A Study of Heap Fermentation and Protein Enrichment of Cassava.

Tivana, Lucas Daniel (2005) A Study of Heap Fermentation and Protein Enrichment of Cassava. UNSPECIFIED thesis, UNSPECIFIED.

Full text not available from this repository.
Official URL: http://hdl.handle.net/10646/929


Cassava (Manihot esculenta Crantz) is an important source of carbohydrate for humans and animals, producing high energy of 610 kJ/100 g fresh root weight. However, it is very poor in protein (1 % fresh root weight) and contains cyanogenic glucosides which are related to various health disorders that occur in populations where cassava is the staple food. Cassava products that are not adequately processed have been linked to diseases like konzo, caused by cyanide poisoning, as was the case in Nampula Province, Mozambique. Samples of cassava flour were collected in 4 different districts in Nampula Province, Mozambique and the cassava processing methods were recorded. Cassava processing techniques used in Nampula Province consist of peeling, chipping or grating, sun-drying or fermenting followed by sun-drying, and finally pounding into flour. There was a large variation in the average cyanogenic potentials of flours from the different districts, ranging from 26 + 20 to 90 + 60 mg HCN/kg. The average total cyanogenic content for the unfermented samples (64 ± 60 mg HCN/kg) was significantly greater than that of the fermented samples (34 ± 30 mg HCN/kg). Biochemical and microbial changes occurring during the heap fermentation of cassava roots were determined and predominant micro-organisms were isolated and identified. The total crude protein and cyanogenic potential were determined in dried fermented and unfermented cassava flour. The moulds, Rhizopus stolonifer and Neurospora sitophila were the dominant microbes involved in the heap fermentation of cassava followed by lactic acid bacteria, Leuconostoc pseudomesenteroides, Leuconostoc mesenteroides, Enterococcus faecium and Weissella cibaria. The pH values of the cassava roots decreased from 6.1 + 0.01 to 5.6 + 0.6 during heap fermentation. Heap fermentation of cassava resulted in a decrease in the total cyanogenic potential levels. The average total cyanogenic level in unfermented cassava flour was 158 mg HCN/kg, while in fermented cassava flour, a value of 17 mg HCN/kg was recorded. The average cyanogenic potential of fresh cassava roots was 259 + 9 mg HCN/kg. Protein concentration in the cassava flour slightly increased from 1.3% to 1.8% w/w dry matter during fermentation. Laboratory simulation of the heap fermentation of cassava roots using isolated moulds was carried out to determine the growth and change in texture of the cassava roots. Neurospora sitophila grew faster than Rhizopus stolonifer on cassava roots under controlled conditions. Rhizopus stolonifer softened the cassava roots more than the Neurospora sitophila. Slicing the cassava roots increased the rate of mould growth and the softness of the roots during the fermentation. Studies were carried out to increase the protein content of cassava flour by the co-fermentation of cassava roots with cowpea (Vigna unguiculata) using selected moulds. Co-fermentation of cassava roots with cowpea flour, at a proportion of 92:8 (cassava:cowpea), resulted in faster growth of moulds, rapid softening of cassava roots and an increase in the protein content of the flour. The final protein content in cowpea supplemented cassava flour was 7.93 + 0.98 % dry weight basis, similar to the maize grain. The flour produced from cassava roots co-fermented with cowpea produced a paste (karakata) of lower viscosity and higher sensory acceptability compared to that prepared using flour from cassava roots fermented without cowpea. Heap fermentation of cassava roots reduced the cyanogenic potential of the roots but did not achieve the FAO/WHO recommended safe limit of 10 mg HCN/kg when bitter varieties were used. Supplementation of cassava roots with cowpea produced a flour with lower cyanogen content, higher protein content and lower viscosity compared to flour produced from unsupplemented cassava roots.

Item Type: Thesis (UNSPECIFIED)
Uncontrolled Keywords: cassava,Mozambique,fermentation,root
Divisions: Universities > State Universities > University of Zimbabwe
Depositing User: Mr. Edmore Sibanda
Date Deposited: 07 Dec 2015 00:31
Last Modified: 07 Dec 2015 00:31
URI: http://researchdatabase.ac.zw/id/eprint/1544

Actions (login required)

View Item View Item