Effects of different media strengths and hormone concentrations on in-vitro regeneration of Vitellaria paradoxa C.F. Gaertn

Nigerian Journal of Biotechnology Pub Date : 2020-08-28 DOI:10.4314/njb.v37i1.16

J. Afolabi, E. M. Olorode, D. B. Olomola, Y. O. Fasakin, E. Adekunle

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引用次数: 1

Abstract

The importance of Vitellaria paradoxa has necessitated its inclusion in the ongoing afforestation project which requires mass production of its seedlings. The shea-butter tree produces oil-rich seeds that are important to cosmetic and food and nutrition industries. It is a deciduous tree which could survive in the dry-savannah and help withstand desert encroachment. However, overexploitation of its timber for firewood and charcoal production made it vulnerable. In-vitro propagation of this species could be a viable means towards its mass propagation. Two plant-hormones: Gibberellic Acid (GA3) and Benzyl Amino Purine (BAP) were used to grow the plant in different combinations making up six treatments (A-F) with 6 replicates in each group. The combinations include 1.5/0, 1.5/1.0, 1.5/1.5, 2.0/0, 2.0/1.0, 2.0/1.5 mg/L of GA3/BAP, which were used to grow 2cm nodal cuttings of the V. paradoxa on half-strength Murashige and Skoog (MS) media. Treatment F (with 2.0/1.5 mg/L GA3/BAP) produced the highest number of leaves (2.4 ± 0.6, 3.2 ± 0.8) and longest shoot length (1.1 ± 0.3 cm, 1.4 ± 0.5 cm) at 4 and 8 Weeks After Inoculation (WAI), respectively. The results of this study showed that application of growth- enhancing hormones for the regeneration of important tree species could provide means for their mass propagation so as to meet the need for afforestation projects. Keywords: Vitellaria paradoxa, Afforestation, In-vitro propagation, Mass propagation.

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不同培养基强度和激素浓度对黄芪体外再生的影响

由于黄花菜的重要性，有必要将其纳入正在进行的造林项目，该项目需要大量生产黄花菜幼苗。乳木果树生产的富含油脂的种子对化妆品、食品和营养行业都很重要。它是一种落叶树，可以在干燥的大草原上生存，并有助于抵御沙漠的侵蚀。然而，过度开采其木材用于木柴和木炭生产使其变得脆弱。该物种的体外繁殖是实现其大规模繁殖的可行手段。采用赤霉素(Gibberellic Acid, GA3)和苯基氨基嘌呤(Benzyl Amino Purine, BAP)两种植物激素组合进行培养，共6个处理(A-F)，每组6个重复。采用1.5/0、1.5/1.0、1.5/1.5、2.0/0、2.0/1.0、2.0/1.5 mg/L的GA3/BAP组合，分别在半强度Murashige和Skoog (MS)培养基上培养2cm的花叶插条。F处理(2.0/1.5 mg/L GA3/BAP)在接种后4周和8周的叶片数最多(2.4±0.6、3.2±0.8)，芽长最长(1.1±0.3 cm、1.4±0.5 cm)。研究结果表明，利用促生长激素促进重要树种的再生，可为其大量繁殖提供手段，以满足造林工程的需要。关键词:黄杨;造林;离体繁殖;

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Nigerian Journal of Biotechnology

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