End Use Quality of Some African Corn Kernels. 1. Physicochemical Characteristics of Kernels and Their Relationship with the Quality of “Lifin”, a Traditional Whole Dry-Milled Maize Flour from Benin
Mathurin Coffi Nago, Noël Akissoé, Françoise Matencio, Christian Mestres
Journal of Agricultural and Food Chemistry
Abstract
The physicochemical characteristics of eight samples of lifin, a traditional maize market flour of Benin, were determined. They had very similar proximate composition and a median particle size (PSm) under 200 μm; four, having a PSm under 180 μm, can be considered as fine or very fine and should be preferred by consumers. The grains of twenty-one maize cultivars of Benin including local ecotypes (5) and new cultivars (16) were physicochemically characterized and were tested for their ability to give fine whole grain flours. The five local ecotypes presented common traits such as high friability, low vitreousness, and dent kernel percentage giving relatively fine flours with low damaged starch content. On the contrary, most new cultivars had vitreous and hard grains and half gave very coarse flours with PSm over 200 μm. The more friable the grain was, the finer the whole grain flour it gave and the lower damaged starch it contained. Keywords: Maize; grain; hardness; physicochemical characteristics; milling; flour
Extracted Claims
4 claims extracted from this paper into the knowledge graph
milling affects particle size of maize flour
“The more friable the grain was, the finer the whole grain flour it gave and the lower damaged starch it contained”
new cultivars of maize have vitreous and hard grains
“On the contrary, most new cultivars had vitreous and hard grains and half gave very coarse flours with PSm over 200 μm”
lifin has median particle size (PSm) under 200 μm
“They had very similar proximate composition and a median particle size (PSm) under 200 μm”