Resistance of flax gene pool samples to edaphic stress caused by low acidity

T. Rozhmina, A. A. Zhuchenko Jr., N. Melnikova, A. D. Smirnova
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引用次数: 3

Abstract

In conditions of vegetative trial carried out against selective backgrounds in 2017-2019 the response of 27 flax samples to a decrease in soil acidity to neutral pHKCl was studied. The scheme of the experiment was as follows: variant I (control) − pHKCl 5.3-5.5, P2O5 − 320-340 mg/kg, K2O − 81-92 mg/kg; variant II − pHKCl 6.2, P2O5 − 312-345 mg/kg, K2O − 84-98 mg/kg. It has been shown that during the «herringbone» phase in the majority of studied flax genotypes against the background of pH 6.2, the symptoms of “physiological oppression” of flax were observed: small spots developed on the upper leaves, the plants stopped growing, the stems thickened, and the tops of severely affected plants died off. As a result, at the beginning of the growing season at plant height of 7-10 cm, most of the samples were severely affected (from 69 to 100 %). The exceptions were varieties of fibre-flax Hermes (France), Vega 2 (Lithuania), Atlant (Russia) and linseed genotypes No. 3896 (Russia) and Norlin (Canada), which had a weak and medium degree of affection (8.3-45.5 %). Moreover, these genotypes showed a high level of both biological (75-90 %) and agronomic (77.3-85.6 %) resistance in the phase of "early yellow ripeness". The identified flax collection samples can be used as sources of resistance to flax «physiological oppression» caused by stressful edaphic factors in a neutral environment. On the basis of the analysis of the main elements of fiber productivity in studied flax genotypes, it has been established that against the background of pH 6.2 the reduce in plant height was from 11.4 to 52.1 % relative to the control, weight of the technical part of the stem − from 7.2 to 83.4 % , fiber mass − from 9.6 to 85.1 %. For the first time, on the basis of hybridological analysis, an assumption was done as to the pres-ence of a strong dominant gene, controlling the resistance to high soil pH values in the Hermes (France) flax variety and the linseed line No. 3896 (Russia).
亚麻基因库样本对低酸度造成的土壤胁迫的抗性
2017-2019年,在选择性背景下进行的无性系试验条件下,研究了27个亚麻样本对土壤酸度下降至中性pHKCl的反应。实验方案如下:变体 I(对照)--pHKCl 5.3-5.5,P2O5 - 320-340 mg/kg,K2O - 81-92 mg/kg;变体 II - pHKCl 6.2,P2O5 - 312-345 mg/kg,K2O - 84-98 mg/kg。研究表明,在 pH 值为 6.2 的背景下,大多数亚麻基因型在 "人字形 "阶段都会出现亚麻的 "生理抑制 "症状:上部叶片出现小斑点,植株停止生长,茎变粗,严重受害植株的顶端枯死。因此,在生长季节初期,当植株高度为 7-10 厘米时,大多数样本都受到严重影响(从 69% 到 100%)。例外的是纤维亚麻品种 Hermes(法国)、Vega 2(立陶宛)、Atlant(俄罗斯)以及亚麻籽基因型 3896 号(俄罗斯)和 Norlin(加拿大),它们的受害程度为轻度和中度(8.3%-45.5%)。此外,这些基因型在 "早黄成熟 "阶段表现出较高的生物抗性(75-90 %)和农艺抗性(77.3-85.6 %)。已鉴定的亚麻采集样本可用作中性环境下亚麻对胁迫性环境因素造成的 "生理压迫 "的抗性来源。根据对所研究亚麻基因型纤维生产率主要因素的分析,确定在 pH 值为 6.2 的背景下,植株高度比对照降低了 11.4% 至 52.1%,茎的技术部分重量降低了 7.2% 至 83.4%,纤维质量降低了 9.6% 至 85.1%。在杂交分析的基础上,首次推测在赫尔墨斯(法国)亚麻品种和第 3896 号亚麻籽品系(俄罗斯)中存在一个强显性基因,控制着对高土壤 pH 值的抗性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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