CN111616009A - Planting method for pinellia ternata seedlings emerging in advance - Google Patents

Abstract

The invention discloses a planting method for pinellia ternata seedlings emerging in advance, which comprises the following steps: step S1: seed selection: washing plump pinellia tuber seedlings to remove mud, and removing seedlings with scars and diseases and insect pests and then air-drying; step S2: slitting: cutting the air-dried seedlings into blocks, naturally airing the cut tubers, spraying a bactericide after the cuts are air-dried, and continuing to air-dry; step S3: preparing a fertilizer: chopping pinellia ternate stems and leaves harvested in the past year, and carrying out high-temperature decomposition treatment on the pinellia ternate stems and leaves; step S4: preparing a wet composting fertilizer: taking out the decomposed fertilizer, filtering to obtain filter residue and filtrate, naturally airing and air-drying the obtained filter residue, and crushing and granulating after the air-drying to obtain the organic granular fertilizer. According to the invention, pinellia ternate plants grown in the past year are used as main raw materials to prepare the fertilizer, so that a proper organic fertilizer is provided for the growth of pinellia ternate, a breathable and water-permeable good germination environment is formed around the tuber of pinellia ternate, and the budding development of pinellia ternate is effectively promoted.

Description

Planting method for pinellia ternata seedlings emerging in advance

Technical Field

The invention relates to the technical field of traditional Chinese medicine cultivation, in particular to a planting method for pinellia ternata seedlings in advance.

Background

Pinellia ternata, also known as: pinellia ternata (Thunb.) Breit is a perennial herb of Araceae. Pinellia ternate is an important medicinal material in Chinese medicine treasury, and has been used as a medicine for more than 2000 years. The main steps include seed selection, seed airing, sterilization and seed soaking of tuber, field planting, base fertilizer application, soil moisture opening and ridge cultivation, mulching film covering after planting, seedling emergence management and other steps, so as to promote tuber germination and seedling emergence, prolong the growth period before seedling falling, and improve the planting yield and tuber quality of pinellia ternata; the planting method simultaneously solves the problems of soft rot and seedling falling of pinellia ternata in the growth process; simple and easy to operate, convenient to use, and suitable for popularization and application of vast pinellia ternate growers.

However, in the prior art, the operation difficulty is high in half summer planting, the process requirement and the economic cost are high, and the method is not suitable for popularization and application, so that a planting method for pinellia ternata seedlings in advance is provided for solving the problems.

Disclosure of Invention

Based on the technical problems in the background art, the invention provides a planting method for pinellia ternata seedlings in advance.

The planting method for pinellia ternata seedlings emergence in advance provided by the invention comprises the following steps:

step S1: seed selection: washing the rich and plump pinellia tuber seedlings to remove mud, removing the seedlings with scars and diseases and insect pests, and then carrying out air drying treatment;

step S2: slitting: cutting the air-dried seedlings in the step S1, naturally airing the cut tubers, spraying a bactericide after the cut tubers are air-dried, and continuing to air-dry;

step S3: preparing a fertilizer: chopping pinellia ternate stems and leaves harvested in the previous year, and then carrying out high-temperature decomposition treatment on the pinellia ternate stems and leaves;

step S4: preparing a wet composting fertilizer: taking out the decomposed fertilizer in the step S3, filtering to obtain filter residue and filtrate, naturally airing and air-drying the obtained filter residue, and crushing and granulating after the air-drying to obtain the organic granular fertilizer;

step S5: preparing an organic fertilizer: concentrating and drying the filtrate obtained in the step S4 to obtain an organic fertilizer concentrated solution;

step S6: processing coal cinder: selecting coal cinder and ceramsite soil to carry out crushing treatment to obtain sandy particles;

step S7: preparing a sandy fertilizer: adding the organic fertilizer concentrated solution obtained in the step S5 into the sandy particles obtained in the step S6, infiltrating and mixing, and air-drying until the liquid is completely absorbed and enters the sandy particles to obtain a sandy fertilizer;

step S8: turning soil: selecting moist, fertile and loose sandy loam, throwing the organic granular fertilizer in the step S4 into soil, and turning the soil to form furrows;

step S9: opening acupoints: forming a pit on the furrow in the step S8, adding the sandy fertilizer in the pit in the step S7, and slightly stirring and mixing the sandy fertilizer and the soil;

step S10: and (3) hole sowing: preparing a root growth promoting solution, immersing the tubers in the step S2 in the root growth promoting solution, putting the tubers in the pits in the step S9, and covering soil on the surfaces of the tubers;

step S11: timing humidification: and (5) after the hole sowing in the step S10 is finished, spraying clear water on the surface of the soil at regular time, and repeating for 2-3 times.

