CN102144488A - Method for fast cultivating plants in sandy regression area at reservoir region - Google Patents
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Abstract
The invention provides a method for fast cultivating plants in a sandy regression area at a reservoir region, which is characterized by comprising the steps of: mixing plant seeds, a soil matrix, an organic fertilizer and a biological adhesive according to the weight ratio of 1: (85-95): (5-10): (1.5-2.5), adding water, and evenly mixing to obtain a plant function compound with the water ratio of 40-65%; and manually or mechanically pinching the plant function compound into pills from 35g to 50g from the March to the April at every year, and dispersing the pills to the regression area, wherein the dispersing quantity of the regression area in each square meter is 16-20 pills. The method has the advantages that the cohesiveness and the soil organic matter components of the soil property in the regression area are improved, so that the plant survival rate is improved, the stable vegetational community is further formed in the sandy regression area at the reservoir region, the adverse impact to the environment caused by the water loss and soil erosion is reduced, and the environment pollution is reduced or controlled.
Description
Technical field
The present invention relates to the method for a kind of quick cultivation plant, especially relate to a kind of method that sandy falling zone is cultivated plant fast in the reservoir area.
Background technology
Falling zone (claiming fluctuation band or fluctuation district again) is meant the seasonal fluctuation in stage of reservoir and makes periphery be submerged one section special area that the soil periodically is exposed to the water surface, it is reservoir area silt, organic matter, chemical fertilizer enter water body with agricultural chemicals the ecological protective screen at last, have the dirt of cutting and filter, improve environmental functionals such as water quality, control deposition and erosion, have the bio-diversity of maintenance simultaneously, fish reproduction and ecological functions such as the birds habitat and the flood of regulating and storing are provided, the performance that the falling zone vegetation grows for the falling zone function has most important property.
At present, mainly there is following problem in the plant planting of sandy falling zone, reservoir area:
(1) soil matrix of falling zone vegetation growth is subjected to water body to wash away loss, and the basic condition of plant growing is constantly destroyed;
(2) plant growth environment condition in falling zone is harsh relatively, stand coercing of envirment factors such as water logging, high light, arid, nutritional deficiency, thus occurring in nature to be suitable for falling zone amphibious special habitats growing plants kind few, the screening difficulty;
(3) owing to the destruction of falling zone vegetation, soil structure causes the reservoir area severe water and soil erosion through long-term water erosion in the falling zone, often contain multiple carg in the soil body table matter, clay content is few, meal content height, the not anti-erosion of consistence difference subjects to wash away, so soil seed bank, soil seed pool is difficult to set up;
(4) the long-term water erosion of soil structure process in the falling zone, the soil organic matter dissolves in water body in a large number, not only cause the reservoir area water quality deterioration simultaneously because the soil organic matter is on the low side, the pioneer initial stage of settling down that screens is difficult to obtain enough nutrition and continues its existence, successfully also is difficult to form stable falling zone vegetational type even indivedual plant is transplanted.
Therefore make up a kind of simply, sandy falling zone is cultivated plant fast in the reservoir area fast and effectively method, form stable falling zone vegetational type, reduce the negative effect of water and soil loss, reduce or control environment and pollute the aesthetics enjoyment that increases vision simultaneously environment.
Summary of the invention
Technical problem to be solved by this invention provide a kind of simply, sandy falling zone is cultivated plant fast in the reservoir area fast and effectively method, this method can improve falling zone soil property cohesiveness and soil organic matter composition, thereby improve the survival rate of plant seed in the falling zone, form stable vegetational type in the falling zone, reservoir area, thereby reduce water and soil loss.
