Temporal and Spatial Distributions of Ti-Containing Nanoparticles and On-Site Visitor Numbers in Three Recreation Waters in Eastern Taiwan

The increase in Ti-containing nanoparticles (NPs) in the environment resulting from the anthropogenic water activities has raised health concerns in recent years. The aim of this study was to differentiate Ti-containing engineered NPs (ENPs) from natural Ti-containing NPs (NNPs) in water exposure th...

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Published inWater environment research Vol. 97; no. 7; p. e70103
Main Authors Weng, Chen-Hsin, Chen, Yen-Tzu, Liu, Chia-Hsin, Hwang, Yaw-Huei
Format Journal Article
LanguageEnglish
Published United States 01.07.2025
Subjects
Environmental Monitoring
Metal Nanoparticles - analysis
Nanoparticles - analysis
Particle Size
Recreation
Seasons
Taiwan
Titanium - analysis
Titanium - chemistry
Water Pollutants, Chemical - analysis
Taiwan
recreation water
Ti‐containing nanoparticle
engineered nanoparticle
elemental ratio
sp‐ICPMS
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Summary:The increase in Ti-containing nanoparticles (NPs) in the environment resulting from the anthropogenic water activities has raised health concerns in recent years. The aim of this study was to differentiate Ti-containing engineered NPs (ENPs) from natural Ti-containing NPs (NNPs) in water exposure through water activities. This was achieved by characterizing the temporal and spatial distributions of Ti-containing NPs in the three recreation waters in Eastern Taiwan, using the Ti/Y elemental ratio method and single-particle inductively coupled plasma mass spectrometry (sp-ICPMS). The mass concentration of the Ti-containing ENPs and the number concentration of NPs were generally higher during the peak season compared with the low season. These concentrations also fluctuated more widely than those of Ti-containing NNPs. The highest mass and number concentrations, 8.00 ng/mL and 850.5 × 10 particles/mL, were found in the recreation waters of South Nan-Ao Creek and Lao Creek, respectively. The most frequent particle size ranged from 28 to 60 nm, with no significant variation across sampling seasons and creeks. Furthermore, the number of on-site visitors was significantly correlated with the mass concentration of Ti-containing NPs (p = 0.0069), the number concentration of Ti-containing NPs (p = 0.0023), and estimated TiO -ENPs (p = 0.0305). The elemental ratio method allowed for a clearer illustration of the impact of anthropogenic activities on the Ti-containing ENPs levels in the recreation waters. This method is valuable for future risk assessments regarding potential exposure to TiO -ENPs.
ISSN:1554-7531
DOI:10.1002/wer.70103