Variability of duration of pre - anthesis phases as a strategy for increasing wheat grain yield

Variability of duration of pre - anthesis phases as a strategy for increasing wheat grain yield

In wheat, stem elongation phase [SEP] duration is critical for grain number [GN] per unit of area determination, as it is the phase in which the spikes grow. Lengthening SEP, for instance by photoperiodic sensitivity, without altering the cycle to anthesis [AT] has been proposed as an alternative way to increase spike dry weight, and in turn GN. As most works supporting this idea have modified only SEP by artificial manipulation [e.g. photoperiod extensions], it is relevant to evaluate this hypothesis in populations segregating for this attribute in natural conditions. The aim of this work was to analyse the variability in SEP duration relative to AT in two F4 populations; in order to select contrasting phenotypes to evaluate the impact of this attribute on grain yield components and to analyse the selection response of this attribute. These segregating populations [Las Rosas INTA xTriguero 230 [A] and Klein Estrella x ProINTA B. Alazán [B]] were derived from parental lines with similar flowering time but different relative duration of their pre-anthesis phases. Two field experiments with previous vernalization treatment in cool chamber were carried out. In 2006, F4 populations were characterized and from one of them [population B, which presented higher variability] four groups were selected, which presented contrasting phenotypes in the attribute under study. Progenies of these groups [F5], together with remnant F4 full-sib of each one, were studied during 2007. Grain yield per plant was higher, due to GN increases, when duration of the SEP was lengthened. However, selection response to longer SEP with similar cycle to AT could not be found, possibly as the result of a high environmental influence on this attribute. The phenotypic variability evidenced in this attribute was not clearly associated with major adaptation genes evaluated [i.e. Ppd and/or Vrn], suggesting that other minor genes could be associated.

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Main Authors: García, Guillermo Ariel, Serrago, Román Augusto, Appendino, María Laura, Lombardo, Atilio, Vanzetti, Leonardo Sebastián, Helguera, Marcelo, Miralles, Daniel Julio
Format: Texto biblioteca
Language:eng
Subjects:DEVELOPMENT MANIPULATION, GRAIN NUMBER, SELECTION RESPONSE, STEM ELONGATION PHASE, TRITICUM AESTIVUM L., ADAPTATION, CROP YIELD, HYPOTHESIS TESTING, PHENOTYPIC PLASTICITY, PHOTOPERIOD, STEM, WHEAT, TRITICUM AESTIVUM, ,
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id KOHA-OAI-AGRO:46564
record_format koha
institution UBA FA
collection Koha
country Argentina
countrycode AR
component Bibliográfico
access En linea
En linea
databasecode cat-ceiba
tag biblioteca
region America del Sur
libraryname Biblioteca Central FAUBA
language eng
topic DEVELOPMENT MANIPULATION
GRAIN NUMBER
SELECTION RESPONSE
STEM ELONGATION PHASE
TRITICUM AESTIVUM L.
ADAPTATION
CROP YIELD
HYPOTHESIS TESTING
PHENOTYPIC PLASTICITY
PHOTOPERIOD
STEM
WHEAT
TRITICUM AESTIVUM

DEVELOPMENT MANIPULATION
GRAIN NUMBER
SELECTION RESPONSE
STEM ELONGATION PHASE
TRITICUM AESTIVUM L.
ADAPTATION
CROP YIELD
HYPOTHESIS TESTING
PHENOTYPIC PLASTICITY
PHOTOPERIOD
STEM
WHEAT
TRITICUM AESTIVUM
spellingShingle DEVELOPMENT MANIPULATION
GRAIN NUMBER
SELECTION RESPONSE
STEM ELONGATION PHASE
TRITICUM AESTIVUM L.
ADAPTATION
CROP YIELD
HYPOTHESIS TESTING
PHENOTYPIC PLASTICITY
PHOTOPERIOD
STEM
WHEAT
TRITICUM AESTIVUM

