ABSTRACT
To clarify the difference of soil moisture characteristics between mixed broad leaf-conifer forest soil and artificial cultivation of Notopterygium incisum, the HYPROP system and the dew point potential meter were used to determine soil water retention curves(SWRC) for samples of two horizons(i.e. 2-7 cm, 10-15 cm). The basic physical and chemical properties of soil and its water characteristic parameters were also determined. The result showed as fllows:①The bulk density of mixed coniferous-broad leaf forest soil was between 0.33 and 0.52 g·cm~(-3), significantly lower than the corresponding value of field soil(1.01-1.18 g·cm~(-3))(P<0.05), While the organic matter content was significantly higher than the corresponding value of field soil(P<0.05). ②The saturated water content(θ_s), field water holding capacity(θ_(FC)) and Water that can be effectively utilized by plants(θ_(PAC)) of mixed coniferous-broadleaved forest soil were significantly higher than the corresponding value of field soil(P<0.05), while the retained water content(θ_r) value that cannot be effectively utilized by plants was significantly lower than that of field soil(P<0.05). ③The values of structural porosity(0.13-0.24 cm~3·cm~(-3)) and Matrix porosity(0.34-0.44 cm~3·cm~(-3)) of mixed coniferous-broadleaved forest soil were higher than the corresponding values of field soil. Therefore, with low bulk density and high content of organic matter, mixed coniferous-broadleaved forest soil can store more water in soil in the form of effective water to meet the needs of plants for water, thus possibly forming high quality medicinal materials of Notopterygii Rhizoma et Radix. In conclusion, the results of this study can provide theoretical basis guidance for soil structure improvement and water management to form high quality medicinal materials in the artificial cultivation of N. incisum.
Subject(s)
Apiaceae , China , Forests , Soil , Tracheophyta , WaterABSTRACT
Objective To study the estimating reserves of wild Dipsacus chinensis and provide a new method for the Chinese materia medica (CMM) resource quantitative evaluation. Methods The major contributing factors for ecological distribution of developing potentiality medicinal plants of D. chinensis were screened on the GIS platform by using the MaxEnt model, and raster data of species density and individual biomass of D. chinensis were generated by MaxEnt model and patial interpolation technology based on the field survey data. Spatial quantitative analysis and assessment of the distribution of resources of D. chinensis was performed by using ArcGIS. On this basis, a reserves assessment model was formatted for sustainable utilization of CMM resources evaluation. Results The analysis showed that the distribution area of D. chinensis was about 3.34 × 105 km2 which was mainly distributed in Hengduan Mountains and the Qinghai Plateau southeast area, and resources reserves was about 3.08 × 107 kg. The results showed that more than 69.48% resources of D. chinensis was located in Sichuan Province, and the western Sichuan such as Aba, Ganzi, and Liangshan prefectures was the highly populated areas. According to that regional center into the surrounding showed a trend of decline, the overall characteristic of individual biomass geographic distribution showed an increased trend from the vertical plane of the Hengduan Mountains as interface to both sides. The results also indicated that seasonal temperature variation coefficient, annual average temperature range, and average rainfall in April were the dominant factors contributing to the underground biomass accumulation. While mean temperature in December, monthly average rainfall in July and August were negative correlated with the underground biomass accumulation. Conclusion This study provides strong data support for the development and utilization of new resources of wild D. chinensis, and helps to establish a new way to the visual quantitative evaluation of CMM resources.
ABSTRACT
To investigate the adaptive mechanism of Notopterygium incisum to water changes, one-year-old seedlings were used as test materials. The characteristics of growth, physiology, and active ingredients of N. incisum were studied at different soil water content by pot experiments. The result showed that: ①The water content at 100% field capacity is conducive to the growth and accumulation of biomass of N. incisum. The leaf length, petiole length, petiole diameter, root diameter, root length and biomass of underground dry of N. incisum were all significantly increased at the 100% field capacity, and they slightly declined at 70% field capacity. 20% field capacity could not provide the necessary water to growth of N. incisum, all N. incisum withered and died. ②With the extension of moisture treatment time, the relative content of chlorophyll (SPAD) in leaves and the activity of peroxidase (POD) in rhizome showed a trend of increasing firstly, decreasing then; the tendency of activity of superoxide dismutase (SOD) in rhizome increased; the content of malondialdehyde (MDA) in rhizome decreased firstly and increased then;. For the late test, the SPAD value, the activity of POD and SOD in N. incisum at the 40% field capacity were lower than 70% field capacity and 100 field capacity, while the content of MDA in rhizome were higher than 70% field capacity and 100% field capacity. ③ At 70% field capacity, the active ingredients accumulated most in the N. incisum. At the 70% field capacity, the notopterol and isoimperatorinwerehigher than100 field capacity and 40 field capacity. In summary, the soil water content at 70%-100% field capacity would contribute to the growth and accumulation of active ingredients of N. incisum.
Subject(s)
Apiaceae , Chlorophyll , Seedlings , Soil , WaterABSTRACT
Notopterygii Rhizoma et Radix, the underground part of Notopterygium incisum and N. franchetii, is used as a classical traditional Chinese medicine, and as raw materials for 262 Chinese patent drugs production in 694 pharmaceutical factories currently. It plays an important role in the whole Chinese medicine industry with irreplaceable important economic and social values. However, wild resource of was abruptly depleted, and large-scale artificial cultivation has been inapplicable. In this study, Utilization history and the industrialization status of Notopterygii Rhizoma et Radix were summarized. Resource distribution, ecological suitability of Notopterygii Rhizoma et Radix and core technologies for seeds production, seedling breeding, large-scale cultivation has been reported by current studies, and basic conditions are already available for industrialization production of Notopterygii Rhizoma et Radix. However, there still some key technical problems need to be solved in the further research, and some policy dimensions need to be focused on in the coming industrialization cultivation of Notopterygii Rhizoma et Radix.