Article ? AI-assigned paper type based on the abstract. Classification may not be perfect — flag errors using the feedback button. Tier 2 ? Original research — experimental, observational, or case-control study. Direct primary evidence. Environmental Sources Policy & Risk Remediation Sign in to save

Artificial sweeteners in surface waters from Asian, African and Middle Eastern countries: Utility as molecular markers and water pollution status in 2010–2019

Environmental Monitoring and Contaminants Research 2024 5 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 45 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Tatsuya SUMIDA, Hideshige Takada Mahua Saha, Rinawati, Satoru Suzuki, Hideshige Takada Bee Geok Yeo, Bee Geok Yeo, Bee Geok Yeo, Mona ALIDOUST, Tatsuya SUMIDA, Hideshige Takada Rinawati, Seyed Hossein Hashemi, Hideshige Takada Hideshige Takada Mahua Saha, Mahua Saha, Mahua Saha, Hideshige Takada Hideshige Takada Mahua Saha, Hideshige Takada Hideshige Takada Seyed Hossein Hashemi, Seyed Hossein Hashemi, Seyed Hossein Hashemi, Seyed Hossein Hashemi, Seyed Hossein Hashemi, Seyed Hossein Hashemi, Seyed Hossein Hashemi, Seyed Hossein Hashemi, Satoru Suzuki, Kaoruko Mizukawa, Kaoruko Mizukawa, Kaoruko Mizukawa, Kaoruko Mizukawa, Kaoruko Mizukawa, Mahua Saha, Mahua Saha, Mahua Saha, Hideshige Takada Mahua Saha, Mahua Saha, Mahua Saha, Hideshige Takada Hideshige Takada Hideshige Takada Hideshige Takada Mahua Saha, Mahua Saha, Hideshige Takada Hideshige Takada Hideshige Takada Hideshige Takada Hideshige Takada Mahua Saha, Kaoruko Mizukawa, Kaoruko Mizukawa, Kaoruko Mizukawa, Ayaka Takei, Bee Geok Yeo, Bee Geok Yeo, Bee Geok Yeo, Satoru Suzuki, Charita S. Kwan, Charita S. Kwan, Ayaka Takei, Charita S. Kwan, Charita S. Kwan, Mahua Saha, Hideshige Takada Hideshige Takada Kenji YOSHIMATSU, Bee Geok Yeo, Mahua Saha, Kaoruko Mizukawa, Mahua Saha, Brent Newman, Kenji YOSHIMATSU, Mahua Saha, Hideshige Takada Kaoruko Mizukawa, Kaoruko Mizukawa, Mahua Saha, Hideshige Takada Kaoruko Mizukawa, Kaoruko Mizukawa, Brent Newman, Hideshige Takada Hideshige Takada Mahua Saha, Mahua Saha, Kaoruko Mizukawa, S. Imai, Bee Geok Yeo, S. Imai, Mahua Saha, Hideshige Takada Tatsuya Koike, Mona ALIDOUST, Hideshige Takada Mahua Saha, Hideshige Takada Hideshige Takada Hideshige Takada Marin BANNO, Hideshige Takada Marin BANNO, Hideshige Takada Hideshige Takada M. Fujisawa, Hideshige Takada Mahua Saha, Hideshige Takada Hideshige Takada M. Fujisawa, Kaoruko Mizukawa, Saya ISOGAI, Hideshige Takada Saya ISOGAI, Hideshige Takada Kaoruko Mizukawa, Hideshige Takada Kaoruko Mizukawa, Hideshige Takada Mona ALIDOUST, Hideshige Takada Mohamad Pauzi Zakaria, Siaw Onwona‐Agyeman, Edward Benjamin Sabi, Bee Geok Yeo, Siaw Onwona‐Agyeman, S P Weerts, Brent Newman, Chui Wei Bong, Kaoruko Mizukawa, Mitsunori Tarao, Mitsunori Tarao, Satoru Suzuki, Charita S. Kwan, Charita S. Kwan, Rinawati, Rinawati, Hideshige Takada J. Ofosu-Anim, J. Ofosu-Anim, Edward Benjamin Sabi, Siaw Onwona‐Agyeman, Siaw Onwona‐Agyeman, Hideshige Takada Hideshige Takada Oliver Vivian Wasonga, Hideshige Takada Mohamad Pauzi Zakaria, S P Weerts, Brent Newman, Charita S. Kwan, Hideshige Takada Charita S. Kwan, Antonio Manuel dos Santos, Mahua Saha, Antonio Manuel dos Santos, Nop Sukpanyatham, Nop Sukpanyatham, S P Weerts, Nguyen Van Cong, Chui Wei Bong, J. Ofosu-Anim, J. Ofosu-Anim, Edward Benjamin Sabi, Mohamad Pauzi Zakaria, Mahua Saha, Rakesh P.S., Seyed Hossein Hashemi, Tomoaki SHINODA, Tomoaki SHINODA, Hidemitsu Kuroki, Hidemitsu Kuroki, Hideshige Takada Hideshige Takada

Summary

Surface water samples from African, Asian, and Middle Eastern countries collected during 2010-2019 were analyzed for four artificial sweeteners (acesulfame, sucralose, saccharin, cyclamate) as molecular markers of wastewater contamination. The study established a historical baseline of sewage-derived pollution status across regions with varying wastewater treatment infrastructure.

Study Type Environmental

To explore the utility of artificial sweeteners (Acesulfame: ACE; sucralose: SUC; saccharin: SAC; cyclamate: CYC) as molecular markers and to establish a historical benchmark of the water pollution status in the 2010 decade, 272 surface water samples, including river water, sewage, and livestock wastewater, were collected from African (Ghana, Kenya, Mozambique, South Africa), Asian (Vietnam, Indonesia, Thailand, Philippines, Cambodia, Malaysia, India, and Japan) and Middle Eastern (Iran and Lebanon) countries during 2010–2019 and were analyzed for the artificial sweeteners by high performance liquid chromatograph with tandem mass spectrometer coupled with online solid-phase extractor. ACE was most frequently detected (87% of the samples) due to its widespread use and lower detection limit (2 ng/L). SUC was less frequently detected (51%) because of its lower sensitivity and detection limit of 100 ng/L, and less widespread use in some low-income countries, probably due to its higher price. SAC and/or CYC were abundant in surface waters of most countries, despite their biodegradable nature. This was ascribed to intensive usage of SAC and CYC and extensive inputs of untreated sewage to rivers due to limited installation of sewage treatment systems. Concentrations of the sweeteners were higher in urbanized rivers (~1 μg/L to ~100 μg/L) than those in corresponding suburban and rural sites, reflecting spatial patterns of sewage inputs. Furthermore, concentrations of the sweeteners were positively correlated with those of linear alkylbenzenes (LABs) for all countries except Malaysia. These results confirm the utility of artificial sweeteners as indicators of sewage inputs. SAC and CYC could be indicators of untreated sewage inputs. ACE has proved to be the most sensitive and reliable marker to assess inputs of sewage, i.e., both treated and untreated, to surface waters. However, ACE concentrations in secondary effluents and receiving waters in Tokyo decreased two orders of magnitude from 2011 to 2019, while sucralose did not show such a marked decrease. This is probably due to the upgrading of activated sludge treatment, i.e., introducing anaerobic-anoxic-oxic (A2O) treatment and resultant higher removal of ACE. Therefore, the measurement of multiple markers, including SUC, is recommended for long-term monitoring.

Read via DOI Download PDF

Share this paper

Post Share Share Pin Email