Human activities have accelerated the emission of greenhouse gases, leading to a gradual increase in global average temperature. However, climate change is not only a change in temperature, but an abnormality in the global climate. In recent years, the term ＂global warming＂ has been gradually replaced by ＂climate change.＂ At present, reducing greenhouse gas emissions is still one of the important global policies. Forests play a key role in reducing greenhouse gas. Woods can absorb and save carbon dioxide from the atmosphere. Nevertheless, the occurrence of forest pests and diseases damages forest and affects forest carbon sequestration efficient. In order to evaluate the benefits of carbon conservation strategies to reduce forest pests and diseases, the sum of the costs to control brown root rot disease and pine wilt disease was used as the opportunity cost of forest carbon conservation benefits. The empirical simulation results showed that the carbon conservation benefit of brown root rot disease control was the highest in Fraxinus formosana. The annual carbon conservation benefit per metric ton was NT$127,551. For the carbon conservation benefit of controlling pine wilt disease, pine has the highest carbon conservation benefit. The annual carbon conservation benefit per metric ton was NT$ 2,161. The model constructed in this research is expected to be helpful for Taiwan's planning of greenhouse gas reduction policies.