Reasons for declining maize consumption in Gauteng.

Steveni, Richard.

January 2006

The effects of urbanisation on maize consumption are considered in the context of Gauteng as it is almost completely urbanized (96%) and would have data that would be more readily available and up to date. Anecdotal evidence of a per capita decline in maize consumption is based on an expected greater degree of employment of the population. A greater proportion of women in the workforce is also expected placing time constraints on households. The resulting expected increase of disposable income combined with time constraints would cause higher consumption rates of convenience foods. The envisaged declining trend of per capita maize consumption necessitated a need to discuss Engel's Law which states with rising incomes, the proportional share of expenditure on food declines (Engel, 1877). Bennett's Law is also discussed which is an empirical generalization of an inverse relationship between the percentage of total calories derived from cereals and other staple foods and per capita income (Bennett, 1954). The population demographics of Gauteng are analysed, the main reference being a detailed comparison between the 1996 and 2001 censuses. Where data is available trends are extrapolated using South African Statistical Services' mid-year population estimates for 2004 (STATS SA, 2004). The demographics of the black African population, as the dominant consumers of maize meal, are paid particular attention. It was revealed that unemployment and poverty rates are increasing placing considerable pressure on, in particular, black African households. It was also found that black African income levels had not increased to the degree of other population groups. The HIV/AIDS pandemic, affecting mainly the black African population and mostly of an employable age, is considered. Mortality rates attributed to AIDS are controversial but an irrefutable dramatic declining life expectancy of the national population was found placing additional strain on household budgets. Also considered are eating habits by population group and by region made available by the Bureau of Market Research. / Thesis (MBA-University of KwaZulu-Natal, 2006.

Maize as food--Gauteng.

Food consumtion--Gauteng.

Theses--Business administration.

Mycotoxins in food with particular reference to fumonisin B1 : their health impact on a Kranskop rural community, KwaZulu Natal.

Chelule, Paul Kiprono.

January 1998

The use of the multi-mycotoxin screen based on dialysis to analyze foods and feeds for mycotoxins, is well documented. This study investigated the possibility of incorporating FB I into the screen. Maize meal (25g) was spiked with AFB I , CPA, FB1, ST and ZEA and extraction was done using acetonitrile/4% potassium chloride (90:10 v/v). The recoveriesof the mycotoxins were 77.4, 61.5, 97.4, 79.8 and 98% respectively on analysis by HPLC. Fumonisin B1 could not be completely incorporated into the screen due to its reaction with sodium hydrogen carbonate, which is a component in the method. Thus, FB I was determined in a separate portion of the extract. The high cost of FBI standards which are often of inferior purity necessitated that FB I standards be locally produced in the laboratory using Fusarium moniliforme MRC 826, a good producer of FB 1 . In this study, production of FB I was carried out using a stirred jar fermenter and patty cultures. The yields were 160mg/1 and 6mg/g of FB I for the two methods respectively. Methyl esterification of tricaballylic acid moieties of FB I was done for effective clean-up. This was achieved by derivatizing FBI, with diazomethane. It was found that other functional groups besides the tricaballylic acid moieties of FB I were undesirably methylated as well, which made cleanup by this method difficult as shown by electrospray mass spectrometric analysis. Attempts to de-methylate FBI methyl esters with esterase was not successful. Analysis of human faecal samples was carried out with the view of developing a short term marker for assessing human exposure to FB I . Faeces from rural (20) and urban (23) volunteers were analyzed by high performance liquid chromatography. The results showed that 35% of the rural samples and 9% of the urban volunteers had detectable amounts of FB I ranging from 0.600 to 19.56 mg/kg. There was a significant difference (p = 0.04)between the two population groups. A study was carried out to assess the occurrence of FBI in a rural area of Tugela valley in Kranskop magisterial district of KwaZulu Natal. A questionnaire was administered to gather information on the family health and nutrition. Raw (stored) and processed foods and faeces, were collected for analysis of FB1. A similar control study was carried out in the urban area of Durban Metro. Homes were mapped out using the GIS for easy follow up. Oesphageal cancer (OC) incidence from the local hospital and weather data for the study area were collected from South African Weather Bureau, Johannesburg. The questionnaire results showed that the common diseases were mainly of respiratory origin (24% and 26%) from both rural and urban groups respectively. Food analysis (by HPLC) showed that the number of maize samples with FB I were higher in the rural area (31.9%) in comparison to the urban samples (6.1%). The level ranged from 0.092-22.225 mg/kg in food and 0.513-39 mg/kg in faeces. The mean concentration of FB i in the faeces and maize samples showed a similar significant difference of 0.014 between the two groups. However, these concentrations were much lower than those of high OC area in Transkei (117 mg/kg). There was no detection of FBI in fermented food products. / Thesis (M.Med.Sci.)-University of Natal, Durban, 1998.

Mycotoxins--Analysis.

Fumonisins--Toxicology.

Maize as food--Contamination.

Food contamination.

