Genotypic performance of Australian durum under single and combined water-deficit and heat stress during reproduction
In Mediterranean environments, water deficiency and heat during reproduction severely limit cereal crop production. Our research investigated the effects of single and combined pre-anthesis water-deficit stress and post-anthesis heat stress in ten Australian durum genotypes, providing a systematic e...
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| Published in | Scientific reports Vol. 9; no. 1; pp. 14986 - 17 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
London
Nature Publishing Group UK
18.10.2019
Nature Publishing Group |
| Subjects | |
| Online Access | Get full text |
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| Abstract | In Mediterranean environments, water deficiency and heat during reproduction severely limit cereal crop production. Our research investigated the effects of single and combined pre-anthesis water-deficit stress and post-anthesis heat stress in ten Australian durum genotypes, providing a systematic evaluation of stress response at the molecular, physiological, grain quality and yield level. We studied leaf physiological traits at different reproductive stages, evaluated the grain yield and quality, and the associations among them. We profiled the expression dynamics of two durum microRNAs and their protein-coding targets (auxin response factors and heat shock proteins) involved in stress adaptation. Chlorophyll content, stomatal conductance and leaf relative water content were mostly reduced under stress, however, subject to the time-point and genotype. The influence of stress on grain traits (e.g., protein content) also varied considerably among the genotypes. Significant positive correlations between the physiological traits and the yield components could be used to develop screening strategies for stress improvement in breeding. Different expression patterns of stress-responsive microRNAs and their targets in the most stress-tolerant and most stress-sensitive genotype provided some insight into the complex defense molecular networks in durum. Overall, genotypic performance observed indicates that different stress-coping strategies are deployed by varieties under various stresses. |
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| AbstractList | In Mediterranean environments, water deficiency and heat during reproduction severely limit cereal crop production. Our research investigated the effects of single and combined pre-anthesis water-deficit stress and post-anthesis heat stress in ten Australian durum genotypes, providing a systematic evaluation of stress response at the molecular, physiological, grain quality and yield level. We studied leaf physiological traits at different reproductive stages, evaluated the grain yield and quality, and the associations among them. We profiled the expression dynamics of two durum microRNAs and their protein-coding targets (auxin response factors and heat shock proteins) involved in stress adaptation. Chlorophyll content, stomatal conductance and leaf relative water content were mostly reduced under stress, however, subject to the time-point and genotype. The influence of stress on grain traits (e.g., protein content) also varied considerably among the genotypes. Significant positive correlations between the physiological traits and the yield components could be used to develop screening strategies for stress improvement in breeding. Different expression patterns of stress-responsive microRNAs and their targets in the most stress-tolerant and most stress-sensitive genotype provided some insight into the complex defense molecular networks in durum. Overall, genotypic performance observed indicates that different stress-coping strategies are deployed by varieties under various stresses. In Mediterranean environments, water deficiency and heat during reproduction severely limit cereal crop production. Our research investigated the effects of single and combined pre-anthesis water-deficit stress and post-anthesis heat stress in ten Australian durum genotypes, providing a systematic evaluation of stress response at the molecular, physiological, grain quality and yield level. We studied leaf physiological traits at different reproductive stages, evaluated the grain yield and quality, and the associations among them. We profiled the expression dynamics of two durum microRNAs and their protein-coding targets (auxin response factors and heat shock proteins) involved in stress adaptation. Chlorophyll content, stomatal conductance and leaf relative water content were mostly reduced under stress, however, subject to the time-point and genotype. The influence of stress on grain traits (e.g., protein content) also varied considerably among the genotypes. Significant positive correlations between the physiological traits and the yield components could be used to develop screening strategies for stress improvement in breeding. Different expression patterns of stress-responsive microRNAs and their targets in the most stress-tolerant and most stress-sensitive genotype provided some insight into the complex defense molecular networks in durum. Overall, genotypic performance observed indicates that different stress-coping strategies are deployed by varieties under various stresses.In Mediterranean environments, water deficiency and heat during reproduction severely limit cereal crop production. Our research investigated the effects of single and combined pre-anthesis water-deficit stress and post-anthesis heat stress in ten Australian durum genotypes, providing a systematic evaluation of stress response at the molecular, physiological, grain quality and yield level. We studied leaf physiological traits at different reproductive stages, evaluated the grain yield and quality, and the associations among them. We profiled the expression dynamics of two durum microRNAs and their protein-coding targets (auxin response factors and heat shock proteins) involved in stress adaptation. Chlorophyll content, stomatal conductance and leaf relative water content were mostly reduced under stress, however, subject to the time-point and genotype. The influence of stress on grain traits (e.g., protein content) also varied considerably among the genotypes. Significant positive correlations between the physiological traits and the yield components could be used to develop screening strategies for stress improvement in breeding. Different expression patterns of stress-responsive microRNAs and their targets in the most stress-tolerant and most stress-sensitive genotype provided some insight into the complex defense molecular networks in durum. Overall, genotypic performance observed indicates that different stress-coping strategies are deployed by varieties under various stresses. |
| ArticleNumber | 14986 |
| Author | Able, Jason A. Able, Amanda J. Liu, Haipei |
| Author_xml | – sequence: 1 givenname: Haipei surname: Liu fullname: Liu, Haipei email: haipei.liu@adelaide.edu.au organization: School of Agriculture, Food & Wine, Waite Research Institute, The University of Adelaide – sequence: 2 givenname: Amanda J. surname: Able fullname: Able, Amanda J. organization: School of Agriculture, Food & Wine, Waite Research Institute, The University of Adelaide – sequence: 3 givenname: Jason A. surname: Able fullname: Able, Jason A. organization: School of Agriculture, Food & Wine, Waite Research Institute, The University of Adelaide |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/31628402$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_3390_plants10010005 crossref_primary_10_3390_plants13182605 crossref_primary_10_3390_agronomy12071636 crossref_primary_10_1007_s40626_024_00315_6 crossref_primary_10_1134_S1064229324601513 crossref_primary_10_1016_j_ijbiomac_2024_131177 crossref_primary_10_3389_fpls_2022_895742 crossref_primary_10_15407_frg2023_02_095 crossref_primary_10_3389_fsufs_2023_1203721 crossref_primary_10_1016_j_stress_2024_100687 crossref_primary_10_3389_fpls_2022_994710 crossref_primary_10_1038_s41598_021_83074_7 crossref_primary_10_1007_s42976_023_00474_3 crossref_primary_10_1038_s41598_020_73707_8 crossref_primary_10_1016_j_envexpbot_2021_104589 crossref_primary_10_3390_plants10122599 crossref_primary_10_3390_plants12040704 crossref_primary_10_3103_S1068367423090021 |
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| Snippet | In Mediterranean environments, water deficiency and heat during reproduction severely limit cereal crop production. Our research investigated the effects of... |
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| SubjectTerms | 631/449/2661 631/449/2661/2665 Adaptation, Physiological - genetics Cereal crops Chlorophyll Chlorophyll - chemistry Combined water Conductance Crop Production Crop yield Edible Grain - genetics Genotype Genotypes Grain Heat shock proteins Heat stress Heat tolerance Heat-Shock Proteins - genetics Heat-Shock Response Humanities and Social Sciences Leaves Mediterranean environments MicroRNAs MicroRNAs - genetics miRNA multidisciplinary Physiology Plant Breeding Plant Leaves - chemistry Reproduction - genetics Science Science (multidisciplinary) Stomata Stomatal conductance Stress response Transcription Factors - genetics Triticum - genetics Water Water content |
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| Title | Genotypic performance of Australian durum under single and combined water-deficit and heat stress during reproduction |
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