Close‐to‐nature management regulates ecosystem carbon storage through its effects on vegetation community structure in
Pinus massoniana
plantations
Yuwen Luo, Yunliang Ni, Zongzheng Chai Societal Impact Statement
Forest plantations play an increasingly important role in climate change mitigation through carbon sequestration, yet management strategies that enhance long‐term ecosystem carbon storage remain insufficiently understood. We investigated the effects of more than a decade of close‐to‐nature management on community structure and ecosystem carbon storage across different developmental stages of
Summary
Close‐to‐nature management (CTNM) is increasingly promoted as a silvicultural approach for enhancing ecological functions in plantation forests. However, its long‐term effects on ecosystem carbon storage and the mechanisms linking community structure to carbon sequestration remain poorly quantified. This study evaluated the effects of long‐term CTNM (>10 years) on community structure and ecosystem carbon storage in
Comparative field investigations were conducted in young, middle‐aged, and near‐mature
CTNM significantly altered community structure by increasing tree height, DBH, and species diversity while reducing stand density. Carbon storage increased across multiple ecosystem pools, with the strongest responses observed in near‐mature forests. DBH, stand density, tree height, herb coverage, and shrub coverage were identified as the principal structural indicators associated with ecosystem carbon storage.
Long‐term CTNM enhances ecosystem carbon storage in