DEVELOPMENT MANIPULATION
GRAIN NUMBER
SELECTION RESPONSE
STEM ELONGATION PHASE
TRITICUM AESTIVUM L.
ADAPTATION
CROP YIELD
HYPOTHESIS TESTING
PHENOTYPIC PLASTICITY
PHOTOPERIOD
STEM
WHEAT
TRITICUM AESTIVUM
García, Guillermo Ariel
Serrago, Román Augusto
Appendino, María Laura
Lombardo, Atilio
Vanzetti, Leonardo Sebastián
Helguera, Marcelo
Miralles, Daniel Julio
Variability of duration of pre - anthesis phases as a strategy for increasing wheat grain yield
description In wheat, stem elongation phase [SEP] duration is critical for grain number [GN] per unit of area determination, as it is the phase in which the spikes grow. Lengthening SEP, for instance by photoperiodic sensitivity, without altering the cycle to anthesis [AT] has been proposed as an alternative way to increase spike dry weight, and in turn GN. As most works supporting this idea have modified only SEP by artificial manipulation [e.g. photoperiod extensions], it is relevant to evaluate this hypothesis in populations segregating for this attribute in natural conditions. The aim of this work was to analyse the variability in SEP duration relative to AT in two F4 populations; in order to select contrasting phenotypes to evaluate the impact of this attribute on grain yield components and to analyse the selection response of this attribute. These segregating populations [Las Rosas INTA xTriguero 230 [A] and Klein Estrella x ProINTA B. Alazán [B]] were derived from parental lines with similar flowering time but different relative duration of their pre-anthesis phases. Two field experiments with previous vernalization treatment in cool chamber were carried out. In 2006, F4 populations were characterized and from one of them [population B, which presented higher variability] four groups were selected, which presented contrasting phenotypes in the attribute under study. Progenies of these groups [F5], together with remnant F4 full-sib of each one, were studied during 2007. Grain yield per plant was higher, due to GN increases, when duration of the SEP was lengthened. However, selection response to longer SEP with similar cycle to AT could not be found, possibly as the result of a high environmental influence on this attribute. The phenotypic variability evidenced in this attribute was not clearly associated with major adaptation genes evaluated [i.e. Ppd and/or Vrn], suggesting that other minor genes could be associated.
format Texto
topic_facet
DEVELOPMENT MANIPULATION
GRAIN NUMBER
SELECTION RESPONSE
STEM ELONGATION PHASE
TRITICUM AESTIVUM L.
ADAPTATION
CROP YIELD
HYPOTHESIS TESTING
PHENOTYPIC PLASTICITY
PHOTOPERIOD
STEM
WHEAT
TRITICUM AESTIVUM
author García, Guillermo Ariel
Serrago, Román Augusto
Appendino, María Laura
Lombardo, Atilio
Vanzetti, Leonardo Sebastián
Helguera, Marcelo
Miralles, Daniel Julio
author_facet García, Guillermo Ariel
Serrago, Román Augusto
Appendino, María Laura
Lombardo, Atilio
Vanzetti, Leonardo Sebastián
Helguera, Marcelo
Miralles, Daniel Julio
author_sort García, Guillermo Ariel
title Variability of duration of pre - anthesis phases as a strategy for increasing wheat grain yield
title_short Variability of duration of pre - anthesis phases as a strategy for increasing wheat grain yield
title_full Variability of duration of pre - anthesis phases as a strategy for increasing wheat grain yield
title_fullStr Variability of duration of pre - anthesis phases as a strategy for increasing wheat grain yield
title_full_unstemmed Variability of duration of pre - anthesis phases as a strategy for increasing wheat grain yield
title_sort variability of duration of pre - anthesis phases as a strategy for increasing wheat grain yield
url http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46564
http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=
http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=
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spelling KOHA-OAI-AGRO:465642023-09-12T11:48:45Zhttp://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46564http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=AAGVariability of duration of pre - anthesis phases as a strategy for increasing wheat grain yieldGarcía, Guillermo ArielSerrago, Román AugustoAppendino, María LauraLombardo, AtilioVanzetti, Leonardo SebastiánHelguera, MarceloMiralles, Daniel Juliotextengapplication/pdfIn wheat, stem elongation phase [SEP] duration is critical for grain number [GN] per unit of area determination, as it is the phase in which the spikes grow. Lengthening SEP, for instance by photoperiodic sensitivity, without altering the cycle to anthesis [AT] has been proposed as an alternative way to increase spike dry weight, and in turn GN. As most works supporting this idea have modified only SEP by artificial manipulation [e.g. photoperiod extensions], it is relevant to evaluate this hypothesis in populations segregating for this attribute in natural conditions. The aim of this work was to analyse the variability in SEP duration relative to AT in two F4 populations; in order to select contrasting phenotypes to evaluate the impact of this attribute on grain yield components and to analyse the selection response of this attribute. These segregating populations [Las Rosas INTA xTriguero 230 [A] and Klein Estrella x ProINTA B. Alazán [B]] were derived from parental lines with similar flowering time but different relative duration of their pre-anthesis phases. Two field experiments with previous vernalization treatment in cool chamber were carried out. In 2006, F4 populations were characterized and from one of them [population B, which presented higher variability] four groups were selected, which presented contrasting phenotypes in the attribute under study. Progenies of these groups [F5], together with remnant F4 full-sib of each one, were studied during 2007. Grain yield per plant was higher, due to GN increases, when duration of the SEP was lengthened. However, selection response to longer SEP with similar cycle to AT could not be found, possibly as the result of a high environmental influence on this attribute. The phenotypic variability evidenced in this attribute was not clearly associated with major adaptation genes evaluated [i.e. Ppd and/or Vrn], suggesting that other minor genes could be associated.In wheat, stem elongation phase [SEP] duration is critical for grain number [GN] per unit of area determination, as it is the phase in which the spikes grow. Lengthening SEP, for instance by photoperiodic sensitivity, without altering the cycle to anthesis [AT] has been proposed as an alternative way to increase spike dry weight, and in turn GN. As most works supporting this idea have modified only SEP by artificial manipulation [e.g. photoperiod extensions], it is relevant to evaluate this hypothesis in populations segregating for this attribute in natural conditions. The aim of this work was to analyse the variability in SEP duration relative to AT in two F4 populations; in order to select contrasting phenotypes to evaluate the impact of this attribute on grain yield components and to analyse the selection response of this attribute. These segregating populations [Las Rosas INTA xTriguero 230 [A] and Klein Estrella x ProINTA B. Alazán [B]] were derived from parental lines with similar flowering time but different relative duration of their pre-anthesis phases. Two field experiments with previous vernalization treatment in cool chamber were carried out. In 2006, F4 populations were characterized and from one of them [population B, which presented higher variability] four groups were selected, which presented contrasting phenotypes in the attribute under study. Progenies of these groups [F5], together with remnant F4 full-sib of each one, were studied during 2007. Grain yield per plant was higher, due to GN increases, when duration of the SEP was lengthened. However, selection response to longer SEP with similar cycle to AT could not be found, possibly as the result of a high environmental influence on this attribute. The phenotypic variability evidenced in this attribute was not clearly associated with major adaptation genes evaluated [i.e. Ppd and/or Vrn], suggesting that other minor genes could be associated.DEVELOPMENT MANIPULATIONGRAIN NUMBERSELECTION RESPONSESTEM ELONGATION PHASETRITICUM AESTIVUM L.ADAPTATIONCROP YIELDHYPOTHESIS TESTINGPHENOTYPIC PLASTICITYPHOTOPERIODSTEMWHEATTRITICUM AESTIVUMField Crops Research

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