Screening genetic resources of Capsicum peppers in their primary centre of diversity in Bolivia and Peru
For most crops, like Capsicum, their diversity remains under-researched for traits of interest for food, nutrition and other purposes. A small investment in screening this diversity for a wide range of traits is likely to reveal many traditional varieties with distinguished values. One objective of this study was to demonstrate, with Capsicum as model crop, the application of indicators of phenotypic and geographic diversity as effective criteria for selecting promising genebank accessions for multiple uses from crop centers of diversity. A second objective was to evaluate the expression of biochemical and agromorphological properties of the selected Capsicum accessions in different conditions. Four steps were involved: 1) Develop the necessary diversity by expanding genebank collections in Bolivia and Peru; 2) Establish representative subsets of ~100 accessions for biochemical screening of Capsicum fruits; 3) Select promising accessions for different uses after screening; and 4) Examine how these promising accessions express biochemical and agromorphological properties when grown in different environmental conditions. The Peruvian Capsicum collection now contains 712 accessions encompassing all five domesticated species (C. annuum, C. chinense, C. frutescens, C. baccatum, and C. pubescens). The collection in Bolivia now contains 487 accessions, representing all five domesticates plus four wild taxa (C. baccatum var. baccatum, C. caballeroi, C. cardenasii, and C. eximium). Following the biochemical screening, 44 Bolivian and 39 Peruvian accessions were selected as promising, representing wide variation in levels of antioxidant capacity, capsaicinoids, fat, flavonoids, polyphenols, quercetins, tocopherols, and color. In Peru, 23 promising accessions performed well in different environments, while each of the promising Bolivian accessions only performed well in a certain environment. Differences in Capsicum diversity and local contexts led to distinct outcomes in each country. In Peru, mild landraces with high values in health-related attributes were of interest to entrepreneurs. In Bolivia, wild Capsicum have high commercial demand.
Main Authors: | , , , , , , , , , , , , |
---|---|
Format: | Journal Article biblioteca |
Language: | English |
Published: |
Public Library of Science
2015
|
Subjects: | capsicum, crops, biodiversity, geographical distribution, indicators, gene banks, morphology, genetic markers, |
Online Access: | https://hdl.handle.net/10568/69456 http://www.plosone.org/article/fetchObject.action?uri=info:doi/10.1371/journal.pone.0134663&representation=PDF https://doi.org/10.1371/journal.pone.0134663 |
Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
id |
dig-cgspace-10568-69456 |
---|---|
record_format |
koha |
spelling |
dig-cgspace-10568-694562023-12-08T19:36:04Z Screening genetic resources of Capsicum peppers in their primary centre of diversity in Bolivia and Peru Zonneveld, M. van Ramírez, M. Williams, D.E. Petz, M. Meckelmann, S. Avila, T. Bejarano, C. Ríos, L. Pena, K. Jager, M. Libreros, D. Amaya, K. Scheldeman, Xavier capsicum crops biodiversity geographical distribution indicators gene banks morphology genetic markers For most crops, like Capsicum, their diversity remains under-researched for traits of interest for food, nutrition and other purposes. A small investment in screening this diversity for a wide range of traits is likely to reveal many traditional varieties with distinguished values. One objective of this study was to demonstrate, with Capsicum as model crop, the application of indicators of phenotypic and geographic diversity as effective criteria for selecting promising genebank accessions for multiple uses from crop centers of diversity. A second objective was to evaluate the expression of biochemical and agromorphological properties of the selected Capsicum accessions in different conditions. Four steps were involved: 1) Develop the necessary diversity by expanding genebank collections in Bolivia and Peru; 2) Establish