Effect of fertilization on phenolic components and antioxidant activities of Artemisia annua.
- Author:
Shi-Qiong LUO
1
;
Ling YUAN
;
Ye-Kuan WU
;
Jian-Guo HUANG
Author Information
- Publication Type:Journal Article
- MeSH: Antioxidants; analysis; metabolism; Artemisia annua; chemistry; growth & development; metabolism; Fertilizers; analysis; Phenols; analysis; metabolism; Plant Leaves; chemistry; growth & development; metabolism; Plant Roots; chemistry; growth & development; metabolism
- From: China Journal of Chinese Materia Medica 2013;38(10):1493-1499
- CountryChina
- Language:Chinese
-
Abstract:
OBJECTIVEA pot experiment with variable fertilizer treatments was carried out to study the influence of fertilization on the concentration and accumulation of polyphenols, scopoletin, chrysosplenol-D and chrysosplenetin in roots, stems and leaves and their antioxidant activities. The main aims were to fertilize scientifically in cultivation of Artemisia annua and improve the quality of the harvest organs.
METHODThese active components in leaves, stems and roots in the squaring stage were analyzed by HPLC and antioxidant activities of the extracts were evaluated by ultraviolet visible light colorimetric method.
RESULTThe result showed the highest concentration of polyphenols, scopoletin, chrysosplenol-D and chrysosplenetin was in leaves, followed by stems and the lowest in roots. The antioxidant activities of the leaf extracts correlated positively with the concentrations of polyphenols, scopoletin, chrysosplenol-D and chrysosplenetin. Furthermore, fertilization promoted significantly the growth of A. annua, the biomass was increased by 57.37% (chemical fertilizer), 91.63% (mixture of chemical fertilizer and manure) and 92.27% (manure), respectively, compared to the blank control (without fertilizer). Fertilization, particularly mixture fertilization of chemical fertilizer and manure, increased generally the concentration and accumulation of polyphenols, scopoletin, chrysosplenol-D and chrysosplenetin as well as DPPH x scavenging ratio.
CONCLUSIONScopoletin, chrysosplenol-D and chrysosplenetin could be synthesized and stored mainly in leaves. The leaves might thus be the chief organ of A. annua for medical treatment. Finally, the mixture fertilization of chemical fertilizer and manure should be used to increase the yield and quality of A. annua.