BE1027389B1 - PROCEDURE FOR PLANTS AROUND HOUSES IN REGIONS WITH HIGH TEMPERATURES AND LOW PRECIPITATION - Google Patents

Abstract

The present invention relates to the field of environmental greening technologies and, more particularly, to a method of planting greenery around houses in regions of high temperature and little rainfall. By the method of the present invention, the plant survival rate can reach 85 to 95%, which is a huge improvement compared to the 30 to 50% survival rate in the current state of the art, and the cost of survival per tree is with the method of the present invention at around RMB 1,500, which is a significant reduction compared to the cost of RMB 3,000 in the current state of the art.

Description

PROCEDURE FOR PLANT GREENING AROUND HOUSES IN REGIONS WITH HIGH TEMPERATURES AND LOW PRECIPITATION

FIELD OF THE INVENTION The present invention relates to the field of environmental greening technologies, and more particularly to a method of greening plants around houses in regions of high temperature and little rainfall.

BACKGROUND Dubai is located in the tropics and has a typical desert climate with a long summer and high temperatures of up to 40 ° C. Even in winter, the temperature is generally around 20 to 26 ° C, and the lowest temperature is usually around 11 to 13 ° C. However, rainfall is rare and the annual average rainfall is less than 100mm, making it a typical region with high temperatures and little rainfall.

At present, trees are generally planted around houses to green areas with high temperatures and little rainfall, and water pipes are laid to artificially spray and irrigate the trees for conservation. However, the aforementioned greening method has the following disadvantages: artificial watering is too arbitrary, as the temperature can rise to 40 to 45 ° C in hot weather and it is likely that newly planted small trunks will die if the watering interval is too long, which means the survival rate is reduced and only reaches around 30 to 50% with the cost of survival per tree being around 3,000 RMB. In view of the above situation, therefore, it is necessary to improve plant greening technologies in order to transform and protect the environment.

SUMMARY It is an object of the present invention to provide a method of plant greening around houses in high temperature and low rainfall regions that has a high survival rate with low maintenance costs.

In order to achieve the above-mentioned purpose, the present invention provides the following technical solution: A method for plant greening around houses in regions with high temperatures and little precipitation comprises the following steps: 1) successively subdividing an area surrounding a house into zone I, Zone II, Zone III, and Zone IV; 2) excavation of zone I to a depth of 2.5-3.5 m and laying waterproof slabs on the ground and on the edges of zone I;

3) Excavation of zone II, carrying out a first filling in zone I with the soil excavated from zone II, then successively laying the first water distribution pipes, carrying out a second filling, digging trenches, carrying out a third filling, planting trees, distributing one Water retention means, laying second water distribution pipes and geotextile fabric, watering, carrying out a fourth backfill to the original level of the soil, laying a thin film and pressing it with sand; 4) laying the waterproof slabs on the ground and at the edges of zone II, excavating zone III, filling zone II with the soil excavated from zone III according to the procedure of step 3), and greening zone II; 5) Laying the waterproof slabs on the bottom and the edges of Zone III, excavating Zone IV, filling Zone III with the soil excavated from Zone IV according to the procedure of step 3), and greening Zone III; and 6) backfilling and greening of zone IV according to the method of step 3), the backfilled soil of zone IV being the remaining soil of zone I.

The soil filled in during the first filling preferably contains the soil excavated from zone II and a fertilizer; the fertilizer is a compound fertilizer or farm manure; the mass ratio of fertilizer to soil excavated from zone II is (3 to 7): 100; the filling height of the first filling is 1.8 to 2.2 m.

The first water distribution pipe is preferably a PVC water distribution pipe; the first water distribution pipe is tightly perforated and covered with a geotextile fabric; the pipe spacing of the first water distribution pipes is 4.5 to 5.5 m.

The backfilled bottom of the second backfill is preferably the same backfilled bottom as for the first backfill; the filling height of the second filling is 0.6 to 1.0 m.

The seed tree is preferably selected from 1 to 3 year old seedlings; the distance between the seedlings is (1.8 to 2.2) m x (1.8 to 2.2) m.

The position of the trenches is preferably 2/3 of the crown face of the seedlings; the width of the trenches is 220 to 260 mm and the depth of the trenches is <400 mm.

