OBJECTIVETo investigate the appearance and moisture, ash content, extract, volatile oil of Panax ginseng and its processed products from different producing areas of northeast China, and thus provide the useful reference data for its quality standard establishment and standardized cultivation.

METHODBase on the Chinese Pharmacopoeia and literatures relating to P. ginseng, the content of moisture, ash, extract, volatile oil in P. ginseng and its processed products from northeast 10 different producing areas were measured, and data analysis of these various indicators was carried out by DTOPSIS.

RESULTThe samples from Changbai, Jian Kangmei and Fusong reached the standard of Chinese pharmacopoeia and national standard, and in addition comprehensive evaluation indicators of them were higher than others samples.

CONCLUSIONThe quality of ginseng from different producing areas appears very different. Some samples failed to reach the standard of Chinese pharmacopoeia and national standard. Ginseng samples from those 3 producing areas of GAP planting bases showed good quality, which reflects the importance of GAP for ginseng cultivation.

China ; Drugs, Chinese Herbal ; chemistry ; Oils, Volatile ; chemistry ; Panax ; chemistry ; growth & development ; Plant Roots ; chemistry ; growth & development

The influence on 10 kinds of ginsensides of different processed methods of Panacis Quinquefolii Radix was discussed. White Panacis Quinquefolii Radix (sliced and dried at -80 °C), red Panacis Quinquefolii Radix( steamed, sliced and dried at -80 °C) and commercial Radix Panacis Quinquefolii (dried by electric blast air) processed by different methods. HPLC-PDA-ESI- MS method was established before by our team. Ten kinds of ginsenosides of them were determined. The content of total ginsenosides were as follow: commercial Panacis Quinquefolii Radix > white Panacis Quinquefolii Radix > red Panacis Quinquefolii Radix. Compared with white Panacis Quinquefolii Radix, the content of Re, Rc, Rb3 and Rb2 of Red Radix Panacis Quinquefolii decreased but increased that of Rg,, Rb1. Both Rg2 and Rg, were not found in white Panacis Quinquefolii Radix and commercial Panacis Quinquefolii Radix by PDA detector, and low response in ESI-MS, while red Panacis Quinquefolii Radix was to the high content that of 0. 027% and 0.040 1%. The constituent of RA0 of red Panacis Quinquefolii Radix was higher than the other two. After Panacis Quinquefolii Radix processed, the kind and content of ginsensides were significantly changed. The constituent of some kinds of ginsensides was increased and some decreased. Rf was not found in all Panacis Quinquefolii Radix samples which were consistent with the former documents.
Chemistry, Pharmaceutical ; methods ; Ginsenosides ; chemistry ; Mass Spectrometry ; Panax ; chemistry ; growth & development ; Plant Extracts ; chemistry ; Plant Roots ; chemistry

OBJECTIVETo study effects of different interval year on Panax notoginseng plant soils middle and micro element content.

METHODThe dynamic change of Ca, Mg, Mn, Cu, Zn, B from Mabai, Matang, Gumu and Panlong were determined under different planting patterns (new soil, interval 5 years soil and continuous cropping soil).

RESULTAll the micro elements (except Ca, Mg) of interval 5 years soil and continuous cropping soil were significantly higher than those of new soil. All the middle and micro elements (except B) of interval 5 years soil were significantly higher than those of the continuous cropping soil. Planting patterns had remarkable influence on the content of Mn, Cu, B, but not Zn Ca, Mg. Cu, Ca under the 3 planting patterns, and Zn under the continuous cropping pattern did not show significant quarter changes. B content increased with the elongation of implantation time. Zn in new soil and interval 5 years also increased with prolonging of planted time. Mg, Mn and Cu content reached to peak value on April next year, and reached to minimum on the end of this experiment. Compared with new soil, the proportion of Mn, Cu in total elements increased by 29%, 114%, Mg, B decreased by 18%, 38%, Zn and Ca changed slightly of interval 5 years soils; In continuous cropping soil, Mn, Cu and B increased by 50%, 120%, 22%, respectively, but Zn, Ca, Mg had no significant change.

CONCLUSIONContinuous cropping pattern could not induce the deficient of soil middle and micro elements, and thereafter might not result in continuous cropping obstacles. But the imbalance proportional of soil middle and micro elements in P. notoginseng plant soils may be one of the main reasons for continuous cropping obstacles.

