Calcium-Iron Dual-Channel Phosphorus Removal Mechanism Driven by the Biological Carbon Pump in Karst Lakes

Key Points

• This study aims to uncover the specific mechanisms by which the biological carbon pump influences phosphorus mobility and retention in karst lakes.
• Conducted high-resolution monitoring of meteorological, hydrological, and water chemistry parameters from August 2023 to August 2024.
• Collected quarterly water and sediment samples for phosphorus form classification and extraction.
• Analyzed the interaction between biological carbon pump activities and phosphorus dynamics in lake ecosystems.
• Total phosphorus concentration displayed seasonal variation, with higher levels in autumn and winter compared to spring and summer.
• Biological carbon pump enhanced the co-precipitation of calcium carbonate and iron hydroxide, supporting phosphorus retention in sediments.
• Significant accumulation of iron-associated phosphorus and autochthonous calcium-phosphate observed in sediment during winter months.