Soleimani, Sahel; Wichmann, Philip; Pillen, Klaus; Neumann, Kerstin; Maurer, Andreas Tillering plasticity of drought-stressed barley genotypes under different re-watering regimes Artikel In: BMC PLANT BIOLOGY, Bd. 25, Nr. 1, 2025, ISSN: 1471-2229. @article{WOS:001593332300001,
title = {Tillering plasticity of drought-stressed barley genotypes under different re-watering regimes},
author = {Sahel Soleimani and Philip Wichmann and Klaus Pillen and Kerstin Neumann and Andreas Maurer},
doi = {10.1186/s12870-025-07504-8},
issn = {1471-2229},
year = {2025},
date = {2025-10-01},
urldate = {2025-10-01},
journal = {BMC PLANT BIOLOGY},
volume = {25},
number = {1},
abstract = {Background One future challenge of agriculture will be maintaining food
security in times of climate change. Future plant breeding, therefore,
has to account for the genotypes\' survival during drought and a good
recovery ability after rainfall events. We aimed at investigating the
re-tillering behavior of selected barley genotypes (cultivars and wild
barley introgression lines) in different drought and re-watering
scenarios, which were applied in a high-throughput phenotyping facility.
Re-tillering describes the activation of additional tillers after
post-stress irrigation. Results Twenty-three selected genotypes of the
barley NAM population HEB-25, along with three control genotypes, were
evaluated in four replicates under five distinct treatment conditions.
In this experiment, re-tillering was particularly pronounced in an
alternating watering and stress treatment, where the resumption of
irrigation post-stress enabled full recovery of the plants. However, it
was noted that while re-watering after a stress period promotes tiller
activation and the development of fertile ears, it also tends to
increase the number of sterile ears. The degree of sterile ear formation
varied significantly among different genotypes, highlighting the
critical role of genetic factors in modulating plant responses to
re-tillering and post-stress irrigation. It is important to note that
excessive re-tillering has been shown to exhibit a negative correlation
with fertile ear weight. Conclusions The impact of focusing on tiller
number and re-tillering behavior in future barley breeding may be
significant, particularly in the context of climate change. By selecting
for genotypes with appropriate tillering plasticity, breeders can
develop barley varieties that are more resilient to stress conditions
such as drought.},
keywords = {Drought tolerance, Genotype, Plant Breeding, Quantitative trait},
pubstate = {published},
tppubtype = {article}
}
Background One future challenge of agriculture will be maintaining food
security in times of climate change. Future plant breeding, therefore,
has to account for the genotypes' survival during drought and a good
recovery ability after rainfall events. We aimed at investigating the
re-tillering behavior of selected barley genotypes (cultivars and wild
barley introgression lines) in different drought and re-watering
scenarios, which were applied in a high-throughput phenotyping facility.
Re-tillering describes the activation of additional tillers after
post-stress irrigation. Results Twenty-three selected genotypes of the
barley NAM population HEB-25, along with three control genotypes, were
evaluated in four replicates under five distinct treatment conditions.
