Lucretia I. Barber scite author profile

Lucretia I. Barber

5Publications

97Citation Statements Received

59Citation Statements Given

How they've been cited

112

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Affiliations

Rivers State University

Publications

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Utilization of protein concentrates from ungerminated and germinated fluted pumpkin (Telfairia occidentalis Hook) seeds in cookie formulations

Giami

Barber

2004

J Sci Food Agric

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Cookies (soft type biscuits) were produced from blends of wheat flour containing graded levels (0-25%) of protein concentrates prepared from ungerminated and germinated fluted pumpkin (Telfairia occidentalis Hook) seeds and evaluated for nutritional, baking and sensory properties. Protein quality was investigated using weanling albino rats fed diets that were formulated to supply 10% protein using cookie samples, with casein as a control. Cookies produced from blends containing protein concentrates from germinated seeds had higher contents of crude protein and lower levels of polyphenol and phytic acid, compared with cookies supplemented with concentrates from ungerminated seeds. The use of up to 15% concentrate from ungerminated seeds in the blends produced cookies with spread ratio, hardness, colour and flavour similar to the 100% wheat flour (control) cookies. Cookies supplemented with concentrates from germinated seeds at 15-25% levels were nutritionally comparable to diets based on casein, but at the expense of acceptability.

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The microbiology of ogiri production from castor seed (Ricinus communis)

1988

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Proximate Composition and Sensory Properties of Complementary Food Formulated From Malted Pre-Gelatinized Maize, Soybean and Carrot Flours

Obinna-Echem¹,

Barber²,

Enyi³

2018

JFR

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The nutrient and sensory properties of malted pre-gelatinized maize supplemented with varying amounts of soy and carrot flour was evaluated. The blends (Malted pre-gelatinized maize flour : Soy flour : Carrot flour) in grams were: A (80: 20: 0), B (73.125: 23.125: 3.75), C (66.250: 26.250: 7.50), D (65.625: 23.125:11.25), E (65: 20:15), F (63.125: 33.125: 3.75), G (63.125:25.625: 11.25), H (60: 25: 15) and I (100:0:0). There were significant (P ≤ 0.5) differences in the proximate composition of the blends. The moisture content ranged between 3.55 - 8.10%. The protein content of the samples increased (P ≤ 0.5) with the increase in soy substitution and varied from 11.61% for the control (sample I) to 21.53% for sample F. The fat, ash and crude fibre content of the blends varied from 1.68 - 10.86, 1.45 - 2.8 and 0.20 - 4.40% respectively. The control had significantly (P ≤ 0.5) the highest carbohydrate content of 75.61%, while it varied between 55.30 and 71.60 % for others. The energy values varied from 360.43 - 405.00 Kcal/g. The sensory scores were based on a 9-point hedonic scale, with 1 and 9 expressed as dislike extremely and like extremely. The assessors’ likeness for the sensory attributes (colour, texture, taste, aroma and general acceptability) was below neither like nor dislike. This study revealed that substitution with soybeans and carrot flours increased the nutrient composition of the malted pre-gelatinized maize, soybean and carrot flour blends. Particularly the soy flour as sample F with the highest soy flour substitution (33. 123g) had significantly the highest protein (21.53%), fat (10.86%) and energy (405 Kcal/g) values. This would be recommended for good quality porridge. Although, the sensory analysis revealed the need for further investigation on processing methods especially the malting process as to enhance the overall acceptability of the product.

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Production and Evaluation of Table Wine Using Two Different Varieties of Pawpaw (Carica papaya)

Kiin-Kabari¹,

Igbo²,

Barber³

2019

JFSE

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The aim of this study was to produce and evaluate table wine from two different varieties of pawpaw (rose red and yellow pawpaw). The must was evaluated for physicochemical and microbiological changes during fermentation while the wine was analyzed for physicochemical characteristics, microbiological quality and sensory properties and compared with commercial grape wine. Specific gravity of the "must" during fermentation decreased from 1.059-0.995 for rose red pawpaw and 1.005-0.990 for yellow pawpaw. The sugar content decreased from 13-3% on the 14th day of fermentation for rose red pawpaw while yellow pawpaw "must" decreased from 12.5-3%. pH drop for the yellow pawpaw "must" was 4.7-3.4 on the 14th day and 4.0-3.4 for rose red pawpaw "must". Titratable acidity of the pawpaw "must" increased from 0.16-0.32% for rose red pawpaw "must" and 0.20-0.52% for yellow pawpaw "must". Microbial analysis of the "must" during fermentation showed that yeast count increased from no growth to 3.0 × 10 6 cfu/mL for yellow pawpaw must and 4.0 × 10 6 cfu/mL for rose red pawpaw, respectively while total bacterial count decreased from 5.4 × 10 7-l.5 × 10 7 cfu/mL for yellow pawpaw must and 5.2 × 10 7-1.2 × l0 7 cfu/mL for rose red pawpaw "must". Coliform recorded no growth throughout the period of fermentation. Physicochemical analysis of the wine showed that the yellow pawpaw wine has a specific gravity of 0.999, alcohol content 8.00%, titratable acidity of 0.59%, pH of 3.5 and sugar content of 3%. The rose red pawpaw wine had sugar content of 3%, titratable acidity of 0.38%, alcohol content 7.69%, specific gravity 0.997 and pH of 3.5. Microbial analysis of the wine showed no growth of coliform and yeast while bacterial count was 1.0 × 10 6 cfu/mL for both wines. Sensory results for the pawpaw wine showed no significant (p > 0.05) difference in the clarity and overall acceptability from the commercial wine.

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Formulation, sensory evaluation, proximate composition and storage stability of cassava strips produced from the composite flour of cassava and cowpea

Dada

Barber

Ngoma

et al. 2017

Food Science & Nutrition

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The study developed an acceptable formula for the production of cassava strips (a deep fried product) using composite flour of cassava/cowpea at four different levels of cowpea substitutions (100:0, 90:10, 80:20, and 70:30). Sensory properties, proximate composition, and shelf life at ambient temperature were determined. Proximate composition, shelf life, and microbial analysis were further done on the most preferred sample (80:20) and the control (100:0). Results showed a significant difference between the tested sample and the control, except in their moisture (4.1%–4.2%) and fiber (5.0%) contents which were similar. Protein content increased from 0.9% to 2.6%, fat 24.6% to 28.5%, carbohydrate 59.7% to 61.1%, and ash 1.8% to 2.5% in both control and most preferred sample. Results showed no changes in their peroxide value (2.4 mEq/kg), moisture content (4.1%), and bacterial count of 0 × 10 2 CFU/g at ambient storage temperature for 4 weeks. The addition of cowpea flour increased the nutritional quality of the cassava strips.

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