CN104982288A - Planting method for green plums - Google Patents

Abstract

The invention discloses a planting method for green plums. The planting method is characterized by comprising the steps: (1) selecting soil with PH of 7-9; (2) carrying out intercropping on the green plums and other plums; (3) applying an organic fertilizer on the green plums; and (4) arranging reflective films around the green plums, wherein the organic fertilizer comprises straws, potato skin, peat, diatomite, bagasse, eggshell, bauxite, phosphorus ore powder, potassium mineral powder and kaolin. The green plums planted by virtue of the planting method are rich in organic acids, protein, dietary fiber, reducing sugar, vitamin B and calcium and have very high nutritional value.

Description

The implantation methods of green plum

Technical field

The present invention relates to green plum field of planting, particularly, relate to a kind of implantation methods of green plum.

Background technology

Green plum is a kind of common fruit, wherein containing numerous in human body benefit materials, containing abundant organic acid and ten multiple beneficial element such as vitamin A, vitamin C.Green plum has the malicious effect of Detoxicating food-poisoning clearly, blood poison, water, also there is the effect of antibacterial, sterilization, removing toxic substances, adjustment stomach and intestine, also have live metabolism, arteries and veins of invigorating blood circulation in addition, strengthen the function of liver and kidney, lactic acid etc. in body is discharged to external, the function of dispelling fatigue.Green plum is Dipterocarpaceae arbor, and up to 30m, the diameter of a cross-section of a tree trunk 1.3 meters above the ground reaches 1.2m.Bark cinerous, sprout and tender leaf close by stellate hair, be a Plants of extensively plantation.

At present, the green plum that existing implantation methods is planted out can run off a lot of nutriments in planting process, greatly reduces the nutritive value of green plum.

Summary of the invention

The object of this invention is to provide a kind of implantation methods of green plum, the green plum of being planted out by this implantation methods contains abundant organic acid, protein, dietary fiber, reducing sugar, Cobastab and calcium, has very high nutritive value.

To achieve these goals, the invention provides a kind of implantation methods of green plum, this implantation methods comprises:

(1) soil that PH is 7-9 is chosen;

(2) green plum and other plum classes are carried out spacing sleeve cropping;

(3) fertilizer is applied to described green plum;

(4) reflective membrane is set in the surrounding of described green plum;

Wherein, described fertilizer comprises: stalk, potato peel, the peat composed of rotten mosses, diatomite, bagasse, eggshell, bauxite, rock phosphate, potassium breeze and kaolin.

Pass through technique scheme, the invention provides a kind of green plum implantation methods, in this implantation methods, carry out spacing sleeve cropping respectively, apply fertilizer and lay reflex film step, act synergistically between these three steps, thus the green plum making plantation obtain contains abundant organic acid, protein, dietary fiber, reducing sugar, Cobastab and calcium, there is high nutritive value.

Other features and advantages of the present invention are described in detail in embodiment part subsequently.

Embodiment

Below the specific embodiment of the present invention is described in detail.Should be understood that, embodiment described herein, only for instruction and explanation of the present invention, is not limited to the present invention.

The invention provides a kind of implantation methods of green plum, this implantation methods comprises:

(1) soil that PH is 7-9 is chosen;

(2) green plum and other plum classes are carried out spacing sleeve cropping;

(3) fertilizer is applied to described green plum;

(4) reflective membrane is set in the surrounding of described green plum;

Wherein, described fertilizer comprises: stalk, potato peel, the peat composed of rotten mosses, diatomite, bagasse, eggshell, bauxite, rock phosphate, potassium breeze and kaolin.

In above-mentioned implantation methods, the kind of other plum classes can be selected in wide scope, can be one or more in dark plum, red bayberry, Japanese apricot, fragrant prince wife plum and Radix Glycyrrhizae plum, can better be pollinated to make green plum, preferably, other plum classes are selected from one or more in dark plum, red bayberry and Japanese apricot.

