Beáta Barnabás scite author profile

As the result of intensive research and breeding efforts over the last 20 years, the yield potential and yield quality of cereals have been greatly improved. Nowadays, yield safety has gained more importance because of the forecasted climatic changes. Drought and high temperature are especially considered as key stress factors with high potential impact on crop yield. Yield safety can only be improved if future breeding attempts will be based on the valuable new knowledge acquired on the processes determining plant development and its responses to stress. Plant stress responses are very complex. Interactions between plant structure, function and the environment need to be investigated at various phases of plant development at the organismal, cellular as well as molecular levels in order to obtain a full picture. The results achieved so far in this field indicate that various plant organs, in a definite hierarchy and in interaction with each other, are involved in determining crop yield under stress. Here we attempt to summarize the currently available information on cereal reproduction under drought and heat stress and to give an outlook towards potential strategies to improve yield safety in cereals.

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Aluminium toxicity, Al tolerance and oxidative stress in an Al-sensitive wheat genotype and in Al-tolerant lines developed by in vitro microspore selection

Darkó

et al. 2004

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Direct effect of colchicine on the microspore embryogenesis to produce dihaploid plants in wheat (Triticum aestivum L.)

Barnabás

Pfahler

Kovács

1991

Theoret. Appl. Genetics

100

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In the present experiment, different chromosome reduplication techniques were applied to microspore-originated Triticum aestivum L. (cv 'Ciano') haploids. In addition to the conventional treatment (whole plant exposure to colchicine solution), spontaneously redoubled haploids were also examined. As an experimental treatment, different concentrations (0.01, 0.02, 0.04%) of colchicine were added directly to the induction media. Colchicine did not affect the anther response or the plant regeneration capacity. The success and stability of genome redoubling was estimated on the basis of the fertility of the regenerated (R0) plants and their progeny (R1). Chromosome doubling produced by colchicine before the first microspore mitosis was significantly more efficient than the conventionally used techniques.

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Stigma Functionality and Fertility Are Reduced by Heat and Drought Co-stress in Wheat

et al. 2019

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As a consequence of climate change, unpredictable extremely hot and dry periods are becoming more frequent during the early stages of reproductive development in wheat (Triticum aestivum L.). Pollen sterility has long been known as a major determinant of fertility loss under high temperature and water scarcity, but it will be demonstrated here that this is not the exclusive cause and that damage to female reproductive organs also contributes to losses of fertility and production. Changes in the phenology, morphology, and anatomy of female reproductive cells and organs, in the ROS and RNS generation of stigmatic papilla cells, and in fertility and yield components in response to simultaneous high temperature and drought at gametogenesis were studied in two wheat genotypes with contrasting stress responses. The combination of high temperature (32/24°C) and total water withdrawal for 5 days at gametogenesis altered the phenology of the plants, reduced pollen viability, modified the morphology and the anatomy of the pistils, enhanced the generation of ROS and RNS, intensified lipid peroxidation and decreased the NO production of stigmatic papilla cells, all leading to reduced fertility and to production loss in the sensitive genotype, depending on the position of the floret on the spike. Reduced functionality of female and male reproductive parts accounted for 34% and 66%, respectively, of the total generative cell- and organ-triggered fertility loss.

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Colchicine, an efficient genome-doubling agent for maize ( Zea mays L.) microspores cultured in anthero

Barnabás¹,

Obert

Kovács³

1999

Plant Cell Reports

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Storage of maize (Zea mays L.) pollen at −196°C in liquid nitrogen

Barnabás

Rajki

1976

Euphytica

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Embryo and endosperm development in wheat (Triticum aestivum L.) kernels subjected to drought stress

et al. 2011

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The aim of the present work was to reveal the histological alterations triggered in developing wheat kernels by soil drought stress during early seed development resulting in yield losses at harvest. For this purpose, observations were made on the effect of drought stress, applied in a controlled environment from the 5th to the 9th day after pollination, on the kernel morphology, starch content and grain yield of the drought-sensitive Cappelle Desprez and drought-tolerant Plainsman V winter wheat (Triticum aestivum L.) varieties. As a consequence of water withdrawal, there was a decrease in the size of the embryos and the number of A-type starch granules deposited in the endosperm, while the development of aleurone cells and the degradation of the cell layers surrounding the ovule were significantly accelerated in both genotypes. In addition, the number of B-type starch granules per cell was significantly reduced. Drought stress affected the rate of grain filling shortened the grain-filling and ripening period and severely reduced the yield. With respect to the recovery of vegetative tissues, seed set and yield, the drought-tolerant Plainsman V responded significantly better to drought stress than Cappelle Desprez. The reduction in the size of the mature embryos was significantly greater in the sensitive genotype. Compared to Plainsman V, the endosperm cells of Cappelle Desprez accumulated significantly fewer B-type starch granules. In stressed kernels of the tolerant genotype, the accumulation of protein bodies occurred significantly earlier than in the sensitive variety.

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The isolation of viable egg cells of wheat (Triticum aestivum L.)

Kovács¹,

Barnabás²,

Kranz³

1994

Sexual Plant Reprod

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