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Auteurs principaux: Duong, Van-Hao, Pham-Thi, Thanh-Xuan, Chu, Trung-Tien, Nguyen, Thanh-Nam, Nguyen Tai, Tue, Luu Viet, Dung, Nguyen, Van-Dung, Tran, Thi-Lan, Nguyen, Van-Khanh, Priyadharshini, Marckasagayam, Musthafa, Mohamed Saiyad, Tursunov, Obid, Kim, Hue Nguyen Thanh
Format: Artículo científico
Langue:en
Publié: Marine pollution bulletin 2025
Sujets:
Accès en ligne:https://pubmed.ncbi.nlm.nih.gov/40577980/
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author Duong, Van-Hao
Pham-Thi, Thanh-Xuan
Chu, Trung-Tien
Nguyen, Thanh-Nam
Nguyen Tai, Tue
Luu Viet, Dung
Nguyen, Van-Dung
Tran, Thi-Lan
Nguyen, Van-Khanh
Priyadharshini, Marckasagayam
Musthafa, Mohamed Saiyad
Tursunov, Obid
Kim, Hue Nguyen Thanh
author_facet Duong, Van-Hao
Pham-Thi, Thanh-Xuan
Chu, Trung-Tien
Nguyen, Thanh-Nam
Nguyen Tai, Tue
Luu Viet, Dung
Nguyen, Van-Dung
Tran, Thi-Lan
Nguyen, Van-Khanh
Priyadharshini, Marckasagayam
Musthafa, Mohamed Saiyad
Tursunov, Obid
Kim, Hue Nguyen Thanh
Duong, Van-Hao
Pham-Thi, Thanh-Xuan
Chu, Trung-Tien
Nguyen, Thanh-Nam
Nguyen Tai, Tue
Luu Viet, Dung
Nguyen, Van-Dung
Tran, Thi-Lan
Nguyen, Van-Khanh
Priyadharshini, Marckasagayam
Musthafa, Mohamed Saiyad
Tursunov, Obid
Kim, Hue Nguyen Thanh
collection PubMed - marine biology
contents High accumulation of Po concentration in muscle tissue and hepatopancreas gland organs of Asian green mussel (Perna viridis) at the coastal area of Binh Thuan, Vietnam: Radiological protection perspectives. Duong, Van-Hao Pham-Thi, Thanh-Xuan Chu, Trung-Tien Nguyen, Thanh-Nam Nguyen Tai, Tue Luu Viet, Dung Nguyen, Van-Dung Tran, Thi-Lan Nguyen, Van-Khanh Priyadharshini, Marckasagayam Musthafa, Mohamed Saiyad Tursunov, Obid Kim, Hue Nguyen Thanh Animals Vietnam Hepatopancreas Muscles Radiation Monitoring Perna Polonium Water Pollutants, Radioactive Po (polonium) has high radiotoxicity that tends to accumulate in marine bivalves inhabiting coastal zones with elevated background levels of primordial radionuclides. In this study, the Po concentration in two organs of the Asian green mussel (Perna viridis), collected from the coastal region of Binh Thuan, Vietnam, was determined using alpha spectrometry. The results showed a significant difference in Po activity concentration between the two organs of P. viridis, with markedly higher concentrations observed in the hepatopancreas gland compared to the muscle tissue, approximately six times greater. The mean Po activities were 74.9 ± 7.8 Bq·kg (range: 30.3 ± 16.7 to 111 ± 10.6 Bq·kg) in muscle tissue and 431 ± 7.8 Bq·kg (range: 187 ± 8 to 763 ± 7 Bq·kg) in the hepatopancreas. This marked difference may be attributed to the affinity of Po for certain proteins such as ferritin and metallothionein. The elevated accumulation of Po in two organs may be linked to its filter-feeding behavior, its diet of plankton and organic particles, its biological characteristics, and local environmental conditions (relating to the titanium mining). Insignificant correlations were observed between Po concentrations and shell length, total body mass, or estimated age of the mussels. This suggests that mussels of any size, age, or weight can serve as suitable sampling organisms for environmental biomonitoring programs targeting marine Po contamination. Radiological risk assessment using the ERICA tool indicated negligible ecological impact of Po on marine biota in the study area, except for sample group 15, which exhibited a Risk Quotient (RQ) of 1.00 and a total dose rate of 10 μGy·h, equivalent to the screening reference level. This suggests that Po activity in the body may have a potential impact on this mussel species. Annual committed effective doses from dietary intake of mussels, particularly from the hepatopancreas, exceeded the recommended dose limit of 1 mSv·y in most cases. This study provides essential baseline data for radiological protection and environmental monitoring along the Vietnamese coastline. The findings emphasize the necessity for targeted radiation risk management strategies and reinforce the utility of Asian green mussel as a reliable biomonitor of Po contamination in tropical marine ecosystems.
