TY - JOUR
T1 - Stem traits promote wheat climate-resilience
AU - Ntawuguranayo, Simeon
AU - Zilberberg, Michael
AU - Nashef, Kamal
AU - Bonfil, David J.
AU - Bainsla, Naresh Kumar
AU - Piñera-Chavez, Francisco J.
AU - Reynolds, Matthew Paul
AU - Peleg, Zvi
AU - Ben-David, Roi
N1 - Publisher Copyright:
Copyright © 2024 Ntawuguranayo, Zilberberg, Nashef, Bonfil, Bainsla, Piñera-Chavez, Reynolds, Peleg and Ben-David.
PY - 2024
Y1 - 2024
N2 - Introduction: Wheat grain filling processes under post-anthesis stress scenarios depend mainly on stem traits and remobilization of stem water-soluble carbohydrates (WSC). Methods: A diverse panel of advanced semi-dwarf spring wheat lines, representing a natural variation in stem traits (WSC content, stem diameter, peduncle length, and stem wall width), was used to identify specific traits that reliably reflect the relationship between WSC and grain yield. The panel was phenotyped under various environmental conditions: well-watered, water-limited, and heat stress in Mexico, and terminal-drought in Israel. Results: Environmental stresses reduced grain yield (from 626 g m−2 under well-watered to 213 g m−2 under heat), lower internode diameter, and peduncle length. However, stem-WSC generally peaked 3-4 weeks after heading under all environmental conditions except heat (where it peaked earlier) and expressed the highest values under water-limited and terminal-drought environments. Increased investment in internode diameter and peduncle length was associated with a higher accumulation of stem WSC, which showed a positive association with yield and kernel weight. Across all environments, there were no apparent trade-offs between increased crop investment in internode diameter, peduncle length, and grain yield. Discussion: Our results showed that selecting for genotypes with higher resource investment in stem structural biomass, WSC accumulation, and remobilization could be a valuable strategy to ameliorate grain size reduction under stress without compromising grain yield potential. Furthermore, easy-to-measure proxies for WSC (stem diameter at specific internodes and length of the last internode, i.e., the peduncle) could significantly increase throughput, potentially at the breeding scale.
AB - Introduction: Wheat grain filling processes under post-anthesis stress scenarios depend mainly on stem traits and remobilization of stem water-soluble carbohydrates (WSC). Methods: A diverse panel of advanced semi-dwarf spring wheat lines, representing a natural variation in stem traits (WSC content, stem diameter, peduncle length, and stem wall width), was used to identify specific traits that reliably reflect the relationship between WSC and grain yield. The panel was phenotyped under various environmental conditions: well-watered, water-limited, and heat stress in Mexico, and terminal-drought in Israel. Results: Environmental stresses reduced grain yield (from 626 g m−2 under well-watered to 213 g m−2 under heat), lower internode diameter, and peduncle length. However, stem-WSC generally peaked 3-4 weeks after heading under all environmental conditions except heat (where it peaked earlier) and expressed the highest values under water-limited and terminal-drought environments. Increased investment in internode diameter and peduncle length was associated with a higher accumulation of stem WSC, which showed a positive association with yield and kernel weight. Across all environments, there were no apparent trade-offs between increased crop investment in internode diameter, peduncle length, and grain yield. Discussion: Our results showed that selecting for genotypes with higher resource investment in stem structural biomass, WSC accumulation, and remobilization could be a valuable strategy to ameliorate grain size reduction under stress without compromising grain yield potential. Furthermore, easy-to-measure proxies for WSC (stem diameter at specific internodes and length of the last internode, i.e., the peduncle) could significantly increase throughput, potentially at the breeding scale.
KW - grain filling
KW - peduncle length
KW - stem diameter
KW - stem solidness
KW - water-soluble carbohydrates
KW - wheat breeding
UR - http://www.scopus.com/inward/record.url?scp=85200720507&partnerID=8YFLogxK
U2 - 10.3389/fpls.2024.1388881
DO - 10.3389/fpls.2024.1388881
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C2 - 39119506
AN - SCOPUS:85200720507
SN - 1664-462X
VL - 15
JO - Frontiers in Plant Science
JF - Frontiers in Plant Science
M1 - 1388881
ER -