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Halophyte-Mediated Metal Immobilization and Divergent Enrichment in Arid Degraded Soils: Mechanisms and Remediation Framework for the Tarim Basin, China

Author

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  • Jingyu Liu

    (Urumqi Natural Resources Comprehensive Survey Center of China Geological Survey, Urumqi 830057, China
    Key Laboratory of Coupling Process and Effect of Natural Resources Elements, Beijing 100055, China)

  • Lang Wang

    (Urumqi Natural Resources Comprehensive Survey Center of China Geological Survey, Urumqi 830057, China)

  • Shuai Guo

    (Urumqi Natural Resources Comprehensive Survey Center of China Geological Survey, Urumqi 830057, China)

  • Hongli Hu

    (Urumqi Natural Resources Comprehensive Survey Center of China Geological Survey, Urumqi 830057, China)

Abstract

Understanding heavy metal behavior in arid saline soils is critical for phytoremediation in degraded lands. This study investigated metal distribution and plant enrichment in the Tarim Basin using 323 soil and 55 plant samples ( Populus euphratica , Tamarix ramosissima , cotton, jujube). Analyses included redundancy analysis (RDA) and bioconcentration factor (BCF) assessments. Key findings reveal that elevated salinity (total salts, TS > 200 g/kg) and alkalinity (pH > 8.5) immobilized As, Cd, Cu, and Zn. Precipitation and competitive leaching reduced metal mobility by 42–68%. Plant enrichment strategies diverged significantly: P. euphratica hyperaccumulated Cd (BCF = 1.59) and Zn (BCF = 2.41), while T. ramosissima accumulated As and Pb (BCF > 0.05). Conversely, cotton posed Hg transfer risks (BCF = 2.15), and jujube approached Cd safety thresholds in phosphorus-rich soils. RDA indicated that pH and total salinity (TS) jointly suppressed metal bioavailability, explaining 57.6% of variance. Total phosphorus (TP) and soil organic carbon (SOC) enhanced metal availability (36.8% variance), with notable TP-Cd synergy (Pearson’s r = 0.42). We propose a dual-threshold management framework: (1) leveraging salinity–alkalinity suppression (TS > 200 g/kg + pH > 8.5) for natural immobilization; and (2) implementing TP control (TP > 0.8 g/kg) to mitigate crop Cd risks. P. euphratica demonstrates targeted phytoremediation potential for degraded saline agricultural systems. This framework guides practical management by spatially delineating zones for natural immobilization versus targeted remediation (e.g., P. euphratica planting in Cd/Zn hotspots) and implementing phosphorus control in high-risk croplands.

Suggested Citation

  • Jingyu Liu & Lang Wang & Shuai Guo & Hongli Hu, 2025. "Halophyte-Mediated Metal Immobilization and Divergent Enrichment in Arid Degraded Soils: Mechanisms and Remediation Framework for the Tarim Basin, China," Sustainability, MDPI, vol. 17(19), pages 1-19, September.
    • Handle: RePEc:gam:jsusta:v:17:y:2025:i:19:p:8771-:d:1761626
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    References listed on IDEAS

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    1. Xiaoli Wang & Caihong Tao & Lizhe An, 2025. "Screening Dominant Species and Exploring Heavy Metals Repair Ability of Wild Vegetation for Phytoremediation in Copper Mine," Sustainability, MDPI, vol. 17(2), pages 1-17, January.
    2. Dandan Yu & Qingfeng Miao & Haibin Shi & Zhuangzhuang Feng & Weiying Feng & Zhen Li & José Manuel Gonçalves, 2024. "Influence and Mechanism of Fertilization and Irrigation of Heavy Metal Accumulation in Salinized Soils," Agriculture, MDPI, vol. 14(10), pages 1-20, September.
    3. Ximei Wen & Wenmin Luo & Xiuyuan Yang & Fupeng Li & Zhenming Zhang, 2025. "Comparative analysis of soil organic carbon across different land types in plateau wetlands using Kriging interpolation based on spatial heterogeneity," PLOS ONE, Public Library of Science, vol. 20(7), pages 1-13, July.
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