CN104855106A - Method for planting peanuts through stress resistance laminating - Google Patents

Abstract

The invention discloses a method for planting peanuts through stress resistance laminating. The method specifically comprises the first step of planting field management, the second step of seed preparation, the third step of sowing and the fourth step of fertilizer and water management. The laminating planting of the peanuts is in the earlier stage seedling stage, the seedling survival rate can be increased, and meanwhile good moisture preserving and heat preserving can be carried out; the seed basking before sowing, ammonium molybdate seed-dressing agent stirring, sprouting and other measures are carried out for improving the survival rate of the seedlings of the peanuts and improving the stress resistance; the special controlled release fertilizer and subsoil are mixed and used, and frequent fertilizer using is reduced; liquid refined fertilizer spraying is adopted in the later fertilizer and water management, absorption is easy, salinization soil is avoided through the measure, and therefore growth of the peanuts is facilitated.

Description

A kind of method of resistance film-covering planting peanut

Technical field

The invention belongs to the technology field of plantation, be specifically related to a kind of method of resistance film-covering planting peanut.

Background technology

Peanut is important economic crops and oil crop, and development peanut production has become one of the important channel of growth of agricultural efficiency, increasing peasant income.Peanut cultivation comprises wholely, sowing, ridging, field management, results.Tradition peanut cultivation is generally one, plot kind, if plot need plant several kind, is also by kind sequentially, finishes one, then broadcast another, do not mix up between kind.Emerge in process of growth at peanut like this, because cultivate peanut for same product in adjacent ridge, the height between plant is substantially identical, makes peanut canopy light-receiving area, canopy iuuminting rate and CO ₂interchange be restricted, be unfavorable for improving the photosynthesis of canopy, and then affect the raising of Pod Yield.

Research shows that oleic acid content of peanuts increases gradually along with reaching maturity of seed benevolence, particularly Post flowering 60 days, oleic acid content of peanuts gathers way the fastest, the mainly linoleic acid of peanut kernel early development synthesis, the mainly oleic acid of middle and later periods accumulation, the ripe seed benevolence oleic acid content that reaches full growth is the highest, suitably receives evening, and improving seed benevolence plumpness is improve a key factor of oleic acid content.Also there are some researches show, oleic acid content of peanuts and the peanut Sheng phase soil temperature that is in the milk is remarkable positive correlation, and soil temperature is higher, and oleic acid content is higher, therefore in order to improve oleic acid content of peanuts, must improve soil temperature in peanut cultivation process.

The soil salinization is the serious problems affecting agricultural production and ecotope.The whole world about has the arable land of 50% to be subject to salt stress harm, and China's saline land area reaches 1,500,000,000 mu.Peanut is the main oil crop of China and economic crops, and along with the increase of population, the increase of demand, the continuous decline of arable area, ground contradiction striven by grain and oil, and how development and utilization salinization land resource has great importance.

Summary of the invention

The present invention is according to the feature of peanut cultivation, and namely survival rate of seedling is low, and easily by freeze injury, malnutritive and peanut pod is subject to the problem of insect etc., and invent a kind of strong stress resistance, can improve the peanut cultivation method of output, concrete steps are as follows:

A method for resistance film-covering planting peanut, is characterized in that, comprises following step:

(1) planting site management: deep plough planting site at the bottom of ground 30 ~ 40cm, and mix with subsoil by the amount of every mu of 150 ~ 200Kg ash, tractor-ploughing is digged again, does furrow, keep the wide 2 ~ 3m of furrow, the high 20 ~ 30cm of furrow, stays furrow width 25cm between furrow simultaneously, once waters permeable;

(2) seed preparation: selected high-quality peanut pod, broadcast first 5 ~ 7 days strip off kind benevolence, being put in, bamboo mat basks seeds stirs 10 ~ 15 times in 2 ~ 3 days every day simultaneously, after completing by ammonium molybdate seed dressing with plant the ratio of benevolence in 1: 10 and mix and dress seed, until seed color deepens, then vernalization under 25 ~ 30 DEG C of heat-retaining conditions;

(3) sow: on the furrow described in (1), dig cave, spacing in the rows 25cm, by the Kernel of Peanut described in (2) by the specification sowing of 3 ~ 5, every cave, then cover in cave after slow release fertilizer being mixed with the ratio of subsoil 1: 3, covering with plastic film simultaneously, carries out artificial rupture of membrane dew bud when seedling is broken ground and grows to 5 ~ 6cm;

(4) rich water quality management: when (3) described seedling grows to 4 ~ 5 true leaves, execute urea 2.5 ~ 4Kg for every mu, the later stage sprays foliage fertilizer according to growing way situation, each 75 ~ 100Kg/ mu.

