Unknown

Dataset Information

0

Post-Anthesis Water-stressed Barley Maintains Grain Specific Weight Through Altered Grain Composition and Plant Architecture.

ABSTRACT: Specific weight (SW) is a long-established measure used as a malting quality specification in barley, with an increased SW thought to result in a higher malt output. Specific weight is a product of individual grain density as determined by grain composition and structure, and grain packing efficiency in a container as determined by grain dimensions. We investigated the effect of moderate but prolonged post-anthesis water stress on barley plant and grain development using pots of cultivars with a known range of SWs to explore how altering plant growth influence SW. Water stress was expected to influence these grain characteristics through decreased photosynthetic capacity. We demonstrated that SW was maintained under water stress conditions through compensatory mechanisms such as increased tiller mortality which preserved grain physical parameters on the main shoots. However, water stress significantly affected plant development by reducing not only ear number and yield, but also grain filling duration, plant biomass and ear length. Grain composition was also altered, with water-stressed plants having reduced carbon:nitrogen. Therefore, although SW can be conserved under water-stressed conditions, grain composition and plant development are altered, producing smaller harvests with higher grain nitrogen content. This would result in bulks of malting barley having different malt outputs despite having the same SW.

SUBMITTER: Hoyle A 

PROVIDER: S-EPMC7698198 | biostudies-literature | 2020 Nov

REPOSITORIES: biostudies-literature

Json Xml
altmetric image

Publications

Post-Anthesis Water-stressed Barley Maintains Grain Specific Weight Through Altered Grain Composition and Plant Architecture.

Hoyle Aaron A   Brennan Maree M   Rees Logan L   Jackson Gail E GE   Hoad Stephen P SP  

Plants (Basel, Switzerland) 20201113 11

Specific weight (SW) is a long-established measure used as a malting quality specification in barley, with an increased SW thought to result in a higher malt output. Specific weight is a product of individual grain density as determined by grain composition and structure, and grain packing efficiency in a container as determined by grain dimensions. We investigated the effect of moderate but prolonged post-anthesis water stress on barley plant and grain development using pots of cultivars with a  ...[more]

Similar Datasets

Unknown High post-anthesis temperature effects on bread wheat (Triticum aestivum L.) grain transcriptome during early grain-filling.
| S-EPMC7164299 | biostudies-literature
Transcriptomics Tissue layers from developing wheat grain at 12 days post-anthesis
2015-04-24 | E-MTAB-3103 | biostudies-arrayexpress
Unknown Mapping dynamic QTL dissects the genetic architecture of grain size and grain filling rate at different grain-filling stages in barley.
| S-EPMC6906516 | biostudies-literature
Unknown Meta-analyses of QTL for grain yield and anthesis silking interval in 18 maize populations evaluated under water-stressed and well-watered environments.
| S-EPMC3751468 | biostudies-literature
Proteomics Environment and its impact on barley grain composition
2023-02-07 | PXD020324 | Pride
Unknown Differential effects of a post-anthesis heat stress on wheat (Triticum aestivum L.) grain proteome determined by iTRAQ.
| S-EPMC5471245 | biostudies-literature
Unknown Proper Glyphosate Application at Post-anthesis Lowers Grain Moisture Content at Harvest and Reallocates Non-structural Carbohydrates in Maize.
| S-EPMC7758537 | biostudies-literature
Metabolomics Environmental impacts on barley grain composition and longevity
2023-03-07 | MTBLS5778 | MetaboLights
Unknown Winter Night-Warming Improves Post-anthesis Physiological Activities and Sink Strength in Relation to Grain Filling in Winter Wheat (Triticum aestivum L.).
| S-EPMC5469006 | biostudies-literature
Unknown Increasing abscisic acid levels by immunomodulation in barley grains induces precocious maturation without changing grain composition.
| S-EPMC4861016 | biostudies-literature