Breeding peanut for resistance to aflatoxin contamination at ICRISAT

Breeding peanut for resistance to aflatoxin contamination at ICRISAT

Peanut plays an important role in the liveli-hoods of poor farmers and in the rural economy ofmany developing countries. Aflatoxin contamina-tion in peanut seeds, caused byAspergillus flavus,hampers international trade and adversely affectshealth of consumers of peanut and its products. Itcan occur in the field when the crop is growing,during harvesting and curing, and in storage andtransportation. Aflatoxin research on peanut atICRISAT focuses on identification and utilizationof genetic resistance to preharvest seed infectionand aflatoxin production byA. flavusand pre andpost harvest management practices to minimizecontamination. Breeding for aflatoxin resistancehas been a contentious issue in peanut for nearlyfour decades since the first report of hostresistance to aflatoxin production byA. flavus.Despite global efforts, progress in aflatoxinresistance breeding has been limited due to thelow level of resistance to different components ofresistance (preharvest seed infection and aflatoxinproduction, andin vitroseed colonization byA.flavus), their variable performance due to highG3E interaction, lack of reliable screeningprotocols, and limited understanding of geneticsof resistance. Efforts to combine the threeindependently inherited components of resistancedid not produce expected results towards improv-ing the host plant resistance to aflatoxin contam-ination. Although breeding lines have shownbetter performance for resistance to aflatoxincontamination at ICRISAT, they need widerevaluation under diverse growing conditions.The search for better sources of resistance in thecultivated and wildArachisgermplasm continues,and recent developments in the area of transgenicresearch through modification of aflatoxin bio-synthesis pathway or use of genes with antifungaland anti-aflatoxin properties appear encouraging.Meanwhile, the available improved breeding linescoupled with pre and post harvest aflatoxinmanagement practices can help to significantlyreduce aflatoxin contamination in farmers’ fields.It is expected that transgenic resistance againstfungal infection and aflatoxin production incombination with conventional breeding effortsmay lead to the development of agronomicallysuperior peanuts that are free of aflatoxincontamination.

