Salt tolerance during germination and seedling growth of wild wheat Aegilops tauschii and its impact on the species range expansion

Sugiyama, Daisuke; Takumi, Shigeo; Matsuoka, Yoshihiro

doi:10.1038/srep38554

Cited by 22 publications

(11 citation statements)

References 46 publications

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“…In fact, TauL1 may represent an ecotype that prefers disturbed habitats where strong selfing (i.e., low likelihood of outcrossing) is adaptive 32 . This view is consistent with the fact that TauL1 accessions often show disturbed-habitat-related phenotypes such as high seed production ability, short vegetative growth span, and increased tolerance to abiotic stress 27 , 33 . In addition, Ae.…”

Section: Discussionsupporting

confidence: 85%

The role of reproductive isolation in allopolyploid speciation patterns: empirical insights from the progenitors of common wheat

Matsuoka

Takumi

2017

Sci Rep

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The ability to cause reproductive isolation often varies among individuals within a plant species. We addressed whether such polymorphism influenced speciation of the allopolyploid common wheat (Triticum aestivum L., AABBDD genome) by evaluating the expression of pre-pollination (outcrossing potential) and post-pollination (crossability) barriers in Aegilops tauschii Coss. (the D genome progenitor). In total, 201 Ae. tauschii accessions representing the entire natural habitat range of the species were used for anther length measurement and artificial crosses with a Triticum turgidum L. (the AB genome progenitor) tester. Intraspecific comparisons showed that both barriers were more strongly expressed in the TauL1 lineage than in the TauL2 lineage. The ability of Ae. tauschii to cause reproductive isolation in the hybridisation with T. turgidum might have markedly influenced common wheat’s speciation by inducing lineage-associated patterns of gene flow. The TauL2 accessions with high potential for natural hybridisation with T. turgidum clustered in the southern coastal Caspian region. This provided phenotypic support for the derivation of the D genome of common wheat from southern Caspian populations. The present study underscored the importance of approaches that incorporate the genealogical and geographic structure of the parental species’ reproductive isolation in understanding the mechanism of plant allopolyploid speciation.

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Section: Discussionsupporting

confidence: 85%

The role of reproductive isolation in allopolyploid speciation patterns: empirical insights from the progenitors of common wheat

Matsuoka

Takumi

2017

Sci Rep

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“…Plants may be tolerant to salt stress at one growth stage but sensitive at another, and the effects of salt tolerance at different plant growth stages are usually independent of each other [9,10]. Researchers noted that selection for salt tolerance at germination, seedling stage or early vegetative growth stage did not improve tolerance in adult plants [11,12], while in other studies, salinity stress at early seedling development stage affected plant growth at later growing stages [13] by reducing canopy stand [14], vegetative growth, grain yield and protein content [15]. Therefore, as for plant species with few studies regarding salinity tolerance such as Camelina sativa, investigating the effects of salinity stress at seedling germination stage is the first step for further research exploring effects on plant growth, vegetative development and seed yield.…”

Section: Introductionmentioning

confidence: 99%

Genome-Wide Association Study (GWAS) Analysis of Camelina Seedling Germination under Salt Stress Condition

2020

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Camelina sativa is an important renewable oilseed crop for biofuel and feedstock that can relieve the reliance on petroleum-derived oils and reduce greenhouse gases and waste solids resulting from petroleum-derived oils consumption. C. sativa has recently seen revived attention due to its high oil content, high omega-3 unsaturated fatty acids, short life cycle, broader regional adaptation, and low-input agronomic requirements. However, abiotic stress such as salinity stress has imposed threatens on plant photosynthesis and growth by reducing water availability or osmotic stress, ion (Na+ and Cl−) toxicity, nutritional disorders and oxidative stress yield. There still remains much to know for the molecular mechanisms underlying these effects. In this study, a preliminary study applying 10 C. sativa cultivars to be treated under a gradient NaCl concentrations ranging from 0–250 mM and found that 100 mM was the optimal NaCl concentration to effectively differentiate phenotypic performance among different genotypes. Then, a spring panel consisting of 211 C. sativa accessions were germinated under 100 mM NaCl concentration. Six seedling germination traits, including germination rate at two stages (5-day and 9-day seedling stages), germination index, dry and fresh weight, and dry/fresh ratio, were measured. Significant correlations were found between the germination rate at two stages as well as plant biomass traits. Combining the phenotypic data and previously obtained genotypic data, a total of 17 significant trait-associated single nucleotide polymorphisms (SNPs) for the germination rate at the two stages and dry weight were identified from genome-wide association analysis (GWAS). These SNPs are located on putative candidate genes controlling plant root development by synergistically mediating phosphate metabolism, signal transduction and cell membrane activities. These identified SNPs could provide a foundation for future molecular breeding efforts aimed at improved salt tolerance in C. sativa.

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“…The eastward dispersal could be explained by expansion of the TauL1 habitat range, which appears to be brought especially by one of the sublineages, Tau1b (TauL1b). The TauL1b accessions provide peculiar characteristics such as early heading time, high seed production ability, and salt stress tolerance during seedling growth (Matsuoka et al 2015;Saisho et al 2016). Since the early flowering accessions were found mainly in the eastern habitats, the early heading phenotype was presumed as one of the adaptive characters to the eastern habitats (Matsuoka et al 2008(Matsuoka et al , 2015.…”

Section: Introductionmentioning

confidence: 99%

Natural variation in photoperiodic flowering pathway and identification of photoperiod-insensitive accessions in wild wheat, Aegilops tauschii

et al. 2017

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The D-genome progenitor of hexaploid wheat, Aegilops tauschii Coss., has a wide natural species range in central Eurasia and possesses wide natural variation in heading and flowering time. Here, we report identification of two Ae. tauschii accessions insensitive to short day length. Similarly to a loss or reduced degree of vernalization requirement, the photoperiod-insensitive mutations were found only in the early flowering sublineage (TauL1b) of Ae. tauschii. Quantitative trait locus (QTL) analyses using two F2 mapping populations showed that a QTL for heading time on the long arm of chromosome 5D was related to the early heading phenotype of the photoperiod-insensitive accessions under short-day conditions.In the photoperiod-insensitive accession, expression patterns of two flowering-related genes were altered under short-day conditions compared with the patterns in photoperiod-sensitive accessions. This study indicates that analysis of natural variations in the Ae. tauschii population is useful to find novel genetic loci controlling agronomically important traits.

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Salt tolerance during germination and seedling growth of wild wheat Aegilops tauschii and its impact on the species range expansion

Cited by 22 publications

References 46 publications

The role of reproductive isolation in allopolyploid speciation patterns: empirical insights from the progenitors of common wheat

The role of reproductive isolation in allopolyploid speciation patterns: empirical insights from the progenitors of common wheat

Genome-Wide Association Study (GWAS) Analysis of Camelina Seedling Germination under Salt Stress Condition

Natural variation in photoperiodic flowering pathway and identification of photoperiod-insensitive accessions in wild wheat, Aegilops tauschii

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