Abstract
As an emerging group of endocrine-disrupting chemicals, parabens have attracted growing attention due to their potential effects on human health. In the present study, the occurrence and distribution of eight parabens, four chlorinated parabens, and their common hydrolysis product, p-hydroxybenzoic acid (PHBA), were investigated in 39 swimming pools in Beijing, China. Methyl paraben and propyl paraben were the predominant compounds in swimming pools, accounting for 91.2 % of the total parabens. It is noteworthy that octyl paraben, a paraben with longer chain, was firstly detected in this study. There were several factors affecting the levels of parabens among the 39 swimming pools. The concentrations of parabens and chlorinated derivatives detected in indoor pools (144 ng L−1) were roughly 20-fold higher than those in outdoor pools (6.78 ng L−1). Hotel pools appear to present higher level of target compounds (361 ng L−1) than that in health club (228 ng L−1), municipal (130 ng L−1), school (75.6 ng L−1), and community pools (63.0 ng L−1). Moreover, the level of these compounds in pools during weekends (174 ng L−1) was much higher than that during weekdays (52.3 ng L−1). The dynamics of target compounds were also investigated to provide a general trend of the level of parabens in a school indoor swimming pool during a 14-week period. Human exposure assessment was conducted to estimate the potential risk of exposure to parabens and their chlorinated derivatives in swimming pools. Considering the total exposure dose of multiple parabens, human exposure to parabens from the water of swimming pools is negligible. However, the threat of these parabens to children in swimming pool should be concerned.
This is a preview of subscription content, access via your institution.
References
Abd El-Salam MM (2012) Assessment of water quality of some swimming pools: a case study in Alexandria, Egypt. Environ Monit Assess 184:7395–7406
Andersen FA (2008) Final amended report on the safety assessment of methylparaben, ethylparaben, propylparaben, isopropylparaben, butylparaben, isobutylparaben, and benzylparaben as used in cosmetic products. Int J Toxicol 27:1–82
Asimakopoulos AG, Thomaidis NS, Kannan K (2014) Widespread occurrence of bisphenol A diglycidyl ethers, p-hydroxybenzoic acid esters (parabens), benzophenone type-UV filters, triclosan, and triclocarban in human urine from Athens, Greece. Sci Total Environ 470–471:1243–1249
Bedoux G, Roig B, Thomas O, Dupont V, Le Bot B (2012) Occurrence and toxicity of antimicrobial triclosan and by-products in the environment. Environ Sci Pollut Res 19:1044–1065
Bernard A, Carbonnelle S, de Burbure C, Michel O, Nickmilder M (2006) Chlorinated pool attendance, atopy, and the risk of asthma during childhood. Environ Health Perspect 114:1567–1573
Bledzka D, Gromadzinska J, Wasowicz W (2014) Parabens. From environmental studies to human health. Environ Int 67:27–42
Boberg J, Taxvig C, Christiansen S, Hass U (2010) Possible endocrine disrupting effects of parabens and their metabolites. Reprod Toxicol 30:301–312
Brausch JM, Rand GM (2011) A review of personal care products in the aquatic environment: environmental concentrations and toxicity. Chemosphere 82:1518–1532
Canosa P, Rodriguez I, Rubi E, Negreira N, Cela R (2006) Formation of halogenated by-products of parabens in chlorinated water. Anal Chim Acta 575:106–113
Carmona E, Andreu V, Pico Y (2014) Occurrence of acidic pharmaceuticals and personal care products in Turia River Basin: from waste to drinking water. Sci Total Environ 484:53–63
Chowdhury S, Alhooshani K, Karanfil T (2014) Disinfection byproducts in swimming pool: occurrences, implications and future needs. Water Res 53:68–109
Dobbins LL, Usenko S, Brain RA, Brooks BW (2009) Probabilistic ecological hazard assessment of parabens using Daphnia Magna and Pimephales Promelas. Environ Toxicol Chem 28:2744–2753
Dufour AP, Evans O, Behymer TD, Cantú R (2006) Water ingestion during swimming activities in a pool: a pilot study. J Water Health 4:425–430
Golden R, Gandy J, Vollmer G (2005) A review of the endocrine activity of parabens and implications for potential risks to human health. Crit Rev Toxicol 35:435–458
