Author(s)

Yujia Chen, Jichen Xing, Naixing Xu

Corresponding Author

Yujia Chen

ABSTRACT

The forest was divided into three categories by RSR comprehensive rank-sum ratio evaluation (WRSR ) method, and two transition points were obtained, which were 0.178 and 0.6343. We found that the inclusive value of the two types of the broad-leaved forest was the highest, which was 0.83 and 0.67, respectively. The inclusive value of the alpine vegetation area is the lowest, which is 0.14, and the model's goodness of fit can be derived to be 0.966 through the test. The forest was divided into three categories by RSR comprehensive rank-sum ratio evaluation (WRSR ) method, and two transition points were obtained, which were 0.178 and 0.6343. We found that the inclusive value of the two types of the broad-leaved forest was the highest, which was 0.83 and 0.67, respectively. The inclusive value of the alpine vegetation area is the lowest, which is 0.14, and the goodness of fit of the model can be derived to be 0.966 through the F test.

KEYWORDS

Carbon sequestration, forest management, dynamic optimization, WRSR