Effect of Ppd-1 photoperiod sensitivity genes on dry matter production and allocation in durum wheat

Effect of Ppd-1 photoperiod sensitivity genes on dry matter production and allocation in durum wheat

Understanding the effect of genetic factors controlling flowering time is essential to fine-tune phenological development and to maximize yield. Thirty-four spring durum wheat genotypes classified in five allelic combinations for Ppd-A1/Ppd-B1 loci were grown for two years at three contrasting latitudes: Mexico-North, Spain-South and Spain-North. In all them, a delay in flowering date due to the presence of photoperiod sensitivity alleles Ppd-A1b and Ppd-B1b resulted in lower yields. The number of days to flowering, determined by an increasing number of photoperiod sensitivity alleles, accounted in all sites for more than 80% of the variation in the contribution of translocation of pre-flowering assimilates to grain yield. In Mexico and Spain-North late-flowering resulted in decreased harvest index as influenced by high temperatures during grain filling. In Mexico, where grain filling occurred under high temperatures and solar radiation, translocation of pre-flowering assimilates accounted from 55 to 63% of yield, independently of the flowering date of the genotype. In Spain-North, where water was available during grain filling, current photosynthesis was the main contributor to yield (57–73%), with independence of the allelic combination at Ppd loci. In Spain-South, the relative contribution of photosynthesis and translocation depended on the allelic composition at Ppd loci, with translocation increasing by 24% in the latest-flowering genotypes compared with the earliest ones. In all sites the limiting factor for attaining high yields was the capacity of the plant canopy to photosynthesize after anthesis. This study suggests that the expression of genes Ppd-A1 and Ppd-B1 regulating the response to photoperiod modulates the physiological strategy adopted by durum wheat to fill its grains, underlining the importance of phenology fitting in maximizing grain yield.