Ammonium molybdate seed dressing in described step (2) is that 10g ammonium molybdate pulvis adds in 40 ~ 50 DEG C of warm water of 500g to dissolve and makes.

The slow release fertilizer of described step (3) is by superphosphate 15 ~ 20 parts, ash 20 ~ 30 parts, potassium sulfate 30 ~ 50 parts and urea 40 ~ 50 parts of co-grindings cross 80 mesh sieves, then by the water-soluble solution of Sodium Polyacrylate 6 ~ 9 parts of use 3 ~ 5 times of its weight portions, add limestone powder 10 ~ 15 parts to stir into homogenate and pour in aforementioned fertilizer for adhesion simultaneously, then granulation, finally carboxymethyl cellulose 5 ~ 10 parts is added the water stirring and dissolving of 3 times of its weight portions, in comminutor, fertiliser granulates surface is sprayed on high pressure nozzle, mucus is there is in the hot blast 4 ~ 8min then crossing 70 ~ 90 DEG C to surface, the kaolin 3 ~ 4 parts finally spraying 200 mesh sieve holes prevents adhesion between fertilizer.

Foliage fertilizer in described step (4) is watered 50 parts by superphosphate 1 ~ 1.5 part, potassium dihydrogen phosphate 2 ~ 5 parts, ammonium molybdate 2.5 ~ 5 parts, 3 ~ 7 parts, zinc sulphate, 10% Freamine Ⅲ 20 ~ 30 parts and stirs 30 ~ 40min after mixing, obtained after getting the urea dissolving of additional 0.5 ~ 1 part of supernatant after then precipitating diel;

Beneficial effect of the present invention: the film-covering planting of peanut is plantlet stage in early stage, be conducive to improving survival rate of seedling, simultaneously can well moisturizing and insulation, the measures such as basking seeds before sowing, the seed dressing of ammonium molybdate seed dressing, vernalization are all the survival rates in order to improve peanut seedling, improve resistance, with special slow release fertilizer and subsoil used in combination, reduce and frequently use fertilizer, the rich water quality management in later stage all adopts liquid fertilizer to spray, easy absorption, salinized soil is avoided in this measure, thus is unfavorable for the growth of peanut.

Embodiment

Embodiment 1:

A method for resistance film-covering planting peanut, is characterized in that, comprises following step:

(1) planting site management: deep plough planting site at the bottom of ground 30 ~ 40cm, and mix with subsoil by the amount of every mu of 150 ~ 200Kg ash, tractor-ploughing is digged again, does furrow, keep the wide 2 ~ 3m of furrow, the high 20 ~ 30cm of furrow, stays furrow width 25cm between furrow simultaneously, once waters permeable;

(2) seed preparation: selected high-quality peanut pod, broadcast first 5 ~ 7 days strip off kind benevolence, being put in, bamboo mat basks seeds stirs 10 ~ 15 times in 2 ~ 3 days every day simultaneously, after completing by ammonium molybdate seed dressing with plant the ratio of benevolence in 1: 10 and mix and dress seed, until seed color deepens, then vernalization under 25 ~ 30 DEG C of heat-retaining conditions;

(3) sow: on the furrow described in (1), dig cave, spacing in the rows 25cm, by the Kernel of Peanut described in (2) by the specification sowing of 3 ~ 5, every cave, then cover in cave after slow release fertilizer being mixed with the ratio of subsoil 1: 3, covering with plastic film simultaneously, carries out artificial rupture of membrane dew bud when seedling is broken ground and grows to 5 ~ 6cm;

(4) rich water quality management: when (3) described seedling grows to 4 ~ 5 true leaves, execute urea 2.5 ~ 4Kg for every mu, the later stage sprays foliage fertilizer according to growing way situation, each 75 ~ 100Kg/ mu.

Ammonium molybdate seed dressing in described step (2) is that 10g ammonium molybdate pulvis adds in 40 ~ 50 DEG C of warm water of 500g to dissolve and makes.

