# Wood density can best predict carbon stock in the forest aboveground biomass following restoration in a post open limestone mining in a tropical region

**Authors:** Junyang Mao, Peipei Xue, Yuxin Chen, Ting Xiang, Hui Zhang, Cui Chen, Qingqing Yang, Wenfeng Gong

PMC · DOI: 10.3389/fpls.2025.1553886 · Frontiers in Plant Science · 2025-02-20

## TL;DR

The study shows that wood density is a strong predictor of carbon storage in restored tropical mining areas, using reforestation with fast-growing tree species.

## Contribution

Developed and validated trait-based and MVI-based AGB models for carbon stock estimation in restored tropical mining areas.

## Key findings

- Restoration using fast-growing tree species accumulated an average of 78.18 Mg C hm-2 in AGB.
- Wood density was found to be the best predictor of carbon stock in restored tropical mining areas.
- The study developed effective AGB models applicable to degraded tropical mining regions.

## Abstract

Reforestation has been widely considered to best solve this problem, but this requires an accurate estimation of carbon stocks in the forest aboveground biomass (AGB) at a large scale. AGB models based on traits and remote sensing indices (moisture vegetation index (MVI)) are the two good methods for this purpose. But limited studies have developed them to estimate carbon stock in AGB during restoration of degraded mining areas.

Here, we have successfully addressed this challenge as we have developed trait-based and MVI-based AGB models to estimate carbon stock in the AGB after performing reforestation in a 0.2 km2 degraded tropical mining area in Hainan Island in China. During this reforestation, seven non-native fast-growing tree species were planted, which has successfully recovered soil processes (including soil microorganisms, nematodes and chemical and physical properties).

By using these two models to evaluate carbon stock in AGB, we have found that an average of 78.18 Mg C hm-2 could be accumulated by our reforestation exercise. Moreover, wood density could predict AGB for this restored tropical mining site, and indicated that strategies of planting fast-growing species leads to fast-growing strategies (indicated by wood density) which in turn determined the largely accumulated carbon stocks in the AGB during restoration. This restoration technology (multiple-planting of several non-native fast-growing tree species) and the two accurate and effective AGB models (trait-based and MVI-based AGB models) developed by us could be applied to 1) restore other degraded tropical mining area in China, and 2) estimate carbon stock in forest AGB after performing restoration.

## Full text

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## Figures

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## References

53 references — full list in the complete paper: https://tomesphere.com/paper/PMC11882525/full.md

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Source: https://tomesphere.com/paper/PMC11882525