Saved in:
Bibliographic Details
Main Authors: Nigam, S., Waliyar, F., Aruna, R., Reddy, S., Kumar, P. Lava, Craufurd, Peter Q., Diallo, A., Ntare, B.R., Upadhyaya, Hari D.
Format: Journal Article biblioteca
Language:English
Published: American Peanut Research and Education Society 2009-01-01
Subjects:groundnuts, arachis hypogaea, aspergillus flavus, preharvest seed infection, in vitro seed colonization, on-farm evaluation,
Online Access:https://hdl.handle.net/10568/90182
https://doi.org/10.3146/AT07-008.1
Tags: Add Tag
No Tags, Be the first to tag this record!
id dig-cgspace-10568-90182
record_format koha
spelling dig-cgspace-10568-901822023-12-08T19:25:22Z Breeding peanut for resistance to aflatoxin contamination at ICRISAT Nigam, S. Waliyar, F. Aruna, R. Reddy, S. Kumar, P. Lava Craufurd, Peter Q. Diallo, A. Ntare, B.R. Upadhyaya, Hari D. groundnuts arachis hypogaea aspergillus flavus preharvest seed infection in vitro seed colonization on-farm evaluation Peanut plays an important role in the liveli-hoods of poor farmers and in the rural economy ofmany developing countries. Aflatoxin contamina-tion in peanut seeds, caused byAspergillus flavus,hampers international trade and adversely affectshealth of consumers of peanut and its products. Itcan occur in the field when the crop is growing,during harvesting and curing, and in storage andtransportation. Aflatoxin research on peanut atICRISAT focuses on identification and utilizationof genetic resistance to preharvest seed infectionand aflatoxin production byA. flavusand pre andpost harvest management practices to minimizecontamination. Breeding for aflatoxin resistancehas been a contentious issue in peanut for nearlyfour decades since the first report of hostresistance to aflatoxin production byA. flavus.Despite global efforts, progress in aflatoxinresistance breeding has been limited due to thelow level of resistance to different components ofresistance (preharvest seed infection and aflatoxinproduction, andin vitroseed colonization byA.flavus), their variable performance due to highG3E interaction, lack of reliable screeningprotocols, and limited understanding of geneticsof resistance. Efforts to combine the threeindependently inherited components of resistancedid not produce expected results towards improv-ing the host plant resistance to aflatoxin contam-ination. Although breeding lines have shownbetter performance for resistance to aflatoxincontamination at ICRISAT, they need widerevaluation under diverse growing conditions.The search for better sources of resistance in thecultivated and wildArachisgermplasm continues,and recent developments in the area of transgenicresearch through modification of aflatoxin bio-synthesis pathway or use of genes with antifungaland anti-aflatoxin properties appear encouraging.Meanwhile, the available improved breeding linescoupled with pre and post harvest aflatoxinmanagement practices can help to significantlyreduce aflatoxin contamination in farmers’ fields.It is expected that transgenic resistance againstfungal infection and aflatoxin production incombination with conventional breeding effortsmay lead to the development of agronomicallysuperior peanuts that are free of aflatoxincontamination. 2009-01-01 2018-01-15T10:50:45Z 2018-01-15T10:50:45Z Journal Article Nigam, S., Waliyar, F., Aruna, R., Reddy, S., Kumar, P.L., Craufurd, P. & Upadhyaya, H. Breeding peanut for resistance to aflatoxin contamination at ICRISAT. Peanut Science, 36(1), 42-49. 0095-3679 https://hdl.handle.net/10568/90182 https://doi.org/10.3146/AT07-008.1 en Limited Access 42-49 American Peanut Research and Education Society Peanut Science
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 groundnuts
arachis hypogaea
aspergillus flavus
preharvest seed infection
in vitro seed colonization
on-farm evaluation
groundnuts
arachis hypogaea
aspergillus flavus
preharvest seed infection
in vitro seed colonization
on-farm evaluation
spellingShingle groundnuts
arachis hypogaea
aspergillus flavus
preharvest seed infection
in vitro seed colonization
on-farm evaluation
groundnuts
arachis hypogaea
aspergillus flavus
preharvest seed infection
in vitro seed colonization
on-farm evaluation
Nigam, S.
Waliyar, F.
Aruna, R.
Reddy, S.
Kumar, P. Lava
Craufurd, Peter Q.
Diallo, A.
Ntare, B.R.
Upadhyaya, Hari D.
Breeding peanut for resistance to aflatoxin contamination at ICRISAT
description Peanut plays an important role in the liveli-hoods of poor farmers and in the rural economy ofmany developing countries. Aflatoxin contamina-tion in peanut seeds, caused byAspergillus flavus,hampers international trade and adversely affectshealth of consumers of peanut and its products. Itcan occur in the field when the crop is growing,during harvesting and curing, and in storage andtransportation. Aflatoxin research on peanut atICRISAT focuses on identification and utilizationof genetic resistance to preharvest seed infectionand aflatoxin production byA. flavusand pre andpost harvest management practices to minimizecontamination. Breeding for aflatoxin resistancehas been a contentious issue in peanut for nearlyfour decades since the first report of hostresistance to aflatoxin production byA. flavus.Despite global efforts, progress in aflatoxinresistance breeding has been limited due to thelow level of resistance to different components ofresistance (preharvest seed infection and aflatoxinproduction, andin vitroseed colonization byA.flavus), their variable performance due to highG3E interaction, lack of reliable screeningprotocols, and limited understanding of geneticsof resistance. Efforts to combine the threeindependently inherited components of resistancedid not produce expected results towards improv-ing the host plant resistance to aflatoxin contam-ination. Although breeding lines have shownbetter performance for resistance to aflatoxincontamination at ICRISAT, they need widerevaluation under diverse growing conditions.The search for better sources of resistance in thecultivated and wildArachisgermplasm continues,and recent developments in the area of transgenicresearch through modification of aflatoxin bio-synthesis pathway or use of genes with antifungaland anti-aflatoxin properties appear encouraging.Meanwhile, the available improved breeding linescoupled with pre and post harvest aflatoxinmanagement practices can help to significantlyreduce aflatoxin contamination in farmers’ fields.It is expected that transgenic resistance againstfungal infection and aflatoxin production incombination with conventional breeding effortsmay lead to the development of agronomicallysuperior peanuts that are free of aflatoxincontamination.
format Journal Article
topic_facet groundnuts
arachis hypogaea
aspergillus flavus
preharvest seed infection
in vitro seed colonization
on-farm evaluation
author Nigam, S.
Waliyar, F.
Aruna, R.
Reddy, S.
Kumar, P. Lava
Craufurd, Peter Q.
Diallo, A.
Ntare, B.R.
Upadhyaya, Hari D.
author_facet Nigam, S.
Waliyar, F.
Aruna, R.
Reddy, S.
Kumar, P. Lava
Craufurd, Peter Q.
Diallo, A.
Ntare, B.R.
Upadhyaya, Hari D.
author_sort Nigam, S.
title Breeding peanut for resistance to aflatoxin contamination at ICRISAT
title_short Breeding peanut for resistance to aflatoxin contamination at ICRISAT
title_full Breeding peanut for resistance to aflatoxin contamination at ICRISAT
title_fullStr Breeding peanut for resistance to aflatoxin contamination at ICRISAT
title_full_unstemmed Breeding peanut for resistance to aflatoxin contamination at ICRISAT
title_sort breeding peanut for resistance to aflatoxin contamination at icrisat
publisher American Peanut Research and Education Society
publishDate 2009-01-01
url https://hdl.handle.net/10568/90182
https://doi.org/10.3146/AT07-008.1
work_keys_str_mv AT nigams breedingpeanutforresistancetoaflatoxincontaminationaticrisat
AT waliyarf breedingpeanutforresistancetoaflatoxincontaminationaticrisat
AT arunar breedingpeanutforresistancetoaflatoxincontaminationaticrisat
AT reddys breedingpeanutforresistancetoaflatoxincontaminationaticrisat
AT kumarplava breedingpeanutforresistancetoaflatoxincontaminationaticrisat
AT craufurdpeterq breedingpeanutforresistancetoaflatoxincontaminationaticrisat
AT dialloa breedingpeanutforresistancetoaflatoxincontaminationaticrisat
AT ntarebr breedingpeanutforresistancetoaflatoxincontaminationaticrisat
AT upadhyayaharid breedingpeanutforresistancetoaflatoxincontaminationaticrisat
_version_ 1787230198983294976

Similar Items