Enriching crops by adding a naturally-occurring soil mineral to fertilisers could potentially help to reduce disease and premature death in the African country of Malawi, researchers have said.
An international study led by academics at The University of Nottingham has shown that dietary deficiency of the mineral selenium — which plays a vital role in keeping the immune system healthy and fighting illness — is likely to be endemic among the Malawi population.
They found that most Malawi soils cannot supply enough selenium for adequate human nutrition and, in a paper published today in the journal Scientific Reports
, they call for further investigation into the benefits and costs of using selenium-enriched fertilisers and other strategies to boost levels within the country’s food.
Leading the study was Dr Martin Broadley, of the University’s School of Biosciences, he said: “Selenium is a naturally occurring mineral of fundamental importance to human health, with critical roles in immunity. People with low dietary selenium intakes are at increased risk of suffering from a variety of diseases. Most soils in Malawi have extremely low levels of the selenium available to plant roots and so selenium is not transferred into crops in sufficient amounts for optimal human health. We urgently need to assess strategies to address this problem in Malawi and the wider Southern African region in the context of wider mineral malnutrition (for example, iron, zinc and iodine deficiencies), often referred to as the ‘hidden hunger’.”
The study examined the diet and the resulting nutritional status of a total of 120 otherwise healthy women aged between 18 and 50 years old living in villages in Zombwe in the north of Malawi and Mikalango in the south.
Research assistants from Lilongwe University of Agriculture and Natural Resources and the Ministry of Health in Malawi, spent time in the homes of the volunteers collecting duplicate samples of what they ate and drank over a 24 hour period, and blood and urine samples were also taken. The samples collected were sent back to the UK to be analysed for their levels of selenium.
The findings showed that the natural acidity levels of the soil in the two regions had a huge impact on the selenium levels of the inhabitants, as had been predicted from a previous study. Selenium intake was eight times higher in villages with more alkaline rich soils in Mikalango than those from villages in Zombwe where the soil was acidic.
Similarly the women of the Zombwe region had less than half the levels of selenium in their blood and about one-third of the levels of selenium in their urine than that of their Mikalango counterparts.
Due to a current lack of information, the researchers are not yet able to estimate the impact of selenium deficiency on the whole of the population of Malawi or the wider region using public health frameworks devised by bodies such as the World Health Organization. However, similar frameworks are already in place for deficiencies of other minerals such as zinc which the authors estimate carries an annual economic burden of £70 million in Malawi alone.
The low levels of selenium in most soils in Malawi indicate that policies to tackle selenium deficiency in Southern Africa should still be considered, say the researchers.
Dr Broadley added: “It is of course feasible for people to diversify their diets to increase the consumption of other selenium-rich foods such as meat, poultry, fish and eggs but this is particularly challenging for people who are living in developing countries on an extremely low income. The Malawi diet is dominated by a single staple crop maize, which is often used to make a thick porridge type dish called nsima which is often eaten with a vegetable-based relish.”
The researchers recommend that further research is needed into the benefits and costs of introducing a programme to enrich nitrogen-based soil fertilisers — used relatively widely in maize cultivation in Malawi — with selenium as a way of increasing the levels of the mineral in maize. A precedent for this has already been set in other countries such as Finland, where such fertilisers have successfully increased the selenium concentrations in Finnish foods and diets since the mid 1980s.
The research was done in collaboration with colleagues at the University of East Anglia, Lilongwe University of Agriculture and Natural Resources in Malawi, the British Geological Survey in Nottingham, the University of Otago in New Zealand, the International Food Policy Research Institute in Washington DC, and the Ministry of Agriculture and Food Security and the Ministry of Health in Malawi. The study was funded primarily by a Partnership and Project Development Award from the UK Natural Environment Research Council (NERC), the UK Department for International Development (DFID) and the Economic and Social Research Council (ESRC) under the Ecosystems Services for Poverty Alleviation (ESPA) scheme.
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The British Geological Survey (BGS), a component body of the Natural Environment Research Council (NERC), is the nation's principal supplier of objective, impartial and up-to-date geological expertise and information for decision making for governmental, commercial and individual users. The BGS maintains and develops the nation's understanding of its geology to improve policy making, enhance national wealth and reduce risk. It also collaborates with the national and international scientific community in carrying out research in strategic areas, including energy and natural resources, our vulnerability to environmental change and hazards, and our general knowledge of the Earth system. More about the BGS can be found at www.bgs.ac.uk.