N.M. Mahungu scite author profile

Cassava is an important food and cash crop in Malawi. It is also becoming increasingly important for industrial use. The aim of this study was to investigate the native starch quality of different Malawi cassava genotypes. Trials were conducted at Chitedze and Makoka in Malawi in the 2000/01 season. Apart from root dry matter and starch extraction, starch quality parameters considered included protein, moisture and ash contents, pH and whiteness. Various stability measures were used to deal with the problem of genotype × environment interaction. The results showed that all the cassava genotypes produced starch with no protein and with colour as white as required by the industry. Moisture and ash contents and pH fell within the industry-recommended ranges. This suggests that native cassava starch is suitable for use in various industries. Additive main effects and multiplicative interaction (AMMI) was strongly correlated with other measured stability parameters and is therefore recommended for stability analysis of starch quality parameters. Genotype had a larger influence than environment on root dry matter. This agrees with the hypothesis that one or a few major genes control root dry matter in cassava.

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The importance of being bitter—a qualitative study on cassava cultivar preference in Malawi

Chiwona‐Karltun

Mkumbira²,

Saka

et al. 1998

Ecology of Food and Nutrition

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Cassava yield loss in farmer fields was mainly caused by low soil fertility and suboptimal management practices in two provinces of the Democratic Republic of Congo

Kokou¹,

Häuser

Mahungu³

et al. 2017

European Journal of Agronomy

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Cassava commercialization in Southeastern Africa

Haggblade

Djurfeldt

Nyirenda

et al. 2012

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Bitter taste in cassava roots correlates with cyanogenic glucoside levels

et al. 2004

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Cassava roots contain cyanogenic glucosides. Malawian farmers classify cultivars into two groups based on the perceived danger of eating raw roots that they associate with bitterness. In the vernacular, cultivars that produce roots with bitter taste are called vyakubaba (bitter), whereas those yielding non-bitter roots are called vyakuzizra (cool). In the scientific literature they are distinguished as 'bitter' or 'sweet'. Roots from 'bitter' cultivars are processed prior to consumption. We studied the ability of farmers to predict the cyanogenic glucoside levels of 492 roots from the 10 most commonly grown cultivars. Twenty-eight farmers predicted the taste of each of the cultivars that they grew, and scored bitterness on a five-point scale by tasting the root tip. Thereafter cyanogenic glucosides were determined on half of the root, while a taste panel scored the taste of the other half. The mean cyanogenic glucoside level in 132 roots from 'cool' cultivars was 29 mg HCN eq kg −1 fresh weight (CI 25-33, range 1-123) and in 360 roots from 'bitter' cultivars was 153 mg HCN eq kg −1 fresh weight (CI 143-163, range 22-661). Farmers' distinction of 'cool' and 'bitter' cultivars predicts glucoside levels. The tasting of the tip of the root improved the farmers' prediction of toxicity. Scoring of bitterness by a trained taste panel showed a stronger correlation with glucoside levels (r 2 = 0.67). This suggests that cyanogenic glucosides confer the bitter taste, notwithstanding the probability of additional modifying intrinsic factors.

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N.M. Mahungu

Stability of native starch quality parameters, starch extraction and root dry matter of cassava genotypes in different environments

The importance of being bitter—a qualitative study on cassava cultivar preference in Malawi

Cassava yield loss in farmer fields was mainly caused by low soil fertility and suboptimal management practices in two provinces of the Democratic Republic of Congo

Cassava commercialization in Southeastern Africa

Bitter taste in cassava roots correlates with cyanogenic glucoside levels

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