CN110692432A

CN110692432A - Method for improving morchella planting soil

Info

Publication number: CN110692432A
Application number: CN201910901187.5A
Authority: CN
Inventors: 刘传会; 陈进林; 丁玲; 邹丹; 杨哲; 尚贞明
Original assignee: Xiangyang Vocational and Technical College
Current assignee: Xiangyang Vocational and Technical College
Priority date: 2019-09-23
Filing date: 2019-09-23
Publication date: 2020-01-17

Abstract

The invention relates to the technical field of morchella planting, in particular to a method for improving morchella planting soil. The method for improving the toadstool planting soil provided by the invention comprises the steps of firstly selecting a proper land, then scattering slaked lime powder into the land and carrying out insolation treatment, carrying out sterilization treatment by matching the slaked lime powder and the insolation treatment, then planting grass plants to primarily improve soil texture, simultaneously carrying out fermentation treatment on the harvested grass plants to prepare a modifier for improving the soil again, wherein the improved soil can better adapt to the growth of toadstool, and then adjusting the pH value of the soil to a neutral condition suitable for the growth of the toadstool; the applicability is wide, the method can be suitable for improving various kinds of soil, the planting requirements of morchella can be met, grass plants are fermented and utilized, and the cost is low; when the grass family plants are fermented, a certain amount of humic acid, chicken manure, sodium chloride, magnesium sulfate and the like are added, so that the nutrition is rich, and more comprehensive and easily absorbed nutrient elements can be provided for the growth of morchella at the later stage.

Description

Method for improving morchella planting soil

Technical Field

The invention relates to the technical field of toadstool strain planting, in particular to a method for improving toadstool strain planting soil.

Background

The morchella is a rare edible fungus variety, the name of the morchella is that the surface of the cap of the morchella is uneven and the cap of the morchella is like a morchella, modern medicine shows that the morchella has medical effects of four resistance, two reduction and one regulation, has the functions of resisting rays, resisting tumors, resisting oxidation, resisting fatigue, reducing blood pressure and blood fat and regulating immunity, and meanwhile, the morchella is quite rich in nutrition, the cap part of the morchella contains 7 amino acids which are necessary for human bodies, namely isoleucine, leucine, lysine, methionine, phenylalanine, threonine and valine, and also contains vitamin B1, vitamin B2, vitamin B12, nicotinic acid, pantothenic acid, pyridoxine, biotin and folic acid vitamin. The morchella has the effects of nourishing brain, refreshing, tonifying kidney, strengthening yang and the like, has higher nutritive value and delicious taste, is beneficial to intestines and stomach, can effectively treat indigestion, excessive phlegm, short breath and other diseases, and has unique health-care effect. Therefore, the morchella is a rare edible medicinal fungus with wide prospect, in recent years, scientific workers in China have conducted many explorations on artificial cultivation of the morchella, and the artificial cultivation of the morchella has certain progress and breakthrough in China, but the problem of artificial cultivation of the morchella cannot be fundamentally solved.

The requirements on the soil environment during morchella planting are higher, and the soil of the soil needs to be adjusted before morchella planting, so that the planting requirements of morchella can be met.

Disclosure of Invention

The invention provides a method for improving morchella planting soil, aiming at the technical problems in the prior art, the method has good degerming effect and can improve soil fertility, and the improved soil morchella grows well and has high yield.

The technical scheme for solving the technical problems is as follows: a method for improving morchella planting soil comprises the following steps:

(1) selecting a land block which is leeward and exposed to the sun;

(2) uniformly spreading slaked lime powder in the plots, and then deeply ploughing and exposing the plots for 20-30 days;

(3) broadcasting the grass plants in the land after deep ploughing and insolating, and completely cutting and removing the roots of the grass plants when the grass plants grow to 10-20 cm;

(4) exposing the obtained grass family plant to the sun at 30-40 deg.C for 3-7 days, and fermenting the exposed grass family plant to obtain soil conditioner;

(5) uniformly spreading the soil conditioner obtained in the step (4) on a land block according to 0.8-1 ton per mu, and then ploughing by using a micro-cultivator with the ploughing depth of 20-30 cm;

(6) and uniformly spreading slaked lime powder to the land parcel to adjust the pH value of the soil to 6.5-7.5, and ploughing again.

Wherein the fermentation of the exposed grass plants comprises the following steps: pulverizing the plant of the grass family after insolation, adding humic acid, sodium chloride, magnesium sulfate, glucose and chicken manure into the pulverized plant of the grass family, keeping the water content at 20-30%, and performing composting fermentation for 20-50 days.

More specifically, when the grass family plants are fermented, the mass ratio of the grass family plants, humic acid, sodium chloride, magnesium sulfate, glucose and chicken manure is as follows: 400 parts of grass family plants, 90-100 parts of humic acid, 10-20 parts of sodium chloride, 10-15 parts of magnesium sulfate and 80-120 parts of chicken manure.