The slow release fertilizer of described step (3) is by superphosphate 20 parts, ash 30 parts, potassium sulfate 30 ~ 50 parts and urea 40 parts of co-grindings cross 80 mesh sieves, then by the water-soluble solution of Sodium Polyacrylate 6 parts of use 3 ~ 5 times of its weight portions, add limestone powder 15 parts to stir into homogenate and pour in aforementioned fertilizer for adhesion simultaneously, then granulation, finally carboxymethyl cellulose 8 parts is added the water stirring and dissolving of 3 times of its weight portions, in comminutor, fertiliser granulates surface is sprayed on high pressure nozzle, mucus is there is in the hot blast 4 ~ 8min then crossing 70 ~ 90 DEG C to surface, the kaolin 4 parts finally spraying 200 mesh sieve holes prevents adhesion between fertilizer.

Foliage fertilizer in described step (4) stirs 30 ~ 40min by being watered 50 parts after superphosphate 1.5 parts, potassium dihydrogen phosphate 3 parts, ammonium molybdate 4 parts, 6 parts, zinc sulphate, 10% Freamine Ⅲ 25 parts mixing, gets after supernatant adds the urea dissolving of 0.5 part and obtain after then precipitating diel;

Adopt method of the present invention plantation peanut, obviously reduce death of seedling situation, the incidence of later stage damage by disease and insect reduces, and the soil organic matter enriches, and seldom needs the situation of filling the gaps with seedlings, and method economy raising conventional on year-on-year basis reaches 25.4%.

Claims (4)

1. a method for resistance film-covering planting peanut, is characterized in that, comprises following step:

(1) planting site management: deep plough planting site at the bottom of ground 30 ~ 40cm, and mix with subsoil by the amount of every mu of 150 ~ 200Kg ash, tractor-ploughing is digged again, does furrow, keep the wide 2 ~ 3m of furrow, the high 20 ~ 30cm of furrow, stays furrow width 25cm between furrow simultaneously, once waters permeable;

(2) seed preparation: selected high-quality peanut pod, broadcast first 5 ~ 7 days strip off kind benevolence, being put in, bamboo mat basks seeds stirs 10 ~ 15 times in 2 ~ 3 days every day simultaneously, after completing by ammonium molybdate seed dressing with plant the ratio of benevolence in 1: 10 and mix and dress seed, until seed color deepens, then vernalization under 25 ~ 30 DEG C of heat-retaining conditions;

(3) sow: on the furrow described in (1), dig cave, spacing in the rows 25cm, by the Kernel of Peanut described in (2) by the specification sowing of 3 ~ 5, every cave, then cover in cave after slow release fertilizer being mixed with the ratio of subsoil 1: 3, covering with plastic film simultaneously, carries out artificial rupture of membrane dew bud when seedling is broken ground and grows to 5 ~ 6cm;

(4) rich water quality management: when (3) described seedling grows to 4 ~ 5 true leaves, execute urea 2.5 ~ 4Kg for every mu, the later stage sprays foliage fertilizer according to growing way situation, each 75 ~ 100Kg/ mu.

2. the method for a kind of resistance film-covering planting peanut according to claim 1, is characterized in that, the ammonium molybdate seed dressing in described step (2) is that 10g ammonium molybdate pulvis adds in 40 ~ 50 DEG C of warm water of 500g to dissolve and makes.

3. the method for a kind of resistance film-covering planting peanut according to claim 1, it is characterized in that, the slow release fertilizer of described step (3) is by superphosphate 15 ~ 20 parts, ash 20 ~ 30 parts, potassium sulfate 30 ~ 50 parts and urea 40 ~ 50 parts of co-grindings cross 80 mesh sieves, then by the water-soluble solution of Sodium Polyacrylate 6 ~ 9 parts of use 3 ~ 5 times of its weight portions, add limestone powder 10 ~ 15 parts to stir into homogenate and pour in aforementioned fertilizer for adhesion simultaneously, then granulation, finally carboxymethyl cellulose 5 ~ 10 parts is added the water stirring and dissolving of 3 times of its weight portions, in comminutor, fertiliser granulates surface is sprayed on high pressure nozzle, mucus is there is in the hot blast 4 ~ 8min then crossing 70 ~ 90 DEG C to surface, the kaolin 3 ~ 4 parts finally spraying 200 mesh sieve holes prevents adhesion between fertilizer.

4. the method for a kind of resistance film-covering planting peanut according to claim 1, it is characterized in that, foliage fertilizer in described step (4) is watered 50 parts by superphosphate 1 ~ 1.5 part, potassium dihydrogen phosphate 2 ~ 5 parts, ammonium molybdate 2.5 ~ 5 parts, 3 ~ 7 parts, zinc sulphate, 10% Freamine Ⅲ 20 ~ 30 parts and stirs 30 ~ 40min after mixing, obtained after getting the urea dissolving of additional 0.5 ~ 1 part of supernatant after then precipitating diel.