Análise da Água

Acreditação: DIN EN ISO/IEC 17025

A água é testada para metais totais recuperáveis em conformidade com os Métodos da EPA e do Regulamento Europeu de Água Potável. Valores de teste da água são comparados com os Níveis Máximos de Contaminantes (MCL), conforme definido pela EPA e os Organismos Europeus Regulação da Água. Como os regulamentos são menos rigorosos nos EUA em comparação com a Europa, comparamos os valores de teste para normas européias, mas também listamos as normas da EPA.

Perfil da Água Básico de Rotina (Incluindo Dureza) (P8)
Material Necessário: 5-7ml de água

Alumínio, Antimónio, Arsênico-total, Bário, Berílio, Boro, Cádmio, Cálcio, Chumbo, Cobre, Cromo, Ferro, Magnésio, Manganês, Mercurio, Niquelar, Prata, Selênio, Strontio, Thallium, Urânio, Zinco

Perfil Sucinto da Água (Incluindo Dureza) (P80)
Material Necessário: 5-7ml de água

Cádmio, Cálcio, Chumbo, Cobre, Magnésio, Niquelar, Urânio, Zinco

Água Perfil Urânio (Urânio)
Material Necessário: 5-7ml de água

Baixe a Folha de Submissão da Água, preencha e envie com a amostra da água. É aceitável o envio por correio normal ou correio aéreo. Metais não são afetados pelo tempo de envio.

Lithium in water associated with Autism

New research studies have found that consuming lithium-contaminated tap water during pregnancy could be associated with an increased risk of newborn autism development. As lithium levels increased, so did the risk of an autism diagnosis.  

Water analysis as offered by Micro Trace Minerals seems warranted during and after pregnancy. We routinely test lithium in water.

https://neurosciencenews.com/lithium-water-autism-22922/

Some countries have high lithium reserves . To find out more about your country's lithium production, check this site.

https://worldpopulationreview.com/country-rankings/lithium-reserves-by-country

Download

Download Water Submission Form, fill out and send with water sample. Regular mail or air mail is acceptable. Metals are not affected by shipping time.

Uranium in drinking water. How does it get there?

Uranium occurs naturally in soil and rocks. It can enter groundwater and contaminate drinking water, which, over time, can harm health. In certain regions such as Nebraska, uranium is more present in rocks, soil and water than in other areas. Uranium cannot be detected by taste, sight or smell.

In drinking water, the chemical properties of uranium are of greater concern than its radioactivity. Studies show that elevated levels of uranium in drinking water can affect the kidneys. In Nova Scotia, uranium levels in drinking water are between 0.005 and 0.83 milligrams per litre (mg/L). The Canadian guideline for uranium in drinking water is 0.02 mg/L.

Uranium concentrations of up to 700 µg/litre (=0.7mg/l) have been found in private supplies in Canada (Moss et al., 1983; Moss, 1985). A study in Finland examined a population receiving drinking-water containing uranium with a median concentration of 28 µg/litre (Kurttio et al., 2002). In a study of 476 Norwegian groundwater samples, 18% had uranium concentrations in excess of 20 µg/litre (=0.02mg/l)(Frengstad et al., 2000). Concentrations in excess of 20 µg/litre have been reported in groundwater from parts of New Mexico, USA (Hakonson-Hayes et al., 2002), and central Australia (Hostetler et al., 1998; Fitzgerald et al., 1999). 

 

Uranium in Mineral Water

There is no statutory binding maximum level for uranium in mineral water. When manufacturers claim that these waters are suitable for the preparation of infant formula, the mineral water in question may not contain more than 2 microgram uranium per litre.
The German environmental agency guideline for tap and mineral water  is10 microgramm per litre.

The World Health Organisation (WHO) gives a guideline value of 15 microgram per litre.