Upgrading the quality of Africa's rice: a novel artisanal parboiling technology for rice processors in sub‐Saharan Africa

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Abstract

In order to increase the quality of locally produced rice, the artisanal parboiling process in West and Central Africa was reconceptualized. A novel parboiling unit was constructed using stainless steel (Inox 304) and fitted directly on an improved stove made from fired bricks. The heat profile at different locations in the unit, the physicochemical properties, cooking properties of the parboiled rice, and the fuel efficiency of the stove were evaluated and compared with that of the traditional system. The heat flow in the new unit was from the top to the bottom while the reverse occurred in the traditional unit. The percent impurities and heat‐damaged grains, swelling and water uptake ratios, amylose content, stickiness, and cohesiveness were lower for rice produced using the improved technology ( IT) compared to the traditional technology ( TT). Whole grains (%), lightness ( L*), yellowness ( b*), cooking time, viscosity were higher for rice produced using the IT compared to the TT. Most of physicochemical and cooking properties of rice produced using the IT were not different from that of premium quality imported rice and this was achieved when steaming time was between 20–25 min. The improved stove recorded a lower time to boil water and specific fuel consumption and a higher burning rate and firepower at the hot‐start high‐power phase compared to the traditional stove. Most end users rated the IT as easy and safe to use compared to the TT. The new technology was code‐named “Grain quality enhancer, Energy‐efficient and durable Material ( GEM) parboiling technology.”

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Starchy foods and glycemic index.

Gregory D. Jenkins, T Wolever, Trisha Jenkins (1988)

Different starchy foods produce different glycemic responses when fed individually, and there is some evidence that this also applies in the context of the mixed meal. A major reason appears to relate to the rate at which the foods are digested and the factors influencing this. A similar ranking in terms of glycemic response to specific foods is seen independent of the carbohydrate tolerance status of the groups tested. Potentially clinically useful starchy foods producing relatively flat glycemic responses have been identified. Many of these are considered ethnic or traditional and include legumes; pasta; grains such as barley, parboiled rice, and bulgur (cracked wheat); and whole-grain breads such as pumpernickel. Specific incorporation of these foods into diets has been associated with reductions in low-density lipoprotein cholesterol and triglyceride levels in hyperlipidemia and with improved blood glucose control in insulin-dependent diabetic patients. To facilitate identification of such foods, it has been suggested that the glycemic response should be indexed to a standard (e.g., white bread) to allow comparisons to be made between the glycemic index of foods tested in different groups of subjects. The scope of application of this principle is subject to further investigation. It may be used to expand the range of possibly useful starchy foods for trial in the diets of diabetic patients.

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Functional properties as affected by laboratory-scale parboiling of rough rice and brown rice.

J Patindol, J. Newton, Y-J Wang (2008)

Rough rice (RR) is the conventional feedstock for parboiling. The use of brown rice (BR) instead of RR is gaining interest because it results in shorter processing time and lower energy requirement. This study compared the functional properties of milled parboiled rice under different parboiling conditions from RR and BR. Presoaked RR and BR from cultivars Bolivar, Cheniere, Dixiebelle, and Wells were parboiled under mild (20 min, 100 degrees C, 0 kPa) and severe (20 min, 120 degrees C, 98 kPa) laboratory-scale conditions. Head rice yield improved on the RR and BR samples subjected to severe parboiling and was comparable to that of a commercially parboiled sample. Mild parboiling of BR resulted in lower head rice yields. Parboiling generally resulted in decreased head rice whiteness, decreased apparent amylose, increased total lipid, and sparingly changed protein content. Under the same parboiling conditions, the extent of starch gelatinization was higher for BR compared to RR as manifested by some distinct differences in pasting and thermal properties. The cooking characteristics (water uptake ratio, leached materials, and volumetric expansion) and cooked rice texture (hardness and stickiness) of RR and BR subjected to severe parboiling were fairly comparable. Differences in parboiled rice functional properties due to cultivar effect were evident.