The backfilled soil of the third backfill preferably contains the soil excavated from zone II, the water retention agent, a phosphate fertilizer and the compound fertilizer; the mass ratio of the water retention agent to the soil excavated from zone II is (0.2 to 0.4): 1000;

the mass ratio of the phosphate fertilizer to the soil excavated from zone II is (8 to 12): 100; the mass ratio of the compound fertilizer to the soil excavated from zone II is (4 to 6): 100; The amount of water retention agent used in the process of distributing the water retention agent is preferably (0.8 to 1.2) kg / 100 m ”. The second water distribution pipe is preferably a PVC water distribution pipe; the second water distribution pipe is tightly perforated and covered with a geotextile fabric; the distance between the second water distribution pipes is 7 to 8 m.

The first water distribution pipe and the second water distribution pipe are each preferably connected to a main water supply pipe; the main water supply pipe is controlled by an automatic delay control switch to water for 25 to 35 minutes each morning and evening.

The present invention provides a method of greening plants around houses in high temperature, low rainfall regions, comprising the steps of: 1) sequentially dividing an area surrounding a house into Zone I, Zone II, Zone III, and Zone IV; 2) excavation of zone I to a depth of 2.5-3.5 m and laying waterproof slabs on the ground and on the edges of zone I; 3) Excavation of zone II, carrying out a first filling in zone I with the soil excavated from zone II, then successively laying the first water distribution pipes, carrying out a second filling, digging trenches, carrying out a third filling, planting trees, distributing one Water retention means, laying second water distribution pipes and geotextile fabric, watering, carrying out a fourth backfill to the original level of the soil, laying a thin film and pressing it with sand; 4) Laying the waterproof slabs on the ground and at the edges of zone IL, excavating zone III, filling zone II with the soil excavated from zone III according to the procedure of step 3), and greening zone II; 5) Laying the waterproof slabs on the ground and at the edges of zone III, excavating zone IV, filling zone HI with the soil excavated from zone IV according to the procedure of step 3), and greening zone III; and 6) backfilling and greening of zone IV according to the method of step 3), the backfilled soil of zone IV being the remaining soil of zone I.

By the method of the present invention, the plant survival rate can reach 85 to 95%, which is a huge improvement compared to the 30 to 50% survival rate in the current state of the art, and the cost of survival per tree is with the method of the present invention at around RMB 1,500, which is a significant reduction compared to the cost of RMB 3,000 in the current state of the art.

DETAILED DESCRIPTION The present invention provides a method of greening plants around homes in high temperature and low rainfall regions comprising the steps of: 1) sequentially dividing an area surrounding a home into Zone I, Zone II, Zone III, and Zone IV ; 2) excavation of zone I to a depth of 2.5-3.5 m and laying waterproof boards on the ground and on the edges of zone I; 3) Excavation of zone II, carrying out a first filling in zone I with the soil excavated from zone II, then successively laying the first water distribution pipes, carrying out a second filling, digging trenches, carrying out a third filling, planting trees, distributing one Water retention means, laying second water distribution pipes and geotextile fabric, watering, carrying out a fourth backfill to the original level of the soil, laying a thin film and pressing it with sand; 4) Laying the waterproof boards on the ground and at the edges of Zone II, excavating Zone III, backfilling Zone II with the soil excavated from Zone HI according to the procedure of step 3), and greening Zone II; 5) Laying the waterproof slabs on the ground and at the edges of Zone III, excavating Zone IV, filling Zone IH with the soil excavated from Zone IV according to the procedure of step 3), and greening Zone III; and 6) backfilling and greening of zone IV according to the method of step 3), the backfilled soil of zone IV being the remaining soil of zone I.

In the present invention, an area surrounding a house is sequentially divided into Zone I, Zone II, Zone III, and Zone IV. In the present invention, the excavations of the four zones are the same. In the present invention, the four zones are preferably in a range from 45 to 55 m around the house, more preferably from 48 to 52 m, most preferably 50 m.

After the four zones have been formed, in the present invention, zone I is excavated to a depth of 2.5 to 3.5 m and then waterproof slabs are laid on the bottom and on the edges of zone I. In the present invention, the depth of zone I after excavation is 2.5 to 3.5 m, preferably 2.8 to 3.2 m, and particularly preferably 3.0 m. In the present invention, it is the watertight ones Panels preferably around waterproof panels made of EVA. The specifications of the waterproof panels are preferably: 5.0 m wide x 25 m long x 1.5 mm thick. The watertight panels are laid closed using a creep welding process. The present invention is not specifically limited to the specific method of creep welding, and a creep welding method known to those skilled in the art can be employed.

