The effect of various drying strategies on the greenness chlorophyll bioactive compounds antioxidant activity and anti-tyrosinase of dried Acanthus ilicifolius L. leaves


Citation

Onwude D. I., . and Bualuang O., . and Prangsri aroon S., . The effect of various drying strategies on the greenness chlorophyll bioactive compounds antioxidant activity and anti-tyrosinase of dried Acanthus ilicifolius L. leaves. pp. 416-432. ISSN 22317546

Abstract

The most essential process of Acanthus ilicifolius L. tea production is drying. The current convective drying method (e.g. hot-air drying) of producing dried A. ilicifolius is inadequate due to its high energy consumption and long drying time thus leading to undesirable final product quality. The objective of the present work was therefore to evaluate how the different standard drying methods and conditions namely hot-air drying (HAD) microwave drying (MWD) microwave-vacuum drying (MWVD) and freeze drying (FD) affect the greenness chlorophyll content antioxidant content antioxidant activity and anti-tyrosinase activity of A. ilicifolius leaves. MWD increased the drying rate of A. ilicifolius leaves by 6.7 times as compared to HAD. The logarithmic model best described moisture evolution during MWD and MWVD. The coefficient of diffusivity for MWD and MWVD was 10 times higher than that of HAD. The greenness of samples dried using HAD MWD and MWVD was 58.6 - 78.9 51.7 - 73.9 and 56.4 - 68.8 lower than that of FD respectively. As compared to HAD at 80C the greenness of the sample dried using MWD and MWVD at 700 W was 16.63 and 5.18 higher respectively. MWD at 700 W was the best condition for minimising decomposition of the flavonoids (26.0) and antioxidant activity namely DPPH assay (27.9) FRAP scavenging (37.1) reducing power (29.8) Fe� chelating ability (22.9) and Fe�-1 10-Phenanthroline reducing (33.6) of these medicinal leaves as compared to FD. Chlorophyll content total phenolics ABTS assay and tyrosinase enzyme inhibition of leaves dried at MWD 700 W were not significantly different from those of the FD sample.


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Abstract

The most essential process of Acanthus ilicifolius L. tea production is drying. The current convective drying method (e.g. hot-air drying) of producing dried A. ilicifolius is inadequate due to its high energy consumption and long drying time thus leading to undesirable final product quality. The objective of the present work was therefore to evaluate how the different standard drying methods and conditions namely hot-air drying (HAD) microwave drying (MWD) microwave-vacuum drying (MWVD) and freeze drying (FD) affect the greenness chlorophyll content antioxidant content antioxidant activity and anti-tyrosinase activity of A. ilicifolius leaves. MWD increased the drying rate of A. ilicifolius leaves by 6.7 times as compared to HAD. The logarithmic model best described moisture evolution during MWD and MWVD. The coefficient of diffusivity for MWD and MWVD was 10 times higher than that of HAD. The greenness of samples dried using HAD MWD and MWVD was 58.6 - 78.9 51.7 - 73.9 and 56.4 - 68.8 lower than that of FD respectively. As compared to HAD at 80C the greenness of the sample dried using MWD and MWVD at 700 W was 16.63 and 5.18 higher respectively. MWD at 700 W was the best condition for minimising decomposition of the flavonoids (26.0) and antioxidant activity namely DPPH assay (27.9) FRAP scavenging (37.1) reducing power (29.8) Fe� chelating ability (22.9) and Fe�-1 10-Phenanthroline reducing (33.6) of these medicinal leaves as compared to FD. Chlorophyll content total phenolics ABTS assay and tyrosinase enzyme inhibition of leaves dried at MWD 700 W were not significantly different from those of the FD sample.

Additional Metadata

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Item Type: Article
AGROVOC Term: Herbs (herbaceous plants)
AGROVOC Term: Acanthaceae
AGROVOC Term: Shrubs
AGROVOC Term: Medicinal plants
AGROVOC Term: Leaves
AGROVOC Term: Drying
AGROVOC Term: Microwave treatment
AGROVOC Term: Vacuum drying
AGROVOC Term: Hot air drying
AGROVOC Term: Freeze drying
Depositing User: Mr. AFANDI ABDUL MALEK
Last Modified: 24 Apr 2025 00:55
URI: http://webagris.upm.edu.my/id/eprint/10646

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