Abstract
Humic acid and brassinosteroid applications may be an alternative to decrease the pineapple plantlet acclimatization in in vitro cultivation, since promising results have been observed when these substances were independently applied in other propagation methods. In this sense, the aim of the present study was to evaluate the effects of humic acids and brassinosteroid application on 'BRS Vitoria' pineapple plantlets grown from in vitro cultivation during acclimatization. A randomized block design was used in a 5x2x4 factorial scheme, at five brassinosteroid doses (0, 0.25, 0.50, 0.75, 1.0 mg L-1) in the presence and absence of humic acids during four sampling periods (60, 90, 120 and 150 days after transplanting), with five replicates for each treatment. BIOBRAS-16 was used as the brassinosteroid source, and the organic soil conditioner Agrolmin HF® was used as the humic acid source. Plantlets were collected for evaluation every 30 days from 60 days after transplanting. The number of plantlet leaves, length and root mass were higher in the humic acid treatment without brassinosteroid application. Leaf, nitrogen, phosphorus, potassium, calcium and magnesium contents were of 13.04, 1.77, 40.2, 8.79 and 3.17 mg kg-1, respectively. Nitrogen and potassium contents in the plantlets decreased, while phosphorus contents increased as a function of acclimatization time, regardless of treatment. Key words: Ananas comosus var. comosus, propagation, in vitro.
Highlights
Humic acid and brassinosteroid applications may be an alternative to decrease the pineapple plantlet acclimatization in in vitro cultivation, since promising results have been observed when these substances were independently applied in other propagation methods
The aim of the present study was to evaluate the effects of humic acids and brassinosteroid application on 'BRS Vitória' pineapple plantlets grown from in vitro cultivation during acclimatization
The humic acid applications in pineapple plantlets led to a 6.2% increase in plantlet length at brassinosteroid dose dos Santos et al Source of raw material: Potassium Hydroxide, Urea, Peat, Zinc Sulphate, Boric Acid and Water
Summary
The most planted pineapple cultivars in Brazil are the Pérola and Smooth Cayenne cultivars (AGRIANUAL, 2015), both susceptible to fusariosis, a disease caused by the Fusarium guttiforme fungus and the main. Res. pineapple cultivar disease in the country, responsible for the loss of up to 40% of total pineapple production. Several research groups have been developing resistant cultivars. In this context, the 'BRS Vitória' pineapple is a promising alternative, since it displays several favorable agronomic traits (Ventura et al, 2007; Ventura et al, 2009)
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