Climate change has become a critical global issue. Since the establishment of the IPCC in 1988 and the adoption of the Kyoto Protocol and the Paris Agreement, governments worldwide have been actively working to reduce greenhouse gas emissions. Taiwan has responded to this global trend by setting a target of achieving net-zero emissions by 2050 and formulating several key strategies, including carbon sinks. This strategy focuses on the potential of carbon sinks to offset greenhouse gas emissions, thereby actively promoting emission reductions. This study aims to explore how Taiwan can promote the cost-effectiveness of voluntary forest carbon reduction projects through carbon pricing mechanisms. This paper explains the carbon reduction mechanisms and forest carbon trading. It discusses how carbon pricing mechanisms set a price on carbon emissions to guide companies in reducing their emissions. In 2023, Taiwan amended the Climate Change Response Act to promote voluntary greenhouse gas reduction projects using the concept of carbon pricing mechanisms. Currently, forest carbon sink projects in Taiwan include afforestation and reforestation. The international forest carbon market typically enhances forest management activities such as afforestation, cultivation, and thinning to increase carbon sequestration. This increased carbon sequestration is converted into carbon credits sold to emitters to offset their emissions. In promoting natural carbon sinks, Taiwan faces high initial costs and long-term observation requirements for forest carbon sink projects, presenting significant cost-effectiveness challenges. This study shows that increasing carbon trading prices can significantly improve the net benefits of these projects. It is essential to control afforestation costs and improved forest management costs to enhance economic efficiency. The benefits vary significantly across different project locations, and larger management areas result in lower average project costs. The study on the Taiwan Cryptomeria japonica forest carbon sink project shows that achieving positive returns is challenging under low carbon prices. However, as carbon trading prices rise, the project's economic efficiency significantly improves. To achieve better economic efficiency, strict cost control and increased carbon revenue are necessary. Additionally, the study results indicate a wide range of unit carbon sequestration costs, requiring careful consideration during project planning. Enhancing private forest management efficiency and increasing afforestation areas can effectively improve carbon sequestration, providing economic incentives for forest owners to participate actively. However, the cost-effectiveness of carbon sink projects must also consider uncertainties and risks such as natural disasters and management difficulties. Promoting carbon sinks and carbon pricing mechanisms reveals a significant potential for reducing greenhouse gas emissions, but it requires effective economic incentives and policy support. Improving project management and technology, combined with economic incentive mechanisms, will contribute to achieving Taiwan's 2050 net-zero emissions target.