Principales preservadores maderables y exudados microbianos con actividad antagonista al desarrollo en agentes biológicos deletéreos

García-Ortiz, Vanessa Ruby; Benítez-Rocha, Gabriela; Martínez-Pacheco, Mauro M.; Velázquez-Becerra, Crisanto

doi:10.18781/r.mex.fit.1704-2

Cited by 1 publication

(1 citation statement)

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“…The industry for the chemical preservation of wood developed at the beginning of the 19 th century and has been of great technological, social, historical, and economic importance, using extremely effective mixtures of mineral salts with organic molecules. Mixtures such as Copper/Chromium/Arsenical salts (CCA); Copper/Azoles/Organics (CA); Coppers/Azoles/Organics/Boron (CAB); Pentachlorophenol (PCF); Arsenic/Copper/Ammonia (ACA); Chromium/Zinc/Chlorine (CZC), among others, to control the growth and proliferation of bacteria, fungi, and insects in wood [12,13]. Those compounds are highly effective to inhibit and eliminate microbial growth since lignocellulosic materials treated with CCA and exposed to extreme environmental conditions (high humidity and temperature) can maintain a useful life for decades.…”

Section: Introductionmentioning

confidence: 99%

Antifungal Activity of Crude Extracts of Tectona grandis L.f. against Wood Decay Fungi

C醨camo-Ibarra¹,

Mart韓ez-Pacheco²,

Munro-Rojas³

et al. 2022

Phyton

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Wood is mainly made up of cellulose, hemicelluloses, lignin polymers and other organic and inorganic substances, making it susceptible to deteriorate by various biological agents. Tectona grandis L.f. (Teak) is a timber species with high resistance to biological deterioration, valued for its durability, beauty, and mechanical resistance. The purpose of this work was to evaluate the antifungal activity of crude extracts from teak on various fungi that cause wood deterioration. For this, Teak heartwood was obtained, then fragmented and pulverized until obtaining a flour which was used for compounds extraction using the Soxhlet technique coupled to a rotary evaporator through solvents of increasing polarity (hexane, dichloromethane, tetrahydrofuran, and acetone). The extracts obtained were tested against fungal organisms collected in the field, and the LC 50 was determined using teak crude extracts on Artemia salina as a biological model. The results obtained showed that a high flour yield was obtained with hexane (0.951 g), followed by tetrahydrofuran (0.446 g), dichloromethane (0.348 g), and acetone (0.152 g). By using nine fungal organisms that predominantly correspond to the genus Aspergillus, the extractable compounds were tested, inhibiting 25% of mycelial growth with tetrahydrofuran (T. versicolor), and 40.9% with dichloromethane (G. trabeum). Likewise, the biological model of A. salina showed an LC 50 of 84.9 μg/mL with hexane, 43.3 μg/mL with dichloromethane, 59.6 μg/mL with tetrahydrofuran, and 54.7 μg/mL with acetone. For this reason, it is concluded that Teak wood contains many extractable compounds in relation to its weight, besides having antimicrobial activity when extracted through polar compounds such as dichloromethane and tetrahydrofuran.

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Section: Introductionmentioning

confidence: 99%