Phenolics content and antioxidant activity of wood extractives from three clones of Acacia hybrid (Acacia mangium × Acacia auriculiformis)

Ganis Lukmandaru,Sri Sunarti,Brandon Aristo Verick Purba

doi:10.4067/s0718-221x2021000100428

Ganis Lukmandaru, Sri Sunarti + Show 1 more

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https://doi.org/10.4067/s0718-221x2021000100428

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Abstract

The objective of this study was to investigate the extractive content of three fast growing Acacia hybrid clones (Clone 16, 25, and 44) wood in three radial directions (SW = sapwood; OHW = outer heartwood; IHW = inner heartwood); total phenolic, flavonoid, flavanol contents (colorimetric assay); and antioxidant activity (1,1-diphenyl-2-picryl-hydrazyl (DPPH) radical scavenging assay). Extractions were done with three different solvents in successive (n-hexane = H; methanol = M; hot water = W), yielded 0,69 % – 1,70 %; 1,51 % – 10,86 %; and 0,51 % – 1,16 % of extractive contents, respectively. The total phenolic content (TPC) from TPC-H, TPC-M, and TPC-W ranged between 3,68 mg of gallic acid equivalent (GAE)/g – 10,41 mg GAE/g; 76,83 mg GAE/g – 448,35 mg GAE/g; and 43,28 mg GAE/g – 198,92 mg GAE/g, respectively; the total flavonoid content (TFC) from TFC-H, TFC-M, and TFC-W between 4,23 mg of quercetin equivalent (QE)/g – 41,51 mg QE/g; 29,55 mg QE/g – 133,71 mg QE/g; and 7,70 mg QE/g – 29,37 mg QE/g, respectively; total flavanol content (TVC) from TVC-H, TVC-M, and TVC-W ranged between 28,74 mg of catechin equivalent (CE)/g – 66,90 mg CE/g; 83,39 mg CE/g – 247,18 mg CE/g; and 7,08 mg CE/g – 29,21 mg CE/g, respectively. Furthermore, the antioxidant activity was found to be significantly affected by the radial factor with the strongest activity exhibited by inner heartwood extract with an IC50 value of 255,77 μg/ml (gallic acid IC50 showed a value of 39,00 μg/ml). Among clones, clone 16 was determined to have the highest extractive, total flavonoid as well as flavanol contents. Thus, clone 16 was hypothesized to be more resistance against heart rot disease

Highlights

Acacia mangium is a multipurpose fast-growing species being used in plantations throughout some tropical countries (Sein and Mitlohner 2011)
Acacia hybrid is a crossbreed, either naturally or artificially, between Acacia mangium and Acacia auriculiformis which inherits several advantages from both of its parent, including faster growth, better stem form, and better resistance against pest and disease compared to its parent species (Pinso and Nasi 1991, Kha 2000, Sunarti et al 2013)
The Center for Forest Biotechnology and Tree Improvement Indonesia has been developing a breeding strategy for Acacia hybrid using the co-improvement method as one of the efforts to increase the productivity of production forest by hybridization

Summary

Introduction

Acacia mangium is a multipurpose fast-growing species being used in plantations throughout some tropical countries (Sein and Mitlohner 2011). Universidad del Bío-Bío is Acacia auriculiformis and it is known to have more resistance to heart rot (Barry et al 2005). The Center for Forest Biotechnology and Tree Improvement Indonesia has been developing a breeding strategy for Acacia hybrid using the co-improvement method as one of the efforts to increase the productivity of production forest by hybridization. This was conducted using selected plus trees of A. mangium and A. auriculiformis parent trees from different family and provenance. By the co-improvement method, it produced a total of tested 44 clones, from which three clones, 44, 16, and 25, observed to have superior growth performance were selected (Sunarti et al 2013)

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