Arsenic in drinking water: sources,occurrence and health effects (a review)

Because dramatic cases of arsenic contamination of water resources, soils, vegetables, humans and animals increase, this review has focussed on the fate and behaviour of this element and what kind of health impacts are related with its release in surface or ground waters. In a first part, we point out how the primary minerals can lead to As mobilization and exportation by surface waters and suspended matter. We also emphasize the particular key role for As retention through both adsorption onto natural Fe(III) (hydr)oxides, Mn oxides and/or precipitation as Fe(III) arsenates. Nowadays, numerous and efficient systems for arsenic removal from any natural resources are available to produce good quality drinking water (with <10 μg/l As); however it is not within the scope of the present review. In a second part we focus on recent knowledge about the human toxicity of the various arsenic species. Chronic exposure to As in drinking water lead to many health diseases and, although the mechanisms of toxification/detoxification are not well identified, the role of methylated species is discussed. Some epidemiologic studies are cited, but the exact relationship between past chronic As exposure and present health diseases has been questioned.     

Factors of stress in a local population of water vole

Physiological mechanisms of stress have a multiple influence on the implementation of the adaptive capacity of individuals. From this perspective, analysis of factors determining the stress level of animals in changing environment acquires important ecological and evolutionary significance. In the paper the results are presented of long-term studies carried out at a site of irrigative channel being populated by water voles every year. The results show that high stress level of males is observed in connection with shortages of environmentally significant resources--food and sexual partners. An activation of adrenocortical function due to resources deficit is formed as a result of exacerbation of intraspecific competition that occurs at both low food supply and reducion in proportion of females in the local population. The effects of these factors are mediated through changes in spatio-ethological structure of the studied populations which are manifested in increased overlapping of individual home ranges. Food supply and lack of females have different effects on the level of glucocorticoids in resident and nonresident males. These results indicate that social interactions in water vole is the real stress factor even when total population is significantly depleted, which in North Baraba occurs when territory watering is reduced and suitable summer habitats are not plenty enough.     

Comparisons of the taste of drinking water from three Australian sources

A comparative study of water supplies in three townships inNew South Wales, Australia, employing a rating scale methodand various levels of dilution of source water with deionisedwater, was conducted using untrained tasters drawn from thesame townships as the waters. Each taster thus tasted, withoutknowledge of its source, 36 samples in a balanced design, permittingcomparisons in terms of source, dilution, familiarity and ordereffects within the test. Clear differences between source waterswere found; these are compared with some European results reportedby Zoeteman.     

Plankton composition and water chemistry in the mixing zone of the Selenga River with Lake Baikal

Chemical and biological components of the Selenga River waters, the largest tributary of Lake Baikal, differ significantly from the lake waters. Active transformation processes of river waters into the lake ones occur in the vast barrier-like zone in the river-sea boundary areas. This study presents results on the spatial distribution and dynamics of water chemistry as well as the quantity and diversity of phyto- and bacterioplankton at a distance of 14 km off the Selenga River mouth. The most representative tracers of river and lake waters are total amount of ions and sulphates. Principal changes of chemical and biological parameters were fixed at 1–3 km off the Selenga River mouth that was determined as a mixing zone. Intense development of phytoplankton and eukaryotic picoplankton causing the decrease of nitrate and phosphate concentrations and organic matter rise were registered in this area. Gradual replacement of river phytoplankton by the lake one, abundance reduction of microorganisms and organotrophic bacteria and percentage increase of oligotrophic and psychrotolerant bacteria occurred in the mixing zone. Replacement of PC-rich picocyanobacteria by PE-rich ones was also recorded here. At a distance of 5–7 km off the shore, nutrient concentration and plankton composition were similar to those of Lake Baikal.     

Phytomonitoring of air pollution in the Baikal region

Phytomonitoring of air pollution has been performed using the Scots pine as a highly sensitive bioindicator. Needles have been sampled from key plots along the macrotransect Sayansk-Irkutsk-Listvyanka (with a total length of 320 km) covering the main industrial centers of the Baikal region and stretching up to the shoreline of Lake Baikal. The content of inorganic pollutants (sulfur, fluorides, heavy metals, etc.) has been determined. The highest level of air pollution has been registered in the following industrial centers: Angarsk, Irkutsk, Usol’e-Sibirskoe, and Shelekhov. The degree of pollution is lower in industrial centers such as Sayansk and Cheremkhovo. The data provide evidence that most pollutants reach the shoreline of Lake Baikal.     

