Assessment of morphological and anatomical variability in Triticum species, Aegilops species, interspecific and intergeneric hybrids

Akman, Hayati

doi:10.15835/nsb13110891

Cited by 5 publications

(3 citation statements)

References 32 publications

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“…However, according to Rybalka et al (2018), it is not advisable to limit ourselves to durum wheat, so other tetra-, octa-and diploid wheat species should be included in the hybridisation system, which will allow us to obtain starting material with a wide range of reaction rates to different soil and climatic conditions and improved grain quality. H. Akman (2021) notes the prospects of involving representatives of the closely related genus Aegilops L., as well as species of distant genera -Hordeum, Secale, Agropyron, etc. in breeding programmes.…”

Section: Introductionmentioning

confidence: 99%

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2023

Scientific Horizons

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Свідоцтво про державну реєстрацію друкованого засобу масової інформації серії КВ № 24997-14937 ПР Науковий журнал включено до категорії А Переліку наукових фахових видань України, у яких можуть публікуватися результати дисертаційних робіт на здобуття наукових ступенів доктора та кандидата ветеринарних, економічних, сільськогосподарських і технічних наук зі спеціальностей: 051 -Економіка; 071 -Облік і оподаткування; 072 -Фінанси, банківська справа та страхування; 073 -Менеджмент; 075 -Маркетинг;

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Section: Introductionmentioning

confidence: 99%

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2023

Scientific Horizons

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Section: Introductionmentioning

confidence: 99%

Creation and analysis of the starting material obtained by hybridisation of Triticum spelta L. × Triticum compactum Host.

Diordiieva,

Kochmarskyi,

Riabovol

et al. 2023

Scientific Horizons

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In the conducted studies, as a result of the hybridisation of Triticum spelta L. × Triticum compactum Host. several new forms were obtained that differ in morphobiological and economically valuable traits. The research aims to expand the genetic diversity of spelt wheat and to obtain new introgressive forms with a high level of manifestation of economically valuable traits. The following methods were used: field, laboratory, hydrological analysis, and statistical analysis. As a result of the research, new source material was obtained and valuable genotypes with a unique combination of genetic material of the source species were identified. An intermediate type of inheritance of plant morphology traits (plant height, ear length and density, grain weight per ear) in F1 hybrids was established. In F2 hybrids, a split of 3:1, indicates the dominant monogenic nature of inheritance. The shape of the ear is inherited monogenically by the type of incomplete dominance. The analysis of transgressive variability in F3-4 hybrids Triticum spelta L. × Triticum compactum Host. shows that the highest proportion of positive transgressions was recorded for the number of spikelets (28.1-28.5%) and grains (23.4-51.0%) in the ear and grain weight per spikelet (20.3-32.1%). The analysis of stability and adaptability indices allowed us to distinguish line 201, characterised by high stability (S2 di=0.027), homeostasis (Hom=193.3) and breeding value (Sc=3.9), and line 206, combining high yield (5.11 t/ha) with high homeostasis (Hom=182.3) and breeding value (Sc=3.9). The introgressive hybridisation with Triticum compactum Host. identified new genetic sources characterised by the presence of deficient traits for breeding and of great practical importance for further breeding and genetic improvement of spelt, as they can enrich the existing gene pool of the crop

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“…(Mustafayev, 1973). T. turanicum and T. polonicum were characterized by the significantly highest 1000-grain weight in both rainfed and irrigated conditions, which suggests that these wheat species might have promising alleles to be transferred into durum wheat to increase grain yield (Akman H., 2021).…”

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Diversity of the Triticeae genetic resources in the Karabakh region of Azerbaijan

Mehdiyeva¹,

Eldarov²,

Sharifova³

et al. 2021

jlsb

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This paper gives an overview of the collection history for the species from the Triticeae Dum. tribe in the Karabakh region of Azerbaijan up to date of its occupation. By covering most of the Lesser Caucasus with the semi-desert and dry steppe climate, the Karabakh region of Azerbaijan has favorable conditions for grass diversity. There are 14 genera from the tribe Triticeae in Azerbaijan, of which historically the 10 genera also were found in the Karabakh region. The data in this article have been presented as a summary of information recorded in different literature sources, that would be useful for the planned monitoring of status, distribution, and preserving issues for the Triticeae species in the liberated areas.

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Assessment of morphological and anatomical variability in Triticum species, Aegilops species, interspecific and intergeneric hybrids

Cited by 5 publications

References 32 publications

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Creation and analysis of the starting material obtained by hybridisation of Triticum spelta L. × Triticum compactum Host.

Diversity of the Triticeae genetic resources in the Karabakh region of Azerbaijan

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