Simultaneously, in spacing sleeve cropping, green plum and other plum classes account for total the percentage set and can select in wide scope, by pollination and effectively space can better be saved in order to make green plum, preferably, with total number of described green plum and other plum classes for benchmark, the percentage of a number of described green plum is 70%-80%, and the percentage of a number of other plum classes described is 20%-30%.

Similarly, in fertilizer, the consumption of each component can be selected in wide scope, in order to provide abundant nutrient to green plum, the green plum that plantation is obtained contains abundant nutriment, preferably, relative to the described stalk of 100 weight portions, the consumption of described potato peel is 40-60 weight portion, the consumption of the described peat composed of rotten mosses is 35-45 weight portion, described diatomaceous consumption is 15-30 weight portion, the consumption of described bagasse is 12-18 weight portion, the consumption of described eggshell is 10-15 weight portion, the consumption of described bauxite is 25-35 weight portion, the consumption of described rock phosphate is 10-30 weight portion, the consumption of described potassium breeze is 8-15 weight portion, described kaolinic consumption is 5-10 weight portion.

In above-mentioned implantation methods, the consumption of fertilizer can be selected in wide scope, and in order to make green plum obtain sufficient nutrient, preferably, the consumption of fertilizer is 1500kg/ mu-2500kg/ mu.

In addition, the time applying fertilizer can be selected in wide scope, the green plum obtained to make plantation is rich in nutriment, and preferably, the time applying described fertilizer is: before the flowering stage of described green plum 15-30 days and described green plum flowering stage after the 2-3 month.

Similarly, the kind of reflective membrane can be selected in wide scope, considers from reflecting effect, preferably, reflective membrane be selected from PETG reflective membrane, polyvinyl chloride reflective membrane and cast polypropylene reflective membrane one or more.

Certainly, the consumption of reflective membrane also can be selected in wide scope, and in order to make green plum accept illumination fully, preferably, relative to 100 described green plums, the consumption of described reflective membrane is 300-600m ².

Below will be described the present invention by embodiment.In following examples, organic acid content parameter is recorded by liquid chromatography, the content parameter of protein is recorded by ultraviolet absorption method, the content parameter of dietary fiber is recorded by enzyme-gravimetric method, the content parameter of reducing sugar is recorded by permanganimetric method, and the content parameter of Cobastab and calcium is recorded by spectrophotometer method.

Embodiment 1

(1) choose on the sunny side, nearly water, mean annual temperature be 15 DEG C, pH value is the soil of 8;

(2) full green plum seed is obtained by rinsing screening;

(3) by green plum and dark plum spacing sleeve cropping, with total number of green plum and dark plum for benchmark, the percentage of a number of green plum is 75%, and the percentage of a number of dark plum is 25%;

(4) respectively before the flowering stage of green plum 20 days and green plum flowering stage after February 2000kg applied to green plum mix obtained fertilizer by stalk, potato peel, the peat composed of rotten mosses, diatomite, bagasse, eggshell, bauxite, rock phosphate, potassium breeze and kaolin (weight ratio is 100:50:40:22:15:12:30:20:12:8);

(5) carrying out pruning to green plum makes major branch stay branch to be 4, and major branch bifurcation angle is 50 °;

(6) below the tree crown of every green plum, 4m2 PETG reflective membrane is laid;

(7) quicklime is smeared at bud stage and fruitlet phase at green plum trunk place;

(8) harvesting is carried out to described green plum and obtain green plum A1.

The content parameter of the organic acid of this green plum, protein, dietary fiber, reducing sugar, Cobastab and calcium is in table 1.

Embodiment 2

(1) choose on the sunny side, nearly water, mean annual temperature be 0 DEG C, pH value is the soil of 7;

(2) full green plum seed is obtained by rinsing screening;

(3) by green plum and red bayberry spacing sleeve cropping, with total the number of green plum and red bayberry for benchmark, the percentage of a number of green plum is 70%, and the percentage of a number of red bayberry is 30%;

(4) before the flowering stage of green plum 15 days and green plum flowering stage after February 1500kg applied to green plum mix obtained fertilizer by stalk, potato peel, the peat composed of rotten mosses, diatomite, bagasse, eggshell, bauxite, rock phosphate, potassium breeze and kaolin (weight ratio is 100:40:35:15:12:10:25:10:8:5);

(5) carrying out pruning to green plum makes major branch stay branch to be 3, and major branch bifurcation angle is 40 °;

(6) below the tree crown of every green plum, 3m is laid ²polyvinyl chloride reflective membrane;

(7) solarization chlorophos is sprayed at bud stage and fruitlet phase at green plum trunk place;

(8) harvesting is carried out to described green plum and obtain green plum A2.

