Adaptive ability and stability genotypes of vegetable peas of different ripeness groups

Путина, О. В.; Besedin, Andrey

doi:10.18619/2072-9146-2020-4-45-49

Ovoŝi Rossii

2020

DOI: 10.18619/2072-9146-2020-4-45-49

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Adaptive ability and stability genotypes of vegetable peas of different ripeness groups

О. В. Путина

Andrey Besedin

Abstract: Relevance. The aim of the work is to define the adaptive ability and environmental plasticity of pea genotypes of different ripeness groups which were selected in Krymsk EBS VIR Branch in special conditions of Krasnodar region. Materials and methods.Eleven pea varieties and one pea strain were sown for studying in fields of Krymsk EBS VIR Branch in 2013-2017. The area of the plot was 10 m2. Each variety was sown three times. The recording of the harvest was made in period of industrial ripeness. The share of i… Show more

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Cited by 4 publications

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Screening of vegetable pea breeding material on rust resistance at Omsk State Agrarian University

Kuzmina,

Kazydub,

Plotnikova

et al. 2024

Ovoŝi Rossii

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Relevance. Pea rust regularly damages the vegetable pea crop in the Omsk region. The harmfulness of the disease has begun to intensify in recent years; in years favorable for the development of the disease, the damage to susceptible varieties can be 100%. Therefore, breeders are forced to constantly search for new sources of resistance genes due to the rapidly developing rust pathogens. The goal of our research is to screen samples of a vegetable pea collection under field conditions in the southern forest-steppe of Western Siberia and identify sources of resistance.Material and Methodology. As an object for study, 72 samples of vegetable peas were taken from the Federal State Budgetary Scientific Institution Federal Scientific Vegetable Center (FSBSI FSVC) and the “Federal Research Center of the All-Russian Institute of Plant Genetic Resources named after. N.I. Vavilov" (VIR). The research was conducted over four years from 2020 to 2023. in the conditions of the southern forest-steppe of the Omsk region. The records were carried out in accordance with the “Methodological instructions for studying the collection of grain legumes”.Results and Discussion. As a result of the studies, it was established that the resistance of vegetable peas to rust depends on both the genotype and weather conditions. Weather conditions had the greatest influence on the development of the disease (the factor’s share was 51.5%), the contribution of the genotype was also significant and amounted to 44.8%. The resistance of collection samples to rust in the conditions of the Omsk region varied from low (2.8 points) in warm and humid weather to very high (7.8 points) in dry and hot weather. The main influence on the spread of rust is exerted by the hydrothermal conditions of the “flowering – ripening” period (r=-0.98±0.11). Plant resistance to rust varies greatly depending on growing conditions (Cve=20.2-54.6%). The variety Darunok had the least variability of the trait over the years (Cve=20.2%), which will most consistently maintain resistance when the infectious load increases. As a result of screening of collection material of vegetable peas, sources of partial resistance to rust were identified for breeding in Western Siberia: varieties Darunok, Namorodok (Federal Scientific Vegetable Center (FSBSI FSVC)), Orel, Cruiser, Vityaz, Flagman-8, Nemchinovsky 46, B-579, In Memory of Khangildin (VIR collection).

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Screening of vegetable pea breeding material on rust resistance at Omsk State Agrarian University

Kuzmina,

Kazydub,

Plotnikova

et al. 2024

Ovoŝi Rossii

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Phenotypic traits differentiating the genetic resources of pea (<i>Pisum sativum</i> L.) by the type of use

et al. 2022

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The paper presents an analysis of the data obtained for pea accessions from the VIR collection studied at the Adler Experiment Station in the setting of the Krasnodar Territory in 2017-2019. It was for the f irst time that these accessions were studied for a set of phenotypic traits. The object of the study was a sample of 494 pea accessions originated from 43 countries and 18 regions and territories of the Russian Federation. The work was carried out in compliance with the methodological guidelines developed at VIR. Statistica 13.3 software was employed for statistical data processing. An assessment of four qualitative, 10 quantitative and four phenological traits in the accessions made it possible to differentiate them by the type of use, that is, as dry, forage and garden peas. The varieties differing in the type of use signif icantly differed by the values of such traits as stem length, number of pods per plant, number of nodes to the f irst f lower, number of f lowers in the inf lorescence, the maximum number of seeds per pod, pod length, and a narrower pod of forage pea compared to that of dry and garden peas. The average values of these traits were recorded for the peas with different types of use. The maximum difference was noted between garden and forage pea varieties. Dry pea varieties occupied an intermediate position. The complex of phenotypic traits identif ied determines the differences between three types of pea use, which is important when selecting the initial material for breeding appropriate varieties.

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Duration of the vegetation period of pea collection specimens in the Eastern Siberia

Kozhykhova

Oreshnikova

2022

Vestn. Novosib. gos. agrar. univ.

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The authors presented the results of the study of the effect of temperature regime and precipitation on the duration of the growing season and its components for the crop Pisum sativum L. These studies were analyzed on the basis of three-year experiments in the conditions of Eastern Siberia and the most early maturing samples were selected. The objects of the study were 20 collection varieties of pea sowing of Russian and foreign selection. The authors conducted studies in accordance with the methodological guidelines for the study of grain legume crops collection in 2018-2020 in the forest-steppe zone of Krasnoyarsk region, on the fields of the Krasnoyarsk Research Institute of Agriculture. The soil of the experimental plot was common black earth heavyloamy. The humus content of the arable layer was 7.8 %, the pH of the salt extract was 6.8. Over the three years of the experiment, the content of nitrate nitrogen N-NO3 in the soil at the time of sowing averaged 10.12 mg/kg, mobile phosphorus P2O5 was high 23.26 mg/100 g; potassium K2O was elevated 10.06 mg/100 g (by Chirikov method). Agronomic techniques were common for grain legume crops in the region. Clean fallow was the precursor. The work aims to determine the duration of vegetation period of pea collection samples and the influence of hydrothermal conditions on it. The tasks of the study are to determine the duration of pea growing season and its components in different heat and moisture supply years. In addition, another task of the study is to determine the variability of pea plants depending on hydrothermal conditions, as well as to identify the most early-ripening varieties. The authors identifined that the maximum duration of the growing season was characteristic of excessively moist 2020. The longest period is «flowering - ripening» (38 - 49 days), the shortest period was «sowing - sprouting» (18 - 27 days). Duration of vegetation period is characterized by medium variability (Vcf = 16.5 %). Directly proportional dependence of vegetation period duration on precipitation amount (r = 0.979) and inversely proportional on average temperature (r = - 0.982) were revealed. For all periods, the correlation in terms of temperature is negative, in terms of precipitation amount - positive, except for the period «sowing - sprouting» (r = - 0,867). The authors recommend using the Canadian selection variety Profi with a growing season of 66 days for early maturity breeding

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Adaptive ability and stability genotypes of vegetable peas of different ripeness groups

Cited by 4 publications

References 6 publications

Screening of vegetable pea breeding material on rust resistance at Omsk State Agrarian University

Screening of vegetable pea breeding material on rust resistance at Omsk State Agrarian University

Phenotypic traits differentiating the genetic resources of pea (<i>Pisum sativum</i> L.) by the type of use

Duration of the vegetation period of pea collection specimens in the Eastern Siberia

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