CN106478296B - A kind of composite modifying agent and its application for gleyed soil - Google Patents

A kind of composite modifying agent and its application for gleyed soil Download PDF

Info

Publication number
CN106478296B
CN106478296B CN201610901379.2A CN201610901379A CN106478296B CN 106478296 B CN106478296 B CN 106478296B CN 201610901379 A CN201610901379 A CN 201610901379A CN 106478296 B CN106478296 B CN 106478296B
Authority
CN
China
Prior art keywords
soil
modifying agent
composite modifying
gleyed
application
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201610901379.2A
Other languages
Chinese (zh)
Other versions
CN106478296A (en
Inventor
刘益仁
侯红乾
冀建华
刘秀梅
吕真真
王福全
刘光荣
彭春瑞
冯兆滨
杨成春
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Institute of Soil Fertilizer Resources and Environment of Jiangxi Academy of Agricultural Sciences
Original Assignee
Institute of Soil Fertilizer Resources and Environment of Jiangxi Academy of Agricultural Sciences
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Institute of Soil Fertilizer Resources and Environment of Jiangxi Academy of Agricultural Sciences filed Critical Institute of Soil Fertilizer Resources and Environment of Jiangxi Academy of Agricultural Sciences
Priority to CN201610901379.2A priority Critical patent/CN106478296B/en
Publication of CN106478296A publication Critical patent/CN106478296A/en
Application granted granted Critical
Publication of CN106478296B publication Critical patent/CN106478296B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Classifications

    • CCHEMISTRY; METALLURGY
    • C05FERTILISERS; MANUFACTURE THEREOF
    • C05GMIXTURES OF FERTILISERS COVERED INDIVIDUALLY BY DIFFERENT SUBCLASSES OF CLASS C05; MIXTURES OF ONE OR MORE FERTILISERS WITH MATERIALS NOT HAVING A SPECIFIC FERTILISING ACTIVITY, e.g. PESTICIDES, SOIL-CONDITIONERS, WETTING AGENTS; FERTILISERS CHARACTERISED BY THEIR FORM
    • C05G3/00Mixtures of one or more fertilisers with additives not having a specially fertilising activity
    • C05G3/80Soil conditioners
    • CCHEMISTRY; METALLURGY
    • C05FERTILISERS; MANUFACTURE THEREOF
    • C05CNITROGENOUS FERTILISERS
    • C05C9/00Fertilisers containing urea or urea compounds
    • CCHEMISTRY; METALLURGY
    • C05FERTILISERS; MANUFACTURE THEREOF
    • C05DINORGANIC FERTILISERS NOT COVERED BY SUBCLASSES C05B, C05C; FERTILISERS PRODUCING CARBON DIOXIDE
    • C05D3/00Calcareous fertilisers
    • C05D3/02Calcareous fertilisers from limestone, calcium carbonate, calcium hydrate, slaked lime, calcium oxide, waste calcium products
    • CCHEMISTRY; METALLURGY
    • C05FERTILISERS; MANUFACTURE THEREOF
    • C05FORGANIC FERTILISERS NOT COVERED BY SUBCLASSES C05B, C05C, e.g. FERTILISERS FROM WASTE OR REFUSE
    • C05F5/00Fertilisers from distillery wastes, molasses, vinasses, sugar plant or similar wastes or residues, e.g. from waste originating from industrial processing of raw material of agricultural origin or derived products thereof
    • C05F5/002Solid waste from mechanical processing of material, e.g. seed coats, olive pits, almond shells, fruit residue, rice hulls

Landscapes

  • Chemical & Material Sciences (AREA)
  • Organic Chemistry (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Inorganic Chemistry (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Pest Control & Pesticides (AREA)
  • Soil Sciences (AREA)
  • Mechanical Engineering (AREA)
  • Botany (AREA)
  • Environmental & Geological Engineering (AREA)
  • Fertilizers (AREA)
  • Soil Conditioners And Soil-Stabilizing Materials (AREA)

Abstract

The present invention relates to soil improvement fields, and in particular to a kind of composite modifying agent for gleyed soil, the component including following parts by weight: 5-10 parts of quick lime;20-30 parts of flyash;50-60 parts of the cow dung of fermentation maturity;10-15 parts of the rapeseed oil cake of fermentation maturity.The present invention also provides a kind of application method of above-mentioned composite modifying agent in improvement gleyed soil.Composite modifying agent of the invention is applied to gleying rice field, improves the physicochemical property of soil, increases soil porosity, it improves soil and leads to gas permeability, the soil weight is reduced, soil aggregate structure is improved, alleviates soil acidification degree, improve soil redox potential, soil reduction process substance total amount is reduced, soil toxicity is alleviated, increases readily available nutrient of soil content, promote 10% or more increasing production of rice, improved effect highly significant.

