Silicon Speciation and Its Relationship with Carbon and Nitrogen in the Sediments of a Macrophytic Eutrophic Lake
Yong Liu, Guoli Xu, Guocheng Wang, Haiquan Yang, Jv Liu, Hai Guo, Jiaxi Wu, Lujia Jiang, Jingfu Wang

TL;DR
This study explores how silicon interacts with carbon and nitrogen in sediments of a eutrophic lake, revealing key relationships in biogeochemical cycles.
Contribution
The study identifies the dominant forms of silicon in sediments and their strong coupling with carbon and nitrogen in a macrophytic lake.
Findings
Iron–manganese-oxide-bonded and organic sulfide-bonded silicon account for 95.9% of Valid-Si in sediments.
Biogenic silica is higher in southern and eastern areas due to eutrophication and diatom abundance.
TOC and TN show strong correlations with Valid-Si, indicating tight coupling between silicon, carbon, and nitrogen.
Abstract
Silicon (Si) is one of the biogenic elements in lake aquatic ecosystems. Sediments are both sinks and sources of Si, but little is known about its influence on the biogeochemical cycle of Si in lakes and its relationship to other biogenic factors such as carbon and nitrogen. Examining Caohai Lake, a typical macrophytic lake in China, this study systematically examined the different Si forms and biogenic silica (BSi) distribution characteristics and their coupling relationships with total organic carbon (TOC) and total nitrogen (TN) in surface sediments. Iron–manganese-oxide-bonded silicon (IMOF-Si) and organic sulfide-bonded silicon (OSF-Si) jointly accounted for 95.9% of Valid-Si in the sediments, indicating that the fixation of Si by organic matter and iron–manganese oxides was the main mechanism underlying the formation of the different forms of Valid-Si in sediments. The release and…
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Taxonomy
TopicsGeochemistry and Elemental Analysis · Silicon Effects in Agriculture · Arsenic contamination and mitigation
