钾肥土壤改良剂对小麦稻瘟病抗病性的影响

M. Sarker, M. Uddin, M. Kashem, M. Rahman, I. Ahmed, K. Mohiuddin
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引用次数: 0

摘要

钾在植物代谢过程中发挥着多种多样的作用,在必需营养元素中具有独特的地位。钾提高作物产量,保护作物免受病虫害侵害,防止倒伏,并减少终端热应激的影响。基于这些信息,我们推测K在提高产量的同时还能增强寄主植株的抗性和抗稻瘟病能力。采用盆栽试验方法,人工接种稻瘟病病菌(Magnaporthe oryzae Triticum, MoT)在小麦(Triticum aestivum L.) BARI Gom-26上,研究土壤施钾对稻瘟病管理及生长和产量的影响。试验在2018-19和2019-20两个生长季节进行,试验采用完全随机设计,5个处理,3个重复。试验在孟加拉国核农业研究所总部Mymensingh农场的网棚里,在单独的塑料罐中装有18公斤的原生土。土壤施用剂量分别为0、50、75、100和125 K kg ha-1。接种后11、13、15 d测定小麦稻瘟病的发病率(%)和严重程度(%)。15 DAI时,绝对对照发病率最高(95.45%),其次是K0 (0 kg kha−1)(91.98%),K4 (125kg kha−1)发病率最低(64.49%),与K3 (100kg kha−1)(70.87%)差异有统计学意义。在15 DAI时,绝对对照的爆炸强度矩阵最高(90%),其次是K0 (0 kg K ha−1)(76.02%),K4 (125kg K ha−1)的爆炸发生率最低(46.18%),两者差异有统计学意义。从绝对对照来看,125 kg K ha-1处理籽粒产量最高(26.97 g -1),最低(5.79 g -1)。每盆抽穗前随机采集旗叶样本,在实验室进行植物营养成分分析。旗叶样品钾含量范围为1.71% ~ 5.51%,平均为3.02%,其中K4钾含量最高(5.51%),绝对对照最低(1.71%)。施钾可以减轻小麦的严重程度,提高产量。相关分析表明,在孕穗期通过钾肥提高干物质产量和钾吸收,可以降低生长季后期的严重程度,提高小麦产量。由此可见,叶片组织高浓度钾对减轻小麦瘟病症状有重要作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of soil amendments using potassium in elevating resistance against wheat blast disease
Potassium (K) is unique among the essential nutrient elements for its diversified role in plant metabolic processes. Potassium improves crop output, protects the crop from diseases and insect-pest infestation, prevents lodging, and reduces the effects of terminal heat stress. Based on this information, it was hypothesized that K will enhance host plant resistance and blast control while increasing yields. A pot experiment was conducted by artificially inoculating Magnaporthe oryzae Triticum (MoT) on a susceptible wheat (Triticum aestivum L.) variety (BARI Gom-26) to determine the effect of soil application of K on blast disease management and the growth and yield. The experiment was carried out in separate plastic pots containing 18kg of virgin soil at the net house of the farm of the Bangladesh Institute of Nuclear Agriculture headquarters, Mymensingh, for two growing seasons of 2018-19 and 2019-20 following a completely randomized design with five treatments and three replications. The dose for soil application were 0, 50, 75, 100 and 125 K kg ha-1, respectively. Disease incidence (%) and severity (%) of wheat blast were evaluated at 11, 13 and 15 days after inoculation (DAI). At 15 DAI, the highest disease incidence (95.45%) was found in absolute control followed by K0 (0 kg K ha−1) (91.98%) and the lowest blast incidence (64.49%) was found in K4 (125kg K ha−1) which was statistically similar with K3 (100kg K ha−1) (70.87%). At 15 DAI, the highest blast severity matrix (90%) was found in absolute control followed by K0 (0 kg K ha−1) (76.02%) and the lowest blast incidence (46.18%) was found in K4 (125kg K ha−1) which was significantly different with others. Among the treatments, 125 kg K ha-1 produced the highest grain yield (26.97 g pot-1) and the lowest (5.79 g pot-1) was found from the absolute control. Flag leaf samples were randomly collected before head emergence from each pot and analyzed in the laboratory for plant nutrient content. The K concentration of flag leaves sample ranged from 1.71% to 5.51% with the average concentration of 3.02%, where the highest K content (%) was recorded in K4 (5.51%) and the lowest was found in absolute control (1.71%). Potassium fertilization appeared to reduce the severity and improve yield of wheat. Correlations suggested that improving dry matter production and K uptakes at the boot stage by K fertilization can reduce severity later in the growing season and increase wheat grain yield. It can be concluded that high K concentration on leaf tissue was important to decrease wheat blast symptom.
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