In this experiment, re-tillering was particularly pronounced in an
alternating watering and stress treatment, where the resumption of
irrigation post-stress enabled full recovery of the plants. However, it
was noted that while re-watering after a stress period promotes tiller
activation and the development of fertile ears, it also tends to
increase the number of sterile ears. The degree of sterile ear formation
varied significantly among different genotypes, highlighting the
critical role of genetic factors in modulating plant responses to
re-tillering and post-stress irrigation. It is important to note that
excessive re-tillering has been shown to exhibit a negative correlation
with fertile ear weight. Conclusions The impact of focusing on tiller
number and re-tillering behavior in future barley breeding may be
significant, particularly in the context of climate change. By selecting
for genotypes with appropriate tillering plasticity, breeders can
develop barley varieties that are more resilient to stress conditions
such as drought. |
Montardit-Tarda, Francesc; Casas, Ana M.; Thomas, William T. B.; Schnaithmann, Florian; Sharma, Rajiv; Shaaf, Salar; Campoli, Chiara; Russell, Joanne; Ramsay, Luke; Bayer, Micha M.; Delbono, Stefano; Jaaskelainen, Marko; Paul, Maitry; Stoddard, Frederick L.; Visioni, Andrea; Flavell, Andrew J.; Pillen, Klaus; Kilian, Benjamin; Graner, Andreas; Rossini, Laura; Waugh, Robbie; Cattivelli, Luigi; Schulman, Alan H.; Tondelli, Alessandro; Igartua, Ernesto New loci and candidate genes in spring two-rowed barley detected through meta-analysis of a field trial European network Artikel In: THEORETICAL AND APPLIED GENETICS, Bd. 138, Nr. 7, 2025, ISSN: 0040-5752. @article{WOS:001513545300001,
title = {New loci and candidate genes in spring two-rowed barley detected through meta-analysis of a field trial European network},
author = {Francesc Montardit-Tarda and Ana M. Casas and William T. B. Thomas and Florian Schnaithmann and Rajiv Sharma and Salar Shaaf and Chiara Campoli and Joanne Russell and Luke Ramsay and Micha M. Bayer and Stefano Delbono and Marko Jaaskelainen and Maitry Paul and Frederick L. Stoddard and Andrea Visioni and Andrew J. Flavell and Klaus Pillen and Benjamin Kilian and Andreas Graner and Laura Rossini and Robbie Waugh and Luigi Cattivelli and Alan H. Schulman and Alessandro Tondelli and Ernesto Igartua},
doi = {10.1007/s00122-025-04934-8},
issn = {0040-5752},
year = {2025},
date = {2025-07-01},
urldate = {2025-07-01},
journal = {THEORETICAL AND APPLIED GENETICS},
volume = {138},
number = {7},
abstract = {Key messageA dense genome-wide meta-analysis provides new QTLs, reveals
breeding history trends and identifies new candidate genes for yield,
plant height, grain weight, and heading time of spring
barley.AbstractThis study contributes new knowledge on quantitative
trait loci (QTLs) and candidate genes for adaptive traits and yield in
two-rowed spring barley. A meta-analysis of a network of field trials,
varying in latitude and sowing date, with 151 cultivars across several
European countries, increased QTL detection power compared to
single-trial analyses. The traits analysed were heading date (HD), plant
height (PH), thousand-grain weight (TGW), and grain yield (GY). Breaking
down the analysis by the main genotype-by-environment trends revealed
QTLs and candidate genes specific to conditions like sowing date and
latitude. A historical look on the evolution of QTL frequencies revealed
that early selection focused on PH and TGW, likely due to their high
heritability. GY selection occurred later, facilitated by reduced
variance in other traits. The study observed that favourable alleles for
plant height were often fixed before those for grain yield and TGW. Some
regions showed linkage in repulsion, suggesting targets for future
breeding. Several candidate genes were identified, including known genes
and new candidates based on orthology with rice. Remarkably, the
deficiens allele of gene Vrs1 appears associated with higher GY. These
findings provide valuable insights for barley breeders aiming to improve
yield and other agronomic traits.},
keywords = {Agricultural Genetics, Drought tolerance, Genotype, Plant Breeding, Quantitative trait},
pubstate = {published},
tppubtype = {article}
}
Key messageA dense genome-wide meta-analysis provides new QTLs, reveals
breeding history trends and identifies new candidate genes for yield,
plant height, grain weight, and heading time of spring
barley.AbstractThis study contributes new knowledge on quantitative
trait loci (QTLs) and candidate genes for adaptive traits and yield in
two-rowed spring barley. A meta-analysis of a network of field trials,
varying in latitude and sowing date, with 151 cultivars across several
European countries, increased QTL detection power compared to
single-trial analyses. The traits analysed were heading date (HD), plant
height (PH), thousand-grain weight (TGW), and grain yield (GY). Breaking
down the analysis by the main genotype-by-environment trends revealed
QTLs and candidate genes specific to conditions like sowing date and
latitude. A historical look on the evolution of QTL frequencies revealed
that early selection focused on PH and TGW, likely due to their high
heritability. GY selection occurred later, facilitated by reduced
variance in other traits. The study observed that favourable alleles for
plant height were often fixed before those for grain yield and TGW. Some
regions showed linkage in repulsion, suggesting targets for future
breeding. Several candidate genes were identified, including known genes
and new candidates based on orthology with rice. Remarkably, the
deficiens allele of gene Vrs1 appears associated with higher GY. These
findings provide valuable insights for barley breeders aiming to improve
yield and other agronomic traits. |
