Effects of mycorrhiza and phosphate fertilizers on the growth and yield of foxtail millet (Setaria italica L.) under drought stress conditions

Anissatul Laili, O. Herliana, Ahadiyat Yugi Rahayu, Wilis Cahyani, Ahmad Fauzi
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Abstract

Millet is a cereal plant that’s potential for rice substitution. This plant is adaptive to be cultivated in dry land but has a tolerance limit to drought stress. Mycorrhiza and phospate (P) fertilizer treatments help plants adapt to this condition. This study aimed to determine the effects of phosphate fertilizer and mycorrhiza as well as their interaction effects on the growth and yield of foxtail millet (Setaria italica L.) under drought stress. The experiment was carried out from January to June 2020 in the experimental farm, Faculty of Agriculture, University of Jenderal Soedirman. The research was arranged in a factorial randomized complete block design consisting of two factors. The first factor was the dose of SP-36 fertilizer per polybag, namely P0 = 0 g, P1 = 37,5 kg.ha⁻¹ (25%), P2 = 75 kg.ha⁻¹ = 0.88 g/polybag (50%), and P3 = 150 kg.ha⁻¹. The second factor was the dose of mycorrhiza biofertilizer, namely M0 = 0 g.polibag⁻¹, M1 = 33.3 g. polibag⁻¹ and M2 = 66.6 g.polybag⁻¹. The treatment was replicated three times. The data observed were analyzed using the F test, continued with DMRT test at p=0.05. The results showed that SP-36 fertilizer application at half of the recommended dose (0.88 g/polybag) could increase growth variables, such as leaf area, panicle length, and seed weight. Mycorrhizae application 33.3 g/polybag could improve variables such as plant height, leaf area, panicle length, and seed weight. It also accelerated the initiation of panicle emergence compared to control.
菌根和磷肥对干旱胁迫条件下狐尾黍(Setaria italica L.)生长和产量的影响
小米是一种谷类植物,具有替代水稻的潜力。这种植物适应在旱地种植,但对干旱胁迫有一定的耐受极限。菌根和磷肥处理有助于植物适应这种条件。本研究旨在确定磷肥和菌根对干旱胁迫下狐尾黍(Setaria italica L.)的生长和产量的影响及其交互作用。实验于 2020 年 1 月至 6 月在 Jenderal Soedirman 大学农学院实验农场进行。研究采用因子随机完全区组设计,由两个因子组成。第一个因素是每个聚合袋的 SP-36 肥料剂量,即 P0 = 0 g、P1 = 37.5 kg.ha-¹ (25%)、P2 = 75 kg.ha-¹ = 0.88 g/聚合袋(50%)和 P3 = 150 kg.ha-¹。第二个因素是菌根生物肥的剂量,即 M0 = 0 g.polibag-¹, M1 = 33.3 g.polibag-¹ 和 M2 = 66.6 g.polybag-¹ 。处理重复三次。观察到的数据采用 F 检验和 DMRT 检验进行分析,P=0.05。结果表明,施用推荐剂量一半的 SP-36 肥料(0.88 克/多菌袋)可增加叶面积、圆锥花序长度和种子重量等生长变量。菌根剂施用量为 33.3 克/聚乙烯袋,可改善植株高度、叶面积、圆锥花序长度和种子重量等变量。与对照相比,菌根还能加快圆锥花序的萌发。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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