Determination of ecological plasticity and stability for female components of maize hybrids

V. Cherchel, А. V. Aldoshyn, L. М. Svinitskyi
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Abstract

Topicality. In Ukraine, a sharp manifestation of unfavorable climate elements for growing hybrid maize seeds, brought to the fore the tolerance of the female components of hybrids to environmental factors limiting the formation of potential yield. Therefore, the study and evaluation of the ecological plasticity and stability of female components are an urgent issue of the modern seed production of maize hybrids. Purpose. To determine the requirements of the female components of maize hybrids to environmental conditions. Materials and Methods. During the research, 20 female components of maize hybrids bred by the SE Institute of Grain Crops of NAAS were used. The female components were single cross sterile hybrids. The methodology of S. A. Eberhart, V. A. Russell, edited by A. Zykin and others, was used. The methodology is based on the calculation of two parameters: the linear regression coefficient bi (ecological plasticity) and the dispersion σd² (ecological stability). Results. The grain yield of the female components was determined in five years of the research. The influence of environmental conditions on the yield of female components of maize hybrids was determined. The female components were distributed according to the requirements for growing conditions. Conclusions. The most valuable, highly intensive female components include sister hybrids Kros253C, Kros256C, Kros247C and Kros238C with high environmental plasticity and stability. To realize the potential yield, they need a high agricultural background under favorable weather conditions. Female components Kros364M and Kros368M with high regression coefficient and root mean square deviation are less valuable because their high plasticity is combined with low yield stability. It is desirable to grow these female components only on a high agricultural background under favorable climatic conditions to get the maximum yield. Hybrids Kros254M, Kros255M, Kros266S, Kros277M, Kros301M, etc., have low environmental plasticity and high yield stability. These hybrids will give maximum returns for minimum costs in extensive cultivation. Keywords: female component, yield, hybrid, adaptation, regression coefficient, root mean square deviation, stability, plasticity
玉米杂交种雌性成分生态可塑性和稳定性的测定
时事性。在乌克兰,对杂交玉米种子生长不利的气候因素的明显表现,突出了杂交玉米的雌性成分对限制潜在产量形成的环境因素的耐受性。因此,研究和评价雌性组分的生态可塑性和稳定性是现代玉米杂交种生产中亟待解决的问题。目的。确定玉米杂交种雌性成分对环境条件的要求。材料与方法。本研究以中国科学院东南粮食作物研究所选育的玉米杂交种的20个雌性成分为材料。雌性成分为单交不育杂种。本文采用了S. A. Eberhart、V. A. Russell等人的方法,并由A. Zykin等人编辑。该方法基于两个参数的计算:线性回归系数bi(生态可塑性)和离散度σd²(生态稳定性)。结果。通过5年的研究,确定了雌性组分的籽粒产量。测定了环境条件对玉米杂交种雌性组分产量的影响。雌组分根据生长条件的要求进行分配。结论。最有价值的、高度密集的母组分包括姐妹杂种Kros253C、Kros256C、Kros247C和Kros238C,它们具有很高的环境可塑性和稳定性。为了实现潜在产量,他们需要在有利天气条件下的高农业背景。回归系数和均方根偏差较大的母构件Kros364M和Kros368M由于塑性高而屈服稳定性不高,因此其价值较低。只有在有利的气候条件下,在高农业背景下种植这些雌性成分才能获得最大产量。杂交品种Kros254M、Kros255M、Kros266S、Kros277M、Kros301M等环境可塑性低,产量稳定性高。这些杂交品种将在广泛种植中以最小的成本获得最大的回报。关键词:雌性成分,产量,杂交,适应性,回归系数,均方根偏差,稳定性,可塑性
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