representative subsets of ~100 accessions for biochemical screening of Capsicum fruits; 3) Select promising accessions for different uses after screening; and 4) Examine how these promising accessions express biochemical and agromorphological properties when grown in different environmental conditions. The Peruvian Capsicum collection now contains 712 accessions encompassing all five domesticated species (C. annuum, C. chinense, C. frutescens, C. baccatum, and C. pubescens). The collection in Bolivia now contains 487 accessions, representing all five domesticates plus four wild taxa (C. baccatum var. baccatum, C. caballeroi, C. cardenasii, and C. eximium). Following the biochemical screening, 44 Bolivian and 39 Peruvian accessions were selected as promising, representing wide variation in levels of antioxidant capacity, capsaicinoids, fat, flavonoids, polyphenols, quercetins, tocopherols, and color. In Peru, 23 promising accessions performed well in different environments, while each of the promising Bolivian accessions only performed well in a certain environment. Differences in Capsicum diversity and local contexts led to distinct outcomes in each country. In Peru, mild landraces with high values in health-related attributes were of interest to entrepreneurs. In Bolivia, wild Capsicum have high commercial demand. 2015 2016-01-04T10:38:11Z 2016-01-04T10:38:11Z Journal Article van Zonneveld, M.; Ramirez, M.; Williams, D.E.; Petz, M.; Meckelmann, S.; Avila, T.; Bejarano, C.; Rios, L.; Pena, K.; Jager, M.; Libreros, D.; Amaya, K.; Scheldeman, X. (2015) Screening genetic resources of Capsicum peppers in their primary centre of diversity in Bolivia and Peru. PLOS ONE 10(9) e0134663 ISSN: 1932-6203 1932-6203 https://hdl.handle.net/10568/69456 http://www.plosone.org/article/fetchObject.action?uri=info:doi/10.1371/journal.pone.0134663&representation=PDF https://doi.org/10.1371/journal.pone.0134663 en CC-BY-4.0 Open Access e0134663 application/pdf Public Library of Science PLOS ONE |
institution |
CGIAR |
collection |
DSpace |
country |
Francia |
countrycode |
FR |
component |
Bibliográfico |
access |
En linea |
databasecode |
dig-cgspace |
tag |
biblioteca |
region |
Europa del Oeste |
libraryname |
Biblioteca del CGIAR |
language |
English |
topic |
capsicum crops biodiversity geographical distribution indicators gene banks morphology genetic markers capsicum crops biodiversity geographical distribution indicators gene banks morphology genetic markers |
spellingShingle |
capsicum crops biodiversity geographical distribution indicators gene banks morphology genetic markers capsicum crops biodiversity geographical distribution indicators gene banks morphology genetic markers Zonneveld, M. van Ramírez, M. Williams, D.E. Petz, M. Meckelmann, S. Avila, T. Bejarano, C. Ríos, L. Pena, K. Jager, M. Libreros, D. Amaya, K. Scheldeman, Xavier Screening genetic resources of Capsicum peppers in their primary centre of diversity in Bolivia and Peru |
description |
For most crops, like Capsicum, their diversity remains under-researched for traits of interest for food, nutrition and other purposes. A small investment in screening this diversity for a wide range of traits is likely to reveal many traditional varieties with distinguished values. One objective of this study was to demonstrate, with Capsicum as model crop, the application of indicators of phenotypic and geographic diversity as effective criteria for selecting promising genebank accessions for multiple uses from crop centers of diversity. A second objective was to evaluate the expression of biochemical and agromorphological properties of the selected Capsicum accessions in different conditions. Four steps were involved:
1) Develop the necessary diversity by expanding genebank collections in Bolivia and Peru;
2) Establish representative subsets of ~100 accessions for biochemical screening of Capsicum fruits;
3) Select promising accessions for different uses after screening; and
4) Examine how these promising accessions express biochemical and agromorphological properties when grown in different environmental conditions.
