Investigating Temporal and Spatial Variations of Nutrient and Trace Metal Loading in Utah Lake (Utah, USA)

Wang, Weihong; Zanazzi, Alessandro; Cadet, Eddy; Rakotoarisaona, Henintsoa; Peterson, Hannah

doi:10.3390/w16030502

Cited by 1 publication

(2 citation statements)

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“…The second grade ((II)) is mainly applicable to the first-level protection zones of centralized domestic drinking water surface water sources, rare aquatic habitats, spawning grounds for fish and shrimp, and bait areas for fish larvae and fry, among others . HLC, Hulun Lake of China; ZLBC, Zhelin Bay of China; DYBC, Daya Bay of China; IZPREC, Intertidal zone of the Pearl River Estuary of China; XCLC, Xincun Lagoon of China; ULU, Utah Lake of USA . Due to the absence of closely related data in ULU, it is important to clarify that the concentrations referred to in ULU pertain to the water column and not the concentrations measured in sediments using the DGT technique.…”

Section: Resultsmentioning

confidence: 99%

“…48 HLC, Hulun Lake of China 49 ; ZLBC, Zhelin Bay of China 1 ; DYBC, Daya Bay of China 50 ; IZPREC, Intertidal zone of the Pearl River Estuary of China 45 ; XCLC, Xincun Lagoon of China 5 ; ULU, Utah Lake of USA. 51 Due to the absence of closely related data in ULU, it is important to clarify that the concentrations referred to in ULU pertain to the water column and not the concentrations measured in sediments using the DGT technique. SSD delineates the dispersion of toxicity data across species by utilizing a probability density function.…”

Section: Acquisition Of Toxicity Datamentioning

confidence: 99%

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Nutrients and Rare Earth Elements in Surface Sediments of Hongze Lake (China) Using the DGT Technique: Spatial Distribution Pattern and Probabilistic Risk

Gu,

Ma,

Jordan

et al. 2024

ACS EST Water

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The escalating environmental impact of rare earth elements (REEs) in freshwater ecosystems, exemplified by Hongze Lake's increasing pollution levels from sediment-bound nutrients and REEs due to human activities, necessitates a comprehensive study. Our objectives are to unravel the spatial distribution patterns of nutrients and REEs in Hongze Lake's surface sediments and assess their combined toxicity effects on aquatic biota, aiming to fill a critical gap in understanding the ecological and toxicological risks associated with these contaminants. This study employed the diffusive gradients in thin films (DGT) technique to analyze surface sediments in China's Hongze Lake for nutrients and REEs. Significant fluctuations were observed in the concentrations of phosphate (PO 4 −P), nitrate (NO 3 −N), and ammonium (NH 4 −N), with some REEs exceeding predicted no effect concentrations (PNEC) for aquatic organisms. Correlation analysis suggested complex interrelationships among these elements, indicating potential common pollution sources. Factor analysis condensed 16 variables into 4 factors, unveiling distinct spatial distribution patterns in the lake. Additionally, a probabilistic ecotoxicological risk assessment, integrating DGT-labile concentrations and toxicity data, revealed a 1.26% probability of surface sediments in Hongze Lake inducing a combined toxic effect on aquatic biota. These findings provide specific numerical insights into pollution sources and risks within the Hongze Lake ecosystem. The results offer valuable information for current and future lake management and conservation efforts.

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