Preferably, in the step S1, in the seed selection process of pinellia ternata, the particle size range of the selected pinellia ternata seedlings is 0.8-1.4 cm.

Preferably, in the step S2, in the cutting process of the pinellia ternate, the pinellia ternate seedlings with the particle size range of 1.2-1.4 cm are selected for cutting, and the seedlings with the particle size range of 0.8-1.2 cm are not cut.

Preferably, in the step S3, the crushing length of the pinellia ternate stems and leaves is 5-8 cm, the sterilization temperature is 120-130 ℃, and the decomposition time is 20-25 days.

Preferably, in the step S5, in the preparation process of the organic fertilizer concentrated solution, the concentration condition is 10% to 15% of the original volume.

Preferably, in the step S6, in the process of preparing the sandy particles, the mixture ratio of the coal cinder to the ceramsite soil is 10-12: 1 to 2.

Preferably, in the step S8 and the step S9, the inter-furrow distance is 14 to 17 cm, and the inter-pit distance is 8 to 12 cm.

Preferably, in the step S11, the humidification operation is performed every 2 to 3 days in the timed humidification operation.

The planting method for pinellia ternata seedlings emergence in advance has the beneficial effects that:

(1) according to the invention, the pinellia ternate root seedlings grown in the past year are used as main raw materials to prepare the organic fertilizer, the most reasonable organic fertilizer is provided for the growth of pinellia ternate, the diseases and pests growing on the pinellia ternate root seedlings grown in the past year are killed through a high-temperature decomposition process, and the serious pest and disease damage of the pinellia ternate seedlings in the next quarter caused by the fact that the organic fertilizer carries the insect eggs of the diseases and pests is avoided;

(2) the method comprises the steps of mixing and crushing coal cinder with low economic cost and ceramsite soil to form sandy particles, immersing pinellia ternate rotten juice into the sandy particles, mixing and crushing filter residues generated by rotting pinellia ternate and soil in the soil turning process, adding a sandy organic fertilizer prepared in advance in the hole sowing process, forming a growth space with good air permeability and water permeability around the tuber of the pinellia ternate, keeping the tuber of the pinellia ternate germinate under sufficient oxygen supply and a humid environment, and effectively promoting seedling emergence of the pinellia ternate;

according to the invention, pinellia ternate plants grown in the past year are used as main raw materials to prepare the fertilizer, so that a proper organic fertilizer is provided for the growth of pinellia ternate, a breathable and water-permeable good germination environment is formed around the tuber of pinellia ternate, and the budding development of pinellia ternate is effectively promoted.

Detailed Description

The present invention will be further illustrated with reference to the following specific examples.

Examples

A planting method for pinellia ternata seedlings emerging in advance comprises the following steps:

step S1: seed selection: washing the rich and plump pinellia tuber seedlings to remove mud, removing the seedlings with scars and diseases and insect pests, and then carrying out air drying treatment;

step S2: slitting: cutting the air-dried seedlings in the step S1, naturally airing the cut tubers, spraying a bactericide after the cut tubers are air-dried, and continuing to air-dry;

step S3: preparing a fertilizer: chopping pinellia ternate stems and leaves harvested in the previous year, and then carrying out high-temperature decomposition treatment on the pinellia ternate stems and leaves;

step S4: preparing a wet composting fertilizer: taking out the decomposed fertilizer in the step S3, filtering to obtain filter residue and filtrate, naturally airing and air-drying the obtained filter residue, and crushing and granulating after the air-drying to obtain the organic granular fertilizer;

step S5: preparing an organic fertilizer: concentrating and drying the filtrate obtained in the step S4 to obtain an organic fertilizer concentrated solution;

step S6: processing coal cinder: selecting coal cinder and ceramsite soil to carry out crushing treatment to obtain sandy particles;

step S7: preparing a sandy fertilizer: adding the organic fertilizer concentrated solution obtained in the step S5 into the sandy particles obtained in the step S6, infiltrating and mixing, and air-drying until the liquid is completely absorbed and enters the sandy particles to obtain a sandy fertilizer;

step S8: turning soil: selecting moist, fertile and loose sandy loam, throwing the organic granular fertilizer in the step S4 into soil, and turning the soil to form furrows;

step S9: opening acupoints: forming a pit on the furrow in the step S8, adding the sandy fertilizer in the pit in the step S7, and slightly stirring and mixing the sandy fertilizer and the soil;

step S10: and (3) hole sowing: preparing a root growth promoting solution, immersing the tubers in the step S2 in the root growth promoting solution, putting the tubers in the pits in the step S9, and covering soil on the surfaces of the tubers;

step S11: timing humidification: and (5) after the hole sowing in the step S10 is finished, spraying clear water on the surface of the soil at regular time, and repeating for 2-3 times.

