INFLUENCE OF DIFFERENT DRYING METHODS ON YIELD, DENSITY, COLOR, AND CHEMICAL COMPOSITION OF THE ESSENTIAL OIL OF Ocotea lancifolia (SCHOTT) Mez LEAVES

INFLUENCE OF DIFFERENT DRYING METHODS ON YIELD, DENSITY, COLOR, AND CHEMICAL COMPOSITION OF THE ESSENTIAL OIL OF Ocotea lancifolia (SCHOTT) Mez LEAVES

ABSTRACT The compounds in essential oils (EOs) are directly linked to their potential use. Drying methods are used to process large amounts of plant material while maintaining or even maximizing quality. This study observed the influence of different drying methods on the yield, density, organolepti...

Full description

Saved in:
Bibliographic Details
Main Authors: Bibiana Fontana Batista, Nadia Helena Bianchini, Alana Silveira Pavlack, Guilherme Elías Andrade, Marlove Fátima Brião Muniz, Berta Maria Heinzmann
Format: Article
Language:English
Published: Sociedade de Investigações Florestais 2025-06-01
Series:Revista Árvore
Subjects:
Natural compound
Plant extractive
Caryophyllene oxide
Online Access:http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0100-67622025000100211&lng=en&tlng=en
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:ABSTRACT The compounds in essential oils (EOs) are directly linked to their potential use. Drying methods are used to process large amounts of plant material while maintaining or even maximizing quality. This study observed the influence of different drying methods on the yield, density, organoleptic properties, and chemical components of EOs from Ocotea lancifolia leaves, comparing them with oils from fresh leaves. Fresh plant material (F) was subjected to hydrodistillation, a method also used for leaves after air drying (AIR), freezedrying (FL), microwaving (MW), and oven drying at 45 °C (OD 45) or 60 °C (OD 60). Drying and extraction were performed in triplicate, using 350 g of fresh leaves and 250 g for the other samples. Yield was calculated as a percentage. Chemical compositions were analyzed by gas chromatography (GC). EO yields were: 0.4863% (F); 0.7400% (AIR); 1.050% (FL); 1.1167% (MW); 0.5867% (OD 45) and 0.7487% (OD 60). Microwaving and freeze-drying provided the highest yields. No differences in densities were observed. A drastic color change was noted in the EOs from leaves dried in an oven at 45 °C and 60 °C. The major compound identified was caryophyllene oxide, with percentages varying among treatments. Other components showed significant differences in structure and/or percentage. Drying time and temperature influenced modifications and degradation of some compounds, sometimes resulting in changes in EOs color and composition.
ISSN:1806-9088

Similar Items