China ; Kinetics ; Panax notoginseng ; growth & development ; Soil ; chemistry ; Time Factors ; Trace Elements ; chemistry

Panax ginseng is the king of herbs and plays important roles in the traditional Chinese medicine industry. In this paper, we summarized the development of ginseng cultivation in China and other main countries, analyzed the effects of ecological factors of soil and climate on ginseng distribution, and investigated the characteristic of main cultivation patterns (conversion of forest to cultivate ginseng soils, cultivated ginseng in the farmland and wild nursery). Aimed at the serious issues in the cultivation, research strategies have been provided to guarantee the sustainable development of the ginseng industry. The patterns of cultivated ginseng in the farmland should be strive to develop; pollution-free cultivation and studies of continuous cropping obstacles should be carried out; ginseng varieties suited to ecological environment of farmland should be bred using modern biotechnology.
Agriculture ; methods ; China ; Climate ; Ecosystem ; Panax ; chemistry ; growth & development ; Soil ; chemistry

OBJECTIVETo analyze ginsenosides composition in wild ginseng leaves with different growth years.

METHODThe analysis was performed on Acquity UPLC BEH Shield RP18 (2.1 mm x 100 mm, 1.7 microm) column, the mobile phase was acetonitrile-0.05% formic acid solution in gradient elution mode. The detection wavelength was at 203 nm. The flow rate was 0.4 mL x min(-1) and column temperature was set at 30 degrees C.

RESULTThirteen ginsenosides were determined by the established UPLC method. In 5-17th growth year ginseng leaf samples cultivated simulating wild conditions, the contents of ginsenosides in the 14th year have the highest content.

CONCLUSIONThe established method is simple, accurate and reliable, can be used in ginsenosides determination and fingerprint research of Panax crude drug. The result provides reliable data for the accumulation of ginsenosides and sustainable utilization of ginseng resources.

Drugs, Chinese Herbal ; analysis ; Ginsenosides ; analysis ; Panax ; chemistry ; growth & development ; Plant Leaves ; chemistry ; growth & development ; Time Factors

The chemical constituents of the roots and rhizomes of Panax ginseng were systematically investigated by various column chromatographic methods including Amberlite XAD-4 macroporous adsorptive resins and silica gel as well as high-performance liquid chromatography, and their chemical structures were identified by physico-chemical properties and spectral analyses. Twenty-eight compounds were isolated from the 70% ethanolic-aqueous extract and identified as koryoginsenoside R1 (1), ginsenoside Rg1 (2), ginsenoside Rf (3), notoginsenoside R2 (4), ginsenoside Rg2 (5), notoginsenoside Fe (6), ginsenjilinol (7), ginsenoside Re5 (8), noto-ginsenoside N (9), notoginsenoside R1 (10), ginsenoside Re2 (11), ginsenoside Re1 (12), ginsenoside Re (13), ginsenoside Rs2 (14), ginsenoside Ro methyl ester (15), ginsenoside Rd (16), ginsenoside Re3 (17), ginsenoside Re4 (18), 20-gluco-ginsenoside Rf (19), ginsenoside Ro (20), ginsenoside Rc (21), quinquenoside-R1 (22), ginsenoside Ra2 (23), ginsenoside Rb1 (24), ginsenoside Ra1 (25), ginsenoside Ra3 (26), ginsenoside Rb2 (27), and notoginsenoside R4 (28). All isolated compounds are 20 (S) -protopanaxadiol or protopanaxatriol type triterpenoid saponins. Compound 1 was isolated from the roots and rhizomes of P. ginseng cultivated in Jilin province for the first time and compound 6 was isolated from the roots and rhizomes of P. ginseng for the first time. The 1H-NMR data of compounds 6, 14 and 19 were assigned for the first time.
China ; Drugs, Chinese Herbal ; chemistry ; Ginsenosides ; chemistry ; Molecular Structure ; Panax ; chemistry ; growth & development ; Plant Roots ; chemistry ; growth & development ; Sapogenins ; chemistry ; Spectrometry, Mass, Electrospray Ionization