Gonzalez-Doncel M, Garcia-Maurino JE, San Segundo L, Beltran EM, Sastre S, Fernandez Torija C (2014) Embryonic exposure of medaka (Oryzias latipes) to propylparaben: effects on early development and post-hatching growth. Environ Pollut 184:360–369
Gonzalez-Marino I, Quintana JB, Rodriguez I, Cela R (2009) Simultaneous determination of parabens, triclosan and triclocarban in water by liquid chromatography/electrospray ionisation tandem mass spectrometry. Rapid Commun Mass Spectrom 23:1756–1766
Gosens I, Delmaar CJ, Ter Burg W, de Heer C, Schuur AG (2014) Aggregate exposure approaches for parabens in personal care products: a case assessment for children between 0 and 3 years old. J Expo Sci Environ Epidemiol 24:208–214
Guo Y, Wang L, Kannan K (2014) Phthalates and parabens in personal care products from china: concentrations and human exposure. Arch Environ Contam Toxicol 66:113–119
Haman C, Dauchy X, Rosin C, Munoz J-F (2015) Occurrence, fate and behavior of parabens in aquatic environments: a review. Water Res 68:1–11
Harvey PW, Everett DJ (2006) Regulation of endocrine-disrupting chemicals: critical overview and deficiencies in toxicology and risk assessment for human health. Best Pract Res Clin Endocrinol Metab 20:145–165
Ishiwatari S, Suzuki T, Hitomi T, Yoshino T, Matsukuma S, Tsuji T (2007) Effects of methyl paraben on skin keratinocytes. J Appl Toxicol 27:1–9
Jonkers N, Kohler HPE, Dammshauser A, Giger W (2009) Mass flows of endocrine disruptors in the Glatt River during varying weather conditions. Environ Pollut 157:714–723
Jonkers N, Sousa A, Galante-Oliveira S, Barroso CM, Kohler H-PE, Giger W (2010) Occurrence and sources of selected phenolic endocrine disruptors in Ria de Aveiro, Portugal. Environ Sci Pollut Res 17:834–843
Karpuzoglu E, Holladay SD, Gogal RM Jr (2013) Parabens: potential impact of low-affinity estrogen receptor binding chemicals on human health. J Toxicol Environ Heal B 16:321–335
Kim H, Shim J, Lee S (2002) Formation of disinfection by-products in chlorinated swimming pool water. Chemosphere 46:123–130
Lee HB, Peart TE, Svoboda ML (2005) Determination of endocrine-disrupting phenols, acidic pharmaceuticals, and personal-care products in sewage by solid-phase extraction and gas chromatography-mass spectrometry. J Chromatogr A 1094:122–129
Lopez-Darias J, Pino V, Meng Y, Anderson JL, Afonso AM (2010) Utilization of a benzyl functionalized polymeric ionic liquid for the sensitive determination of polycyclic aromatic hydrocarbons, parabens and alkylphenols in waters using solid-phase microextraction coupled to gas chromatography-flame ionization detection. J Chromatogr A 1217:7189–7197
Ma W-L, Wang L, Guo Y, Liu L-Y, Qi H, Zhu N-Z, Gao C-J, Li Y-F, Kannan K (2013) Urinary concentrations of parabens in chinese young adults: implications for human exposure. Arch Environ Contam Toxicol 65:611–618
Meeker JD, Yang T, Ye XY, Calafat AM, Hauser R (2011) Urinary concentrations of parabens and serum hormone levels, semen quality parameters, and sperm DNA damage. Environ Health Perspect 119:252–257
Moreno-Gonzalez R, Rodriguez-Mozaz S, Gros M, Perez-Canovas E, Barcelo D, Leon VM (2014) Input of pharmaceuticals through coastal surface watercourses into a Mediterranean lagoon (Mar Menor, SE Spain): sources and seasonal variations. Sci Total Environ 490:59–72
Ngo MA, Maibach HI (2010) Dermatotoxicology: historical perspective and advances. Toxicol Appl Pharmacol 243:225–238
Nunez L, Tadeo JL, Garcia-Valcarcel AI, Turiel E (2008) Determination of parabens in environmental solid samples by ultrasonic-assisted extraction and liquid chromatography with triple quadrupole mass spectrometry. J Chromatogr A 1214:178–182
Pasquarella C, Veronesi L, Napoli C, Castaldi S, Pasquarella ML, Saccani E, Colucci ME, Auxilia F, Galle F, Di Onofrio V, Tafuri S, Signorelli C, Liguori G (2013) Swimming pools and health-related behaviours: results of an Italian multicentre study on showering habits among pool users. Public Health 127:614–619
Pasquarella C, Veronesi L, Napoli C, Castaldi S, Pasquarella ML, Saccani E, Colucci ME, Auxilia F, Galle F, Di Onofrio V, Tafuri S, Signorelli C, Liguori G (2014) What about behaviours in swimming pools? Results of an Italian multicentre study. Microchem J 112:190–195
Piao C, Chen L, Wang Y (2014) A review of the extraction and chromatographic determination methods for the analysis of parabens. J Chromatogr B 969:139–148