The content parameter of the organic acid of this green plum, protein, dietary fiber, reducing sugar, Cobastab and calcium is in table 1.

Embodiment 3

(1) choose on the sunny side, nearly water, mean annual temperature be 30 DEG C, pH value is the soil of 9;

(2) full green plum seed is obtained by rinsing screening;

(3) by green plum and Japanese apricot spacing sleeve cropping, with total the number of green plum and Japanese apricot for benchmark, the percentage of a number of green plum is 80%, and the percentage of a number of Japanese apricot is 20%;

(4) before the flowering stage of green plum 30 days and green plum flowering stage after March 2500kg applied to green plum mix obtained fertilizer by stalk, potato peel, the peat composed of rotten mosses, diatomite, bagasse, eggshell, bauxite, rock phosphate, potassium breeze and kaolin (weight ratio is 100:60:45:30:18:15:35:30:15:10);

(5) carrying out pruning to green plum makes major branch stay branch to be 5, and major branch bifurcation angle is 60 °;

(6) below the tree crown of every green plum, 6m is laid ²cast polypropylene reflective membrane;

(7) enemy's Folithion is shone at bud stage and fruitlet phase in the spray of green plum trunk place;

(8) harvesting is carried out to described green plum and obtain green plum A3.

The content parameter of the organic acid of this green plum, protein, dietary fiber, reducing sugar, Cobastab and calcium is in table 1.

Comparative example 1

Green plum B1 is obtained according to the method for embodiment 1, unlike, the pH value of the soil in step (1) is 6.

The content parameter of the organic acid of this green plum, protein, dietary fiber, reducing sugar, Cobastab and calcium is in table 1.

Comparative example 2

Green plum B2 is obtained according to the method for embodiment 1, unlike, the pH value of the soil in step (1) is 10.

The content parameter of the organic acid of this green plum, protein, dietary fiber, reducing sugar, Cobastab and calcium is in table 1.

Comparative example 3

Green plum B3 is obtained according to the method for embodiment 1, unlike, do not plant dark plum.

The content parameter of the organic acid of this green plum, protein, dietary fiber, reducing sugar, Cobastab and calcium is in table 1.

Comparative example 4

Green plum B4 is obtained according to the method for embodiment 1, unlike, the fertilizer in step (4) is changed to urea.

The content parameter of the organic acid of this green plum, protein, dietary fiber, reducing sugar, Cobastab and calcium is in table 1.

Comparative example 5

Green plum B5 is obtained according to the method for embodiment 1, unlike, non-lay reflex film.

The content parameter of the organic acid of this green plum, protein, dietary fiber, reducing sugar, Cobastab and calcium is in table 1.

Table 1

	A1	A2	A3	B1	B2	B3	B4	B5
									w1(g/100g)	6.45	6.38	6.41	2.74	2.73	2.84	2.83	2.81
w2(g/100g)	1.15	1.05	1.12	0.35	0.31	0.31	0.37	0.36
									w3(g/100g)	3.25	3.09	3.15	1.18	1.21	1.19	1.09	1.14

w4(g/100g)	1.58	1.49	1.52	0.76	0.88	0.78	0.82	0.84
									w5(mg/100g)	5.8	5.7	5.78	2.1	2.4	2.1	2.3	2.4
w6(mg/100g)	32.4	31.8	31.6	14.5	15.6	15.4	14.9	14.7

Wherein, w1 is organic acid content parameter, and w2 is the content parameter of protein, and w3 is the content parameter of dietary fiber, and w4 is the content parameter of reducing sugar, and w5 is the content parameter of Cobastab, and w6 is the content parameter of calcium.

