Abstract

The ornamental crop species Hydrangea macrophylla exhibits diploid and triploid levels of ploidy and develops lacecap (wild type) or mophead inflorescences. In order to characterize a H. macrophylla germplasm collection, we determined the inflorescence type and the 2C DNA content of 120 plants representing 43 cultivars. We identified 78 putative diploid and 39 putative triploid plants by flow cytometry. In our collection 69 out of 98 flowering plants produced lacecap inflorescences, whereas 29 plants developed mophead inflorescences. Surprisingly, 12 cultivars included diploid as well as triploid plants, while 5 cultivars contained plants with different inflorescence types. We genotyped this germplasm collection using 12 SSR markers that detected 2–7 alleles per marker, and identified 51 different alleles in this collection. We detected 62 distinct fingerprints, revealing a higher genetic variation than the number of cultivars suggested. Only one genotype per cultivar is expected due to the vegetative propagation of Hydrangea cultivars; however we identified 25 cultivars containing 2–4 different genotypes. These different genotypes explained the variation in DNA content and inflorescence type. Diploid and triploid plants with the same cultivar name were exclusively mix-ups. We therefor assume, that 36% of the tested plants were mislabeled. Based on the “Wädenswil” pedigree, which includes 31 of the tested cultivars, we predicted cultivar-specific fingerprints and identified at least 21 out of 31 cultivars by SSR marker-based reconstruction of the “Wädenswil” pedigree. Furthermore, we detected 4 putative interploid crosses between diploid and triploid plants in this pedigree. These interploid crosses resulted in diploid or/and triploid offspring, suggesting that crosses with triploids were successfully applied in breeding of H. macrophylla.

Highlights

  • Hydrangea macrophylla (THUNB.) SER. is an economically important crop of the upmarket segment of ornamentals

  • By genotyping a set of 120 H. macrophylla plants with 12 Simple Sequence Repeat (SSR) markers, we identified 25 out of 43 cultivars that included 2–4 plants with different SSR marker fingerprints that varied with regard to DNA content and inflorescence type

  • Genotyping allowed reducing the total number of plants to the extent of almost 52%, while 19 extra genotypes were identified in our germplasm collection

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Summary

Introduction

Hydrangea macrophylla (THUNB.) SER. is an economically important crop of the upmarket segment of ornamentals. H. macrophylla cultivars are famous for their rich foliage and impressively large, colorful inflorescences. Inflorescences can be divided into the lacecap (wild type) and the mophead (hortensia) type, according to the position and number of decorative flowers in the inflorescence. The Molecular Pedigree of Hydrangea mophead inflorescence develops more decorative flowers, which are distributed over the complete inflorescence (Uemachi and Okumura, 2012). H. macrophylla originates from Japan and has been bred to create attractive ornamental pot plants and for landscaping in temperate regions worldwide. As for many ornamental crops, Hydrangea plants are commercially propagated through clones via cuttings. The method of clone breeding is applied, where new varieties are selected in the F1 generation, followed by vegetative propagation. The fluctuation of established Hydrangea varieties is slow. Varieties like ‘Mariesii’ (1879), ‘Madame Emile Mouillère’ (1909), ‘Libelle’ (1964) or ‘Blaumeise’ (1979) are still on the market

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