Lead is known to have numerous adverse effects especially to infants and children. The intake of lead through drinking water is commonly due to metal corrosion in the peripheral water distribution system, especially the user's plumbing. The aim of this project was to assess the present state of drinking water contamination with lead in Lower Saxony and to promote replacement of lead pipes. For this purpose a project was initiated comprising three parts. First, a free examination of drinking water was offered in cooperation with local public health departments for private households with young women and families with children living in buildings constructed before 1974. Participants were asked to collect a cold tap water sample in their household after nocturnal stagnation and to complete a questionnaire. The collected samples were analysed by atomic absorption spectrometry for their lead concentration. Second, data from local public health departments on results of lead measurements, especially in buildings for the public, were collected and analysed. Finally a working group 'lead replacement' was initiated. In the project in total 2436 tap water samples from households were collected. Of these, 6.49% had lead concentrations exceeding 10 microg/l (recommended limit of the World Health Organization) and 2.79% had concentrations above the limit of the German drinking water ordinance (25 microg/l). There were remarkable regional differences in the frequency of tap water contamination. Multi-family houses were more frequently affected than single- and double-family houses.
In the project in total 2,901 tap water samples from households were collected between the years 2005 and 2007. Of these, 7.5% had lead concentrations exceeding 10 microg/L (recommended limit of the World Health Organisation) and 3.3% had concentrations above the limit of the German drinking water ordinance (25 microg/L). There were remarkable regional differences in the frequency of tap water contamination. Multi-family houses were more frequently affected than single and double family houses. Additional data were collected in a preceding study in southern Lower Saxony. Of the 1 434 stagnation samples, 3.1% had lead concentrations greater than 10 microg/L and 0.6% had concentrations above the former limit of the German drinking water regulations of 40 microg/L.
Different metals can leach from piping materials into the tap water, which can be of health concern. This study investigated in which amount abundant metals were released from different parts of domestic installations into the cold tap water. For the approximate spatial allocation of the metal releasing sources, a sequential water sampling protocol was used after three hours of stagnation time representing the first five litre of the water column. After stagnation ten sample volumes were collected in series. Existing facilities of domestic installations constructed with different plumbing materials were examined predominantly from residential buildings. The elements Al, As, Cd, Cr, Cu, Fe, Mg, Mn, Ni, Pb, Sb, Se, U and Zn were detected by means of ICP-MS. In total 16 water pipe strands of 11 domestic installation systems were examined. They comprised 401 single water samples and 5,614 single parameters. Depending upon the type of plumbing, different courses and concentration ranges of the elements could be measured in the tap water samples. Terminal taps or installation parts were in all investigated systems responsible for a release of nickel and in several cases of low concentrations of cadmium. The concentration courses of the element zinc proved as a good indicator for the allocation of the metal source to a brass containing section of the installation (zinc as an alloy component of brass). One can conclude that sequential water sampling protocol in combination with multi-element detection can be a valuable non-destructive method for drinking water-hygienic investigations of domestic installations.
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