In this embodiment, in step S1, in the seed selection process of pinellia ternate, the selected pinellia ternate seedlings are 0.8-1.4 cm in particle size, in step S2, in the cutting process of pinellia ternate, pinellia ternate seedlings with particle size of 1.2-1.4 cm are selected for cutting, the seedlings with particle size of 0.8-1.2 cm are not cut, in step S3, the crushing length of the stems and leaves of pinellia ternate is 5-8 cm, the sterilization temperature is 120-130 ℃, and the rotting time is 20-25 days.

In this embodiment, in the step S5, in the preparation process of the organic fertilizer concentrated solution, the concentration condition is 10% to 15% of the original volume, and in the step S6, in the preparation process of the sandy particles, the mixture ratio of the coal cinder to the ceramsite soil is 10 to 12: 1-2, in the step S8 and the step S9, the distance between furrows is 14-17 cm, the distance between pits is 8-12 cm, and in the step S11, in the timed humidifying work, the humidifying work is performed once every 2-3 days.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (8)

1. A planting method for pinellia ternata seedlings emerging in advance is characterized by comprising the following steps:

step S1: seed selection: washing the rich and plump pinellia tuber seedlings to remove mud, removing the seedlings with scars and diseases and insect pests, and then carrying out air drying treatment;

step S2: slitting: cutting the air-dried seedlings in the step S1, naturally airing the cut tubers, spraying a bactericide after the cut tubers are air-dried, and continuing to air-dry;

step S3: preparing a fertilizer: chopping pinellia ternate stems and leaves harvested in the previous year, and then carrying out high-temperature decomposition treatment on the pinellia ternate stems and leaves;

step S4: preparing a wet composting fertilizer: taking out the decomposed fertilizer in the step S3, filtering to obtain filter residue and filtrate, naturally airing and air-drying the obtained filter residue, and crushing and granulating after the air-drying to obtain the organic granular fertilizer;

step S5: preparing an organic fertilizer: concentrating and drying the filtrate obtained in the step S4 to obtain an organic fertilizer concentrated solution;

step S6: processing coal cinder: selecting coal cinder and ceramsite soil to carry out crushing treatment to obtain sandy particles;

step S7: preparing a sandy fertilizer: adding the organic fertilizer concentrated solution obtained in the step S5 into the sandy particles obtained in the step S6, infiltrating and mixing, and air-drying until the liquid is completely absorbed and enters the sandy particles to obtain a sandy fertilizer;

step S8: turning soil: selecting moist, fertile and loose sandy loam, throwing the organic granular fertilizer in the step S4 into soil, and turning the soil to form furrows;

step S9: opening acupoints: forming a pit on the furrow in the step S8, adding the sandy fertilizer in the pit in the step S7, and slightly stirring and mixing the sandy fertilizer and the soil;

step S10: and (3) hole sowing: preparing a root growth promoting solution, immersing the tubers in the step S2 in the root growth promoting solution, putting the tubers in the pits in the step S9, and covering soil on the surfaces of the tubers;

step S11: timing humidification: and (5) after the hole sowing in the step S10 is finished, spraying clear water on the surface of the soil at regular time, and repeating for 2-3 times.

2. The planting method of pinellia ternata seedlings with advanced emergence according to claim 1, wherein in the step S1, the grain size of the seedlings of pinellia ternata is 0.8-1.4 cm during the seed selection process of pinellia ternata.

3. The planting method of pinellia ternata seedlings with advanced emergence according to claim 1, wherein in the step S2, pinellia ternata seedlings with the grain size range of 1.2-1.4 cm are selected to be cut in the cutting process of pinellia ternata, and the pinellia ternata seedlings with the grain size range of 0.8-1.2 cm are not cut.

4. The planting method of pinellia ternata seedlings emerging in advance as claimed in claim 1, wherein in the step S3, the crushing length of the stems and leaves of pinellia ternata is 5-8 cm, the sterilization temperature is 120-130 ℃, and the decomposition time is 20-25 days.

5. The planting method of the advanced emergence of pinellia ternata as claimed in claim 1, wherein in the step S5, the concentration condition is 10% -15% of the original volume in the preparation process of the organic fertilizer concentrated solution.

6. The planting method of pinellia ternata seedlings emerging in advance as claimed in claim 1, wherein in the step S6, in the process of preparing the sandy particles, the mixture ratio of coal cinder to ceramsite soil is 10-12: 1 to 2.

7. The planting method of pinellia ternata seedlings in advance as claimed in claim 1, wherein in the step S8 and the step S9, the furrow spacing is 14-17 cm, and the hole-pit spacing is 8-12 cm.

8. The planting method of pinellia ternata seedlings in advance as claimed in claim 1, wherein in the step S11, the humidification operation is performed every 2-3 days in the timed humidification operation.