In the present invention, the soil excavated from Zone I is temporarily piled adjacent to Zone IV for subsequent backfilling of Zone IV.

After the laying of the watertight panels, in the present invention, zone II is excavated and a first filling is carried out at zone I with the soil excavated from zone II, then first water distribution pipes are laid one after the other, a second filling is carried out, and trenches are excavated , Performing a third backfill, planting trees, distributing a water retention agent, laying second water distribution pipes and geotextile fabric, watering, performing a fourth backfill to the original level of the soil, laying a thin film and pressing it with sand.

In the present invention, the first backfill soil preferably contains the soil excavated from Zone II and a fertilizer. The fertilizer is a compound fertilizer or stable manure. The present invention is not specifically limited to any type and source of compound manure or manure, and any type and source known to those skilled in the art can be employed. In the present invention, the mass ratio of the fertilizer to the soil excavated from zone I is preferably (3 to 7): 100, more preferably (4 to 6): 100, and most preferably 5: 100.

In the present invention, the filling height of the first filling is preferably 1.8 to 2.2 m, particularly preferably 1.9 to 2.1 m, and most preferably 2.0 m.

In the present invention, the first water distribution pipe is preferably a PVC water distribution pipe. The first water distribution pipe is tightly perforated and coated with a geotextile fabric. The diameter of the first water distribution pipe is preferably 50 mm. The density of the geotextile fabric is preferably> 400 g / m ”, and particularly preferably (450 to 500) g / m”. In the present invention, the pipe spacing of the first water distribution pipes is preferably 4.5 to 5.5 m, more preferably 4.8 to 5.2 m, and most preferably 5.0 m.

In the present invention, the first water distribution pipe is preferably connected to a main water supply pipe, and the diameter of the main water supply pipe is preferably 108 mm. The main water supply pipe is preferably controlled by an automatic delay control switch to water for 25 to 35 minutes each morning and evening.

In the present invention, the backfilled bottom of the second backfill is preferably the same backfilled bottom as the first backfill. The filling height of the second filling is preferably 0.6 to 1.0 m, more preferably 0.7 to 0.9 m, and most preferably 0.8 m.

In the present invention, the position of the trenches is preferably 2/3 of the crown face of the seedlings, and the seedling is preferably from 1 to 3 years old

Seedlings selected. The present invention is not limited to any particular type of seedling. Plantable seedlings known to those skilled in the art can be selected for different regions, with date palms or palm trees being selected for example in Dubai. In the present invention, the distance between the seedlings is preferably (1.8 to 2.2) mx (1.8 to 2.2) m, particularly preferably (1.9 to 2.1) mx (1.9 to 2 , 1) m, and most preferably 2.0 mx 2.0 m. The width of the trenches is preferably 220 to 260 mm, particularly preferably 230 to 250 mm, and most preferably 250 mm. The depth of the trenches is preferably <400 mm, particularly preferably <350 mm, and most preferably 300 mm. In the present invention, the backfilled soil of the third backfill preferably contains the soil excavated from zone II, the water retention agent, the phosphate fertilizer and the compound fertilizer. The present invention is not specifically limited to a source of the phosphate fertilizer and the compound fertilizer, and a commercially available product known to those skilled in the art can be used. The present invention is not specifically limited to a type of compound fertilizer, and a type known to those skilled in the art can be used.

In the present invention, the raw material for preparing the water-retaining agent preferably contains 65 to 66 parts of acrylamide, 23 to 24 parts of potassium acrylate, 8 to 10 parts of water and 0.5 to 1.0 part of crosslinking agent. In the present invention, the water retention agent may preferably also be an agricultural and forestry drought-resistant water retention agent available from Hebei Renqiu Huida Co., Ltd. will be produced.

In the present invention, the mass ratio of the water retention agent to the soil excavated from zone II is preferably (0.2 to 0.4): 1000, particularly preferably (0.25 to 0.35): 1000, and most preferably 0, 3: 1000. The mass ratio of the phosphate fertilizer to the soil excavated from zone II is preferably (8 to 12): 100, particularly preferably (9 to 11): 100, and most preferably 10: 100. The mass ratio of the compound fertilizer to the soil excavated from zone II is preferably (4 to 6): 100, particularly preferably (4.5 to 5.5): 100, and most preferably 5.0: 100.