Description

A kind of composite modifying agent and its application for gleyed soil
Technical field
The present invention relates to soil improvement fields, and in particular to a kind of composite modifying agent for gleyed soil and its answers With.
Background technique
Gleying rice soil is to develop the reproducibility rice soil of formation under long-term flooding condition to make due to long-term waterflooding It is destroyed at soil aggregate structure, soil permeability can deteriorate, and rhizospheric environment is in anaerobic condition more, and reproducibility noxious material is a large amount of Accumulation.This class soil productivity is low, is one of main low yield rice great soil group in China.Water is cultivated on gleying paddy soil Rice, will lead to that root system development is bad, slow growth, seriously affect rice yield.Studies have shown that the water in strong gleying rice field Rice yield is only that the half in non-gleying rice field or so is even lower.Gleying rice field area in China's is up to 4.0 × 106hm2More than, Wherein based on primary gleying, Plain massif irrigates network based on secondary gleyization in loke shore region along the river, and large area is dived Educating rice field seriously affects national food security.The improved route for inquiring into gleying paddy soil, gives full play to its yield potential, For greatly developing grain-production, ensureing that national food security is of great significance.
Improving technology research in relation to gleying paddy soil is the scientific research task that Minister Agriculture of China's emphasis is supported.It is right at present The improvement of Gleyic paddysoil is mainly based on hydraulic engineering measure and tillage control measure.Hydraulic engineering measure mainly includes excavating draining Ditch, embedded underdrain, hidden pipe etc., by excluding field ponding, lowering of watertable, to gradually mitigate the gleying of paddy soil Degree;Tillage control measure is mainly by being altered or modified tillage control measure, such as rice field-upland field rotation, winter ploughing are suned the earth which has been ploughed up measure, and incobation is changed Change the moisture supply situation in rice field, improves soil texture, increase the logical gas permeability of soil, reduce reducing substances accumulation, to subtract The toxic action in light gleying rice field.The common deficiency of above method is: time-consuming, labour-consuming, higher cost, and by the week of field Surrounding environment is affected, and enforcement difficulty is big.Also there are some scholars to attempt to be improved using soil conditioner at present, for example utilizes The inorganic material such as lime, Desulphurization, biological carbon, flyash, calper calcium peroxide cut down reducing substances, lower soil gleying journey Degree;Or improve soil nutrient supply situation and soil physics structure using the organic materials such as stalk, oil cake, rice bran, improve incobation Change rice field.But it is improved with homogenous material or one, two kind of material mating, improved effect is unobvious.Chinese patent Document CN105493677 discloses a kind of modification method in gleying rice field, first disperses gleying for rice field stalk stack retting object Rice field, then Nutrient Activation agent, acidity conditioner and inorganic fertilizer mixture are spread fertilizer over the fields, to achieve the purpose that improve gleying rice field, But the above method is merely capable of reducing the total amount of soil reduction process substance and improves the pH value in gleying rice field, but for changing Physicochemical property, improvement soil aggregate structure, the permeability aspect effect of raising soil of good soil be not significant.
Summary of the invention
Therefore, the technical problem to be solved in the present invention is that overcoming in the modification method of existing gleying rice field for soil group The defect of the improved effects difference such as dimeric structure and soil permeability, so that providing a kind of effect is preferably used for gleyed soil Composite modifying agent.
The invention solves another technical problem be to provide a kind of above-mentioned composite modifying agent in improvement gleying Application method in soil.
For this purpose, the technical solution adopted by the present invention are as follows:
A kind of composite modifying agent for gleyed soil, the component including following parts by weight:
5-10 parts of quick lime, be white powder for the quick lime directly bought from agricultural lime shop;
20-30 parts of flyash, the waste residue or other approach burning raw coal generated after raw coal power generation is utilized for thermal power plant The waste residue generated afterwards;
50-60 parts of the cow dung of fermentation maturity;
10-15 parts of the rapeseed oil cake of fermentation maturity.Four kinds of components are uniformly mixed, and composite modifying agent is made.
In the composite modifying agent for gleyed soil, the cow dung of the fermentation maturity the preparation method is as follows:
By fresh cow dung, cavings and urea by weight being uniformly mixed for 600-700:300-350:5-10, then addition is mixed The fermenting agent of object total weight 0.5% is closed, then adjusting moisture content is 50%-60%, fermentation is banked up, at interval of turning in 2-3 days Once, decomposed after 15-20 days, it dries rear spare.
