Inoculation of leguminous seeds with selected rhizobial strains is practised in agriculture to ameliorate the plant yield by enhanced root nodulation and nitrogen uptake of the plant. However, effective symbiosis between legumes and rhizobia does not only depend on the capacity of nitrogen fixation but also on the entire nitrogen turnover in the rhizosphere. We investigated the influence of seed inoculation with two indigenous Sinorhizobium meliloti strains exhibiting different efficiency concerning plant growth promotion on nitrogen turnover processes in the rhizosphere during the growth of alfalfa. Quantification of six target genes (bacterial amoA, nirK, nirS, nosZ, nifH and archaeal amoA) within the nitrogen cycle was performed in rhizosphere samples before nodule formation, at bud development and at the late flowering stage. The results clearly demonstrated that effectiveness of rhizobial inocula is related to abundance of nifH genes in the late flowering phase of alfalfa. Moreover, other genes involved in nitrogen turnover had been affected by the inocula, e.g. higher numbers of amoA copies were observed during flowering when the more effective strain had been inoculated. However, the respective gene abundances differed overall to a greater extent between the three plant development stages than between the inoculation variants.
The aim of this research was to identify the Saccharomyces spp. associated with Ž ilavka grapes and to evaluate their enzymatic activities, H 2 S production and micro-fermentation performance. For this purpose, a total of 143 yeast strains isolated from three production areas of the Mostar wine region (Bosnia and Herzegovina) were studied and analysed. Firstly, yeasts were identified to genus level by growth on WL nutrient agar and the test of assimilation of lysine. Later, molecular identification at species level was carried out with RFLP analysis of 18S rDNA ? ITS region, and at strain level with microsatelliteprimed PCR (MSP-PCR). At physiological level yeast strains were grouped into different clusters by means of the Joining-Tree-Clustering-Method. All yeasts tested were identified as S. cerevisiae, resulting a total of 18 different strains. All of the investigated strains produced hydrogen sulphide, 89% were able to complete the fermentation, and none of them was able to synthesize killer toxins. Since enzymes play a very important role in wine aroma development, it was very encouraging that 33% of the strains were able to synthesize pectinolytic enzyme but only one produced b-glucosidase. In the second part of the selection process two indigenous strains were compared with commercial yeast in a microvinification and Ž ilavka wines with different profiles of volatiles were obtained. This research represents a first step in the selection of indigenous yeast strains from the Mostar region with the goal of maintaining the specific organoleptic characteristics of Ž ilavka wine.
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