In the present invention, the backfilled soil of the third backfill is preferably backfilled into a trench of the trench excavation.

The present invention defines the seedlings selected for the seed trees and the spacing of the seedlings according to the above constraints on the seedlings in the trenching operation. In the present invention, the seed trees are planted at a distance of (1.8 to 2.2) mx (1.8 to 2.2) m during digging, and the soil dug from the latter pit becomes to fill in the previous pit used. Preferably watering is carried out until it is watered before filling.

In the present invention, the amount of the water retention agent used in the process of distributing the water retention agent is preferably (0.8 to 1.2) kg / 100 m ”, particularly preferably (0.9 to 1.1) kg / 100 m”, and most preferably 1.0 kg / 100 m ".

In the present invention, when laying the second water distribution pipes, the second water distribution pipe is preferably a PVC water distribution pipe. The second water distribution pipe is tightly perforated and coated with a geotextile fabric. The diameter of the second water distribution pipe is preferably 50 mm. The density of the geotextile fabric is preferably> 400 g / m ”, and particularly preferably (450 to 500) g / m”. In the present invention, the pipe spacing of the second water distribution pipes is preferably 7 to 8 m, more preferably 7.3 to 7.8 m, and most preferably 7.5 m.

In the present invention, the second water distribution pipe is preferably connected to the main water supply pipe, and the diameter of the main water supply pipe is preferably 108 mm. The main water supply pipe is preferably controlled by an automatic delay control switch to water for 25 to 35 minutes each morning and evening.

In the present invention, the method of irrigation preferably enables watering of the backfilled soil.

In the present invention, the backfilled soil of the fourth backfill is preferably the soil excavated from zone II, and the degree of backfill preferably corresponds to the original height of the soil.

In the present invention, zone III is excavated and zone II is filled; and Zone IV is excavated and Zone HI is filled. For the method of backfilling zone IV with the soil of zone I, reference is preferably made to the method of excavating zone I and backfilling zone I.

The method of planting greenery around houses in regions with high temperatures and little precipitation provided by the present invention is described in detail below with reference to the embodiments. However, the embodiments should not be construed as limiting the scope of the present invention.

Embodiment 1 An area of 50 m around the house is divided into four zones (Zone I, Zone II, Zone III and Zone IV).

After Zone I has been excavated to a depth of 3.0 m, waterproof EVA sheets with the specifications of 5.0 m wide x 25 m long x 1.5 mm thick are applied to the bottom and the edges of Zone I a creep welding process laid closed, the excavated soil is temporarily piled up next to zone IV for a subsequent filling of zone IV.

Zone II is excavated, the soil excavated from zone II and the compound fertilizer are mixed in a ratio of 100: 5 and zone I is filled up to a height of 2.0 m with it, and the densely perforated and geotextile-coated PVC water distribution pipes with the diameter of 50 mm are laid out (the distance between the water distribution pipes is 5.0 m), the water distribution pipes are connected to the PVC main water supply pipe with the diameter of 108 mm, and that by mixing the soil excavated from zone II with The filling soil formed by the compound fertilizer in a ratio of 100: 5 is filled up to a height of 0.8 m.

According to the arrangement of the (1 to 3 year old) seedlings with a distance of 2.0 mx 2.0 m, the trenches are first dug (the width is 250 mm and the depth is 400 mm at 2/3 of the vertical canopy area), and then the water retention agent, the phosphate fertilizer, the compound fertilizer and the filled soil are mixed in the ratio 0.3: 100: 50: 1000 and the trenches are filled with it.

The seed trees are planted during the trench at a distance of 2.0 mx 2.0 m, and the soil dug from the latter pit is used to fill in the previous pit, and then the water retention agent is applied in an amount of 1 kg / 100 m '' distributed, and the tightly perforated and geotextile-coated PVC water distribution pipes with a diameter of 50 mm are laid out (the distance between the water distribution pipes is 7.5 m), the water distribution pipes are connected to the PVC main water supply pipe with a diameter of 108 mm connected and coated with geotextile fabric, and the backfilled soil is poured through and backfilled to the original level of the soil, and a thin film is finally covered with sand and pressed.

