Winter‐hardiness is a complex trait limiting cultivation of winter barley (Hordeum vulgare ssp. vulgare) with respect to the regions of temperate climate. In the present studies, we verified whether inexpensive and fast physiological markers characterizing photosynthetic acclimation to cold may provide robust characteristics of winter barley genotypes for improved frost resistance. Freezing tolerance of 28 winter barley varieties and advanced breeding lines were tested for three winters in field‐laboratory experiment and under fully controlled conditions. To increase the environmental variability of freezing tolerance, a part of the plants were also de‐acclimated under semi‐controlled conditions and re‐acclimated in laboratory before freezing tests. After controlled cold acclimation, apparent quantum yield of photosystem II (Fv/Fm) as well as photochemical (qP) and non‐photochemical (NPQ) coefficients of chlorophyll fluorescence quenching were studied. Field‐laboratory method assessment of freezing tolerance gives distinct and even opposite results in subsequent years. Also de‐acclimation interacted with growth conditions in the field, giving different rankings of genotypes each year. The results obtained suggest that high level of freezing tolerance measured in laboratory, which is connected with photosynthetic acclimation to cold may be not sufficient for the expression of field resistance, especially when winter conditions are not favourable for cold acclimation.
Associations of PCR markers with freezing tolerance and acclimation of photosynthetic apparatus to cold were tested on 28 winter barley cultivars and advanced breeding forms to select alleles for practical application in marker assisted selection (MAS). We found significant associations between freezing tolerance evaluated with field-laboratory method (FLM) and markers located on 5H chromosome in region of gene Fr-H2 (bin9-10: Xbmag812, Xmwg2230) and region of gene Fr-H1 (bin11: Xmwg514, HvBM5, Xmwg644). Additionally, significant associations with photochemical quenching of chlorophyll a fluorescence (q P ) were found for PCR markers Xpsr115 and Xmwg2062. In our study variation in the promoter region of Vrn-H1 (HvBM5) was directly connected with freezing tolerance of plants partially de-acclimated in the field. The results obtained here showed that different loci of freezing tolerance may play role in variable selection pressure of winter conditions.
The article is prepared under the Multiannual Programme financed by the Ministry of Agriculture and Rural Development, entitled "The increase in utilisation of domestic feed proteins for the production of high-quality animal products in the conditions of sustainable development".
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