply chain contracting coordination for fresh products with fresh-kee** effort. Industrial Management & Data Systems 117(3)538–559.
Zhang D M, Shi G H, Yao G X, Xu J, Dai P Q (2020). Decisions of ordering and preservation for fresh agricultural products under carbon emission constraints. Industrial Engineering and Management 25: 145–151.
Zhu X D, Ding L, Guo Y J, Zhu H T (2022). Decision and coordination analysis of extended warranty service in a remanufacturing closed-loop supply chain with dual price sensitivity under different channel power structures. Rairo-Operations Research 56(3):1149–1166.
Acknowledgements
This work has been supported in part by the National Natural Science Foundation of China under grant No.72103178, and Social Science Foundation of Jiangsu Province under grant No.20GLA002. The authors are grateful to the editor-in-chief, the associate editor, and the anonymous referees for their constructive comments.
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Yang Yang is a lecturer of China Institute for Agricultural Equipment Industrial Development, Jiangsu University. She obtained her PhD in management from Jiangsu University in June 2023. Her research focuses on the supply chain of agricultural products and low-carbon cold chain logistics of fresh agricultural products.
Guanxin Yao is a second grade professor of the Modern Logistics Research Base, Yangzhou University. His research focuses on agricultural product logistics and supply chain, urban-rural integration logistics, agricultural product supply, and so on. He has published nearly a hundred articles in journals such as Industrial Engineering and Management, System Engineering Theory and Practice, Soft Science, and Guangming Daily.
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Yang, Y., Yao, G. Fresh-Kee** Decision and Coordination of Fresh Agricultural Product Supply Chain Considering Carbon Cap-and-Trade under Different Dominance. J. Syst. Sci. Syst. Eng. 33, 30–51 (2024). https://doi.org/10.1007/s11518-023-5587-3
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DOI: https://doi.org/10.1007/s11518-023-5587-3