Peculiarities of the soybean gene pool under irrigation in the south of Ukraine

Genetičnì resursi roslin (Plant Genetic Resources) Pub Date : 1900-01-01 DOI:10.36814/pgr.2021.28.05

R. Vozhegova, VO Borovik V.O., V. Klubuk, T. Marchenko, YeI Piliarska

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Abstract

The study aim was to investigate the genetic diversity of plant collections under irrigation, to select valuable genotypes, basing in multi-year studies, and to use them for creating new varieties and unique information for breeders and researchers. Results and Discussion. The article presents the results of studying soybean accessions, which were introduced in 2016-2020, in the Breeding Department of the Institute of Irrigated Agriculture. Thirty-seven new soybean accessions have been studied. Using correlation analysis, we found that the plant height, the lowest pod attachment height, the productive node number on branches, the number of additional branches per plant, the pod and seed numbers per plant the most significantly and directly correlated with the performance (seed weight per plant). Reference accessions have been chosen for the following characteristics: high 1000-seed weight (B 19/622, UD0202677 (KAZ)); very short length of the “seedlings-full ripeness” period (Aktai, UKR01200 (HUN), А 9/562, UD0201408 (KAZ)); large lowest pod attachment height above the soil level (A 16/145, UD0201414; A 14/253, UD0202637 (KAZ)); high seed yield (B 46/6-, UD0201425 (KAZ)). Some varieties have been distinguished due to several economically valuable traits: very short length of the “seedlings-full ripeness” period and moderate lowest pod attachment height above the soil level; short length of the “seedlings-full ripeness” period and disease and drought resistance; large lowest pod attachment height above the soil level and resistance to diseases and drought; high yield of seeds, disease resistance and ultra early ripeness; high 1000-seed weight, disease and drought resistance; ultra early ripeness and yield. Conclusions. Enrichment of the collection with new soybean accessions, investigations and involvement of them in breeding is a way to create high-yielding soybean varieties adapted to irrigation, resistant to diseases and lodging.

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乌克兰南部灌溉下大豆基因库的特性

研究的目的是调查灌溉条件下植物的遗传多样性，在多年研究的基础上选择有价值的基因型，并利用它们来创造新品种和为育种者和研究人员提供独特的信息。结果和讨论。本文介绍了灌溉农业研究所育种处2016-2020年引进的大豆品种的研究结果。对37份大豆新材料进行了研究。通过相关分析发现，株高、最低荚果附着高度、单株生产节数、单株附加分枝数、单株荚果数和单株种子数与单株种子重的相关性最显著，且直接相关。选用的参考材料具有以下特点:千粒重高(b19 /622, UD0202677 (KAZ));“幼苗-完全成熟”期非常短(Aktai, UKR01200 (HUN)， А 9/562, UD0201408 (KAZ));大豆荚最低附着高度高于土壤水平(A 16/145, UD0201414;A 14/253, ud0202637 (kaz));高种子产量(b46 /6-， UD0201425 (KAZ))。一些品种由于具有几个经济价值的特性而被区分开来:“幼苗-完全成熟”期的长度非常短，高于土壤水平的最低荚果附着高度适中;“苗-满熟”期短，抗病抗旱能力强;高于土壤水平的最低荚果附着高度大，抗病抗旱;种子高产、抗病、超早熟;千粒重高，抗病抗旱;超早熟和产量。利用新的大豆选种，对其进行研究和参与育种，是创造适应灌溉、抗病倒伏的高产大豆品种的一条途径。

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Genetičnì resursi roslin (Plant Genetic Resources)

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