Effect of Biodelignification by Phanerochaete chrysosporium and Shade Drying Pretreatment of Melaleuca cajuputi Powell Leaves on Lignocellulose Content, Yield, Chemical Composition, and Productivity of The Essential Oil

Effect of Biodelignification by Phanerochaete chrysosporium and Shade Drying Pretreatment of Melaleuca cajuputi Powell Leaves on Lignocellulose Content, Yield, Chemical Composition, and Productivity of The Essential Oil

This research was conducted to find the effect of shade drying and <br /> <br /> biodelignification on the lignocellulose content, essential oil yield, composition, <br /> <br /> and productivity from Melaleuca cajuputi Powell leaf. Treatment used in this <br /> <br...

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Bibliographic Details
Main Author:	ANANTA PRATAMA BANGUN (NIM : 11213037), JOVI
Format:	Final Project
Language:	Indonesia
Online Access:	https://digilib.itb.ac.id/gdl/view/28335
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Institution:	Institut Teknologi Bandung
Language:	Indonesia

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Summary:	This research was conducted to find the effect of shade drying and <br /> <br /> biodelignification on the lignocellulose content, essential oil yield, composition, <br /> <br /> and productivity from Melaleuca cajuputi Powell leaf. Treatment used in this <br /> <br /> research are leaf condition (Ã‚Â“fresh leafÃ‚Â” (AR, as received); Ã‚Â“dry leafÃ‚Â” (SD, shade <br /> <br /> drying)) and time of biodelignification (0,4,8,12,16 days), so there are 10 treatment <br /> <br /> variation used: (AR-0, AR-4, AR-8, AR-12, AR-16, SD-0, SD-4, SD-8, SD-12, SD- <br /> <br /> 16). The optimum degradation was found on HWS (AR and SD) (44,44%) and <br /> <br /> lignin (only AR) (16,75%) content. The effect of shade drying on lignocellulose <br /> <br /> content related to biodelignification occured easier through the activity of fungi on <br /> <br /> Ã‚Â“freshÃ‚Â” leaf rather than Ã‚Â“dryÃ‚Â” weight. Essential oil yield of control treatment (AR- <br /> <br /> 0, SD-0) was found greater than treatment using biodelignification. However, the <br /> <br /> increase of essential oil yield was still found on Ã‚Â“freshÃ‚Â” leaf (24,32%) (AR-4 to AR- <br /> <br /> 12) and Ã‚Â“dryÃ‚Â” leaf (54,94%) (SD-8 to SD-16) treated with biodelignification. <br /> <br /> Generally, in this research it was found that the effect of shade drying on the <br /> <br /> increase of essential oil yield was insignificant. This phenomena is caused by <br /> <br /> difference of leaf density used inside the distillation feed flask between treatment <br /> <br /> using biodelignification and without biodelignification. The main compound found <br /> <br /> in the essential oil is 1,8-cineole (SD-4: 37,71%), followed by the other compounds, <br /> <br /> such as α-terpineole, α-terpineole acetate, trans-caryophyllene, α-humulene, β- <br /> <br /> eudesmol, d-limonene, viridiflorol, α-thujene, α-terpinolene, α-terpinene, γ- <br /> <br /> terpinene. Using the highest essential oil yield on this research (AR-0), it was found <br /> <br /> that the optimum essential oil productivity is 408 kg/ha/year.