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Fast-track approach to breeding high-iron pearl millet cultivars

OAR@ICRISAT

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Relation http://oar.icrisat.org/9749/
 
Title Fast-track approach to breeding high-iron pearl millet cultivars
 
Creator Govindaraj, M
Rai, K N
Pfeiffer, W H
Kanatti, A
 
Subject Plant Breeding
Pearl Millet
 
Description Pearl millet [Pennisetum glaucum (L.) R. Br.], is an important food and nutritional security cereal, grown on more than 28
million ha in some of the most marginal dryland environments in the arid and semi-arid tropical regions of Africa and Asia
(largely India). The International Crops Research Institute for the Semi-Arid Tropics (ICRISAT), in alliance with the
HarvestPlus, has undertaken biofortification research to develop high-iron cultivars of this crop. As a fast-track approach,
high-iron open-pollinated varieties (OPVs) and hybrid parents identified from the mainstream breeding program; which did
not include Fe density as a target trait, have been used to breed cultivars with enhanced iron (Fe) density. For instance,
exploitation of intra-population variability in ICTP 8203, a high-Fe commercial OPV in India, led to the development of its
higher-Fe version, released at All India level as Dhanashakti, which had 71 mg kg-1 Fe density (9% higher than ICTP 8203).
It also had 11% higher grain yield. Dhanashakti has now been adopted by 60,000 farmers. Intra-population improvement for
Fe density in three other OPVs has led to similar results. Two high-Fe hybrids (ICMH 1201 and ICMH 1301) were developed
by crossing high-Fe hybrid parents identified from the mainstream breeding program, which have the Fe density similar to
that of Dhanashakti but 33-38% higher grain yield. ICMH 1201 is being commercialized using Truthfully Labeled Seed by a
seed company, reaching 35,000 farmers in 2014. ICMH 1201, ICMH 1301, along with several other high-Fe hybrids, are at
advanced testing stage in the national and state trials. Further, within-line selection in the parental lines of hybrid ICMH
1201 produced sub-hybrids that had significant variability among them, with some sub-hybrids having 7-12% higher Fe
density and 4-8% higher grain yield than ICMH 1201.
 
Date 2016-08
 
Type Conference or Workshop Item
PeerReviewed
 
Format application/pdf
 
Language en
 
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Identifier http://oar.icrisat.org/9749/1/Fast-track%20approach%20to%20breeding%20high-iron%20pearl%20millet%20cultivars.pdf
Govindaraj, M and Rai, K N and Pfeiffer, W H and Kanatti, A (2016) Fast-track approach to breeding high-iron pearl millet cultivars. In: Proceedings of the 7th International Crop Science Congress, August 14 ‐ 19, 2016, Beijing, China.