Cooperation Mechanism of Carbon Emission Reduction in China-Russia Timber Supply Chain Based on Blockchain Platform

MA Chenglin, GAO Xurui, ZHANG Lin, KANG Wenchao

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Forest Engineering ›› 2025, Vol. 41 ›› Issue (03) : 565-577. DOI: 10.7525/j.issn.1006-8023.2025.03.013
Wood Science and Engineering

Cooperation Mechanism of Carbon Emission Reduction in China-Russia Timber Supply Chain Based on Blockchain Platform

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Abstract

Under the background of new quality productivity, blockchain has brought new opportunities for transformation and upgrading of traditional industries with its transparency and traceability, and also opened up a new path for carbon emission reduction cooperation in wood supply chain. In view of this, this paper constructs an evolutionary game model of China-Russia wood supply chain, and studies the operating evolution law of the four parties-Russian wood suppliers, China wood processing manufacturers, wood products distribution retailers and the government in the carbon emission reduction cooperation mechanism under the blockchain platform. The results show that the initial strategy probability of supply chain members, consumers' low-carbon preference and the increase of manufacturers' carbon emission reduction can effectively encourage the main members of the wood supply chain to actively participate in the carbon emission reduction cooperation mechanism. At the same time, the government reward and punishment mechanism will also affect the final stable result of the game system. The greater the punishment for hitchhiking, the better the game system will reach the ideal state, while excessive subsidies will weaken the possibility of the system reaching the optimal equilibrium. The research results provide theoretical inspiration and reference for carbon emission reduction cooperation in China-Russia wood supply chain.

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Wood supply chain / blockchain / carbon reduction / collaborative cooperation / evolutionary game

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MA Chenglin , GAO Xurui , ZHANG Lin , et al. Cooperation Mechanism of Carbon Emission Reduction in China-Russia Timber Supply Chain Based on Blockchain Platform. Forest Engineering. 2025, 41(03): 565-577 https://doi.org/10.7525/j.issn.1006-8023.2025.03.013

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