ADAPTIVENESS OF PRODUCTIVITY AND PHOTOSYNTHESIS IN BUCKWHEAT (Fagopyrum esculentum Moench) LANDRACES AND VARIETIES PRODUCED AT DIFFERENT PERIODS

Амелин, А. В.; Фесенко, А Н; Chekalin, Evgeny; Заикин, В В

doi:10.15389/agrobiology.2016.1.79eng

Cited by 2 publications

(1 citation statement)

References 7 publications

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“…According to the results of vegetation experiments carried out in 2022, during the selection period from local populations to modern cultivars the chlorophyll fluorescence quantum yield, electron transport chain activity, intensity of photosynthesis and transpiration of leaves increased in buckwheat plants in a phase "flowering + 10 days" on average by 6.5 %, 4.2 %, 22.4 %, and 20 %, respectively (Figure 1). However, under extreme weather conditions, the advantages of modern varieties in the physiological activity of plant leaves are leveled, since as a result of breeding in buckwheat plants there is a pronounced tendency to reduce the stability not only of productivity, but also of photosynthetic process [9]. Under conditions of growing experiment, with a decrease in soil moisture content from 70 to 30% of full moisture capacity, the values of quantum yield and electron transport circuit decreased in modern cultivars by an average of 52.5% and 53.7%, respectively.…”

Section: Resultsmentioning

confidence: 99%

Effect of moisture on photosynthesis and transpiration of buckwheat leaves

et al. 2023

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Currently, the issue of developing adaptive varieties of crops based on evolutionary principles is becoming urgent. The need to develop adaptive varieties for Russia is determined by the contrast of its natural and climatic conditions, global climate changes, and the increasing unpredictability of the weather. This task is highly relevant to the valuable food crop buckwheat, the yields of which are still low due to insufficient resistance of modern varieties to extreme environmental factors. Vegetation experiments to study the genotypic reaction of light and dark phases of photosynthesis of leaves on changes in soil moisture availability were carried out. During the period of buckwheat breeding from local samples to modern varieties the plants showed a significant trend in increasing the activity of photosynthesis and transpiration of plant leaves with a certain decrease in their resistance to moisture limitation. It was established that a decrease of soil moisture content from 70 to 30% of total moisture capacity caused, in modern cultivars, a mean decrease of fluorescence quantum yield by 52.5%, of electron-transport chain activity by 53.7%, of photosynthesis intensity by 66.5%, of transpiration intensity by 82.1%, whereas in local cultivars it decreased by 40.0%, 52.1%, 51.0%, and 76.1%, respectively.

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Section: Resultsmentioning

confidence: 99%

Effect of moisture on photosynthesis and transpiration of buckwheat leaves

et al. 2023

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Mitochondrial Genome of Fagopyrum esculentum and the Genetic Diversity of Extranuclear Genomes in Buckwheat

Logacheva

Schelkunov

Фесенко

et al. 2020

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Fagopyrum esculentum (common buckwheat) is an important agricultural non-cereal grain plant. Despite extensive genetic studies, the information on its mitochondrial genome is still lacking. Using long reads generated by single-molecule real-time technology coupled with circular consensus sequencing (CCS) protocol, we assembled the buckwheat mitochondrial genome and detected that its prevalent form consists of 10 circular chromosomes with a total length of 404 Kb. In order to confirm the presence of a multipartite structure, we developed a new targeted assembly tool capable of processing long reads. The mitogenome contains all genes typical for plant mitochondrial genomes and long inserts of plastid origin (~6.4% of the total mitogenome length). Using this new information, we characterized the genetic diversity of mitochondrial and plastid genomes in 11 buckwheat cultivars compared with the ancestral subspecies, F. esculentum ssp. ancestrale. We found it to be surprisingly low within cultivars: Only three to six variations in the mitogenome and one to two in the plastid genome. In contrast, the divergence with F. esculentum ssp. ancestrale is much higher: 220 positions differ in the mitochondrial genome and 159 in the plastid genome. The SNPs in the plastid genome are enriched in non-synonymous substitutions, in particular in the genes involved in photosynthesis: psbA, psbC, and psbH. This presumably reflects the selection for the increased photosynthesis efficiency as a part of the buckwheat breeding program.

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ADAPTIVENESS OF PRODUCTIVITY AND PHOTOSYNTHESIS IN BUCKWHEAT (Fagopyrum esculentum Moench) LANDRACES AND VARIETIES PRODUCED AT DIFFERENT PERIODS

Cited by 2 publications

References 7 publications

Effect of moisture on photosynthesis and transpiration of buckwheat leaves

Effect of moisture on photosynthesis and transpiration of buckwheat leaves

Mitochondrial Genome of Fagopyrum esculentum and the Genetic Diversity of Extranuclear Genomes in Buckwheat

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