Method for artificially forming thelephora ganbajun fungal colony (shiro)

A dry fungus pond and dry fungus technology, which is applied in the field of wild fungal resource utilization and wild fungus reproduction, can solve the problems of non-fixed-point formation of fungal ponds, slow symbiotic system, and inability to effectively promote dry fungus breeding, etc. And the effect of energy cycle speed, vigorous vitality, and high probability of inoculation survival

Active Publication Date: 2019-11-19
SHAANXI UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In the prior art, though seedlings infecting afforestation and pine young roots can retain fungal propagules in the soil and spores and hyphae in the soil, the speed of forming a symbiotic system is slow, and there are accidental factors, so it cannot be formed at a fixed point. Bacteria pond, which can not effectively promote the breeding of dry bacteria

Method used

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  • Method for artificially forming thelephora ganbajun fungal colony (shiro)
  • Method for artificially forming thelephora ganbajun fungal colony (shiro)
  • Method for artificially forming thelephora ganbajun fungal colony (shiro)

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0049] A method for artificially forming a dried bacteria pond, the specific steps of which are:

[0050] 1) Select the appropriate strains in advance during the growing season of the fungus, choose the fungus that has no influence on humans and animals, and can grow in a sealed environment until November as seeds, and mark them, and let them dry naturally in the bacteria pond under natural conditions, then collect and grind them Powdered, passed through a 20-mesh sieve, dried and refrigerated;

[0051] 2) Collect mature and plump dried fungus fruiting bodies, remove weeds and soil, shred them, add the shredded dried fungi to the solvent bottle, cover the mouth of the bottle with gauze, put it in an inoculation box in a ventilated environment, and store it at 20°C for 15 days , add water once every two days to ensure that the whole is moist. When the surface layer of the mycelium of the dried bacteria is rotten and the solid-liquid layer is separated; Fraction 50% ethanol sol...

Embodiment 2

[0063] A method for artificially forming a dried bacteria pond, the specific steps of which are:

[0064] 1) Select the appropriate strains in advance during the growing season of the fungus, choose the fungus that has no influence on humans and animals, and can grow in a sealed environment until November as seeds, and mark them, and let them dry naturally in the bacteria pond under natural conditions, then collect and grind them Powdered, passed through a 20-mesh sieve, dried and refrigerated;

[0065]2) Collect mature and plump dried fungus fruiting bodies, remove weeds and soil, shred them, add shredded dried fungus to the solvent bottle, cover the mouth of the bottle with gauze, place it in an inoculation box in a ventilated environment, and store it at 29°C for 10 days. Add water once every two days to ensure the overall moistness. When the surface layer of the dried fungus mycelium is rotten, the solid-liquid layer is separated, and the liquid color turns from golden yel...

Embodiment 3

[0077] A method for artificially forming a dried bacteria pond, the specific steps of which are:

[0078] 1) Select the appropriate strains in advance during the growing season of the fungus, choose the fungus that has no influence on humans and animals, and can grow in a sealed environment until November as seeds, and mark them, and let them dry naturally in the bacteria pond under natural conditions, then collect and grind them Powdered, passed through a 20-mesh sieve, dried and refrigerated;

[0079] 2) Collect mature and plump dried fungus fruiting bodies, remove weeds and soil, shred them, add shredded dried fungus to the solvent bottle, cover the mouth of the bottle with gauze, put it in an inoculation box in a ventilated environment, and store it at 24°C for 7 days. Add water once every two days to ensure the overall moistness. When the surface layer of the dried fungus mycelium is rotten, the solid-liquid layer is separated, and the liquid color turns from golden yello...

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Abstract

The invention discloses a method for artificially forming a thelephora ganbajun fungal colony (shiro). The method includes the following steps: selecting an appropriate forest land and young pines, artificially excavating a fungal colony (shiro), adding highly-dispersing resin particles and amines and amides extracted from rotten thelephora ganbajun into the soil of the fungal colony (shiro), artificially monitoring and maintaining, promoting adaptability of thelephora ganbajun propagules to the soil, rapidly promoting the growth of a symbiosis system for fungi and plants, and forming the fungal colony (shiro) that enables thelephora ganbajun trophozoites to grow normally and hyphae to be active. The method has the advantages of simple operation, high survival probability of inoculation, rapid symbiosis system formation, and short period of forming the fungal colony (shiro). Resin sol is utilized to act with soil and form an area distributed with organic matter and minerals and inorganic salt; information transferring rate between pines and thelephora ganbajun is improved; the adsorption of the soil expedites the generation of microorganism under trees; the water-retaining capability of the soil is improved; circulating speed of substances in forest land and energy are actually quickened.

Description

technical field [0001] The invention relates to the technical field of utilization of wild fungus resources and wild fungus propagation, in particular to a method for artificially forming a fungus pond. Background technique [0002] Ganba bacteria, also known as hydrangea and horse tooth bacteria, are the fruiting bodies of fungi that are symbiotic with yunnan pine. In recent years, the rapid development of the technology of promoting the growth of Dried bacterium, the current research results show that the symbiotic relationship between the vegetative mycelium of Dried bacterium and the pine tree is a complex process, which has very important and unique physiological and biochemical processes; due to the existence of the symbiotic relationship, The material exchange between fungi and pine trees is a continuous, stable, long-term and efficient mode. The latest research results show that compared with pine trees, D. spp. is a kind of nitrogen-fixing bacteria. Its nitrogen fi...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A01G18/00C09K17/14C09K101/00
CPCA01G18/00C09K17/14C09K2101/00
Inventor 常相娜李跃童
Owner SHAANXI UNIV OF SCI & TECH
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