[Analysis and evaluation of paddy-upland rotation of Gastrodia elata- Oryza sativa in Dabie Mountains].

Gastrodia elata, as the valuable Chinese medicinal material, has been used for more than 2 000 years in China. With the increasing market demand for G. elata, the traditional wild resources have been unable to transform into commodities. At present, local authorities give full play to the advantages of natural resources and vigorously cultivate G. elata to form the cultivation mode and technical system with local characteristics. Huanggang Comprehensive Experimental Station of National Technical System of Chinese Medicinal Materials Industry has optimized and summarized the paddy-upland rotation of G. elata-Oryza sativa in Dabie Mountains of Hubei province through field visits and guidance for four consecutive years. Based on the ecological adaptability and planting characteristics of G. elata and O. sativa, and the actual production experience of farmers, analyzed the principle of paddy-upland rotation from production environment selection and fungus treatment, and evaluated the paddy-upland rotation of G. elata-O. sativa from production status, ecological benefits, and economic benefits. The paddy-upland rotation of G. elata-O. sativa has achieved efficient cultivation of G. elata and produced considerable economic benefits. Through the summary, analysis, and evaluation of the paddy-upland rotation mode of G. elata-O. sativa in Dabie Mountains, the present study put forward the optimization strategy of cultivation technology for G. elata in low-altitude areas, i.e., to use artificial Armillaria sticks instead of traditional cut-log for substitute cultivation of G. elata, which can effectively alleviate the "bacteria-forest contradiction" arising from the cultivation of G. elata. It can also improve the ecological environment and production status of the Dabie Mountains and even the G. elata producing areas at the same altitude.

[Utilization of used fungus-growing materials of Gastrodia elata].

This study aims to explore the resource utilization of used fungus-growing materials produced in the cultivation of Gastrodia elata. To be specific, based on the production practice, this study investigated the recycling mechanism of used fungus-growing materials of G. elata by Phallus inpudicus. To screen edible fungi with wide adaptability, this study examined the allelopathic effects of Armillaria mellea secretions on P. impudicus and 6 kinds of large edible fungi and the activities of enzymes related to degradation of the used fungus-growing materials of G. elata. The results showed that P. impudicus can effectively degrade cellulose, hemicellulose, and lignin in used fungus-growing materials of G. elata. The cellulase activity of A. mellea was significantly higher than that of P. impudicus, and the activities of lignin peroxidase, polyphenol oxidase, and xylanase of P. impudicus were significantly higher than those of A. mellea, which was the important reason why A. mellea and P. impudicus used different parts and components of the used fungus-growing materials to absorb carbon sources and develop ecological niche differences. The growth of P. impudicus was significantly inhibited on the used fungus-growing materials of G. elata. The secretions of A. mellea had allelopathic effects on P. impudicus and other edible fungi, and the allelopathic effects were related to the concentration of allelopathy substances. The screening result showed that the growth and development of L. edodes and A. auricular were not significantly affected by 30% of A. mellea liquid, indicating that they had high resistance to the allelopathy of A. mellea. The results showed that the activities of extracellular lignin peroxidase, polyphenol oxidase, and xylanase of the two edible fungi were similar to those of P. impudicus, and the cellulase activity was higher than that of P. impudicus. This experiment can be further verified by small-scale production tests.

Utilization of used fungus-growing materials of Gastrodia elata / 中国中药杂志

This study aims to explore the resource utilization of used fungus-growing materials produced in the cultivation of Gastrodia elata. To be specific, based on the production practice, this study investigated the recycling mechanism of used fungus-growing materials of G. elata by Phallus inpudicus. To screen edible fungi with wide adaptability, this study examined the allelopathic effects of Armillaria mellea secretions on P. impudicus and 6 kinds of large edible fungi and the activities of enzymes related to degradation of the used fungus-growing materials of G. elata. The results showed that P. impudicus can effectively degrade cellulose, hemicellulose, and lignin in used fungus-growing materials of G. elata. The cellulase activity of A. mellea was significantly higher than that of P. impudicus, and the activities of lignin peroxidase, polyphenol oxidase, and xylanase of P. impudicus were significantly higher than those of A. mellea, which was the important reason why A. mellea and P. impudicus used different parts and components of the used fungus-growing materials to absorb carbon sources and develop ecological niche differences. The growth of P. impudicus was significantly inhibited on the used fungus-growing materials of G. elata. The secretions of A. mellea had allelopathic effects on P. impudicus and other edible fungi, and the allelopathic effects were related to the concentration of allelopathy substances. The screening result showed that the growth and development of L. edodes and A. auricular were not significantly affected by 30% of A. mellea liquid, indicating that they had high resistance to the allelopathy of A. mellea. The results showed that the activities of extracellular lignin peroxidase, polyphenol oxidase, and xylanase of the two edible fungi were similar to those of P. impudicus, and the cellulase activity was higher than that of P. impudicus. This experiment can be further verified by small-scale production tests.

[Analysis of ecological recycling modes for Gastrodia elata cultivation].