The output and agronomic characters of 3-year-old Panax notoginseng cultured under stereo structure (upper, middle and down layers) were investigated, and the annual change of N, P and K of its planting soil were also studied. Results showed that, compared with field cultured Panax notoginseng, growth vigour and output of stereo-cultivation were significantly lower. But the total production of the 3 layers was 1.6 times of field. The growth vigor and production of P. notoginseng was in the order of upper layer > middle layer > down layer. The content of ginsenoside in rhizome, root tuber and hair root of P. notoginseng was in the order of upper layer > field > middle layer > down layer. Organic matter content and pH of stereo-cultivation soil decreased with the prolonging of planting time, which with the same trend of yield. Organic matter content of stereo-cultivation soil was significantly higher than field, but the pH was significantly lower. Contents of total and available N, P and K in stereo-cultivation soil and field decreased with the prolonging of planting time. The content of N and P were in the order of upper layer > middle layer > yield > down layer, the content of K was in the order of upper layer > middle layer > down layer > yield. Compared with field, the proportion of N and P in the organ of underground (rhizome, root tuber and hair root) of upper layer were increased, while decreased in middle and down layers. Proportion of K in underground decreased significantly of the 3 layers. In conclusion, the agronomic characters and production of stereo-cultivation were significantly lower than that of yield. But the total production of the 3 layers were significantly higher than field of unit area. And the aim of improving land utilization efficiency was achieved. Nutritions in the soil of stereo-cultivation were enough to support the development of P. notoginseng, which was not the cause of weak growth and low production. The absorbing ability of P. notoginseng to N, P and K nutrients was decreased by stereo-cultivation mode. So, improve the growth vigour of P. notoginseng from the perspective of adjusting the stereo-cultivation mode so as to improve the nutrient absorption capacity is the future direction.
Food ; Hydrogen-Ion Concentration ; Nitrogen ; analysis ; Panax notoginseng ; growth & development ; Phosphorus ; analysis ; Potassium ; analysis ; Soil ; chemistry

OBJECTIVEThe studies were carried out on the physiologic characteristics of Panax notoginseng seeds during the after--ripening process in order to understand the seed's biochemical and physiological changes and lay the foundation for the germplasm conversation and breeding research of P. notoginseng seeds.

METHODDynamic changes of storage material contents, respiratory rate and protective enzymatic activity were determined by normal biochemical and physiological measuring methods.

RESULTThe respiratory rate increased continuously during the stratification process, the contents of starch, soluble protein, crude fat decreased and the content of water-soluble saccharide increased with the embryo development, activities of CAT, POD and SOD increased with the raise of MDA content.

CONCLUSIONP. notoginseng seed's biochemical and physiological changes interacted with its embryo morphological changes to complete its after-ripening development.

Catalase ; metabolism ; Oxygen Consumption ; Panax notoginseng ; chemistry ; physiology ; Seeds ; growth & development ; Superoxide Dismutase ; metabolism

Characteristics of fructification and seed ripening of Panax stipuleanatus were studied in this paper with a view to better understand the species' biological characteristics and promote cultivation. Dynamic of fructification and types of fruits were observed in a period of 80 days. The seeds' biological characteristics were evaluated by observing embryo's vitality and changes in form in a period of 225 d. The findings and conclusions were as follows: A plant produces an average of (38.7 +/- 6.5) seeds; Seeds become fully mature 80 days after setting fruit, and fruits grow more rapidly in 0-40 days with an increase of 1 500.83% in fresh weight. Three types of fruits were found, that is mono-seed type, bi-seeds type and triple-seeds type, and the proportion is 9.53%, 58.66%, 1.81%, respectively. The seeds are (5.16-6. 52) mm in length and (3.12-4.95) mm in width. The weight of 1000 seeds is (0.648 +/- 0.014) g with a moisture content of (55.23 +/- 0.49)%. The after-ripening of embryo in Panax stipuleanatus is morphological form, embryos develop 75 days after the seeds' detaching from mother plant and become mature in 165-180 days with the ending of the process of after-ripening. The vitality of embryo reaches 70% , and the length of embryo is (3.217 +/- 0.406) mm and the width (0.872 +/- 0.165) mm. The seeds will germinate in 195 d.
Fruit ; growth & development ; Germination ; physiology ; Kinetin ; biosynthesis ; metabolism ; physiology ; Panax ; chemistry ; physiology ; Physiological Phenomena ; Seeds ; physiology

OBJECTIVETo compare the quality of red ginseng in different transplanting systems, and thus provide the basis for ginseng cultivation and processing.

METHODBased on the Chinese Pharmacopoeia and literature relating to red ginseng, the ten ginsenosides, total ash, acid-insoluble ash, volatile oil, ether extract and total protein of red ginseng in different transplanting systems were studied or determined.

RESULT AND CONCLUSIONThe content of total ash and acid-insoluble ash in red ginseng was less than 5.0%, 0.3%, respectively. The content of three ginsenosides (Rg1, Re, Rb1) was in accordance with the requirements of Chinese Pharmacopoeia version 2010, and the content of ten ginsenosides was significant different.

China ; Chromatography, High Pressure Liquid ; Drugs, Chinese Herbal ; analysis ; Panax ; chemistry ; growth & development ; Quality Control