The present invention solves the problems of the technologies described above the technical scheme that is adopted: a kind of method that sandy falling zone is cultivated plant fast in the reservoir area may further comprise the steps:
(1) with plant seed, soil matrix, after fertilizer and bioadhesive stir by weight the ratio mixing and water adding water of 1:85-95:5-10:1.5-2.5, obtaining moisture content is the plant function complex of 40-65%, described plant seed is a throatroot, at least a in rhizoma calami and the typha angustifolia, N in the described fertilizer, the P and the content of organic matter are respectively 10-20 g/kg, 1-1.2 g/kg, 35-60 g/kg, described bioadhesive is by starch, protein, dextrin, rosin is formulated in the ratio of mass ratio 20-25:5-10:55-60:10-15, described soil matrix is with the natural soils airing, pulverizes, cross the 50-60 mesh sieve;
(2) in the 3-4 month in every year, the plant function complex that step (1) is obtained is pinched into the ball shape of 35-50g with hand or machine, intersperses among the falling zone, and every square metre of falling zone dispersion volume is the 16-20 ball.
After plant seed, soil matrix, fertilizer and bioadhesive stirred by weight the ratio mixing and water adding water of 1:90:7:2 in the step (1), obtaining moisture content was the plant function complex of 40-65%.
Compared with prior art, the invention has the advantages that: a kind of method that sandy falling zone is cultivated plant fast in the reservoir area of the present invention, with being suitable for falling zone growing plants seed, matrix, soil organic nutrient and bioadhesive are formed, after the plant function complex pinched into the ball shape, intersperse among the zone, falling zone, the cohesiveness and the soil organic matter composition of falling zone soil property have been improved, thereby improve the survival rate of plant seed in the falling zone, further sandy falling zone forms stable vegetational type in the reservoir area, reduce the negative effect of water and soil loss, reduce or the pollution that controls environment environment.
Embodiment
Below in conjunction with embodiment the present invention is described in further detail.
One, plant seed is selected:
From be fit to amphibious growth nearly 40 in the plant, so that plant different developmental phases root length is long, rhizome is big, endwall thickness is big, root air cavity structure is close and the root system gas exchange capacity is by force a plant resistance selection index, fast with plant tip of a root developmental rate, rhizome foundation intensity big, the foundation degree of cross linking many and unit volume root biomass greatly root soil adhesive force select index, screening obtains following plant and is fit to the amphibious growing environment in falling zone.
Throatroot (
Adina rubella Hance)For Rubiaceae (
Rubiaceae) the throatroot genus (
Adina Salisb), have another name called spire water body flower, machaka, the flowering fruit bearing stage 5-12 month.Originate in Guangdong, Guangxi, Fujian, Jiangsu, Zhejiang, Hunan, Jiangxi and Shaanxi; Be born in humid regions such as small stream limit, river bank, sandy beach.Its fasciated fiber is rope, gunnysack, synthetic cotton and paper raw material, and complete stool can be used as medicine, and has certain economic and is worth.
Rhizoma calami (
Acorus calamus L) be Araeceae (
Araceae) Acorus (
Acorus) plant.Perennial herb.The flowering fruit bearing stage 2-6 month.It is very wide to distribute, and produces each provinces and regions on the south the Yellow River, is born on the other stone of wetland or suction.Rhizome can be used as medicine.
Typha angustifolia (
Typha minima Funk) be Typhaceae (
Typhaceae) typha (
Typha) plant, perennial aquatic or swampweed basis.North is to Heilungkiang, and reaching Yunnan in the south all has distribution, is born in lake, pond, irrigation canals and ditches, marsh and stream flow band.
Two, specific embodiment
A kind of method that sandy falling zone is cultivated plant fast in the reservoir area of the present invention may further comprise the steps:
Embodiment 1
(1) after the ratio mixing and water adding water of 1:85:5:1.5 stirs by weight with throatroot, soil matrix, fertilizer and bioadhesive, obtain moisture content and be 40% plant function complex, N, P and the content of organic matter are respectively 10 g/kg in the above-mentioned fertilizer, 1g/kg, 35g/kg, above-mentioned bioadhesive is formed in the ratio cooperation of mass ratio 23:6:57:14 by starch, protein, dextrin, rosin, and above-mentioned soil matrix is with the natural soils airing, pulverizes, crosses 50 mesh sieves;
(2) in the 3-4 month in every year, the plant function complex that step (1) is obtained is pinched into the ball shape of 35g with hand or machine, intersperses among the falling zone, demonstration area of Thousand-Island Lake, Chunan, Hangzhou, and every square metre of falling zone dispersion volume is 20 balls.