In the composite modifying agent for gleyed soil, the preparation method of the rapeseed oil cake of the fermentation maturity It is as follows:
By rapeseed oil cake and cavings by weight being uniformly mixed for 750-850:200-250, it is total then to add mixture The fermenting agent of weight 0.5%, then adjusting moisture content is 50%-60%, banks up fermentation, it is primary at interval of turning in 2-3 days, It is decomposed after 15-20 days, it dries rear spare.
In the composite modifying agent for gleyed soil, the fermenting agent is specially organic matter decomposing inoculant, For Beijing Century Aims Biotechnology Co., Ltd's production.
In the composite modifying agent for gleyed soil, the pH value of the flyash is 9-10.
Another technical solution that the present invention uses are as follows:
Application of any of the above-described composite modifying agent in improvement gleyed soil.
The composite modifying agent fills shoaling layer, by institute in the application in improvement gleyed soil before Soil tillage It states composite modifying agent uniformly to spread fertilizer over the fields in soil surface, then ploughs rake uniformly, plant rice.
The composite modifying agent is no less than two weeks before rice transplanting and spreads fertilizer over the fields in the application in improvement gleyed soil The composite modifying agent.
In the application in improvement gleyed soil, the amount of application of the composite modifying agent is the composite modifying agent 3.0-6.0t/hm2, test paddy soil is preferably 4.5t/hm2
For the composite modifying agent in the application in improvement gleyed soil, the gleyed soil is gleying rice field Soil.
Technical solution of the present invention has the advantages that
Provided by the present invention for the composite modifying agent of gleyed soil, by by quick lime, flyash, fermentation maturity The rapeseed oil cake of cow dung and fermentation maturity is mixed to prepare composite modifying agent in proportion, the cow dung of fermentation maturity and fermentation maturity Rapeseed oil cake remains the nutrient of cow dung and rapeseed oil cake itself, and required nutrient, quick lime are provided for paddy growth Addition with flyash can significantly improve soil pH value, mitigate soil acidification degree, four kinds of ingredients of the application composite modifying agent Mutual cooperation makes the physicochemical property of soil significantly improve, and increases the porosity of soil, improves the permeability of soil, drops The low soil weight, so that the percentage of gaseous phase of soil is improved, the percentage of solid phase of soil is accordingly reduced, hence it is evident that improves soil Earth structure, improves Water and fertilizer retention ability of soil.
In addition, four kinds of raw material synergistic effects reduce soil also while the above-mentioned physicochemical property of soil is improved Immunogenic substance content, improves oxidation-reduction potential, alleviates Fe in soil2+The toxic action of plasma effectively activates Soil nutrient promotes soil nutrient release and crop that nutrient is absorbed and utilized.Experiment shows to apply the soil of modifying agent processing Its alkali-hydrolyzable nitrogen, available phosphorus and quick-acting potassium content are obviously improved, so as to effectively facilitate rice root and overground part Growth is finally reached the purpose for improving rice yield.
In conclusion the composite modifying agent of application the application can be obviously improved soil quality, the readily available nutrient of soil is improved Content, to promote rice growth and improve rice yield.
Following technical effects that composite modifying agent of the invention is proved by taking the test group of embodiment 1 and control group as an example.
(1) improved conditions:
Experimental field it is located at the village San Li, the Nanchang City, Jiangxi Province Jinxian County township San Li, is located in Poyang Lake bank, belongs to subtropical zone monsoon Weather, average annual precipitation 1600mm, wherein nearly half rainfall concentrates on summer, 17.5 DEG C of average temperature of the whole year or so, >=10 DEG C 5525.6 DEG C of accumulated temperature.Trial zone soil plough horizon gleying is obvious, and the soil reduction process substance total amount before on-test is 5.69cmol/ Kg, pH 5.26, soil organism 24.21g/kg, full nitrogen 1.405g/kg, alkali-hydrolyzable nitrogen 133.2mg/kg, available phosphorus 15.3mg/ Kg, available potassium 104.8mg/kg.
Test is carried out continuously 3 years, terminated by 2014 since 2012 ing, planting system be one season late rice, kind is yellow Flower accounts for.
(2) test group and control group:
Test group: shoaling layer is filled in rice transplanting the last fortnight, composite modifying agent is uniformly spread fertilizer over the fields in soil surface, is harrowed and plough It is even.Composite modifying agent component is 8 parts of quick lime;23 parts of flyash, the pH value of flyash is 9-10;The cow dung 57 of fermentation maturity Part;12 parts of the rapeseed oil cake of fermentation maturity, four kinds of components are uniformly mixed, and composite modifying agent is made.Composite modifying agent amount of application For 4.5t/hm2.Dose is pure N 225kg/hm2, P2O5 112.5kg/hm2, K2O 225kg/hm2;Nitrogenous fertilizer, phosphate fertilizer, potash fertilizer Type is respectively urea (containing N 46%), calcium magnesium phosphate (containing P2O512%), potassium chloride (contains K2O60%);Wherein nitrogenous fertilizer 50% Make base manure, 25% make tillering fertilizer, 25% make ear manuer, potash fertilizer 50% makees tillering fertilizer, 50% makees ear manuer, and phosphate fertilizer all makees base manure.? Then 1 day or same day basal dressing before rice transplanting plough rake uniformly, plant rice;Top dressing is applied with rice growing season.
