Peanut Covering High-yield Cultivation Techniques in Dryland

Peanut mulching cultivation in dry land is a new technology to improve peanut production, improve quality and increase economic efficiency. My flag began to introduce this cultivation technique in 1986, and its promotion ranged from irrigated land to dryland cultivation. The planting area has been around 5,000 mu over the years, and the average production level has been around 260kg. In order to further increase the output of peanut mulching film in dry land, in 1998 I stood on the dry land of Linjiadi Township and Sijiazi Town, and promoted 160 acres of high-yielding cultivation demonstration field of peanuts. As a result of improved farming methods and increased investment in science and technology, production levels have increased significantly. According to the actual test production, the average yield per mu of dryland peanuts is 378.6kg, which is 268kg per mu from the control average, and the yield per mu is 110.6kg, the yield increase rate is 41.2%, and the mu production value is increased by 287.6 yuan, which has achieved significant economic benefits. We have mainly adopted the following technical measures.

First, the election and preparation

The cultivation and cultivation of peanuts in dryland is fast, with a large amount of growth, and a high requirement for fertilizer and water. Therefore, it is better to choose a deep plowed layer, fertile soil, loose texture, water retention, fertilizer conservation, and sandy soil or loam with strong air permeability. The plots should be ploughed deeply, carefully, and strictly prohibited.

Second, select seed and seed processing

The medium-mature and large-grained varieties of Baisha 1016, Flower 37, and Luhua 3 were selected. Plug before shelling in the sun for 3-4 days to increase seed vigor. In combination with shelling, a first-level seed with full grain, bright skin, strong germination potential and high germination rate was selected. The selected seeds were immersed in warm water at 25°C for 4 hours, and then put into a pot and covered with a damp cloth to induce germination in the room.

Third, deep chemical fertilizer, sit water preservation seedlings

The one-time deep application of chemical fertilizers is used for sowing. In other words, the nitrogen fertilizer needed for the whole growth period of the peanut coating is applied one time before the sowing of the film (a shelling). Improve chemical fertilizer utilization and increase production. The use of five plow trenches for bed fertilization method: 1. Fertilization. In the pre-made 50cm wide bed in the middle of the first ditch, ditch depth of 20cm is better, and then the nitrogen fertilizer (urea per mu 10kg or long-term ammonium bicarbonate 20kg) even point into the ditch. 2. Apply fertilizer. Phosphorus and potash fertilizers are mainly used. The ditch is ditched on both sides of the nitrogen fertilizer ditch. After plowing, the DAP is 15 kg per mu, the potassium sulfate is 10 kg, and the farmyard fertilizer is 2000 kg. 3. The dry land uses water to keep water and sprinkle water. The amount of water per acre is about 3000kg, which is based on the pouring bottom. 4. Make a bed. In the application of phosphorus, potash ridge outside the ridge, and then manually made the bed, the width of 50cm, height 15cm.

Fourth, rational dense planting, population increase

The implementation of a reasonable group structure is an important part of obtaining high-yielding film covering peanuts in the drylands. This means that in terms of density, that is, to give full play to the individual's potential for yield increase, it must have a reasonable group structure. In the dry land, the seedlings are planted after the first sowing, which is beneficial to preserve the whole seedlings. Agricultural film selection width 85cm, spacing 30cm, membrane spacing 50cm (vacant line), 17cm spacing, 2 seeds per hole sowing, 8824 points per mu protection, 17,468 strains.

V. timely sowing, ensure the quality of operations

Three factors should be considered in the sowing of dryland peanuts: 1. Local frost period; 2. The number of days from seeding to emergence; 3. The minimum temperature needed to germinate peanut seeds. The medium-mature and large-grained variety requires that the soil temperature at a depth of 5 cm is stable at more than 12°C. Acres seedlings select shelled seeds 16kg. Chemical weeding: acre 150g acetochlor, 40kg water evenly sprayed bed, and then covered.

Seeding film quality requirements: to achieve a smooth bed, vertical bedside, consistent broadcast depth, uniform covering, tight membrane, every 2m horizontal pressure a soil zone, to achieve fieldwork standardization requirements.

Sixth, strengthen field management

1. Timely release seedlings. When the top of the peanut sprouts can be opened film hole seedlings, Fangmiao promptly sealed with wet soil put seedlings hole.

2. Check seedlings to replant. Combination of seedlings, seedlings, seedlings, and seedlings in a timely manner.

3. Prevent pests and diseases. Control of leaf spot with 400 times carbendazim, after the emergence of flowering spray once. Control locusts and red spiders spray with 1000 times Dimethoate solution.

5. Timely harvest, remove residual film.

Polylactic Acid PLA

Polylactic acid (PLA) is a novel biodegradable material made from starch derived from renewable plant resources such as corn. Starch raw materials obtained glucose through saccharification, and then fermentation of glucose and certain strains to produce high purity lactic acid, and then through chemical synthesis method to synthesize polylactic acid of a certain molecular weight. It has good biodegradability and can be completely degraded by microorganisms in nature after use, resulting in carbon dioxide and water, which does not pollute the environment. It is very beneficial to environmental protection and is recognized as an environmentally friendly material. Ordinary plastics are still incinerated, causing a large amount of greenhouse gases into the air, while polylactic acid plastics are buried in the soil to degrade, resulting in carbon dioxide directly into the soil organic matter or absorbed by plants, will not be discharged into the air, will not cause the greenhouse effect.

Polylactic Acid Pla,Pla For Foam,Biodegradable Polylactic Acid Pla,Low Carbon Material Pla

Xingbang High Molecular Materials Co., Ltd. , https://www.chemicaladditive.com