Choosing the subregion of Thousand-Island Lake, Chunan, Hangzhou distinguishes in contrast, no plant function complex field planting in the check plot, this plant function complex field planting did not have the vestige of plant growing after 1 year in the check plot, the throatroot planting survival rates reaches 26-29% in the plant function complex of demonstration area
Embodiment 2
(1) after the ratio mixing and water adding water of 1:90:7:2 stirs by weight with rhizoma calami, soil matrix, fertilizer and bioadhesive, obtain moisture content and be 50% plant function complex, N, P and the content of organic matter are respectively 15g/kg in the above-mentioned fertilizer, 1.1g/kg, 50g/kg, above-mentioned bioadhesive is formed in the ratio cooperation of mass ratio 24:5:58:13 by starch, protein, dextrin, rosin, and above-mentioned soil matrix is with the natural soils airing, pulverizes, crosses 55 mesh sieves;
(2) in the 3-4 month in every year, the plant function complex that step (1) is obtained is pinched into the ball shape of 45g with hand or machine, intersperses among the falling zone, demonstration area of Hengshan Mountain, Fenghua, Ningbo reservoir, and every square metre of falling zone dispersion volume is 18 balls.
Choosing the subregion of Hengshan Mountain, Fenghua, Ningbo reservoir distinguishes in contrast, no plant function complex field planting in the check plot, this plant function complex field planting did not have the vestige of plant growing after 1 year in the check plot, the rhizoma calami planting survival rates reaches 35-38% in the plant function complex of demonstration area.
Embodiment 3
(1) after the ratio mixing and water adding water of 1:95:10:2.5 stirs by weight with typha angustifolia, soil matrix, fertilizer and bioadhesive, obtain moisture content and be 60% plant function complex, N, P and the content of organic matter are respectively 20g/kg in the above-mentioned fertilizer, 1.2g/kg, 60g/kg, above-mentioned bioadhesive is formed in the ratio cooperation of mass ratio 25:5:60:10 by starch, protein, dextrin, rosin, above-mentioned soil matrix is with the natural soils airing, pulverizes, crosses 60 mesh sieves and obtain;
(2) in the 3-4 month in every year, the plant function complex that step (1) is obtained is pinched into the ball shape of 50g with hand or machine, intersperses among the falling zone, demonstration area in white stream storehouse, Ningbo, and every square metre of falling zone dispersion volume is 16 balls.
Choosing the subregion in white stream storehouse, Ningbo distinguishes in contrast, no plant function complex field planting in the check plot, this plant function complex field planting did not have the vestige of plant growing after 1 year in the check plot, the rhizoma calami planting survival rates reaches 17-19% in the plant function complex of demonstration area.
Embodiment 4
(1) with plant seed, soil matrix, after fertilizer and bioadhesive stir by weight the ratio mixing and water adding water of 1:85:5:1.5, obtain moisture content and be 40% plant function complex, this plant seed is by throatroot, rhizoma calami and typha angustifolia mix by weight the ratio of 1:1:1, N in the above-mentioned fertilizer, the P and the content of organic matter are respectively 10 g/kg, 1g/kg, 35g/kg, above-mentioned bioadhesive is by starch, protein, dextrin, rosin forms in the ratio cooperation of mass ratio 23:6:57:14, above-mentioned soil matrix is with the natural soils airing, pulverizes, cross 50 mesh sieves;
(2) in the 3-4 month in every year, the plant function complex that step (1) is obtained is pinched into the ball shape of 35g with hand or machine, intersperses among the falling zone, demonstration area of Thousand-Island Lake, Chunan, Hangzhou, and every square metre of falling zone dispersion volume is 20 balls.