Preferably, when the grass family plants are fermented, the mass ratio of the grass family plants, humic acid, sodium chloride, magnesium sulfate, glucose and chicken manure is as follows: 350 parts of grass plants, 95 parts of humic acid, 15 parts of sodium chloride, 12 parts of magnesium sulfate and 100 parts of chicken manure.

Wherein, the application amount of the hydrated lime powder in the step (2) is 30-50 kg/mu.

Wherein the depth of deep ploughing in the step (2) is 60-80 cm.

Wherein, the temperature of the soil exposed in the step (2) is controlled at 30-50 ℃, and the soil humidity is controlled at 20-30%.

Wherein the grass plant is one or more of herba Eleusines Indicae, herba Setariae viridis, flos Callicarpae Formosanae, herba plantaginis and herba Portulacae.

Wherein, the plowing depth of the plowing land in the step (6) is 12-20 cm.

The method for improving the morchella planting soil provided by the invention has the following beneficial technical effects:

(1) the method for improving the toadstool planting soil provided by the invention comprises the steps of firstly selecting a proper land block, then scattering slaked lime powder into the land block and carrying out insolation treatment, carrying out sterilization treatment by matching the slaked lime powder and the insolation treatment, then planting grass plants to primarily improve soil texture, simultaneously carrying out fermentation treatment on the harvested grass plants to prepare a modifier for improving the soil again, wherein the improved soil can better adapt to the growth of toadstool, and then adjusting the pH value of the soil to a neutral condition suitable for the growth of the toadstool;

(2) the method for improving the morchella planting soil provided by the invention is wide in applicability, can be suitable for improving various soils, meets the planting requirements of morchella, and is low in cost due to the fact that grass plants are fermented and utilized;

(3) when the grass family plants are fermented, a certain amount of humic acid, chicken manure, sodium chloride, magnesium sulfate and the like are added, so that the nutrition is rich, and more comprehensive and easily absorbed nutrient elements can be provided for the growth of morchella at the later stage.

Detailed Description

The principles and features of this invention are described below in conjunction with specific embodiments, the examples given are intended to illustrate the invention and are not intended to limit the scope of the invention.

Example 1

The method for improving the toadstool planting soil comprises the following steps:

(1) selecting a land block which is leeward and exposed to the sun;

(2) uniformly spreading slaked lime powder into the land mass, wherein the application amount of the slaked lime powder is spread according to the standard of 40 kg/mu, then carrying out deep ploughing and insolation on the land mass for 25 days, wherein the ploughing depth of the deep ploughing is 70cm, the temperature of the insolated soil is controlled to be about 40 ℃, and the soil humidity is controlled to be about 25%;

(3) broadcasting the grass plants in the land after deep ploughing and insolating, and completely cutting and removing the roots of the grass plants when the grass plants grow to 15 cm;

(4) exposing the obtained grass plant to the sun at 35 deg.C for 5 days, and fermenting the exposed grass plant to obtain soil conditioner;

(5) uniformly spreading the soil conditioner obtained in the step (4) on a land block according to the amount of 0.9 ton per mu, and then ploughing by using a micro-cultivator with the ploughing depth of 30 cm;

(6) and (3) uniformly spreading slaked lime powder into the land parcel to adjust the pH value of the soil to be about 7.5, and ploughing again to reach the depth of about 15 cm.

In this example, the fermentation of the grass plants after exposure to the sun includes the following steps: pulverizing the plant of the grass family after insolation into 5-10cm long, adding humic acid, sodium chloride, magnesium sulfate, glucose and chicken manure into the pulverized plant of the grass family, maintaining water content at 25%, and performing compost fermentation for 30 days.

In this example, when the grass family plant is fermented, the mass ratio of the grass family plant, humic acid, sodium chloride, magnesium sulfate, glucose and chicken manure is: 350 parts of grass plants, 95 parts of humic acid, 15 parts of sodium chloride, 12 parts of magnesium sulfate and 100 parts of chicken manure.

The grass plants in this example are goosegrass, setaria viridis, and purslane.

Example 2

(1) selecting a land block which is leeward and exposed to the sun;

(2) uniformly spreading slaked lime powder into the land mass, wherein the application amount of the slaked lime powder is spread according to the standard of 30 kg/mu, then carrying out deep ploughing and insolation on the land mass for 20 days, wherein the ploughing depth of the deep ploughing is 60cm, the temperature of the insolated soil is controlled to be about 30 ℃, and the soil humidity is controlled to be about 20%;

(3) broadcasting the grass plants in the land after deep ploughing and insolating, and completely cutting and removing the roots of the grass plants when the grass plants grow to 10 cm;

(4) exposing the obtained grass plant to the sun at 30 deg.C for 7 days, and fermenting the exposed grass plant to obtain soil conditioner;

(5) uniformly spreading the soil conditioner obtained in the step (4) on a land block according to the amount of 0.8 ton per mu, and then ploughing by using a micro-cultivator with the ploughing depth of 20 cm;

(6) uniformly spreading slaked lime powder into the land parcel to adjust the pH value of the soil to about 6.5, and ploughing again until the depth of ploughing is about 10cm

In this example, the fermentation of the grass plants after exposure to the sun includes the following steps: pulverizing the plant of the grass family after insolation into 5-10cm long, adding humic acid, sodium chloride, magnesium sulfate, glucose and chicken manure into the pulverized plant of the grass family, maintaining water content at 20%, and performing compost fermentation for 20 days.

