Potato breeding, meeting the challenges of climate change

Potato, the third most important food crop originates from temperate climatic zone characterised by moderate and even precipitation. Current climatic changes in Central European region mean serious challenges to the potato plant, its growers and breeders as well. The average daily temperature in the growing season is generally above the optimum and the required precipitation is less than needed. The risk of spreading pathogens and pest adapted to warmer climates is increasing, while appearance of new strains of common pathogens like Potato Virus Y and Phytophtora infestans means new challenges to the potato production in the Region as well. Potato in general is a sensitive crop to biotic and abiotic stresses due to its numerous pathogens, pest and week root system. Stress sensitivity may manifests in yield decrease and quality loss. Breeding and cultivation of stress resistant varieties is needed to maintain profitability of potato production under stressful conditions. The Potato Research Center at Keszthely runs a specific breeding program since 1960 focusing on the release of varieties suitable for Central European agro-ecological conditions due to their resistance against major biotic and abiotic stress factors. The applied breeding strategy is a complex approach using classical and modern biotechnological methods, such as negative and positive selection based on phenotyping, somatic hybridization, DNA marker based selection for certain traits, use of resistant genotypes as parents and application of a complex parental line evaluation system for breeding value estimation of crossing families. As the results of the consistent selection work several new varieties with complex resistance traits were released from the program recently

What types of powdery mildew can infect wheat-barley introgression lines?

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Development of a simple PCR-based assay for the identification of triazine resistance in the noxious plant common ragweed (Ambrosia artemisiifolia) and its applicability in higher plants

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Development of intron targeting (IT) markers for potato and cross-species amplification in Solanum nigrum (Solanaceae)

• Premise of the study: Intron Targeting (IT) primers were developed for potato using expressed sequence tags (EST) and NCBI database records to study genetic diversity. • Methods and Results: Twenty-nine polymorphic intron targeting (IT) markers were generated and characterized from 30 samples of potato and 22 samples of Solanum nigrum to detect polymorphism. The number of alleles (A) per locus ranged from 2 to 7 in the analyzed populations, and the observed heterozygosity (HO) and expected heterozygosity (HE) from 0 to 0.833 and 0.750, respectively. All of the primers also amplified in the related species S. nigrum. • Conclusions: The developed markers will provide valuable tools for genetic diversity analysis, genetic mapping, and marker-assisted breeding of potato and related Solanum species.Peer reviewe

Genetic Variability of Thermal Nymphaea (Nymphaeaceae) Populations Based on ISSR Markers: Implications on Relationships, Hybridization, and Conservation

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