format Artículo científico
id pubmed_40577980
institution PubMed
language en
publishDate 2025
publisher Marine pollution bulletin
record_format pubmed
spellingShingle High accumulation of Po concentration in muscle tissue and hepatopancreas gland organs of Asian green mussel (Perna viridis) at the coastal area of Binh Thuan, Vietnam: Radiological protection perspectives.
Duong, Van-Hao
Pham-Thi, Thanh-Xuan
Chu, Trung-Tien
Nguyen, Thanh-Nam
Nguyen Tai, Tue
Luu Viet, Dung
Nguyen, Van-Dung
Tran, Thi-Lan
Nguyen, Van-Khanh
Priyadharshini, Marckasagayam
Musthafa, Mohamed Saiyad
Tursunov, Obid
Kim, Hue Nguyen Thanh
Animals
Vietnam
Hepatopancreas
Muscles
Radiation Monitoring
Perna
Polonium
Water Pollutants, Radioactive
High accumulation of Po concentration in muscle tissue and hepatopancreas gland organs of Asian green mussel (Perna viridis) at the coastal area of Binh Thuan, Vietnam: Radiological protection perspectives. Duong, Van-Hao Pham-Thi, Thanh-Xuan Chu, Trung-Tien Nguyen, Thanh-Nam Nguyen Tai, Tue Luu Viet, Dung Nguyen, Van-Dung Tran, Thi-Lan Nguyen, Van-Khanh Priyadharshini, Marckasagayam Musthafa, Mohamed Saiyad Tursunov, Obid Kim, Hue Nguyen Thanh Animals Vietnam Hepatopancreas Muscles Radiation Monitoring Perna Polonium Water Pollutants, Radioactive Po (polonium) has high radiotoxicity that tends to accumulate in marine bivalves inhabiting coastal zones with elevated background levels of primordial radionuclides. In this study, the Po concentration in two organs of the Asian green mussel (Perna viridis), collected from the coastal region of Binh Thuan, Vietnam, was determined using alpha spectrometry. The results showed a significant difference in Po activity concentration between the two organs of P. viridis, with markedly higher concentrations observed in the hepatopancreas gland compared to the muscle tissue, approximately six times greater. The mean Po activities were 74.9 ± 7.8 Bq·kg (range: 30.3 ± 16.7 to 111 ± 10.6 Bq·kg) in muscle tissue and 431 ± 7.8 Bq·kg (range: 187 ± 8 to 763 ± 7 Bq·kg) in the hepatopancreas. This marked difference may be attributed to the affinity of Po for certain proteins such as ferritin and metallothionein. The elevated accumulation of Po in two organs may be linked to its filter-feeding behavior, its diet of plankton and organic particles, its biological characteristics, and local environmental conditions (relating to the titanium mining). Insignificant correlations were observed between Po concentrations and shell length, total body mass, or estimated age of the mussels. This suggests that mussels of any size, age, or weight can serve as suitable sampling organisms for environmental biomonitoring programs targeting marine Po contamination. Radiological risk assessment using the ERICA tool indicated negligible ecological impact of Po on marine biota in the study area, except for sample group 15, which exhibited a Risk Quotient (RQ) of 1.00 and a total dose rate of 10 μGy·h, equivalent to the screening reference level. This suggests that Po activity in the body may have a potential impact on this mussel species. Annual committed effective doses from dietary intake of mussels, particularly from the hepatopancreas, exceeded the recommended dose limit of 1 mSv·y in most cases. This study provides essential baseline data for radiological protection and environmental monitoring along the Vietnamese coastline. The findings emphasize the necessity for targeted radiation risk management strategies and reinforce the utility of Asian green mussel as a reliable biomonitor of Po contamination in tropical marine ecosystems.
title High accumulation of Po concentration in muscle tissue and hepatopancreas gland organs of Asian green mussel (Perna viridis) at the coastal area of Binh Thuan, Vietnam: Radiological protection perspectives.
topic Animals
Vietnam
Hepatopancreas
Muscles
Radiation Monitoring
Perna
Polonium
Water Pollutants, Radioactive
url https://pubmed.ncbi.nlm.nih.gov/40577980/