Gastrodia elata is a kind of precious traditional Chinese medicine. In artificial cultivation, it has not got rid of its dependence on forest resources. In order to maintain the balance of the ecological system and reduce the waste of resources as much as possible, based on the information from field investigation at many places, this paper introduced the new ecological circulation planting patterns of G. elata, such as "forest-G. elata" supporting planting, G. elata-edible mushroom rotation, forest-G. elata-edible mushroom three-dimensional planting, fungus material classification planting technology, and so on. In this paper, we expounded the ecological problems solved by several planting patterns in G. elata production and analyzed their shortcomings. Finally, based on the exis-ting models, a complete ecological planting system of G. elata was summarized. This planting system emphasizes: ① The follow-up forests should be started before the planting of G. elata. And the economic forests were used to cultivation of G. elata. ② The classified utilization of fungus-growing materials. The leaves were used to cultivate germination bacteria of G. elata, the small branches were used to cultivate protocorm and juvenile tuber, the large branches were used to cultivate immature tuber, and the tree trunk was used to cultivate mature tuber. ③ Recycle utilization G. elata fungus material. The old fungus materials were used to produce strains or cultivate edible fungus. This design project not only solves the problems of the source of G. elata fungus material, the efficient utilization of fungus material and land resources, but also enriches the industrial structure. Using limited time and land resources to obtain greater economic benefits. It has certain guiding significance for poverty alleviation and ecological improvement.

[Ecological benefits of Gastrodia elata-Phallus impudicus sequential planting pattern].

Gastrodia elata is a kind of precious traditional Chinese medicine. In the process of cultivation of G. elata, due to the influence of continuous cropping obstacles and other factors, the fungus materials and land that have been planted with G. elata are often abandoned, resulting in a great waste of resources. Based on the planting characteristics of G. elata and Phallus impudicus and the previous research experience in ecological agriculture, this paper analyzed the ecological adaptability characteristics of G. elata and P. impudicus, and summarized the key techniques of the G. elata-P. impudicus sequential planting pattern. Keeping track of the planting area, fungus-growing materials consumption and market sales of G. elata-P. impudicus sequential planting pattern, the ecological benefits of G. elata-P. impudicus sequential planting pattern from the aspects of utilization rate of fungus-growing materials were analyzed, the value of land resources per unit area, ecological environmental protection, labor cost and economic benefits were consi-dered. The technical principle of G. elata-P. impudicus sequential planting pattern was expounded according to their ecological habit, the season of harvest and planting, the difference of composition of fungus-growing materials, and the microbial ecology. The sequential planting pattern of G. elata-P. impudicus not only realized the double production of medicinal materials and edible fungi, reduced the waste of old fungus-growing materials, but also transformed the energy from nutrition-supplied fungi to edible and medicinal fungi, which guaranteed the ecological recycling and utilization of G. elata in the process of cultivation.

Analysis of ecological recycling modes for Gastrodia elata cultivation / 中国中药杂志

Gastrodia elata is a kind of precious traditional Chinese medicine. In artificial cultivation, it has not got rid of its dependence on forest resources. In order to maintain the balance of the ecological system and reduce the waste of resources as much as possible, based on the information from field investigation at many places, this paper introduced the new ecological circulation planting patterns of G. elata, such as "forest-G. elata" supporting planting, G. elata-edible mushroom rotation, forest-G. elata-edible mushroom three-dimensional planting, fungus material classification planting technology, and so on. In this paper, we expounded the ecological problems solved by several planting patterns in G. elata production and analyzed their shortcomings. Finally, based on the exis-ting models, a complete ecological planting system of G. elata was summarized. This planting system emphasizes: ① The follow-up forests should be started before the planting of G. elata. And the economic forests were used to cultivation of G. elata. ② The classified utilization of fungus-growing materials. The leaves were used to cultivate germination bacteria of G. elata, the small branches were used to cultivate protocorm and juvenile tuber, the large branches were used to cultivate immature tuber, and the tree trunk was used to cultivate mature tuber. ③ Recycle utilization G. elata fungus material. The old fungus materials were used to produce strains or cultivate edible fungus. This design project not only solves the problems of the source of G. elata fungus material, the efficient utilization of fungus material and land resources, but also enriches the industrial structure. Using limited time and land resources to obtain greater economic benefits. It has certain guiding significance for poverty alleviation and ecological improvement.

Ecological benefits of Gastrodia elata-Phallus impudicus sequential planting pattern / 中国中药杂志

Gastrodia elata is a kind of precious traditional Chinese medicine. In the process of cultivation of G. elata, due to the influence of continuous cropping obstacles and other factors, the fungus materials and land that have been planted with G. elata are often abandoned, resulting in a great waste of resources. Based on the planting characteristics of G. elata and Phallus impudicus and the previous research experience in ecological agriculture, this paper analyzed the ecological adaptability characteristics of G. elata and P. impudicus, and summarized the key techniques of the G. elata-P. impudicus sequential planting pattern. Keeping track of the planting area, fungus-growing materials consumption and market sales of G. elata-P. impudicus sequential planting pattern, the ecological benefits of G. elata-P. impudicus sequential planting pattern from the aspects of utilization rate of fungus-growing materials were analyzed, the value of land resources per unit area, ecological environmental protection, labor cost and economic benefits were consi-dered. The technical principle of G. elata-P. impudicus sequential planting pattern was expounded according to their ecological habit, the season of harvest and planting, the difference of composition of fungus-growing materials, and the microbial ecology. The sequential planting pattern of G. elata-P. impudicus not only realized the double production of medicinal materials and edible fungi, reduced the waste of old fungus-growing materials, but also transformed the energy from nutrition-supplied fungi to edible and medicinal fungi, which guaranteed the ecological recycling and utilization of G. elata in the process of cultivation.