Ecological rehabilitation of post-bauxite mine spoil using a  multi-strata agroforestry model with specialized soil amendments in Tan Rai, Vietnam

Ngoc Hoang Huyen Thi; Ha Nguyen Manh; Long Nguyen Cong; Trung Luu The; Trang Nguyen Thi Huyen; Thuy Nguyen Thi; Son Nguyen Thai; Men Nguyen Thanh; Toan Nguyen Duc

doi:10.15625/2615-9783/23821

Author affiliations

Authors

Ngoc Hoang Huyen Thi 1-Institute of Earth Sciences, VAST, Hanoi, Vietnam; 2-Graduate University of Science and Technology, VAST, Hanoi, Vietnam
Ha Nguyen Manh 1-Institute of Earth Sciences, VAST, Hanoi, Vietnam; 2-Graduate University of Science and Technology, VAST, Hanoi, Vietnam
Long Nguyen Cong Institute of Earth Sciences, VAST, Hanoi, Vietnam
Trung Luu The Forest Science Institute of Central Highlands and South of Central Vietnam, Vietnamese Academy of Forest Sciences, Lam Dong, Vietnam
Trang Nguyen Thi Huyen Department of Earth and Oceanographic Science, Bowdoin College, Maine, USA
Thuy Nguyen Thi Institute of Earth Sciences, VAST, Hanoi, Vietnam
Son Nguyen Thai Institute of Earth Sciences, VAST, Hanoi, Vietnam
Men Nguyen Thanh Forest Science Institute of Central Highlands and South of Central Vietnam, Vietnamese Academy of Forest Sciences, Lam Dong, Vietnam
Toan Nguyen Duc Institute of Earth Sciences, VAST, Hanoi, Vietnam

DOI:

https://doi.org/10.15625/2615-9783/23821

Keywords:

Post-mining rehabilitation; Agroforestry systems; Tropical degraded soils

Abstract

In the face of accelerating land degradation from open-pit mining, ecological rehabilitation has become a cornerstone strategy for restoring ecosystem functions and sustainability. This study evaluated the early outcomes of a pilot multi-strata agroforestry model designed for post-bauxite mine spoil at the Tan Rai site, Vietnam. The system combined Pinus caribaea Morelet, Bixa orellana L., and Sphagneticola trilobata (L.) Pruski, integrated with soil amendment products such as controlled-release NPK fertilizers, superabsorbent polymers, and polyacrylamide. Over a six-year observation period, comprising two years of active management followed by four years of natural succession, plant growth performance, nine soil physicochemical properties, and eight heavy metal concentrations were assessed through six sampling campaigns. Results indicated significant improvements in vegetation structure and soil quality. P. caribaea showed strong height growth, while B. orellana exhibited rapid diameter expansion and reached reproductive maturity by year six. Vegetation cover stabilized above 75% after 12 months, accompanied by increasing species diversity. Within the first 24 months, soil organic carbon, available nutrients, cation exchange capacity, and pH improved markedly, while heavy metal levels remained within the safe thresholds specified by QCVN 03:2023/BTNMT. These findings highlight the potential of multi-strata agroforestry, when combined with targeted soil amendments, to accelerate ecological recovery on post-bauxite mine spoils. However, continued monitoring is required to ensure long-term sustainability.

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