Organic acid can stimulate the secretion of human consumption's gland, improves a poor appetite, and is conducive to the digestion of food, and has protective effect to vitamin C, has good facilitation to the growth of human body; Protein is the important component forming body tissue; Dietary fiber can reduce cholesterol, strengthens the immune system of people; Reducing sugar is the main source of the energy described in the activity of sustaining life; Cobastab can help human body to utilize energy, maintains and improves epithelial tissue, helps cell development and maturation; The growth of calcium to bone plays and important effect.

As shown in Table 1, the invention provides a kind of implantation methods of green plum, the green plum of being planted by this implantation methods is rich in organic acid, protein, dietary fiber, reducing sugar, Cobastab and calcium.Relative to A1-A3, the content parameter of the organic acid of B1-B5, protein, dietary fiber, reducing sugar, Cobastab and calcium all significantly reduces, describe spacing sleeve cropping, apply to act synergistically between fertilizer and these three steps of lay reflex film, thus the green plum making plantation obtain contains abundant organic acid, protein, dietary fiber, reducing sugar, Cobastab and calcium, greatly improve the nutritive value of green plum.

More than describe the preferred embodiment of the present invention in detail; but the present invention is not limited to the detail in above-mentioned embodiment, within the scope of technical conceive of the present invention; can carry out multiple simple variant to technical scheme of the present invention, these simple variant all belong to protection scope of the present invention.

It should be noted that in addition, each concrete technical characteristic described in above-mentioned embodiment, in reconcilable situation, can be combined by any suitable mode, in order to avoid unnecessary repetition, the present invention illustrates no longer separately to various possible combination.

In addition, also can be combined between various different embodiment of the present invention, as long as it is without prejudice to thought of the present invention, it should be considered as content disclosed in this invention equally.

Claims (9)

1. an implantation methods for green plum, is characterized in that, described implantation methods comprises:

(1) soil that PH is 7-9 is chosen;

(2) green plum and other plum classes are carried out spacing sleeve cropping;

(3) fertilizer is applied to described green plum;

(4) reflective membrane is set in the surrounding of described green plum;

Wherein, described fertilizer comprises: stalk, potato peel, the peat composed of rotten mosses, diatomite, bagasse, eggshell, bauxite, rock phosphate, potassium breeze and kaolin.

2. implantation methods according to claim 1, wherein, other plum classes described be selected from dark plum, red bayberry and Japanese apricot one or more.

3. implantation methods according to claim 1, wherein, with total number of described green plum and other plum classes for benchmark, the percentage of a number of described green plum is 70%-80%, and the percentage of a number of other plum classes described is 20%-30%.

4. implantation methods according to claim 3, wherein, relative to the described stalk of 100 weight portions, the consumption of described potato peel is 40-60 weight portion, the consumption of the described peat composed of rotten mosses is 35-45 weight portion, described diatomaceous consumption is 15-30 weight portion, the consumption of described bagasse is 12-18 weight portion, the consumption of described eggshell is 10-15 weight portion, the consumption of described bauxite is 25-35 weight portion, the consumption of described rock phosphate is 10-30 weight portion, and the consumption of described potassium breeze is 8-15 weight portion, and described kaolinic consumption is 5-10 weight portion.

5. implantation methods according to claim 1, wherein, the consumption of described fertilizer is 1500kg/ mu-2500kg/ mu.

6. implantation methods according to claim 5, wherein, the time applying described fertilizer is: before the flowering stage of described green plum 15-30 days and described green plum flowering stage after the 2-3 month.

7. implantation methods according to claim 1, wherein, described reflective membrane be selected from PETG reflective membrane, polyvinyl chloride reflective membrane and cast polypropylene reflective membrane one or more.

8. implantation methods according to claim 7, wherein, relative to 100 described green plums, the consumption of described reflective membrane is 300-600 ㎡.

9. implantation methods according to claim 7, wherein, described reflective membrane is laid in the below of the tree crown of described green plum.