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Impact of browning reactions and bran pigments on color of parboiled rice.

Lieve Lamberts, Kristof Brijs, Rasty Mohamed … (2006)

Rice color changes from white to amber during parboiling (soaking and steaming). Color parameters indicated that, during soaking, yellow bran pigments leached out in the water. The levels of the Maillard precursors (i.e., reducing sugars (RS) and free alpha-amino nitrogen (FAN)) depended on soaking temperature and time: leaching of RS was compensated by enzymic formation for long soaking times (>60 min), while proteolytic activity was too low to compensate for FAN leaching. Rice soaking under nitrogen, oxygen, or ambient conditions and determination of polyphenol oxidase activity allowed us to conclude that the effect of enzymic color changes on the soaked rice color was rather small. Color measurements of brown and milled mildly, intermediately, and severely parboiled rice samples showed that both brown and milled rice samples were darker and more red and yellow after parboiling and that the effect depended on the severity of parboiling conditions. Furthermore, steaming affected the rice color more and in a way opposite to that observed in soaking. The changes in RS and the loss of FAN during parboiling suggested that Maillard type reactions occur during brown rice steaming. Analyses of furosine levels confirmed Maillard browning of outer bran layers and endosperm during steaming. The level of this Maillard indicator increased with the severity of parboiling conditions in both brown and milled parboiled rice. Measurements of the levels of bran pigments indicated that bran pigments diffuse into the endosperm during parboiling and contribute to the parboiled rice color.

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Author and article information

Journal

Journal ID (nlm-ta): Food Sci Nutr

Journal ID (iso-abbrev): Food Sci Nutr

Journal ID (doi): 10.1002/(ISSN)2048-7177

Journal ID (publisher-id): FSN3

Title: Food Science & Nutrition

Publisher: John Wiley and Sons Inc. (Hoboken )

ISSN (Electronic): 2048-7177

Publication date (Electronic): 22 May 2015

Publication date Collection: November 2015

Volume: 3

Issue: 6 ( doiID: 10.1002/fsn3.2015.3.issue-6 )

Pages: 557-568

Affiliations

[ ¹ ]AfricaRice Center 01 BP 2031 CotonouBenin

[ ² ]Institute of Agricultural Research for Development (IRAD) BP 2123 YaoundéCameroon

[ ³ ] Department of BiochemistryFaculty of Science University of Yaoundé‐I YaoundéCameroon

Author notes

[*] [* ] Correspondence

Sali Atanga Ndindeng, AfricaRice Center, 01 BP 2031, Cotonou, Benin. Tel: +22966077113 or +23777922267; Fax: +22964227809; E‐mail: S.Ndindeng@ 123456cgiar.org

Article

Publisher ID: FSN3242

DOI: 10.1002/fsn3.242

PMC ID: 4708646

PubMed ID: 26788297

SO-VID: 7aa82f76-794b-4dd4-8166-e20eaac1e1b5

License:

This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

History

Date received : 26 January 2015

Date revision received : 01 April 2015

Date accepted : 06 April 2015

Page count

Pages: 12

Funding

Funded by: Department of Foreign Affairs, Trade and Development of the Government of Canada

Award ID: A034968

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source-schema-version-number 2.0

component-id fsn3242

cover-date November 2015

details-of-publishers-convertor Converter:WILEY_ML3GV2_TO_NLMPMC version:4.7.2 mode:remove_FC converted:22.12.2015

Keywords: cooking properties,equipment efficiency,parboiling,physicochemical properties,quality,rice

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Keywords: cooking properties, equipment efficiency, parboiling, physicochemical properties, quality, rice

Upgrading the quality of Africa's rice: a novel artisanal parboiling technology for rice processors in sub‐Saharan Africa

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Most cited references 4

Starchy foods and glycemic index.

Functional properties as affected by laboratory-scale parboiling of rough rice and brown rice.

Impact of browning reactions and bran pigments on color of parboiled rice.

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