The Effect of Soil Nutrition and Foliar Fertilizers on the Soil Potassium Regime and Potassium Status of Apple Trees in a Rainfed Orchard

E. V. Leonicheva, M. E. Stolyarov, T. A. Roeva, L. I. Leonteva
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Abstract

The purpose of this research was to study the interannual and seasonal dynamics of mobile potassium compounds in orchard soil and assess the potassium status of apple trees influenced by foliar and ground fertilization with potassium and nitrogen. The research was carried out in 2016–2020 growing seasons under soil-climate conditions of the forest-steppe zone of the Central Russian Upland (Orel region). The field experiment studying the efficiency of nitrogen and potassium fertilizers has been running in the apple orchard with apples of cv. “Venyaminovskoe” since 2015. The soil of the experimental orchard is loamy Haplic Luvisol. Ammonium nitrate and potassium chloride were used as soil fertilizers at doses of N30K40, N60K80, and N90K120. Urea (1%) and potassium sulfate (0.3%) solutions were used for foliar fertilizing. The content of mobile potassium compounds was determined in soil samples that were monthly taken from a depth of 0–20, 20–40, and 40–60 cm from May to September. The level of mobile potassium in the root zone of unfertilized plots was relatively constant during the five years. At the same time, the regular ground fertilization led to a gradual accumulation of potassium in the topsoil. Its accumulation rate depended on fertilizer doses. When the soil potassium content reached 150 mg/kg, the seasonal fluctuations of the index increased and vertical migration of potassium began to be observed in the soil profile. The main factors influencing the potassium regime of apple trees were weather conditions, yield, and fertilization rates. A correlated soil and plant diagnosis has shown that the negative effect of the decrease in the availability of soil potassium also persists in the subsequent growing season; however, it can be weakened using soil and foliar fertilizers. The highest yield of apple trees in the first four years of fruiting was observed when the soil was fertilized with N60K80 in combination with foliar sprays.

Abstract Image

土壤营养和叶面肥对雨水灌溉果园中苹果树的土壤钾含量和钾状况的影响
摘要 本研究的目的是研究果园土壤中移动钾化合物的年际和季节动态,并评估苹果树的钾状况受叶面和地面施肥钾和氮的影响。研究是在俄罗斯中部高原森林草原地带(奥廖尔州)的土壤气候条件下于 2016-2020 年生长季节进行的。研究氮肥和钾肥效率的田间试验在苹果园进行,苹果品种为 "Venyaminovskoe"。自 2015 年以来,一直在 "Venyaminovskoe "苹果园进行氮肥和钾肥效率的田间试验。实验果园的土壤为壤土 Haplic Luvisol。硝酸铵和氯化钾被用作土壤肥料,剂量分别为 N30K40、N60K80 和 N90K120。尿素(1%)和硫酸钾(0.3%)溶液用于叶面施肥。从 5 月到 9 月,每月从 0-20、20-40 和 40-60 厘米深处采集土壤样本,测定其中移动钾化合物的含量。五年间,未施肥地块根区的移动钾含量相对稳定。同时,定期的地面施肥导致钾在表土中逐渐积累。其积累速度取决于施肥量。当土壤钾含量达到 150 毫克/千克时,钾指数的季节性波动增大,土壤剖面中开始出现钾的垂直迁移。影响苹果树钾机制的主要因素是天气条件、产量和施肥量。一项相关的土壤和植物诊断表明,土壤钾供应量下降的负面影响在随后的生长季节也会持续存在;不过,使用土壤肥料和叶面肥可以削弱这种影响。当土壤中施用 N60K80 肥料并结合叶面喷施时,苹果树在最初四年的产量最高。
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