Theses--Human physiology.

Nutritional quality and consumer acceptability of provitamin A-biofortified maize.

Pillay, Kirthee.

January 2011

Vitamin A deficiency (VAD) is a major public health problem in developing countries, including South Africa. The potential of provitamin A-biofortified maize for use as a complementary strategy to alleviate vitamin A deficiency in developing countries, where maize is the dominant staple food, is currently a subject of research. Although the nutritional composition of white maize is thought to be similar to that of biofortified maize, apart from the differences in provitamin A carotenoid content, the comparative nutritional composition of the two maize types seems not to have been subjected to a comprehensive scientific study. When setting the target level of provitamin A in the provitamin A-biofortified maize, it is important to consider the potential effect of processing on the final provitamin A carotenoid content of the biofortified food products, as the provitamin A carotenoids levels may decrease on processing. Furthermore, the yellow/orange provitamin A-biofortified maize may not be widely accepted by African consumers who are vulnerable to VAD, and are traditional consumers of white maize. This study firstly aimed to evaluate the nutritional composition, including provitamin A composition, and grain quality of provitamin A-biofortified maize varieties, compared to white maize. The second aim was to assess the effect of processing (milling and cooking) on the retention of provitamin A carotenoids and other nutrients in popular South African maize food products prepared with provitamin A-biofortified maize. Thirdly, the study aimed to assess the acceptability of maize food products prepared with provitamin A-biofortified maize by consumers of different age and gender in rural KwaZulu-Natal, South Africa. The grains of the provitamin A-biofortified maize varieties and grain of a white maize variety (control) were analysed for their nutritional composition using standard or referenced methods. The carotenoid content of the grains was analysed by High-Performance Liquid Chromatography (HPLC) and mass spectroscopy. The provitamin A carotenoids β-cryptoxanthin, and trans and cis isomers of β-carotene, and other unidentified cis isomers of β-carotene were detected in varying levels in the provitamin A-biofortified maize varieties. The total provitamin A content in the biofortified maize varieties ranged from 7.3-8.3 μg/g dry weight (DW), with total β-carotene ranging from 3.5-3.6 μg/g DW, and β-cryptoxanthin from 3.7-4.8 μg/g DW, whilst no carotenoids were detected in the white maize variety. Results of the evaluation of the content of other nutrients showed that, when compared with the white maize variety, the provitamin A-biofortified maize varieties had higher levels of starch, fat and protein but were lower in iron. The zinc and phosphorus levels in the white maize and the biofortified maize were comparable. The biofortified maize varieties were better sources of most of the essential amino acids relative to the white maize, but, similar to the white maize, they were deficient in histidine and lysine, indicating that further improvement is required. Selected quality attributes (grain density, susceptibility of kernels to cracking, milling quality and resistance of the kernels to fungal infection) of grains of 32 provitamin A-biofortified maize varieties and a white variety (control) were assessed. Overall, the quality of the grains of the provitamin A-biofortified maize varieties were found to be superior to that of the white maize grain, although the biofortified maize grains showed less resistance to fungi, including mycotoxin-producing types. This indicates that the trait of grain resistance to infection by fungi should also be incorporated in the provitamin A-biofortified maize varieties during breeding. To assess the retention of provitamin A carotenoids and other nutrients in maize food products, three selected provitamin A-biofortified maize varieties and the control (white maize variety) were milled into mealie meal and samp. The milled products were cooked into three products: phutu and thin porridge (from the mealie meal) and cooked samp. Nutrient retention during processing was determined. Milling resulted in either an increase or slight decrease in the provitamin A carotenoid levels, but there was no major decrease in the total provitamin A level. Most of the other nutrients were well retained during milling, but there were substantial losses of fibre, fat and minerals. Provitamin A carotenoid levels decreased on cooking. In phutu 96.6 ± 20.3% β-cryptoxanthin and 95.5 ± 13.6% of the β-carotene was retained after cooking. In thin porridge 65.8 ± 4.6% β-cryptoxanthin and 74.7 ± 3.0% β-carotene; and in samp 91.9 ± 12.0% β-cryptoxanthin and 100.1 ± 8.8% of the β-carotene was retained after cooking, respectively. Provitamin A retention seemed to be influenced by both maize variety and food form, indicating that suitable varieties and food forms should be found. There was generally a high retention of the other nutrients in all the three cooked products, except for the substantial losses of fat in thin porridge and iron and phosphorus in cooked samp. These findings indicate that an optimal delivery of provitamin A to the consumer can be achieved by processing provitamin A-biofortified maize into foods that have a good retention of provitamin A carotenoids, such as phutu and samp. These food products would be recommended in areas where VAD is prevalent. In order to assess consumer acceptability of provitamin A-biofortified maize, a total of 212 subjects aged 3-55 years from Mkhambathini Municipality, in KwaZulu-Natal province, South Africa, participated in the sensory evaluation of phutu, thin porridge and cooked samp prepared with provitamin A-biofortified maize varieties and a white variety (control). Preference for yellow maize food products was negatively associated with an increase in the age of the subjects. Overall, preschool children preferred yellow maize to white maize food products: phutu (81% vs. 19%), thin porridge (75% vs. 25%) and samp (73% vs. 27%). In contrast, primary school children preferred white maize to yellow maize food products: phutu (55% vs. 45%), thin porridge (63% vs. 38%) and samp (52% vs. 48%). Similarly, secondary school children and adults also displayed a similar preference for white maize food products. There was no association between gender and preference for maize variety. Focus group discussions revealed that participants had a negative attitude towards biofortified maize due to its colour, taste, smell and texture. However, the participants expressed a willingness to consume biofortified maize if it was cheaper than white maize and was readily available in local grocery stores. These findings indicate that there is a potential to promote the consumption of provitamin A-biofortified maize and its food products in this part of South Africa, thereby contributing to a reduction in the incidence of VAD. This study has shown that provitamin A-biofortified maize has a good potential to be used as an additional strategy to alleviate VAD in poor communities of South Africa, including similar environments in sub-Saharan Africa. However, the study has revealed that there are still challenges to be overcome in order to achieve the target provitamin A content of 15 μg/g in provitamin A-biofortified maize, set by HarvestPlus, an international challenge program. This may also explain why provitamin A-biofortified maize varieties with this level of provitamin A have been scarcely reported in the literature. Thus, more research is required to achieve the target provitamin A level in maize by conventional breeding. The results of this study indicate that besides provitamin A, the biofortified maize is also a good source of other nutrients including starch, fat, protein and zinc. However, improving the consumer acceptability of the provitamin A-biofortified maize remains a challenge, due to the negative attitudes towards the yellow/orange maize by African consumers. On the other hand, the results of this study indicate that there is an opportunity to promote the consumption of provitamin A-biofortified maize food products by preschool children, a finding which has not been previously reported in the literature. Nutrition education on the benefits of provitamin A-biofortified maize, as well as improved marketing are recommended, in this part of South Africa and also in similar environments in other sub-Saharan countries. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2011.