Regueiro J, Becerril E, Garcia-Jares C, Llompart M (2009a) Trace analysis of parabens, triclosan and related chlorophenols in water by headspace solid-phase microextraction with in situ derivatization and gas chromatography-tandem mass spectrometry. J Chromatogr A 1216:4693–4702
Regueiro J, Llompart M, Psillakis E, Garcia-Monteagudo JC, Garcia-Jares C (2009b) Ultrasound-assisted emulsification-microextraction of phenolic preservatives in water. Talanta 79:1387–1397
Savage JH, Matsui EC, Wood RA, Keet CA (2012) Urinary levels of triclosan and parabens are associated with aeroallergen and food sensitization. J Allergy Clin Immunol 130:453–460
Schets FM, Schijven JF, Husman AMD (2011) Exposure assessment for swimmers in bathing waters and swimming pools. Water Res 45:2392–2400
Tavares RS, Martins FC, Oliveira PJ, Ramalho-Santos J, Peixoto FP (2009) Parabens in male infertility-Is there a mitochondrial connection? Reprod Toxicol 27:1–7
Teo TL, Coleman HM, Khan SJ (2015) Chemical contaminants in swimming pools: occurrence, implications and control. Environ Int 76:16–31
Terasaki M, Makino M (2008) Determination of chlorinated by-products of parabens in swimming pool water. Int J Environ Anal Chem 88:911–922
Terasaki M, Makino M, Tatarazako N (2009) Acute toxicity of parabens and their chlorinated by-products with Daphnia magna and Vibrio fischeri bioassays. J Appl Toxicol 29:242–247
Terasaki M, Takemura Y, Makino M (2012) Paraben-chlorinated derivatives in river waters. Environ Chem Lett 10:401–406
USEPA (2011) Exposure factors handbook: 2011 edition. National Center for Environmental Assessment, Washington, DC
Wang L, Liao CY, Liu F, Wu Q, Guo Y, Moon HB, Nakata H, Kannan K (2012) Occurrence and human exposure of p-hydroxybenzoic acid esters (parabens), bisphenol a diglycidyl ether (BADGE), and their hydrolysis products in indoor dust from the United States and three East Asian Countries. Environ Sci Technol 46:11584–11593
Westerhoff P, Yoon Y, Snyder S, Wert E (2005) Fate of endocrine-disruptor, pharmaceutical, and personal care product chemicals during simulated drinking water treatment processes. Environ Sci Technol 39:6649–6663
Xiao F, Zhang X, Zhai H, Lo IMC, Tipoe GL, Yang M, Pan Y, Chen G (2012) New halogenated disinfection byproducts in swimming pool water and their permeability across skin. Environ Sci Technol 46:7112–7119
Xu X, Mariano TM, Laskin JD, Weisel CP (2002) Percutaneous absorption of trihalomethanes, haloacetic acids, and haloketones. Toxicol Appl Pharmacol 184:19–26
Yamamoto H, Tamura I, Hirata Y, Kato J, Kagota K, Katsuki S, Yamamoto A, Kagami Y, Tatarazako N (2011) Aquatic toxicity and ecological risk assessment of seven parabens: individual and additive approach. Sci Total Environ 410:102–111
Yeh RY, Farre MJ, Stalter D, Tang JY, Molendijk J, Escher BI (2014) Bioanalytical and chemical evaluation of disinfection by-products in swimming pool water. Water Res 59:172–184
Zwiener C, Richardson SD, De Marini DM, Grummt T, Glauner T, Frimmel FH (2007) Drowning in disinfection byproducts? Assessing swimming pool water. Environ Sci Technol 41:363–372
Acknowledgments
This work was supported by the National Basic Research Program of China (2014CB114402), the National Natural Science Foundation of China (No. 21407008, 21477143, 21321004, and 21277011), the Strategic Priority Research Program of the Chinese Academy of Sciences (XDB14010201), the Fundamental Research Funds for the Central Universities (FRF-BR-13-005), China Postdoctoral Science Foundation (2014 M550619), and State Key Laboratory of Environmental Chemistry and Ecotoxicology, Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences (KF2013-07).
Author information
Authors and Affiliations
Corresponding authors
Additional information
Responsible editor: Hongwen Sun
Electronic supplementary material
Below is the link to the electronic supplementary material.
ESM 1
(DOCX 214 kb)
Rights and permissions
About this article
Cite this article
Li, W., Shi, Y., Gao, L. et al. Occurrence and human exposure of parabens and their chlorinated derivatives in swimming pools. Environ Sci Pollut Res 22, 17987–17997 (2015). https://doi.org/10.1007/s11356-015-5050-1
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11356-015-5050-1
Keywords
- Parabens
- Chlorinated parabens
- PHBA
- Swimming pool
- Human exposure assessment