Choosing the subregion of Thousand-Island Lake, Chunan, Hangzhou distinguishes in contrast, no plant function complex field planting in the check plot, this plant function complex field planting is after 1 year, the vestige that does not have plant growing in the check plot, the rhizoma calami planting survival rates reaches 35-38% in the plant function complex of demonstration area, and the throatroot planting survival rates reaches 26-29%, and the typha angustifolia planting survival rates reaches 17-20%, vegetation cover degree can reach 17-19%, and the demonstration area is three species; The field planting of plant function complex was observed after 3 years, and the check plot does not still have the vestige of plant growing, and demonstration area plant function complex planting survival rates reaches 28-30%, and the vegetation cover degree level can reach 35-37%, and demonstration area implants kind has the 5-7 kind.
Three, result of the test
Upgrowth situation monitoring and evaluation after the field planting of plant function complex: adopt the ecological real-time online detection system of digitized plant physiology such as Phytalk and LC-6200 type pore analyzer track record to analyze throatroot, rhizoma calami and the sprouting of typha angustifolia species, growth of seedling and plant development, early stage vegetation growth state information: stomatal conductance (8-16 mmolm
-2S
-1), respiratory intensity (6.5-12.0 CO
2Mlhkg), stemflow (0.25-0.7h/L), leaf water potential (0.7-1.2 MP), leaf water content apparent Physiological Ecology data day of plant and seasonal rhythm variations such as (75-85%), obtain falling zone light radiation intensity (1200-1600 nmol/m simultaneously
2S), atmospheric temperature (17-39 ℃), atmospheric humidity (45-92 g/m
3), soil moisture content (72-94 %), wind speed multiple real time environment factor variations data such as (0.7-4.2 m/s), upgrowth situation is good after the field planting of above data declaration plant function complex.
The benefit evaluation of ecological recovery process: forming variation, vegetation cover degree and species diversity level etc. with vegetation and plant species is index, estimates the ecological benefits of falling zone revegetation process; The research method that adopts the environmental analysis technology to combine with experimental ecology is tackled into lake mud sand, minimizing soil organic matter number of dropouts and microenvironment water quality situation up to standard with vegetation and is foundation, estimates the environmental benefit of recovery process; With embodiment 4 is example, the field planting of plant function complex is after 1 year, the vestige that does not have plant growing in the check plot, the rhizoma calami planting survival rates reaches 35-38% in the plant function complex of demonstration area, the throatroot planting survival rates reaches 26-29%, the typha angustifolia planting survival rates reaches 17-20%, and vegetation cover degree can reach 17-19%, and the demonstration area is three species; The field planting of plant function complex was observed after 3 years, and the check plot does not still have the vestige of plant growing, and demonstration area plant function complex planting survival rates reaches 28-30%, and the vegetation cover degree level can reach 35-37%, and demonstration area implants kind has the 5-7 kind.
In sum, after using a kind of plant function complex that is used for planting sandy falling zone, reservoir area of the present invention, aspect environmental ecological benefit, compare with the check plot of no plant function complex field planting, vegetation tackle 90 ﹪ above go into lake mud sand, the soil organic matter more than 80% runs off, and the microenvironment water quality reaches I class water body standard; Aspect the landscape ecological benefit, significantly improve the falling zone microenvironment species composition diversity level and the aesthetic of landscape and be worth; Aspect the biological and ecological benefit, plants such as the rhizoma calami of selection, throatroot and typha angustifolia not only have higher ornamental value but also have economy and medical value.
Claims (2)
1. method that sandy falling zone is cultivated plant fast in the reservoir area is characterized in that may further comprise the steps:
(1) with plant seed, soil matrix, after fertilizer and bioadhesive stir by weight the ratio mixing and water adding water of 1:85-95:5-10:1.5-2.5, obtaining moisture content is the plant function complex of 40-65%, described plant seed is a throatroot, at least a in rhizoma calami and the typha angustifolia, N in the described fertilizer, the P and the content of organic matter are respectively 10-20 g/kg, 1-1.2 g/kg, 35-60 g/kg, described bioadhesive is by starch, protein, dextrin, rosin is formulated in the ratio of mass ratio 20-25:5-10:55-60:10-15, described soil matrix is with the natural soils airing, pulverizes, cross the 50-60 mesh sieve;
(2) in the 3-4 month in every year, the plant function complex that step (1) is obtained is pinched into the ball shape of 35-50g with hand or machine, intersperses among the falling zone, and every square metre of falling zone dispersion volume is the 16-20 ball.
