Sedimentary pigments are useful proxy indicators of phytoplankton biomass, community structure, primary productivity and human influence in lacustrine and oceanic ecosystems. Pigments are relatively labile due to thei...Sedimentary pigments are useful proxy indicators of phytoplankton biomass, community structure, primary productivity and human influence in lacustrine and oceanic ecosystems. Pigments are relatively labile due to their complex chemical structures, which makes the extraction and analysis of sedimentary pigments challenging. In addition, it is important to select appropriate methods to study sedimentary pigments in regions which lack previous investigations. In this study, we adopted the L9(34) orthogonal design to develop methods of extraction and HPLC (high performance liquid chromatography) analysis of sedimentary pigments at two lakes on the Tibetan Plateau: meromictic lake-Dagze Co and dimictic lake-Jiang Co. The orthogonal design comprises 9 combinations of various parameters for extraction and HPLC analysis. The results show that the type and volume of solvent are the most important factors for pigment extraction, and the mobile phase and column selection are the most important for HPLC analysis. For the study sites, we found that the best methods to extract sedimentary pigments are as follows: the use of a mixture of acetone:methanol:water (80: 15:5, v:v:v) as the extraction solvent; sol- vent/sample ratio of 10 mL/g; sonication for 30 s and standing extraction for 6 h. The best methods for HPLC analysis are as follows: Zorbax Eclipse plus C8 column with mobile phase A, methanol:acetonitrile:0.25 M aqueous pyridine (50: 25:25, v : v : v) and mobile phase B, methanol: acetonitrile: acetone (20: 60: 20, v: v: v); pH of mobile phase A adjusted to 6 with acetic acid; and HPLC column temperature maintained at 40~C. The study provides an experimental basis for future investigations of past changes in primary productivity and the response of lake ecosystems to climate change and human activities on the Tibetan Plateau.展开更多
This paper reports the extraction of aloe-emodin from aloe by microwave-assisted extraction. The effects of various factors, including the solvent, the ratio (mL/g) of the solvent to the sample, microwave irradiatio...This paper reports the extraction of aloe-emodin from aloe by microwave-assisted extraction. The effects of various factors, including the solvent, the ratio (mL/g) of the solvent to the sample, microwave irradiation time and microwave power, were discussed in the experiments. The yield of aloe-emodin was determined by HPLC. The optimized conditions for micro- wave-assisted extraction of aloe-emodin were concluded as follows: the solvent is 80% ethanol (V/V) solution, microwave ir- radiation time is 3 rain and microwave power is 340 W. Additionally, HPLC fingerprint was developed for consistency evalua- tion of aloe. The similarities of 3 aloe samples obtained by microwave-assisted extraction, ultrasound-assisted extraction and Soxhlet extraction were more than 0.9, indicating that 3 aloe samples were consistent. Compared with Soxhlet extraction and ultrasound-assisted extraction, microwave extraction is a rapid method with higher yield and less solvent consumption. Aloe samples treated by microwave-assisted extraction, ultrasound-assisted extraction and Soxhlet extraction were observed using transmission electronic microscopy. The micrographs provide evidence of more breakage of chloroplasts treated by micro- wave-assisted extraction as compared to Soxhlet extraction and ultrasound-assisted extraction.展开更多
基金supported by National Key Basic Research Programs of China (Grant No. 2012CB956100)the National Natural Science Foundation of China (Grant Nos. 41072120 & 41321061)
文摘Sedimentary pigments are useful proxy indicators of phytoplankton biomass, community structure, primary productivity and human influence in lacustrine and oceanic ecosystems. Pigments are relatively labile due to their complex chemical structures, which makes the extraction and analysis of sedimentary pigments challenging. In addition, it is important to select appropriate methods to study sedimentary pigments in regions which lack previous investigations. In this study, we adopted the L9(34) orthogonal design to develop methods of extraction and HPLC (high performance liquid chromatography) analysis of sedimentary pigments at two lakes on the Tibetan Plateau: meromictic lake-Dagze Co and dimictic lake-Jiang Co. The orthogonal design comprises 9 combinations of various parameters for extraction and HPLC analysis. The results show that the type and volume of solvent are the most important factors for pigment extraction, and the mobile phase and column selection are the most important for HPLC analysis. For the study sites, we found that the best methods to extract sedimentary pigments are as follows: the use of a mixture of acetone:methanol:water (80: 15:5, v:v:v) as the extraction solvent; sol- vent/sample ratio of 10 mL/g; sonication for 30 s and standing extraction for 6 h. The best methods for HPLC analysis are as follows: Zorbax Eclipse plus C8 column with mobile phase A, methanol:acetonitrile:0.25 M aqueous pyridine (50: 25:25, v : v : v) and mobile phase B, methanol: acetonitrile: acetone (20: 60: 20, v: v: v); pH of mobile phase A adjusted to 6 with acetic acid; and HPLC column temperature maintained at 40~C. The study provides an experimental basis for future investigations of past changes in primary productivity and the response of lake ecosystems to climate change and human activities on the Tibetan Plateau.
基金supported by the National Key Technology R&D Program (2006BAI09B07-02)
文摘This paper reports the extraction of aloe-emodin from aloe by microwave-assisted extraction. The effects of various factors, including the solvent, the ratio (mL/g) of the solvent to the sample, microwave irradiation time and microwave power, were discussed in the experiments. The yield of aloe-emodin was determined by HPLC. The optimized conditions for micro- wave-assisted extraction of aloe-emodin were concluded as follows: the solvent is 80% ethanol (V/V) solution, microwave ir- radiation time is 3 rain and microwave power is 340 W. Additionally, HPLC fingerprint was developed for consistency evalua- tion of aloe. The similarities of 3 aloe samples obtained by microwave-assisted extraction, ultrasound-assisted extraction and Soxhlet extraction were more than 0.9, indicating that 3 aloe samples were consistent. Compared with Soxhlet extraction and ultrasound-assisted extraction, microwave extraction is a rapid method with higher yield and less solvent consumption. Aloe samples treated by microwave-assisted extraction, ultrasound-assisted extraction and Soxhlet extraction were observed using transmission electronic microscopy. The micrographs provide evidence of more breakage of chloroplasts treated by micro- wave-assisted extraction as compared to Soxhlet extraction and ultrasound-assisted extraction.