The Peruvian Capsicum collection now contains 712 accessions encompassing all five domesticated species (C. annuum, C. chinense, C. frutescens, C. baccatum, and C. pubescens). The collection in Bolivia now contains 487 accessions, representing all five domesticates plus four wild taxa (C. baccatum var. baccatum, C. caballeroi, C. cardenasii, and C. eximium). Following the biochemical screening, 44 Bolivian and 39 Peruvian accessions were selected as promising, representing wide variation in levels of antioxidant capacity, capsaicinoids, fat, flavonoids, polyphenols, quercetins, tocopherols, and color. In Peru, 23 promising accessions performed well in different environments, while each of the promising Bolivian accessions only performed well in a certain environment. Differences in Capsicum diversity and local contexts led to distinct outcomes in each country. In Peru, mild landraces with high values in health-related attributes were of interest to entrepreneurs. In Bolivia, wild Capsicum have high commercial demand. |
format |
Journal Article |
topic_facet |
capsicum crops biodiversity geographical distribution indicators gene banks morphology genetic markers |
author |
Zonneveld, M. van Ramírez, M. Williams, D.E. Petz, M. Meckelmann, S. Avila, T. Bejarano, C. Ríos, L. Pena, K. Jager, M. Libreros, D. Amaya, K. Scheldeman, Xavier |
author_facet |
Zonneveld, M. van Ramírez, M. Williams, D.E. Petz, M. Meckelmann, S. Avila, T. Bejarano, C. Ríos, L. Pena, K. Jager, M. Libreros, D. Amaya, K. Scheldeman, Xavier |
author_sort |
Zonneveld, M. van |
title |
Screening genetic resources of Capsicum peppers in their primary centre of diversity in Bolivia and Peru |
title_short |
Screening genetic resources of Capsicum peppers in their primary centre of diversity in Bolivia and Peru |
title_full |
Screening genetic resources of Capsicum peppers in their primary centre of diversity in Bolivia and Peru |
title_fullStr |
Screening genetic resources of Capsicum peppers in their primary centre of diversity in Bolivia and Peru |
title_full_unstemmed |
Screening genetic resources of Capsicum peppers in their primary centre of diversity in Bolivia and Peru |
title_sort |
screening genetic resources of capsicum peppers in their primary centre of diversity in bolivia and peru |
publisher |
Public Library of Science |
publishDate |
2015 |
url |
https://hdl.handle.net/10568/69456 http://www.plosone.org/article/fetchObject.action?uri=info:doi/10.1371/journal.pone.0134663&representation=PDF https://doi.org/10.1371/journal.pone.0134663 |
work_keys_str_mv |
AT zonneveldmvan screeninggeneticresourcesofcapsicumpeppersintheirprimarycentreofdiversityinboliviaandperu AT ramirezm screeninggeneticresourcesofcapsicumpeppersintheirprimarycentreofdiversityinboliviaandperu AT williamsde screeninggeneticresourcesofcapsicumpeppersintheirprimarycentreofdiversityinboliviaandperu AT petzm screeninggeneticresourcesofcapsicumpeppersintheirprimarycentreofdiversityinboliviaandperu AT meckelmanns screeninggeneticresourcesofcapsicumpeppersintheirprimarycentreofdiversityinboliviaandperu AT avilat screeninggeneticresourcesofcapsicumpeppersintheirprimarycentreofdiversityinboliviaandperu AT bejaranoc screeninggeneticresourcesofcapsicumpeppersintheirprimarycentreofdiversityinboliviaandperu AT riosl screeninggeneticresourcesofcapsicumpeppersintheirprimarycentreofdiversityinboliviaandperu AT penak screeninggeneticresourcesofcapsicumpeppersintheirprimarycentreofdiversityinboliviaandperu AT jagerm screeninggeneticresourcesofcapsicumpeppersintheirprimarycentreofdiversityinboliviaandperu AT librerosd screeninggeneticresourcesofcapsicumpeppersintheirprimarycentreofdiversityinboliviaandperu AT amayak screeninggeneticresourcesofcapsicumpeppersintheirprimarycentreofdiversityinboliviaandperu AT scheldemanxavier screeninggeneticresourcesofcapsicumpeppersintheirprimarycentreofdiversityinboliviaandperu |
_version_ |
1787227962340278272 |