2. a kind of method that sandy falling zone is cultivated plant fast in the reservoir area according to claim 1, it is characterized in that: after plant seed, soil matrix, fertilizer and bioadhesive stirred by weight the ratio mixing and water adding water of 1:90:7:2 in the step (1), obtaining moisture content was the plant function complex of 40-65%.
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Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN103636402A (en) * | 2013-12-27 | 2014-03-19 | 任立 | Method for planting walnut trees in wet land hydro-fluctuation belt by using grafting technique |
| CN105557122A (en) * | 2015-12-22 | 2016-05-11 | 天津嘉之和科技有限公司 | Simple planting module and preparation method thereof |
| CN106612749A (en) * | 2015-10-30 | 2017-05-10 | 天津金农脉生态科技有限公司 | Coated seeds for desert treatment and preparation method thereof |
| CN109429967A (en) * | 2018-12-27 | 2019-03-08 | 巫山县生产力促进中心(巫山县科学技术信息中心) | Mausoleum party method for culturing seedlings |
| CN114680018A (en) * | 2020-12-30 | 2022-07-01 | 青岛冠中生态股份有限公司 | Sand-fixing cultivation substrate for river hydro-fluctuation belt in alpine high-altitude area and use method thereof |
| CN114931080A (en) * | 2022-06-24 | 2022-08-23 | 广东省农业科学院环境园艺研究所 | Wetland plant matrix for ecological grid hydro-fluctuation belt and application thereof |
| CN116210392A (en) * | 2023-03-22 | 2023-06-06 | 四平本农本色农业产业发展有限责任公司 | Method for improving soil environment |
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| CN103636402A (en) * | 2013-12-27 | 2014-03-19 | 任立 | Method for planting walnut trees in wet land hydro-fluctuation belt by using grafting technique |
| CN103636402B (en) * | 2013-12-27 | 2015-08-19 | 任立 | Utilize graft technology in the method for wetland falling zone plantation walnut |
| CN106612749A (en) * | 2015-10-30 | 2017-05-10 | 天津金农脉生态科技有限公司 | Coated seeds for desert treatment and preparation method thereof |
| CN105557122A (en) * | 2015-12-22 | 2016-05-11 | 天津嘉之和科技有限公司 | Simple planting module and preparation method thereof |
| CN109429967A (en) * | 2018-12-27 | 2019-03-08 | 巫山县生产力促进中心(巫山县科学技术信息中心) | Mausoleum party method for culturing seedlings |
| CN114680018A (en) * | 2020-12-30 | 2022-07-01 | 青岛冠中生态股份有限公司 | Sand-fixing cultivation substrate for river hydro-fluctuation belt in alpine high-altitude area and use method thereof |
| CN114680018B (en) * | 2020-12-30 | 2023-09-19 | 青岛冠中生态股份有限公司 | Sand fixation cultivation matrix for river hydro-fluctuation belt in high-cold high-altitude area and application method thereof |
| CN114931080A (en) * | 2022-06-24 | 2022-08-23 | 广东省农业科学院环境园艺研究所 | Wetland plant matrix for ecological grid hydro-fluctuation belt and application thereof |
| CN114931080B (en) * | 2022-06-24 | 2023-06-20 | 广东省农业科学院环境园艺研究所 | Wetland plant matrix for ecological grid hydro-fluctuation belt and application thereof |
| CN116210392A (en) * | 2023-03-22 | 2023-06-06 | 四平本农本色农业产业发展有限责任公司 | Method for improving soil environment |
| CN116210392B (en) * | 2023-03-22 | 2023-10-27 | 四平本农本色农业产业发展有限责任公司 | Method for improving soil environment |
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