Maize as food.

Maize--Quality.

Grain--Composition.

Vitamin A in human nutrition.

Vitamin A deficiency.

Enriched foods.

Consumers' preferences.

Food--Vitamin content.

Nutrition--Evaluation.

Theses--Dietetics and human nutrition.

Perceptions of genetically modified maize (as food aid) by the people in Chongwe and Magoye districts, Zambia.

Siwila, Davy.

January 2006

Zambia is one of the Southern African countries that experienced drought between 2001 and 2003. As a result the country had low levels of maize harvest, which is the country's main staple food. The Zambian population depends on maize for both household food security and cash. For this reason the Government of Zambia appealed for help from the international community in order to meet the shortfall of maize with a view to feeding its starving population, particularly in the rural areas. In response to the government's appeal, World Food Programme, (WFP) a United Nations Food agency brought assistance in the form of 27,000 tonnes of genetically modified (GM) maize into the country in July 2002. The Zambian government, however, rejected GM maize in both grain and milled forms, citing health, environmental and trade concerns with the European Union. Thus the focus of the research was to understand, on one hand the government's action of rejecting GM maize as food aid, while on the other hand accepting that drought-stricken small-scale farmers would go hungry as a result of this decision. Understanding the perceptions of government action was therefore essential to understanding the situation the situation fully. In other words, was it a good scientifically based government decision, or was it one made for political gain? Moreover, the purpose of this research was to present arguments about the safety and benefits of Genetic Modification technology for the world, particularly the developing countries. The findings of the study were that the levels of GM technology awareness in Zambia low among technocrats and too low among the rest of the population. To this end, government officials, relevant NGOs and small scale farmers were interviewed. In addition, small scale farmers in Chongwe and Magoye participated in focus group discussions. The findings were that although the Chongwe community experienced drought in their area, they were of the view that the government was justified in rejecting the GM maize from 2001-12 because they did not want to contaminate their land which they regarded as very suitable for farming. On the contrary, the Magoye people were among the communities that had been anxious to get food and were therefore not happy with the government's decision. The hunger suffered at the time in this community caused them to loot the government stores of GM Maize (provided as food aid) before the government could recall the stocks. The issue of access to the GM maize was apparently more important than debating on the potential impacts that might have occurred to their community. Other findings were the Zambian government's decision to reject GM maize (as food aid) impacted negatively, both economically and socially, in these areas. The majority of small-scale farmers experienced food shortages and resorted to various coping strategies such as picking wild-fruits and roots in the bush in order for them to survive. / Thesis (M.Soc.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2006.

Genetically modified foods--Zambia.

Food relief--Zambia.

Food supply--Political aspects--Zambia.

Maize as food--Zambia.

Food security--Zambia.

Farmers--Zambia.

Food--Biotechnology--Zambia.

Agricultural biotechnology--Zambia.

Theses--Community resources.