ABSTRACT
ObjectiveTo study the effect of a microbial compound fertilizer on the growth, quality, and soil properties of Andrographis paniculata and provide a basis for its application in the cultivation and production of A. paniculata. MethodThrough five treatment tests in pots, the control group (CK, no fertilization), the treatment A group (chemical fertilization), the treatment B group (microbial fertilization at 2.5 g·kg-1 soil), the treatment C group (microbial fertilization at 7.5 g·kg-1 soil), and the treatment D group (microbial fertilization at 12.5 g·kg-1 soil) were established. The effects of a compound microbial fertilizer on the agronomic properties, the content of active ingredients, the number of rhizosphere soil bacteria, Actinomycetes, and fungi, and soil physicochemical properties of A. paniculata were studied. ResultAs compared with the CK group and the treatment A group, the plant height, leaf number, leaf area, and above-ground and below-ground fresh weight of A. paniculata were significantly increased after microbial fertilization, with differences in different growth periods. The effect of the compound microbial fertilizer on the content of andrographolide, dehydrated andrographolide, neandrographolide, and 14-deoxyandrographolide differed. The content of andrographolide significantly increased by 26.13% and 13.23% in the treatment C group, respectively, as compared with the CK group and the treatment A group (P<0.05). The content of neandrographolide increased with the increasing amount of microbial fertilizer, and the content in the treatment D group increased by 9.06% and 50.33%, respectively, as compared with the CK group and the treatment A group (P<0.05), which was the most obvious. The content of 14-deoxyandrographolide in the treatment B group significantly increased by 42.04% and 1.74%, respectively, as compared with the treatment A group and the CK group (P<0.05). The content of dehydrated andrographolide content in the treatment B group increased most significantly, significantly increasing by 11.73% and 27.74%, respectively, as compared with the CK group and the treatment A group (P<0.05). The soil pH of the treatment B, C, and D groups was higher than that of the CK group and the treatment A group. The content of total nitrogen and effective phosphorus increased most significantly in the treatment B group, and the content of fast-acting potassium increased most significantly in the treatment D group. The application of the compound microbial fertilizer increased the number of rhizosphere soil bacteria and Actinomycetes, which was significantly higher than that in the CK group and the treatment A group (P<0.05), and increased with the increase of applied amount. The number of fungi decreased with the increase of the compound microbial fertilizer application, which was significantly different from that in the CK group (P<0.05). The fungi/bacteria of all treatment groups were significantly lower than those of the CK group (P<0.05) and increased with the increase of microbial fertilizer application. ConclusionThe application of the compound microbial fertilizer transforms the plant-soil-microbial system in a benign direction, which is beneficial to the growth of A. paniculata and the accumulation of active ingredients.
ABSTRACT
Objective:To study the effects of different arbuscular mycorrhizal (AM) fungi combinations on rhizosphere soil physicochemical properties and microbial quantity in the seedlings of Paris polyphylla var. yunnanensis at different inoculation periods,so as to lay a foundation for cultivating high-quality P. polyphylla var. yunnanensis. Method:The spore density,infection rate,nutrient and enzyme activity in the soil around the roots of P. polyphylla var. yunnanensis seedlings under different AM fungi combinations and different inoculation periods were analyzed by the greenhouse pot inoculation trials and soil agrochemical analysis methods. Result:The infection rate of different AM fungi treatment groups was more than 80% in different inoculation periods,and the spore density was higher than control (CK) group in some periods. It reflected that the relationship between AM fungi and roots of Paris polyphylla seedlings was favorable. The content of nitrogen in the soil decreased,but the content of available P,available K and soil pH increased. The soil nutrients in the cultivar one-year seedlings and wild seedlings were higher. The total number of soil microorganisms showed that bacteria>actinomycetes>fungi. The cultivar two-year seedlings with AM fungi combinations of S3,S5 and S8 had better soil structure and higher biomass carbon content. The growth rates of phosphatase and protease activity were higher in the soil,but catalase activity was lowest. In the treatment groups S2,S3,S4,S5 and S6,the soil enzyme activities of the wild seedlings and one-year-old seedlings were best. Conclusion:Different AM fungal treatment groups and different inoculation periods had certain effects on rhizosphere soil physicochemical properties and microbial quantity in the seedlings of P. polyphylla var. yunnanensis, which provided a technical basis for the cultivation of P. polyphylla var. yunnanensis.
ABSTRACT
Objective:To investigate the effect of different arbuscular mycorrhizal (AM) fungi combinations on the rhizospheric environment of Paris polyphylla var. yunnanensis. Method:The different combinations of 12 arbuscular mycorrhizal (AM) fungi species were inoculated to the seedlings P. polyphylla var. yunnanensis planted in the sterilized soil under the condition of room temperature to investigate their infection abilities and effects on the root activity,soil nutrient contents,enzyme activities and microbial community structure of P. polyphylla var. yunnanensis rhizospheric environment. Result:The inoculation of exogenous AM fungi can regulate the spore densities and infection rate of P. polyphylla var. yunnanensis rhizosphere AM to improve the root activity, the exogenous AM fungi can also regulate the nutrient contents in the rhizosphere soil,increase the contents of total glomalin and easily extracted glomalin,increase the abilities of P. polyphylla var. yunnanensis to absorb the available N,P and K,and increase the enzyme activities in the rhizosphere soil, improve the microbial community structure, and improve the rhizospheric environment of P. polyphylla var. yunnanensis by increasing the bacteria/fungi and bacteria/actinomycetes quantity ratios and reducing the fungi/actinomycetes quantity ratio. Conclusion:Different AM fungal treatment groups had certain effects on the physicochemical properties and microbial community structure of the rhizosphere soil of P.polyphylla var. yunnanensis,which provided a technical basis for the cultivation of P. polyphylla var. yunnanensis.
ABSTRACT
Panax notoginseng is one of the most important traditional Chinese medicinal herbs, and it is mainly distributed in Yunnan and Guangxi Provinces and only can be planted in a very narrow geographical environment. Its yield is significantly limited by continuous cropping obstacles in the cultivation process, which has seriously affected the application and development of P. notoginseng. The dynamic patterns of root and soil rhizosphere microbial community response were main reasons for the continuous cropping obstacle. In this paper, the dynamic changes of the root and rhizosphere systems, pathogenic microorganisms and symbiotic microorganisms in the formation of P. notoginseng continuous cropping obstacles were analyzed, and the progress in this field was summarized. Two methods for studying soil and root microorganism of continuous cropping process are proposed: 1. The dynamic analysis of microorganism in the rhizosphere and root of P. notoginseng must be completed with the method of pure-culture and culture-independent; 2. Quantitative analysis of main pathogenic microorganisms of P. notoginseng. It will provide theoretical basis for overcoming continuous cropping obstacles in plant of P. notoginseng.