Application of Trichoderma harzianum on the physiological quality of cowpea seeds

MAY 2021 Pub Date : 1900-01-01 DOI:10.21475/ajcs.21.15.05.p2865

M. L. Pimentel, H. V. Castro, Mike Kirixi Munduruku, Larissa Conceição Cunha Ponte, D. N. M. Alves, R. B. Pinto, Juan Daniel Villacis Fajardo, Nancy Andrea Villacis Fajardo, Deyviane Ramos Alves, Laércio S. Silva

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Abstract

The use of fungi in seed treatment can improve the plant's physiological characteristics. The aim of this study was to evaluate the influence of the use of Trichoderma harzianum on the physiological quality of bean seeds. The experiment was set up and conducted in the forest seed laboratory of the Federal University of Western Para, in a randomized design, using 4 procedures on the basis of a colony forming unit (CFU): T1 (0 CFU), T2 (4 x 109 CFU), T3 (8 x 109 CFU) and T4 (12 x 109 CFU), with 5 repetitions. Germination percentage (G%), germination speed index (GSI), hypocotyl length (HL) and radicle length (RL) were evaluated as variables. The data were analyzed by variance analysis and the averages were compared using the Tukey test (p≤0.05), in addition to the regression analysis, using the Minitab© version 18 statistical software. There were differences between the germination percentage tests, in which T2 obtained 100% of germinated seeds, for GSI it was observed that T2 and T3 were equal and superior to the other treatments, while for RL T1 and T2 obtained the best results, however, for HL there were no statistical differences between treatments. T2 was more efficient in the physiological quality of seeds to germination percentage and germination speed index

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哈兹木霉在豇豆种子生理品质上的应用

利用真菌处理种子可以改善植物的生理特性。本研究旨在探讨哈兹木霉对豆种生理品质的影响。试验在澳大利亚西帕拉联邦大学森林种子实验室设置，采用随机设计，按菌落形成单位(CFU)分为T1 (0 CFU)、T2 (4 × 109 CFU)、T3 (8 × 109 CFU)和T4 (12 × 109 CFU) 4个步骤，重复5次。以发芽率(G%)、萌发速度指数(GSI)、下胚轴长度(HL)和胚根长度(RL)为变量进行评价。数据采用方差分析，比较平均值采用Tukey检验(p≤0.05)，并采用Minitab©version 18统计软件进行回归分析。在发芽率试验中，T2处理的种子发芽率为100%，在GSI处理中，T2和T3处理均优于其他处理，而在RL处理中，T1和T2处理的结果最好，而在HL处理中，处理间无统计学差异。T2处理对种子的生理品质、发芽率和发芽速度指数的影响更大

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MAY 2021

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