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Main Authors: Royo, C., Ammar, K., Alfaro, C., Dreisigacker, S., Garcia del Moral, L.F., Villegas, D.
Format: Article biblioteca
Language:English
Published: Elsevier 2018
Subjects:AGRICULTURAL SCIENCES AND BIOTECHNOLOGY, Flowering Time, Dry Matter Translocation, Remobilization pf Pre-Flowering Assimilates, Yield, HARD WHEAT, PHENOLOGY, FLOWERING STAGE, DRY MATTER, HARVEST INDEX, TRANSLOCATION, YIELDS, PHOTOSYNTHESIS,
Online Access:http://hdl.handle.net/10883/19137
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spelling dig-cimmyt-10883-191372023-01-30T16:42:37Z Effect of Ppd-1 photoperiod sensitivity genes on dry matter production and allocation in durum wheat Royo, C. Ammar, K. Alfaro, C. Dreisigacker, S. Garcia del Moral, L.F. Villegas, D. AGRICULTURAL SCIENCES AND BIOTECHNOLOGY Flowering Time Dry Matter Translocation Remobilization pf Pre-Flowering Assimilates Yield HARD WHEAT PHENOLOGY FLOWERING STAGE DRY MATTER HARVEST INDEX TRANSLOCATION YIELDS PHOTOSYNTHESIS Understanding the effect of genetic factors controlling flowering time is essential to fine-tune phenological development and to maximize yield. Thirty-four spring durum wheat genotypes classified in five allelic combinations for Ppd-A1/Ppd-B1 loci were grown for two years at three contrasting latitudes: Mexico-North, Spain-South and Spain-North. In all them, a delay in flowering date due to the presence of photoperiod sensitivity alleles Ppd-A1b and Ppd-B1b resulted in lower yields. The number of days to flowering, determined by an increasing number of photoperiod sensitivity alleles, accounted in all sites for more than 80% of the variation in the contribution of translocation of pre-flowering assimilates to grain yield. In Mexico and Spain-North late-flowering resulted in decreased harvest index as influenced by high temperatures during grain filling. In Mexico, where grain filling occurred under high temperatures and solar radiation, translocation of pre-flowering assimilates accounted from 55 to 63% of yield, independently of the flowering date of the genotype. In Spain-North, where water was available during grain filling, current photosynthesis was the main contributor to yield (57–73%), with independence of the allelic combination at Ppd loci. In Spain-South, the relative contribution of photosynthesis and translocation depended on the allelic composition at Ppd loci, with translocation increasing by 24% in the latest-flowering genotypes compared with the earliest ones. In all sites the limiting factor for attaining high yields was the capacity of the plant canopy to photosynthesize after anthesis. This study suggests that the expression of genes Ppd-A1 and Ppd-B1 regulating the response to photoperiod modulates the physiological strategy adopted by durum wheat to fill its grains, underlining the importance of phenology fitting in maximizing grain yield. 358-367 2018-01-11T22:09:37Z 2018-01-11T22:09:37Z 2018 Article http://hdl.handle.net/10883/19137 10.1016/j.fcr.2017.06.005 English https://ars.els-cdn.com/content/image/1-s2.0-S0378429017303386-mmc1.xlsx CIMMYT manages Intellectual Assets as International Public Goods. The user is free to download, print, store and share this work. In case you want to translate or create any other derivative work and share or distribute such translation/derivative work, please contact CIMMYT-Knowledge-Center@cgiar.org indicating the work you want to use and the kind of use you intend; CIMMYT will contact you with the suitable license for that purpose. Open Access PDF Amsterdam, Netherlands Elsevier 221 Field Crops Research
institution CIMMYT
collection DSpace
country México
countrycode MX
component Bibliográfico
access En linea
databasecode dig-cimmyt
tag biblioteca
region America del Norte
libraryname CIMMYT Library
language English
topic AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
Flowering Time
Dry Matter Translocation
Remobilization pf Pre-Flowering Assimilates
Yield
HARD WHEAT
PHENOLOGY
FLOWERING STAGE
DRY MATTER
HARVEST INDEX
TRANSLOCATION
YIELDS
PHOTOSYNTHESIS
AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
Flowering Time
Dry Matter Translocation
Remobilization pf Pre-Flowering Assimilates
Yield
HARD WHEAT
PHENOLOGY
FLOWERING STAGE
DRY MATTER
HARVEST INDEX
TRANSLOCATION
YIELDS
PHOTOSYNTHESIS
spellingShingle AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
Flowering Time
Dry Matter Translocation
Remobilization pf Pre-Flowering Assimilates
Yield
HARD WHEAT
PHENOLOGY
FLOWERING STAGE
DRY MATTER
HARVEST INDEX
TRANSLOCATION
YIELDS
PHOTOSYNTHESIS
AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
Flowering Time
Dry Matter Translocation
Remobilization pf Pre-Flowering Assimilates
Yield
HARD WHEAT
PHENOLOGY
FLOWERING STAGE
DRY MATTER
HARVEST INDEX
TRANSLOCATION
YIELDS
PHOTOSYNTHESIS
Royo, C.
Ammar, K.
Alfaro, C.
Dreisigacker, S.
Garcia del Moral, L.F.
Villegas, D.
Effect of Ppd-1 photoperiod sensitivity genes on dry matter production and allocation in durum wheat
description Understanding the effect of genetic factors controlling flowering time is essential to fine-tune phenological development and to maximize yield. Thirty-four spring durum wheat genotypes classified in five allelic combinations for Ppd-A1/Ppd-B1 loci were grown for two years at three contrasting latitudes: Mexico-North, Spain-South and Spain-North. In all them, a delay in flowering date due to the presence of photoperiod sensitivity alleles Ppd-A1b and Ppd-B1b resulted in lower yields. The number of days to flowering, determined by an increasing number of photoperiod sensitivity alleles, accounted in all sites for more than 80% of the variation in the contribution of translocation of pre-flowering assimilates to grain yield. In Mexico and Spain-North late-flowering resulted in decreased harvest index as influenced by high temperatures during grain filling. In Mexico, where grain filling occurred under high temperatures and solar radiation, translocation of pre-flowering assimilates accounted from 55 to 63% of yield, independently of the flowering date of the genotype. In Spain-North, where water was available during grain filling, current photosynthesis was the main contributor to yield (57–73%), with independence of the allelic combination at Ppd loci. In Spain-South, the relative contribution of photosynthesis and translocation depended on the allelic composition at Ppd loci, with translocation increasing by 24% in the latest-flowering genotypes compared with the earliest ones. In all sites the limiting factor for attaining high yields was the capacity of the plant canopy to photosynthesize after anthesis. This study suggests that the expression of genes Ppd-A1 and Ppd-B1 regulating the response to photoperiod modulates the physiological strategy adopted by durum wheat to fill its grains, underlining the importance of phenology fitting in maximizing grain yield.
format Article
topic_facet AGRICULTURAL SCIENCES AND BIOTECHNOLOGY
Flowering Time
Dry Matter Translocation
Remobilization pf Pre-Flowering Assimilates
Yield
HARD WHEAT
PHENOLOGY
FLOWERING STAGE
DRY MATTER
HARVEST INDEX
TRANSLOCATION
YIELDS
PHOTOSYNTHESIS
author Royo, C.
Ammar, K.
Alfaro, C.
Dreisigacker, S.
Garcia del Moral, L.F.
Villegas, D.
author_facet Royo, C.
Ammar, K.
Alfaro, C.
Dreisigacker, S.
Garcia del Moral, L.F.
Villegas, D.
author_sort Royo, C.
title Effect of Ppd-1 photoperiod sensitivity genes on dry matter production and allocation in durum wheat
title_short Effect of Ppd-1 photoperiod sensitivity genes on dry matter production and allocation in durum wheat
title_full Effect of Ppd-1 photoperiod sensitivity genes on dry matter production and allocation in durum wheat
title_fullStr Effect of Ppd-1 photoperiod sensitivity genes on dry matter production and allocation in durum wheat
title_full_unstemmed Effect of Ppd-1 photoperiod sensitivity genes on dry matter production and allocation in durum wheat
title_sort effect of ppd-1 photoperiod sensitivity genes on dry matter production and allocation in durum wheat
publisher Elsevier
publishDate 2018
url http://hdl.handle.net/10883/19137
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