A careful control of the N nutritional status of grapevines can have a determining effect on wine characteristics; therefore a suitable management of N fertilization might allow some wine parameters to be modified, thereby improving product quality. The aim of this study was to determine the effect of foliar application of urea at different doses and different times of the growing season on the parameters of Sauvignon Blanc and Merlot grape juice. The research described herein involved Sauvignon Blanc and Merlot grapevines (V. vinifera L.) at a commercial vineyard and was conducted over 2 years. In the first year, N treatment involved a foliar application at a dose of 10 kg N ha -1 during veraison, whereas in the second year it involved a foliar urea application at two doses (10 and 50 kg N ha -1 ) and at three different times-3 weeks before veraison, during veraison and 3 weeks after veraison. In this second year, the urea applied at a dose of 10 kg N ha -1 was isotopically labelled with 1% 15 N. Chemical parameters, yeast assimilable N, amino acid content, amino acid profile and N isotopic composition were determined for all treatments. Grape and grape-juice parameters for Merlot were found to be more affected by N fertilization than for Sauvignon Blanc and were also more affected during the second year than during the first year, thus indicating that the climatic characteristics of each campaign could affect these parameters. The yeast assimilable N in grape juice was found to be higher for late applications of foliar urea, with application of the higher dose of urea during veraison increasing the amino acid and proline contents in both varieties. The isotopic analysis data showed that the urea applied to leaves was transferred to the berries, with the maximum translocation in Sauvignon Blanc occurring for the post-veraison treatment and in Merlot for the veraison treatment. We can therefore conclude that foliar application of urea could modify grape juice quality and could therefore be used as a tool for obtaining quality wines.
Use of N-based fertilisers in combination with nitrification inhibitors lengthens N presence in the ammonium form in soil (N-NH4+), with beneficial effects for agriculture and related ecosystems. The efficiency of these inhibitors depends on several factors, the most important being soil temperature. This paper studies the effects of soil temperature on the kinetics of N-NH4+ loss in the presence of the DCD and DMPP nitrification inhibitors. For a 105-day period, 3 chambers, each with 12 containers holding 500 g of dry soil, were incubated at 10, 20, and 30�C. Ammonium sulfate was applied to 4 containers in each chamber; in another 4 containers Basammon Stabil, a N fertiliser with DCD, was used; and Entec 26, a fertiliser with DMPP, was used in the remaining 4 containers. Soil ammonium content was periodically determined for each container. Both DCD and DMPP lengthened ammonium presence in soil in a similar manner. However, their effectiveness was drastically decreased at increased soil temperatures. Thus, when using these inhibitors, soil temperature should be taken into account, especially in warm climate areas.
The use of urea as an N fertilizer has increased to such an extent that it is now the most widely used fertilizer in the world. However, N losses as a result of ammonia volatilization lead to a decrease in its efficiency, therefore different methods have been developed over the years to reduce these losses. One of the most recent involves the use of urea combined with urease inhibitors, such as N-(n-butyl) thiophosphoric triamide (NBPT), in an attempt to delay the hydrolysis of urea in the soil. The aim of this study was to perform an in-depth analysis of the effect that NBPT use has on plant growth and N metabolism. Wheat plants were cultivated in a greenhouse experiment lasting 4 weeks and fertilized with urea and NBPT at different concentrations (0, 0.012, 0.062, 0.125%). Each treatment was replicated six times. A nonfertilized control was also cultivated. Several parameters related with N metabolism were analysed at the end of growth period. NBPT use was found to have visible effects, such as a transitory yellowing of the leaf tips, at the end of the first week of treatment. At a metabolic level, plants treated with the inhibitor were found to have more urea in their tissues and a lower amino acid content, lower glutamine synthetase activity, and lower urease and glutamine synthetase content at the end of the study period, whereas their urease activity seemed to have recovered by this stage.
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