Characteristics of the Underutilised Pulse Bambara Groundnut (<em>Vigna subterranea</em> (L.) <em>Verdc</em>.) Relevant to Food & Nutritional Security

Characteristics of the Underutilised Pulse Bambara Groundnut (<em>Vigna subterranea</em> (L.) <em>Verdc</em>.) Relevant to Food & Nutritional Security

Underutilised crops contribute only marginally to global food and nutritional security, despite their regional nutritional, economic, and cultural significance. Their potential to make a greater contribution is often overlooked, in part due to the scarcity of data reflecting the range of nutritional...

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Main Authors: Razlin Azman Halimi, Bronwyn J. Barkla, Sean Mayes, Graham J. King
Format: Article
Language:English
Published: MDPI AG 2019-04-01
Series:Proceedings
Subjects:
bambara groundnut
underutilised crops
nutritional security
food composition
food analysis
legume
Online Access:https://www.mdpi.com/2504-3900/36/1/199
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spelling doaj-93aeed00915143179e2b83b0eb7458f82020-11-25T02:10:45ZengMDPI AGProceedings2504-39002019-04-013619919910.3390/proceedings2019036199Characteristics of the Underutilised Pulse Bambara Groundnut (<em>Vigna subterranea</em> (L.) <em>Verdc</em>.) Relevant to Food & Nutritional SecurityRazlin Azman Halimi0Bronwyn J. Barkla1Sean Mayes2Graham J. King3Southern Cross Plant Science, Southern Cross University, Lismore, NSW 2480, AustraliaSouthern Cross Plant Science, Southern Cross University, Lismore, NSW 2480, AustraliaCrop Improvement and Production, Crops For The Future (CFF), Semenyih, Selangor Darul Ehsan 43500, MalaysiaSouthern Cross Plant Science, Southern Cross University, Lismore, NSW 2480, AustraliaUnderutilised crops contribute only marginally to global food and nutritional security, despite their regional nutritional, economic, and cultural significance. Their potential to make a greater contribution is often overlooked, in part due to the scarcity of data reflecting the range of nutritional variation. Bambara groundnut (BG; <i>Vigna subterranea</i> (L.) <i>Verdc</i>.), a pulse native to West Africa has been proposed as an exemplar underutilised crop. We analysed variation in the major nutritional components of 100 BG accessions of diverse geographical origins and compared these values with representatives of four related pulse crops. We found considerable intra-species variation for major components: 13.8–26.4% protein, 4.6–8.2% oil, 0.9–12.9% total dietary fibre, and 47.8–71.4% available carbohydrate. The range in seed protein and oil concentrations was similar to that measured in chickpea and mungbean. Linoleic (C18:2, n-6) accounted for up to 48% of total fatty acids in BG seed oil, and oleic (C18:1, n-9) up to 28%, with palmitic (C16:0) representing the other major component. Principal component analysis indicated that oleic, behenic (C22:0) and lignoceric (C24:0) acids are strongly associated with seed oil concentration. These data were obtained from material where there has been no systematic selection for enhancement of nutritional composition. The range of variation suggests that there is potential within the BG genepool to develop distinct sets of high-protein, high-oil cultivars. With the addition of more detailed genomic information, BG could benefit from similar breeding approaches that have been successfully adopted for crops such as cowpea and soybean.https://www.mdpi.com/2504-3900/36/1/199bambara groundnutunderutilised cropsnutritional securityfood compositionfood analysislegume
collection DOAJ
language English
format Article
sources DOAJ
author Razlin Azman Halimi
Bronwyn J. Barkla
Sean Mayes
Graham J. King
spellingShingle Razlin Azman Halimi
Bronwyn J. Barkla
Sean Mayes
Graham J. King
Characteristics of the Underutilised Pulse Bambara Groundnut (<em>Vigna subterranea</em> (L.) <em>Verdc</em>.) Relevant to Food & Nutritional Security
Proceedings
bambara groundnut
underutilised crops
nutritional security
food composition
food analysis
legume
author_facet Razlin Azman Halimi
Bronwyn J. Barkla
Sean Mayes
Graham J. King
author_sort Razlin Azman Halimi
title Characteristics of the Underutilised Pulse Bambara Groundnut (<em>Vigna subterranea</em> (L.) <em>Verdc</em>.) Relevant to Food & Nutritional Security
title_short Characteristics of the Underutilised Pulse Bambara Groundnut (<em>Vigna subterranea</em> (L.) <em>Verdc</em>.) Relevant to Food & Nutritional Security
title_full Characteristics of the Underutilised Pulse Bambara Groundnut (<em>Vigna subterranea</em> (L.) <em>Verdc</em>.) Relevant to Food & Nutritional Security
title_fullStr Characteristics of the Underutilised Pulse Bambara Groundnut (<em>Vigna subterranea</em> (L.) <em>Verdc</em>.) Relevant to Food & Nutritional Security
title_full_unstemmed Characteristics of the Underutilised Pulse Bambara Groundnut (<em>Vigna subterranea</em> (L.) <em>Verdc</em>.) Relevant to Food & Nutritional Security
title_sort characteristics of the underutilised pulse bambara groundnut (<em>vigna subterranea</em> (l.) <em>verdc</em>.) relevant to food & nutritional security
publisher MDPI AG
series Proceedings
issn 2504-3900
publishDate 2019-04-01
description Underutilised crops contribute only marginally to global food and nutritional security, despite their regional nutritional, economic, and cultural significance. Their potential to make a greater contribution is often overlooked, in part due to the scarcity of data reflecting the range of nutritional variation. Bambara groundnut (BG; <i>Vigna subterranea</i> (L.) <i>Verdc</i>.), a pulse native to West Africa has been proposed as an exemplar underutilised crop. We analysed variation in the major nutritional components of 100 BG accessions of diverse geographical origins and compared these values with representatives of four related pulse crops. We found considerable intra-species variation for major components: 13.8–26.4% protein, 4.6–8.2% oil, 0.9–12.9% total dietary fibre, and 47.8–71.4% available carbohydrate. The range in seed protein and oil concentrations was similar to that measured in chickpea and mungbean. Linoleic (C18:2, n-6) accounted for up to 48% of total fatty acids in BG seed oil, and oleic (C18:1, n-9) up to 28%, with palmitic (C16:0) representing the other major component. Principal component analysis indicated that oleic, behenic (C22:0) and lignoceric (C24:0) acids are strongly associated with seed oil concentration. These data were obtained from material where there has been no systematic selection for enhancement of nutritional composition. The range of variation suggests that there is potential within the BG genepool to develop distinct sets of high-protein, high-oil cultivars. With the addition of more detailed genomic information, BG could benefit from similar breeding approaches that have been successfully adopted for crops such as cowpea and soybean.
topic bambara groundnut
underutilised crops
nutritional security
food composition
food analysis
legume
url https://www.mdpi.com/2504-3900/36/1/199
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