Correlation between Content of Active Ingredients of Aurantii Fructus and Soil Factor / 中国实验方剂学杂志

ObjectiveTo study the correlation between the content of active ingredients of Aurantii Fructus in different main production areas and soil factors， so as to provide a theoretical basis for implementing ecological regulation of soil， improving the quality of Aurantii Fructus， and revealing the origin of genuine medicinal materials. MethodThe content of naringin， neohesperidin， total flavonoids， volatile oil， total nitrogen， total phosphorus， total potassium， and 17 soil factor-related indicators in 25 batches of Aurantii Fructus from different production areas were determined. The main soil factors affecting the content of active ingredients of Aurantii Fructus were analyzed by Pearson correlation analysis， principal component analysis， and grey correlation analysis. ResultThe pH value of the soil is between 4.83 and 8.21， and the soil is weakly acidic and neutral in general. Soil fertility exceeds the average. Pearson correlation analysis shows that the soil factors most related to the four active ingredients of Aurantii Fructus are total phosphorus， available copper， available zinc， exchangeable magnesium， available sulfur， available phosphorus， and available molybdenum. Principal component analysis shows that total nitrogen， alkali-hydrolyzable nitrogen， organic matter， available phosphorus， and available zinc are the main characteristic factors in soil. Grey correlation analysis shows that the main soil factors affecting the active ingredients of Aurantii Fructus are total phosphorus， total nitrogen， available zinc， available copper， exchangeable magnesium， and pH. ConclusionIn the cultivation of Aurantii Fructus， the medicinal material quality of Aurantii Fructus could be improved by adjusting the level of beneficial factors in the soil and improving the soil texture.

Correlation Between Functional Components in Codonopsis pilosula Roots and Soil Factors / 中国实验方剂学杂志

ObjectiveTo explore the correlation between the content of 4 functional components in Codonopsis pilosula roots from different areas and soil factors， and thereby to lay a theoretical basis for soil ecological regulation and improvement of quality of C. pilosula roots. MethodThe content of lobetyolin， atractylenolide Ⅲ， alcohol extract， and polysaccharides， as well as soil fertility and 16 soil factors in 24 batches of samples from different producing areas were determined. Principal component analysis （PCA） and Pearson's correlation analysis were used to explore the key soil factors leading to the variation of chemical component content in C. pilosula roots. ResultThe content of lobetyolin and atractylenolide Ⅲ in samples from Longxi was the highest， and the content of polysaccharides peaked in samples from Huguan. The content of lobetyolin was in positive correlation with soil total nitrogen， total phosphorus， total potassium， alkali-hydrolyzable nitrogen， and available potassium （P<0.01）， as well as soil organic matter， pH， available manganese， and available zinc （P<0.05）. There was a positive correlation between pH and atractylenolide Ⅲ content （P<0.05）. Soil total potassium was in positive correlation with alcohol extract and polysaccharide content （P<0.01）. Soil available zinc was positively correlated with alcohol extract and the polysaccharide content （P<0.05）. Sample sites with higher PCA scores were Pingshun， Huguan， and Longxi， which were significantly positively correlated with the content of polysaccharides in C. pilosula roots in different habitats. ConclusionThe content of functional components in C. pilosula roots can be improved by raising soil organic matter content and applying specific fertilizers.

Effects of ecological factors on shape and ginsenoside of Panax ginseng / 中国中药杂志

The ecological environment is closely related to the growth and quality of authentic medicinal materials. Ginseng is very strict with its natural environment and grows mostly in the damp valleys of forests, and the appearance and chemical composition of ginseng under different growth environments are very different. This article reviews the effects of different ecological factors(including light, temperature, altitude, moisture, soil factors, etc.)on the appearance and chemical composition(mainly ginsenosides) of ginseng. Through systematic review, it is found that soil physical factors are the most important ecological factors that affect the appea-rance of ginseng, and soil bulk density plays a key role; temperature affects ginsenosides in ginseng medicinal materials The dominant ecological factors for the accumulation of chemical ingredents; strong light, high altitude, high soil moisture, low soil nutrient and strong acid soil can influence the accumulation of secondary metabolites in ginseng. Environmental stress can also stimulate the formation and accumulation of secondary metabolites in medicinal plants. Appropriate low temperature stress, high or low water stress, acid or alkali stress can also promote the accumulation of ginsenosides. This article systematically reviews the ecological factors that affect the appearance and chemical composition of ginseng, and clarifies the dominant ecological factors and limiting factors for the formation of ginseng's appearance and quality, as well as beneficial environmental stress factors, in order to provide a theoretical basis for ginseng ecological planting and ginseng quality improvement.

