News Release 

Finding toxic carcinogenic metals faster in foods and water

University of Johannesburg

Finding out if the food and water we consume are safe from toxic and carcinogenic metals can now be much faster and simpler. Researchers at the University Johannesburg developed an efficient and more sensitive method to test for dangerous levels of heavy metals, like arsenic, cadmium and chromium in vegetables and water. The method can be used to test other foods also. It is possible to test for several metals at the same time and automation can be added. The method can be used to test other foods. The instrumentation used is readily available in laboratories in developing countries.

Is it safe?

Researchers at the University of Johannesburg have developed a faster, more economical method to directly identify toxic and carcinogenic heavy metals in vegetables and drinking water.

Trace metals such as lead (Pb), arsenic (As), cadmium (Cd) and thallium (Tl) are toxic even at very low concentrations (levels). Arsenic, cadmium and chromium hexavalent compounds are also recognised as carcinogens by International Agency for Research on Cancer (IARC) and the US National Toxicology Program (NTP).

Combining accurate established techniques, the method makes it possible to test for several trace metals simultaneously.

"The study provides a simple, fast and sensitive method for laboratories with limited resources. The research results can also improve food quality for consumers," says lead author Prof Philiswa Nomngongo. She is the SARChI Chair: Nanotechnology for Water at the University of Johannesburg.

"This study contributes data that can be used as a reference when setting up or revising the guidelines for the maximum allowable levels in common vegetables and palatable water," she adds.

"The method is environmentally friendly and conforms to green analytical chemistry principles. It does not introduce secondary pollution."

New combination of techniques

Previous studies used similar methods, but for analysis of organic pollutants says Mr Luthando Nyaba, co-author of the study, also at the University of Johannesburg.

"This is the first time where a clay-based adsorbent is combined with a cloud point extraction method for simultaneous analysis of trace metals in vegetables and palatable water," he says.

"In this method, we convert solid vegetable samples into liquid form. This makes it possible to directly analyse trace metals with a suitable analytical instrument. Direct, simultaneous analysis means that more vegetable samples can be analysed at the same time, and quicker than was possible before," adds Nyaba.

The method uses ultra-sound assisted cloud-point extraction and dispersive micro-solid phase extraction to preconcentrate samples from vegetables and water. The samples are then directly analysed with inductively coupled plasma optical emission spectrometry.

The equipment used for the research is a few years old, says Nomngongo. However, if "we buy vegetables at 8 in the morning, we have the analysis results by 1 in the afternoon," she adds.

Chemistry like mobile apps

To identify trace metals in foods and water, analytical chemistry techniques are required. These evolve over time much like apps on mobile phones, he says.

"The developers of a phone app can fix software bugs without rewriting the app completely. They add fixes to a new version, and users download the new version to benefit.

"Analytical chemists are like software developers, making updates to an existing method to make them compliant with new analytical chemistry principles. In this case, one of our goals was to significantly the reduce the amounts of hazardous solvents traditionally used in testing for trace metals," adds Nyaba.

Hard to detect

All over the world, unwanted trace metals are showing up in vegetables and drinking water. These metals are among many pollutants that seriously affect human health. Monitoring which metals occur in foods and beverages can really challenge a laboratory.

Firstly, often labs cannot directly measure some trace metals in foods, because they occur in 'too low doses': the equipment is not designed to detect such low concentrations. This means that sophisticated methods and expensive equipment are needed to detect the presence of some trace metals.

Secondly, vegetables are inherently very complex to accurately analyse for chemical elements. This creates long, time-consuming procedures to prepare samples to be ready for metals testing.

Combined, this means that monitoring for trace metals in agricultural produce is generally slow, expensive, and can only be done by highly qualified scientists. For developing countries, monitoring can be inaccessible because of that.

More than a good thing

To stay healthy, humans need to eat vegetables and drink water. High quality vegetables contain many micronutrients, including trace metals the body needs to function well.

But too high doses of some metals can make people sick, though health conditions such as cancer may take years to manifest. Others are so toxic that very low amounts can make people extremely ill within days or weeks.

"We need to eat foods containing some trace metals, such as copper, zinc, and iron. But others are toxic: lead, arsenic cadmium, mercury, among others. On the one hand, vegetables form a vital part of human nutrition. On the other, they are good accumulators of heavy metals," says Nomngongo.

"Knowing the level of metal contamination in the vegetables we eat and the water we drink can make a difference to health and quality of life," she adds.

Metals everywhere

Unwanted metals affect food crops and drinking water world-wide. Heavy metals pollution from urbanisation, factories, mines, and other industries filter into sources for drinking water and irrigation in agriculture. Some agricultural fertilizers, including re-purposed sewage sludge, also affect food crops.

Many of these metals bio-accumulate in the human body, in animals, plants and the environment. This means that the metals cannot be removed and that the resulting problems can only be managed, not cured.

The World Health Organisation (WHO) and national governments publish drinking water guidelines and other standards, which show what levels of metals in food and water are likely to affect human health. And the WHO's International Agency for Research on Cancer (IARC) and the US National Toxicology Program (NTP) publish lists of known and probable human carcinogens.

Next steps

Locally, the research results can help improve the quality of life for communities that depend on the studied water sources, says Nomngongo.

"The results can also assist the South African government and environmental protection agencies to set, review and enforce water quality regulations," she adds.

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There is a MULTIMEDIA PRESS PACK for download from Google Drive:

SHARE LINK: https://drive.google.com/drive/folders/1XgoDV9qdq5_RQlSlZ6u_WFCaBNkkinyI?usp=sharing

The press pack contains subfolders:

TV INSERT: A broadcast-quality TV insert of 2min30sec of the researchers in their laboratory. The folder contains the insert without subtitles, with English subtitles burnt in, and English subtitles as a separate text file as exported by DaVinci Resolve. The codec is full HD 1920X1080 25fps 48khz h264. A preview version with subtitles is available as one of the multimedia files of this release.

ONLINE VIDEO: An online video version of the researchers in their laboratory. The folder contains the video without subtitles, with English subtitles burnt in, and with English subtitles as a separate text file as exported by DaVinci Resolve. The codec is full HD 1920X1080 25fps 48khz h264. A preview version with subtitles is available as one of the multimedia files of this release.

GRAPHICS ANIMATION: An online video version using colorful stop-motion animation, showing the method from vegetable sample through to metal ions emitting unique light patterns in the spectrometer. The folder contains the video without subtitles, with English subtitles burnt in, and with English subtitles as a separate text file as exported by DaVinci Resolve. The codec is full HD 1920X1080 24fps 48khz h264. A preview version is available as one of the multimedia files of this release.

QUESTIONS: Please contact Therese van Wyk at +27 71 139 8407 or theresevw@uj.ac.za with any questions about the press pack.

INTERVIEWS: For email / mobile phone / Skype / Zoom interviews with Prof Nomngongo or Mr Nyaba, contact Ms Therese van Wyk at Theresevw@uj.ac.za or +27 71 139 8407 (mobile) in Johannesburg, UTC + 2.

The research was funded by South African National Research Foundation grants 91230 and 99270.

The researchers thank UJ Chemical Sciences Doornfontein and UJ Spectrum Analytical Facility Kingsway for laboratory facilities.

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