Spatial distribution of toxic metals in drinking water sources and their associated health risk in district buner,Northern Pakistan

Vigorous knowledge on the occurrence and distribution of toxic metals (TMs) in theenvironment is needed to assess their toxicological impacts on human health especially in developing countries like Pakistan. For the first time, the concentrations of TMs like Ni, Zn, Pb, Cr, and Cd in both ground and surface water and their potential health risk in the district Buner (Pakistan) were determined using Inductive Coupled Plasma Mass Spectrometry (ICP-MS, Agilent Technologies, 7500 CX, USA) and their results were compared with their safe limits defined by Pakistan Environmental Protection Agency (Pak-EPA) and World Health Organization WHO (2008 WHO (World Health Organization). 2008. Guidelines for drinking water quality, First Addendum to third ed. Recommendations, vol 1. Geneva, Switzerland [Google Scholar]). The concentrations of TMs, like Pb (43% and 86%), Ni (63% and 32%), Cr (41%), and Cd (1% and 20%) in drinking water samples exceeded their respective permissible limits set by Pak-EPA and WHO (2008), respectively. The mean concentrations of TMs were found in decreasing order Ni > Pb > Cr > Cd > Zn. The HRI values of TMs in drinking water samples for both adults and children were observed <1 indicating no health risk to the local population. Excessive marble industries are present in the study area; therefore, it is necessary to reduce metal contamination via proper disposal and treatment of marble wastewater, for which the government should take serious action in the study area.     

Chemical composition of cell walls as a taxonomical marker

Matrix sugar composition ofChlorella is species-specifically different. The rigid wall consists of either glucosamine or glucose and mannose. Ruthenium red stainability and anisotropy of cell wall are either plus or minus species-specifically. The cell wall is specifically degraded by the lytic enzyme of the cell itself.     

Chemical composition of the water fern,salvinia molesta,and its potential as feed source for ruminants

The chemical composition of the now widespread tropical aquatic fern Salvinia molestawas analysed with regard to its suitability as a source of forage for ruminants. Three different stages of plant growth collected in Kerala, India, were air dried, brought to Germany, and used for Weende analysis, detergent fibre analysis, and the determination of gross energy, amino acids, tannins, and minerals. The concentration of 12.4% crude protein in sand-corrected dry matter (DM) and of some other nutrients in Salviniais comparable to that in conventional forage. However, the high content of crude ash (17.3% in DM) and of lignin (13.7%) and the presence of tannins (0.93%) may reduce acceptance as well as digestibility and therefore restrict the use of Salviniaas a potential feed source for ruminants.     

Enduring fluoride health hazard for the Vesuvius area population: the case of AD 79 Herculaneum

Background

The study of ancient skeletal pathologies can be adopted as a key tool in assessing and tracing several diseases from past to present times. Skeletal fluorosis, a chronic metabolic bone and joint disease causing excessive ossification and joint ankylosis, has been only rarely considered in differential diagnoses of palaeopathological lesions. Even today its early stages are misdiagnosed in endemic areas.

Methodology/Principal Findings

Endemic fluorosis induced by high concentrations of fluoride in water and soils is a major health problem in several countries, particularly in volcanic areas. Here we describe for the first time the features of endemic fluorosis in the Herculaneum victims of the 79 AD eruption, resulting from long-term exposure to high levels of environmental fluoride which still occur today.

Conclusions/Significance

Our observations on morphological, radiological, histological and chemical skeletal and dental features of this ancient population now suggest that in this area fluorosis was already endemic in Roman times. This evidence merged with currently available epidemiologic data reveal for the Vesuvius area population a permanent fluoride health hazard, whose public health and socio-economic impact is currently underestimated. The present guidelines for fluoridated tap water might be reconsidered accordingly, particularly around Mt Vesuvius and in other fluoride hazard areas with high natural fluoride levels.     