Effects of soil factors on saikosaponin content of Bupleurum chinense in different habitats / 中草药

Objective: Soil is an important factor affecting the formation and accumulation of active ingredients in Chinese medicinal herbs. Taking 29 sample wild and cultivated Bupleurum chinense of 11 areas as study materails, using mathematical statistical analysis methods to explore the relationship between saikosaponin accumulation and soil factors in order to improve the quality of B. chinense by soil ecological regulation. Methods: HPLC analysis of the contents of saikosaponins a, c, d, e, and f from different habitats; pH, organic matter, conductivity, soil water, total nitrogen, alkaline nitrogen, available phosphorus, available potassium, effective calcium, effective magnesium, effective iron, effective copper, and effective manganese were determined by conventional soil physicochemical property assay methods, cluster analysis method was used to analyze the content of saikosaponin from different habitats, analysis of the relationship between soil factors and the content of saikosaponin by Pearson correlation analysis, analysis of soil factors using principal component analysis. Results: Determination of saikosaponin showed that higher content of saikosaponin in Henan province (habitat 5, habitat 6), total content of saikosaponin a and saikosaponin d in habitat10 was 5.16 times the national standard.Cluster analysis of B. chinense from different origins, according to the content of saikosaponin, the B. chinense from 29 habitats were grouped into three types. Pearson correlation analysis of saikosaponin content and soil factors that the organic matter in the soil was significantly positively correlated with saponin a and total saponins (P < 0.05), there was a significant positive correlation between available zinc and available iron and each saikosaponin (P < 0.05) properly improve the organic matter, effective zinc, effective ironcontent in the soil can promote the accumulation of saikosaponin.Analysis of the principal components of soil from different habitats, the higher score was habitat 9, habitat 10, habitat 11, habitat 14, habitat 19, habitat 28. This is basically consistent with the results of cluster analysis of saikosaponin content. Based on the analysis of the main soil indicators of B. chinense from different habitats that in a certain range, the higher organic and effective zinc content, the more favorable were the accumulation of saikosaponins. This was basically consistent with the results of Pearson correlation analysis. Conclusion: These results indicated enhancement of organic matter, effective zinc, in the soil can improve the saikosaponin content in cultivated B. chinense.

Study on the relationship between soil and quality of Astragalus membranaceus in Minle, Gansu / 药学实践杂志

Objective To study the relationship between the quality of Astragalus membranaceus and soil in Gansu Minle. Methods we sampled the medicinal materials and soils of Astragalus membranaceus in Minle County, and determined the medicinal quality, soil factors and heavy metal elements by high performance liquid chromatography, ultraviolet spectrophotometry, atomic absorption spectrophotometry, and etc. Results The quality of Minle Astragalus meets the requirements of the Pharmacopoeia standards and is low on the risk of heavy metal pollution. There was a significant negative correlation between the extract and the available potassium. There was a significant positive correlation between the astragaloside IV and the available potassium. There was a highly significant positive correlation between calycosin-7-glucoside and soluble salt. There was a significant positive correlation with available potassium, and a significant negative correlation with pH. Among them, soil pH value is the most important factor affecting the content of astragalus extract, astragaloside IV and verrucous glucoside, followed by total phosphorus, organic matter and total nitrogen. Conclusion The results revealed that the soil factors is the main influencing factor of the quality of Astragalus membranaceus in Minle County, which can provide a theoretical basis for the standardized cultivation of Astragalus membranaceus in Minle County.

Effects of soil factors on yield and quality of Angelica dahurica var. formosana / 中草药

Objective To study the effects of the soil factors on the yield and quality of Angelica dahurica originated from Sichuan Province.Methods The yield and contents of imperatorin,isoimperatorin,and other 11 different inorganic elements of A. dahurica,gathered from 15 different habitats of Suining in Sichuan Province were determined.And the basic soil nutrients and other 11 different mineral elements of the soil were analyzed.The effects of the soil factors on the yield and quality were analyzed through correlation analysis.Results The weight,length,circumference,and the contents of imperatorin and isoimperator in the roots of A.dahurica from different habitats were different.And the basic soil nutrients and other 11 different mineral elements of soil were different.The positive correlation between root length of A.dahurica,and soil available P content,root circumference of A.dahurica,and soil organic matter content,root weight of A.dahurica,and soil available P and K contents were all significant.The soil total nitrogen content had negatively significant correlation with the content of isoimperatorin.The correlation among the imperatorin,isoimperator contents of A.dahurica,and 11 other soil inorganic elements was not significant.Conclusion The soil factors have effects on the yield and quality of A.dahurica to some degree.