Zone III is excavated and Zone II is filled; and Zone IV is excavated and Zone III is filled.

For the procedure for backfilling Zone IV with the soil of Zone I, reference is made to the procedure for excavating zone II and backfilling zone I.

Upon completion of the procedure, the main water supply pipe is controlled to water for 25 to 35 minutes each morning and evening.

The survival rate for this program is 85 to 95%. According to the calculation, the cost of survival per tree is RMB 1,500, with the annual cost of automatic conservation being 200 to 500 RMB per tree and the annual cost of artificial conservation being 500 to 1,000 RMB per tree.

The above descriptions are only of preferred embodiments of the present invention.

It is noted that several improvements and modifications can be made to one skilled in the art without departing from the principle of the present invention.

These improvements and modifications should also be considered to fall within the scope of the present invention.

Claims (10)

Claims A method of planting greenery around houses in regions with high temperatures and little rainfall, comprising the following steps: 1) sequentially dividing an area surrounding a house into Zone I, Zone II, Zone III, and Zone IV; 2) excavation of zone I to a depth of 2.5-3.5 m and laying waterproof slabs on the ground and on the edges of zone I; 3) Excavation of zone II, carrying out a first filling in zone I with the soil excavated from zone II, then successively laying the first water distribution pipes, carrying out a second filling, digging trenches, carrying out a third filling, planting trees, distributing one Water retention means, laying second water distribution pipes and geotextile fabric, watering, carrying out a fourth backfill to the original level of the soil, laying a thin film and pressing it with sand; 4) Laying the waterproof slabs on the ground and at the edges of Zone II, excavating Zone III, backfilling Zone II with the soil excavated from Zone HI according to the procedure of step 3), and greening Zone II; 5) laying the waterproof slabs on the ground and at the edges of zone III, excavating zone IV, filling zone III with the soil excavated from zone IV according to the procedure of step 3), and greening zone III; and 6) backfilling and greening of zone IV according to the method of step 3), the backfilled soil of zone IV being the remaining soil of zone I. 2. The method of claim 1, wherein the backfilled soil in the first backfill comprises the soil excavated from zone II and a fertilizer; wherein the fertilizer is a compound fertilizer or a farm manure; the mass ratio of fertilizer to soil excavated from zone II (3 to 7) being: 100; the filling height of the first filling being 1.8 to 2.2 m. 3. The method of claim 1, wherein the first water distribution pipe is a PVC water distribution pipe; wherein the first water distribution pipe is tightly perforated and coated with a geotextile fabric; the pipe spacing of the first water distribution pipes being 4.5 to 5.5 m. 4. The method of claim 1, wherein the backfilled soil of the second backfill is the same backfilled soil as the first backfill; the filling height of the second filling being 0.6 to 1.0 m. 5. The method of claim 1, wherein the seed tree is selected from 1 to 3 year old seedlings; the spacing of the seedlings being (1.8 to 2.2) m x (1.8 to 2.2) m. 6. The method of claim 1, wherein the position of the trenches is 2/3 of the canopy area of the seedlings; wherein the width of the trenches is 220 to 260 mm and the depth of the trenches is <400 mm. 7. The method of claim 1, wherein the backfilled soil of the third backfill comprises the soil excavated from zone II, the water retention agent, a phosphate fertilizer and the compound fertilizer; the mass ratio of the water retention agent to the soil excavated from zone II being (0.2 to 0.4): 1000; the mass ratio of the phosphate fertilizer to the soil excavated from zone II (8 to 12): 100; the mass ratio of the compound fertilizer to the soil excavated from zone II (4 to 6): 100. 8. The method of claim 1, wherein the amount of water retention agent used in the process of distributing the water retention agent is (0.8 to 1.2) kg / 100 m ”. 9. The method of claim 1, wherein the second water distribution pipe is a PVC water distribution pipe; the second water distribution pipe being tightly perforated and covered with a geotextile fabric; the pipe spacing of the second water distribution pipes being 7 to 8 m. 10. The method according to claim 1, wherein the first water distribution pipe and the second water distribution pipe are each connected to a main water supply pipe; wherein the main water supply pipe is controlled by an automatic delay control switch to water every morning and evening for 25 to 35 minutes each.