Cyanobacteria and microcystin contamination in untreated and
treated drinking water in Ghana

DZAMA ADDICO, Gloria Naa, Jörg D. HARDEGE, Jiří KOHOUTEK, Kweku Amoaku Atta DEGRAFT-JOHNSON and Pavel BABICA. Cyanobacteria and microcystin contamination in untreated and treated drinking water in Ghana. Advances in Oceanography and Limnology. 2017, vol. 8, No 1, p. 92-106. ISSN 1947-573X. Available from: https://dx.doi.org/10.4081/aiol.2017.6323.

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TY  - JOUR
ID  - 1411098
AU  - Dzama Addico, Gloria Naa - Hardege, Jörg D. - Kohoutek, Jiří - deGraft-Johnson, Kweku Amoaku Atta - Babica, Pavel
PY  - 2017
TI  - Cyanobacteria and microcystin contamination in untreated and treated drinking water in Ghana
JF  - Advances in Oceanography and Limnology
VL  - 8
IS  - 1
SP  - 92-106
EP  - 92-106
SN  - 1947573X
KW  - Cyanobacteria
KW  - cyanotoxins
KW  - drinking water treatment
KW  - microcystins
KW  - water blooms
UR  - http://pagepressjournals.org/index.php/aiol/article/view/6323
L2  - http://pagepressjournals.org/index.php/aiol/article/view/6323
N2  - Although cyanobacterial blooms and cyanotoxins represent a worldwide-occurring phenomenon, there are large differences among different countries in cyanotoxin-related human health risk assessment, management practices and policies. While national standards, guideline values and detailed regulatory frameworks for effective management of cyanotoxin risks have been implemented in many industrialized countries, the extent of cyanobacteria occurrence and cyanotoxin contamination in certain geographical regions is under-reported and not very well understood. Such regions include major parts of tropical West and Central Africa, a region constisting of more than 25 countries occupying an area of 12 million km2, with a total population of 500 milion people. Only few studies focusing on cyanotoxin occurrence in this region have been published so far, and reports dealing specifically with cyanotoxin contamination in drinking water are extremely scarce. In this study, we report seasonal data on cyanobacteria and microcystin (MC) contamination in drinking water reservoirs and adjacent treatment plants located in Ghana, West Africa. During January-June 2005, concentrations of MCs were monitored in four treatment plants supplying drinking water to major metropolitan areas in Ghana: the treatment plants Barekese and Owabi, which serve Kumasi Metropolitan Area, and the plants Kpong and Weija, providing water for Accra-Tema Metropolitan Area. HPLC analyses showed that 65% samples of raw water at the intake of the treatment plants contained intracellular MCs (maximal detected concentration was 8.73 µg L-1), whereas dissolved toxins were detected in 33% of the samples. Significant reduction of cyanobacterial cell counts and MC concentrations was achieved during the entire monitoring period by the applied conventional water treatment methods (alum flocculation, sedimentation, rapid sand filtration and chlorination), and MC concentration in the final treated water never exceeded 1 µg L-1 (WHO guideline limit for MCs in drinking water). However, cyanobacterial cells (93-3,055 cell mL-1) were frequently found in the final treated water and intracellular MCs were detected in 17% of the samples (maximal concentration 0.61 µg L-1), while dissolved MCs were present in 14% of the final treated water samples (maximal concentration 0.81 µg L-1). It indicates a borderline efficiency of the water treatment, thus MC concentrations in drinking water might exceed the WHO guideline limit if the treatment efficiency gets compromised. In addition, MC concentrations found in the raw water intake might represent significant human health risks for people living in areas with only a limited access to the treated or underground drinking water.
ER  -

Basic information
Original name	Cyanobacteria and microcystin contamination in untreated and treated drinking water in Ghana
Authors	DZAMA ADDICO, Gloria Naa (288 Ghana), Jörg D. HARDEGE (826 United Kingdom of Great Britain and Northern Ireland), Jiří KOHOUTEK (203 Czech Republic, belonging to the institution), Kweku Amoaku Atta DEGRAFT-JOHNSON (288 Ghana) and Pavel BABICA (203 Czech Republic, guarantor).
Edition	Advances in Oceanography and Limnology, 2017, 1947-573X.

Other information
Original language	English
Type of outcome	Article in a journal
Field of Study	10502 Oceanography
Country of publisher	Italy
Confidentiality degree	is not subject to a state or trade secret
WWW	URL
RIV identification code	RIV/00216224:14310/17:00100354
Organization unit	Faculty of Science
Doi	http://dx.doi.org/10.4081/aiol.2017.6323
Keywords in English	Cyanobacteria; cyanotoxins; drinking water treatment; microcystins; water blooms
Tags	NZ, rivok
Changed by	Changed by: RNDr. Pavel Šmerk, Ph.D., učo 3880. Changed: 31/5/2022 14:32.

Abstract

Although cyanobacterial blooms and cyanotoxins represent a worldwide-occurring phenomenon, there are large differences among different countries in cyanotoxin-related human health risk assessment, management practices and policies. While national standards, guideline values and detailed regulatory frameworks for effective management of cyanotoxin risks have been implemented in many industrialized countries, the extent of cyanobacteria occurrence and cyanotoxin contamination in certain geographical regions is under-reported and not very well understood. Such regions include major parts of tropical West and Central Africa, a region constisting of more than 25 countries occupying an area of 12 million km2, with a total population of 500 milion people. Only few studies focusing on cyanotoxin occurrence in this region have been published so far, and reports dealing specifically with cyanotoxin contamination in drinking water are extremely scarce. In this study, we report seasonal data on cyanobacteria and microcystin (MC) contamination in drinking water reservoirs and adjacent treatment plants located in Ghana, West Africa. During January-June 2005, concentrations of MCs were monitored in four treatment plants supplying drinking water to major metropolitan areas in Ghana: the treatment plants Barekese and Owabi, which serve Kumasi Metropolitan Area, and the plants Kpong and Weija, providing water for Accra-Tema Metropolitan Area. HPLC analyses showed that 65% samples of raw water at the intake of the treatment plants contained intracellular MCs (maximal detected concentration was 8.73 µg L-1), whereas dissolved toxins were detected in 33% of the samples. Significant reduction of cyanobacterial cell counts and MC concentrations was achieved during the entire monitoring period by the applied conventional water treatment methods (alum flocculation, sedimentation, rapid sand filtration and chlorination), and MC concentration in the final treated water never exceeded 1 µg L-1 (WHO guideline limit for MCs in drinking water). However, cyanobacterial cells (93-3,055 cell mL-1) were frequently found in the final treated water and intracellular MCs were detected in 17% of the samples (maximal concentration 0.61 µg L-1), while dissolved MCs were present in 14% of the final treated water samples (maximal concentration 0.81 µg L-1). It indicates a borderline efficiency of the water treatment, thus MC concentrations in drinking water might exceed the WHO guideline limit if the treatment efficiency gets compromised. In addition, MC concentrations found in the raw water intake might represent significant human health risks for people living in areas with only a limited access to the treated or underground drinking water.

Links
LM2015051, research and development project	Name: Centrum pro výzkum toxických látek v prostředí (Acronym: RECETOX RI)
LM2015051, research and development project	Investor: Ministry of Education, Youth and Sports of the CR
LO1214, research and development project	Name: Centrum pro výzkum toxických látek v prostředí (Acronym: RECETOX)
LO1214, research and development project	Investor: Ministry of Education, Youth and Sports of the CR

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Cyanobacteria and microcystin contamination in untreated and treated drinking water in Ghana

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