Influence of late season foliar application of urea, boric acid and zinc sulfate on nitrogenous compounds concentration in the bud and flower of Hayward kiwifruit

摘要

Proper management of late season mineral nutrition and improving nitrogenous reserves in kiwifruit vines can result in efficient growth and yield in the following season. This experiment investigated the influence of late season foliar application type and time on the content of total nitrogen, total protein, total free amino acid, and individual amino acids of bud and flower and consequently vegetative and reproductive growth of Hayward kiwifruit in next spring. The orchard was located in Vajargah, Guilan province, Iran, with an average annual rainfall and temperature 1147 mm and 15.7 degrees C, respectively. Foliar application of mineral nutrients included urea (0.25%, 0.5% and 1%), zinc sulfate (1000, 1500 and 2000 mgl(-1)) and boric acid (500, 1000 and 1500 mgl(-1)) alone and in combined treatments as urea (0.25%) + H3BO3 (500 mgl(-1)) + ZnSO4 (1000 mgl(-1)); urea (0. 5%) + H3BO3 (1000 mgl(-1)) + ZnSO4 (1500 mgl(-1)); urea (1%) + H3BO3 (1500 mgl(-1)) + ZnSO4 (2000 mgl-1). The experimental treatments were conducted in 8 years old kiwifruit vines in late growing season. To determine appropriate time for late season foliar application, fertilization was performed in middle September, early and late October, 96, 75 and 54 days before the beginning of the winter dormancy, respectively. Samples were taken from buds at two stages: before leaf abscission and again during dormancy. Flower sampling was taken at the full bloom stage. Results indicated that 33.65 and 35.75 percentages of increases in dormant bud and flower nitrogen concentrations were achieved by combined foliar application of urea (1%), zinc sulfate (2000 mgl(-1)) and boric acid (1500 mgl(-1)) compared to control vines. Moreover, urea (1%) + H3BO3 (1500 mgl(-1)) + ZnSO4 (2000 mgl(-1)) treatment increased total protein, free amino acid and most individual amino acid concentration in analyzed tissue, however this significantly consistent elevation in almost all measured parameters was not found in other fertilization treatments. Interestingly, this treatment improved 14.51% leaf area and 22.21% fruit seed number in next growing season compared to control vines. Considering all measured parameters, late October was the best late season foliar application time. Based on our findings, late season mineral foliar application, especially urea (1%) + H3BO3 (1500 mgl(-1)) + ZnSO4 (2000 mgl(-1)), in late October can improve all nitrogenous compounds concentration in bud and flower tissues, as well as increase seed number and consequently fruit weight and grower income in the next growing season.