QUINOA - YIELD AND ITS COMPONENT AS AFFECTED BY N FERTILIZATION, BIO-FERTILIZER AND MICRONUTRIENTS FERTILIZATION IN CALCAREOUS SOIL

Journal of Productivity and Development Pub Date : 2021-10-01 DOI:10.21608/jpd.2021.203963

M. Sobh, M. Zedan, A. Ewis

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Abstract

A pot experiment was conducted at the Faculty of Technology and Development, Zagazig University, Sharkia Governorate, Egypt during 2018/2019 winter season to study the effect of integrated fertilization on the productivity of quinoa crop growing under calcareous soils. The experiment was laid out in split split plot arrangement using three replications. Main plots assigned to nitrogen fertilizers rates: N0, N1, N2, N3, N4, N5 & N6 (0.0, 75,100, 125 kg inorganic-N fed -1 , 75 kg inorganic-N + 50 kg organic-N, 100 kg inorganic-N + 25 kg organic-N and 125 kg organic-N fed -1 ). The sub plots were dedicated to bio-fertilizer rates of b0, b1 (0.0 and 2 L fed-1). The sub-sub plots occupied to micronutrient rates of T0, T1 (0.0 and 2 L fed -1 ). The results indicated that the values of dry weight (DW), grain yield (GY), straw yield (SY), biological yield (BY), harvest index (HI), crude protein (CP), nitrogen (N), phosphorus (P) and potassium (K) uptakes by quinoa plant organs at flowering and harvest stage increased significantly with increasing biofertilizer rate, micronutrient rate and N rate up to 100 fed -1 . Partial substitution of mineral nitrogen fertilizers (MNF) by organic nitrogen fertilizer (ONF) had positive effect on all vegetative characters and chemical composition. Interaction between studied factors gave positive effect on most studied traits. The best interaction treatment that achieved the highest values for most vegetative traits and chemical characters was (N2 × b1 × T1) or (N4 × b1 × T1).

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钙质土壤氮肥、生物肥和微量元素施肥对藜麦产量及其组成的影响

2018/2019冬季，在埃及Sharkia省Zagazig大学技术与发展学院进行了盆栽试验，研究了综合施肥对钙质土壤下藜麦作物生产力的影响。试验采用3个重复的分割小区布置。施氮肥的主要地块为:N0、N1、N2、N3、N4、N5和N6(0.0、75、100、125公斤无机氮-1、75公斤无机氮+ 50公斤有机氮、100公斤无机氮+ 25公斤有机氮和125公斤有机氮-1)。每个小块分别施用生物肥料0、b1(0.0和2 L投喂量)。微量元素添加量分别为T0、T1(0.0和2 L饲喂-1)。结果表明:在100投喂-1之前，随着生物肥用量、微量营养素用量和N用量的增加，藜麦植物各器官在开花期和收获期的干重(DW)、籽粒产量(GY)、秸秆产量(SY)、生物产量(BY)、收获指数(HI)、粗蛋白质(CP)、氮(N)、磷(P)和钾(K)的吸收量显著增加。有机氮肥(ONF)部分替代无机氮肥(MNF)对植物营养性状和化学成分均有积极影响。研究因子间的交互作用对大部分性状具有正向影响。大多数营养性状和化学性状均达到最高值的互作处理为(N2 × b1 × T1)或(N4 × b1 × T1)。

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Journal of Productivity and Development

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