Faecal contamination of drinking water sources of Dhaka city during the 2004 flood in Bangladesh and use of disinfectants for water treatment

AIMS: To describe the extent of faecal pollution and point of use water treatment strategy during and after the 2004 flood in Dhaka. METHODS: A total of 300 water samples were collected from 20 different drinking water sources in Kamalapur, Dhaka city from August 2004 to January 2005. The level of faecal contamination was estimated using measurements of faecal indicator bacteria (total coliforms, faecal coliforms and faecal streptococci) and isolation of Vibrio cholerae was carried out following standard procedures. Total dissolved solids, dissolved oxygen, hardness, chloride and pH were also monitored. The efficacy of four disinfectants including Halotab, Zeoline-200, alum potash and bleaching powder were tested as point of use water treatment agents. The unacceptable level of contamination of total coliforms (TC), faecal coliforms (FC) and faecal streptococci (FS) ranged from 23.8% to 95.2%, 28.6% to 95.2% and 33.3% to 90.0%, respectively. The isolation rates of V. cholerae O1 and O139 were both 0.33%, and non-O1/non-O139 was 7.0%. CONCLUSION: Water collected during and after floods was contaminated with TC, FC, FS and V. cholerae. Although alum potash, bleaching powder, Halotab and Zeoline-200 were all effective general disinfectants, Halotab and Zeoline-200 were superior to bleaching powder and alum potash against FC. SIGNIFICANCE AND IMPACT OF THE STUDY: During and after floods, point of use water treatment could reduce waterborne diseases among flood-affected people.     

Escherichia coli: the best biological drinking water indicator for public health protection

Public health protection requires an indicator of fecal pollution. It is not necessary to analyse drinking water for all pathogens. Escherichia coli is found in all mammal faeces at concentrations of 10 log 9(-1), but it does not multiply appreciably in the environment. In the 1890s, it was chosen as the biological indicator of water treatment safety. Because of method deficiencies, E. coli surrogates such as the 'fecal coliform' and total coliforms tests were developed and became part of drinking water regulations. With the advent of the Defined Substrate Technology in the late 1980s, it became possible to analyse drinking water directly for E. coli (and, simultaneously, total coliforms) inexpensively and simply. Accordingly, E. coli was re-inserted in the drinking water regulations. E. coli survives in drinking water for between 4 and 12 weeks, depending on environmental conditions (temperature, microflora, etc.). Bacteria and viruses are approximately equally oxidant-sensitive, but parasites are less so. Under the conditions in distribution systems, E. coli will be much more long-lived. Therefore, under most circumstances it is possible to design a monitoring program that permits public health protection at a modest cost. Drinking water regulations currently require infrequent monitoring which may not adequately detect intermittent contamination events; however, it is cost-effective to markedly increase testing with E. coli to better protect the public's health. Comparison with other practical candidate fecal indicators shows that E. coli is far superior overall.     

Mycobacteria in drinking water distribution systems: ecology and significance for human health

In contrast to the notorious pathogens Mycobacterium tuberculosis and M. leprae, the majority of the mycobacterial species described to date are generally not considered as obligate human pathogens. The natural reservoirs of these non-primary pathogenic mycobacteria include aquatic and terrestrial environments. Under certain circumstances, e.g., skin lesions, pulmonary or immune dysfunctions and chronic diseases, these environmental mycobacteria (EM) may cause disease. EM such as M. avium, M. kansasii, and M. xenopi have frequently been isolated from drinking water and hospital water distribution systems. Biofilm formation, amoeba-associated lifestyle, and resistance to chlorine have been recognized as important factors that contribute to the survival, colonization and persistence of EM in water distribution systems. Although the presence of EM in tap water has been linked to nosocomial infections and pseudo-infections, it remains unclear if these EM provide a health risk for immunocompromised people, in particular AIDS patients. In this regard, control strategies based on maintenance of an effective disinfectant residual and low concentration of nutrients have been proposed to keep EM numbers to a minimum in water distribution systems.     

Chemical composition of culinary wastes and their potential as a feed for ruminants

Culinary wastes were collected from three different sources, namely, institutional, restaurant and household. As dry matter content of the food wastes increased, protein level (on a dry weight basis) remained relatively constant, whereas fat content markedly increased.Sheep readily adapted to a diet containing 35% of dry matter as food wastes, their daily dry matter intake being 4.5% of body weight; this suggested that palatability was no problem. Digestibility values of 76, 68, 73 and 99% were calculated for dry matter, protein ether extract and acid detergent fibre fractions of garbage, indicating that the material had a high nutritive value for sheep.The culinary wastes had a low count of harmful bacteria. Storage of the material at room temperature resulted in moulds and odours after a week, indicating that the material deteriorated quite rapidly. The addition of organic acids or formaldehyde kept the material quite stable for several weeks.