Abstract
Rust (<i>Melampsora</i> spp.) is a damaging disease of willows (<i>Salix</i> spp.), including common osier (<i>S. viminalis</i> L.). So far, the pathogens of this species found in Europe were identified as <i>M. larici-epitea</i> Kleb. or <i>M. ribesii-viminalis</i> Kleb. Moreover, a stem infecting form (SIF), deprived of a sexual stage in its life cycle was reported. The aim of this study was to find out which species of the rust fungi cause disease symptoms on common osier in Poland. The isolates from common osier were compared to the ones originating from its putative hybrids with trembling aspen (<i>Populus tremula</i> L.) and Simon's poplar (<i>P. simonii</i> Carr.). Fungal isolates were obtained in 2008-2010 from 15 different genotypes of willows, including seven varieties of common osier (4 Swedish and 3 Polish), two landraces of common osier and six putative hybrids with poplars. Fungal isolates originated from three experiment sites, including west (Wielkopolska and Lubuskie) and north-east (Warmia) regions of Poland. To ensure the genetic uniformity, the isolates were derived from single uredinia, obtained from natural infection conditions. In all collected samples the position of uredinia was always hypophyllous. The diameter of uredinia was measured by Sigma Scan Pro software, after inoculation of four standard genotypes, including two common osier and two willow hybrids. The studies proved that the main cause of common osier rust is <i>Melampsora larici-epitea</i> f. <i>typica</i>. All studied isolates, including the ones obtained on putative hybrids, were very similar according to the size of uredinia and the size and morphology of urediniospores. The average size of a uredinium was 1.1 mm diameter and slightly differed between the isolates (from 0.9 to 1.3 mm), depending on willow genotype, the quality of plant material used for artificial inoculations and infection conditions. The average size of a typical urediniospore was 12.4 x 10.5 µm, but the sizes varied from 9.8 to 13.2 µm. Urediniospores from common osier were slightly bigger and more oval (12.5 x 10.4 µm) as compared to spores from the putative hybrids <i>Salix</i> x <i>Populus</i> (12.3 x 10.6 µm), but the differences were statistically insignificant. The spores were ovoid, globoid or angular, evenly echinulated. The size of uredinia, as well as the size and morphology of urediniospores were in full agreement with literature data for <i>M. larici-epitea</i> f. <i>typica</i>.
Highlights
The diversity of willows (Salix spp.) worldwide is enormous
The oldest field originated from Marzęcin and it was planted in the spring of 1997, whereas the common osier willow genotypes from Poznań started their growth in the spring of 2002 and these from Bałdy – in the spring of 2006
Uredinia of rust were formed on all tested genotypes of willow, including two common osier cultivars and two hybrids with the other willow species
Summary
The diversity of willows (Salix spp.) worldwide is enormous. According to different sources, the number of willow species varies between 300 and 500, with about 270 willow species in China, 120 in the former Soviet Union, over 100 in North America and some 65 willow species in Europe (Argus , 1997; P e i , 2005). The genetic diversity within one willow species can be tremendous. Recent interest in the common osier (Salix viminalis L.), a potential source of biomass production for renewable energy (Keoleian and V o l k , 2005; Szczukowski et al 2005), showed great genetic differences between the genotypes (Przyborowski and Sulima , 2010). Immense diversity present between and within willow species influences its main pathogen – willow rust (Melampsora spp.). This important fungal genus, gathering numerous pathogens of various plant species, coevolves with hosts, what results in its great diversity
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