In this example, when the grass family plant is fermented, the mass ratio of the grass family plant, humic acid, sodium chloride, magnesium sulfate, glucose and chicken manure is: 300 parts of grass family plants, 90 parts of humic acid, 10 parts of sodium chloride, 10 parts of magnesium sulfate and 80 parts of chicken manure.

The grass plants in this example are goosegrass, setaria viridis and trumpet flower.

Example 3

(1) selecting a land block which is leeward and exposed to the sun;

(2) uniformly spreading slaked lime powder into the land mass, wherein the application amount of the slaked lime powder is spread according to the standard of 50 kg/mu, then carrying out deep ploughing and insolation on the land mass for 30 days, wherein the ploughing depth of the deep ploughing is 80cm, the temperature of the insolated soil is controlled to be about 40 ℃, and the soil humidity is controlled to be about 30%;

(3) broadcasting the grass plants in the land after deep ploughing and insolating, and completely cutting and removing the roots of the grass plants when the grass plants grow to 20 cm;

(4) exposing the obtained grass plant to the sun at 40 deg.C for 3 days, and fermenting the exposed grass plant to obtain soil conditioner;

(5) uniformly spreading the soil conditioner obtained in the step (4) on a land block according to the amount of 0.8 ton per mu, and then ploughing by using a micro-cultivator with the ploughing depth of 30 cm;

(6) uniformly spreading slaked lime powder into the land parcel to adjust the pH value of the soil to about 6.5, and ploughing again to a depth of about 20cm

In this example, when the grass family plant is fermented, the mass ratio of the grass family plant, humic acid, sodium chloride, magnesium sulfate, glucose and chicken manure is: 400 parts of grass plants, 100 parts of humic acid, 20 parts of sodium chloride, 15 parts of magnesium sulfate and 120 parts of chicken manure.

The grass plants in this example are goosegrass, setaria viridis, trumpet flower, plantain and purslane.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, but rather as the subject matter of the invention is to be construed in all aspects and as broadly as possible, and all changes, equivalents and modifications that fall within the true spirit and scope of the invention are therefore intended to be embraced therein.

Claims

1. The method for improving the toadstool planting soil is characterized by comprising the following steps:

(1) selecting a land block which is leeward and exposed to the sun;

2. The method for improving morchella planting soil according to claim 1, wherein the fermentation of the grass plants after insolation comprises the steps of: pulverizing the plant of the grass family after insolation, adding humic acid, sodium chloride, magnesium sulfate, glucose and chicken manure into the pulverized plant of the grass family, keeping the water content at 20-30%, and performing composting fermentation for 20-50 days.

3. The method for improving morchella planting soil according to claim 2, wherein the mass ratio of the grass plants, the humic acid, the sodium chloride, the magnesium sulfate, the glucose and the chicken manure is as follows when the grass plants are fermented: 400 parts of grass family plants, 90-100 parts of humic acid, 10-20 parts of sodium chloride, 10-15 parts of magnesium sulfate and 80-120 parts of chicken manure.

4. The method for improving morchella planting soil according to claim 3, wherein the mass ratio of the grass plants, the humic acid, the sodium chloride, the magnesium sulfate, the glucose and the chicken manure is as follows when the grass plants are fermented: 350 parts of grass plants, 95 parts of humic acid, 15 parts of sodium chloride, 12 parts of magnesium sulfate and 100 parts of chicken manure.

5. The method for improving morchella planting soil according to claim 1, wherein the application amount of the slaked lime powder in the step (2) is 30-50 kg/mu.

6. The method for improving morchella planting soil according to claim 1, wherein the depth of the deep ploughing in the step (2) is 60-80 cm.

7. The method for improving morchella planting soil according to claim 1, wherein the temperature of the exposed soil in the step (2) is controlled to be 30-50 ℃, and the humidity of the soil is controlled to be 20-30%.

8. The method for improving morchella planting soil according to claim 1, wherein the grass family plant is one or more of goosegrass herb, setaria viridis, trumpet flower, plantain herb and purslane herb.

9. The method for improving morchella planting soil according to claim 1, wherein the plowing depth of the plowed land in the step (6) is 12-20 cm.