冬大麦对热旱复合胁迫的形态解剖、生理生化响应

Morpho-Anatomical, Physiological and Biochemical Adjustments in Response to Heat and Drought Co-Stress in Winter Barley.

作者信息

Jampoh Emmanuel Asante, Sáfrán Eszter, Babinyec-Czifra Dorina, Kristóf Zoltán, Krárné Péntek Barbara, Fábián Attila, Barnabás Beáta, Jäger Katalin

机构信息

Biological Resources Department, HUN-REN Centre for Agricultural Research, 2462 Martonvásár, Hungary.

Doctoral School of Horticultural Sciences, MATE Hungarian University of Agriculture and Life Sciences, 2100 Gödöllő, Hungary.

出版信息

Plants (Basel). 2023 Nov 20;12(22):3907. doi: 10.3390/plants12223907.

DOI:10.3390/plants12223907

PMID:38005804

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10674999/

Abstract

This study aimed to investigate the combined effect of high temperatures 10 °C above the optimum and water withholding during microgametogenesis on vegetative processes and determine the response of winter barley genotypes with contrasting tolerance. For this purpose, two barley varieties were analyzed to compare the effect of heat and drought co-stress on their phenology, morpho-anatomy, physiological and biochemical responses and yield constituents. Genotypic variation was observed in response to heat and drought co-stress, which was attributed to differences in anatomy, ultrastructure and physiological and metabolic processes. The co-stress-induced reduction in relative water content, total soluble protein and carbohydrate contents, photosynthetic pigment contents and photosynthetic efficiency of the sensitive Spinner variety was significantly greater than the tolerant Lambada genotype. Based on these observations, it has been concluded that the heat-and-drought stress-tolerance of the Lambada variety is related to the lower initial chlorophyll content of the leaves, the relative resistance of photosynthetic pigments towards stress-triggered degradation, retained photosynthetic parameters and better-preserved leaf ultrastructure. Understanding the key factors underlying heat and drought co-stress tolerance in barley may enable breeders to create barley varieties with improved yield stability under a changing climate.

摘要

本研究旨在调查高于最适温度10°C的高温以及小孢子发生过程中的水分亏缺对营养生长过程的综合影响，并确定具有不同耐受性的冬大麦基因型的响应。为此，分析了两个大麦品种，以比较热胁迫和干旱复合胁迫对其物候、形态解剖、生理生化响应及产量构成因素的影响。观察到基因型变异对热胁迫和干旱复合胁迫的响应，这归因于解剖结构、超微结构以及生理和代谢过程的差异。敏感品种Spinner因复合胁迫导致的相对含水量、总可溶性蛋白和碳水化合物含量、光合色素含量以及光合效率的降低显著大于耐性品种Lambada基因型。基于这些观察结果，得出结论：Lambada品种对热胁迫和干旱胁迫的耐受性与叶片较低的初始叶绿素含量、光合色素对胁迫引发降解的相对抗性、光合参数的保持以及更好保留的叶片超微结构有关。了解大麦对热胁迫和干旱复合胁迫耐受性的关键因素，可能使育种者能够培育出在气候变化下产量稳定性提高的大麦品种。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7c51/10674999/59084c9353f7/plants-12-03907-g001.jpg

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冬大麦对热旱复合胁迫的形态解剖、生理生化响应

Morpho-Anatomical, Physiological and Biochemical Adjustments in Response to Heat and Drought Co-Stress in Winter Barley.

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