The cow dung of the fermentation maturity the preparation method is as follows:
By fresh cow dung, cavings and urea by weight being uniformly mixed for 673:320:7, total weight of the mixture is then added 0.5% organic matter decomposing inoculant, then adjusting moisture content is 55%, banks up fermentation, 15-20 primary at interval of turning in 2-3 days It is decomposed after it, it dries rear spare.Cow dung (fresh base) nutrient content is containing N 0.40%, P2O50.10%, K2O 0.23%.
The rapeseed oil cake of the fermentation maturity the preparation method is as follows:
By rapeseed oil cake and cavings by weight being uniformly mixed for 780:220, total weight of the mixture 0.5% is then added Organic matter decomposing inoculant, then adjust moisture content be 55%, bank up fermentation, it is primary at interval of turning in 2-3 days, after 15-20 days It is decomposed, it dries rear spare.Rapeseed oil cake nutrient content is containing N 5.10%, P2O50.85%, K2O 1.11%.
Control group: dose is pure N 225kg/hm2, P2O5 112.5kg/hm2, K2O 225kg/hm2;Nitrogenous fertilizer, phosphate fertilizer, Potash fertilizer type is respectively urea (containing N 46%), calcium magnesium phosphate (containing P2O512%), potassium chloride (contains K2O 60%);Wherein nitrogenous fertilizer 50% makees base manure, 25% makees tillering fertilizer, 25% makees ear manuer, and potash fertilizer 50% makees tillering fertilizer, 50% makees ear manuer, and phosphate fertilizer all does base Fertilizer.Before rice transplanting 1 day or on the day of basal dressing, then plough rake uniformly, plant rice;Top dressing is applied with rice growing season.
(3) application effect compares: in growth period duration of rice, observation is recorded, and the maturity period, which surveys, to be produced, and continuous implementation takes after 3 years, 3 years Soil sample measures index of correlation.Specific experiment result is as follows:
Influence (t/hm of 1 different disposal of table to rice yield2)
The soil physical property of 2 different disposal of table is analyzed
The soil w ater-stable aggregates of 3 different disposal of table are classified (%)
Influence of 4 different disposal of table to soil chemical characteritics
The different letters of same row indicate that statistical test has significant difference, the table if marking same letter in table 1-4 Show that difference is not significant.
As it can be seen from table 1 application composite modifying agent can be obviously promoted increasing production of rice and compare with control group, 2012-2014 Year application composite modifying agent processing seed rate of growth is respectively 13.4%, 17.6%, 19.1%, and stalk rate of growth is respectively 16.5%, 22.2%, 25.9%, biomass rate of growth is respectively 14.8%, 19.7%, 22.2%, and effect of increasing production is obvious, and It is incremented by as the application time limit increases rate of growth, illustrates that application composite modifying agent effect of increasing production is obvious, and there is cumulative effect.
From table 2 it can be seen that application composite modifying agent can dramatically increase soil porosity (increasing by 8.94%), while can change The three of kind soil compare, hence it is evident that reduce solid phase of soil percentage (reducing by 8.24%), and greatly improve gaseous phase of soil percentage and (mention It is high 37.2%), application composite modifying agent can significantly reduce the soil weight (reduce by 9.76%).As it can be seen that application composite modifying agent energy The physical property of soil is significantly improved, the gas permeability of soil is improved and improves the performances such as soil water supply retain water and nutrients.
In addition, can be seen that application composite modifying agent from the aggregate classification results of table 3 can significantly improve soil macro aggregate Wherein being greater than 2mm and 1-2mm partial size aggregate to partial size influences maximum 17.2% and 23.6% is respectively increased, together in the content of body When application composite modifying agent significantly reduce small agglomerates content, 0.106-0.25mm and be less than 0.106mm partial size aggregate amounts 20.5% and 23.2% is reduced respectively, and macro aggregate increases and small agglomerates reduce the physical structure that can obviously improve soil, changes The retain water and nutrients performance of kind soil has great influence to the growth of crop.As it can be seen that application composite modifying agent is to soil texture etc. The improved effect of physical property is clearly.
Can be seen that application composite modifying agent from the soil chemical characteritics of table 4 analysis result can significantly improve soil pH value (improving 0.54 unit), mitigates soil acidification degree;Soil redox potential (improving 26.5%) can be significantly improved, is reduced Soil reduction process substance total amount (reduces by 19.7%), to mitigate Fe2+Etc. the toxic action of reproducibilities ion and promote soil support Divide release;It is compared with control group, soil alkali-hydrolyzable nitrogen, available phosphorus and the quick-acting potassium content of application modifying agent processing are promoted respectively 12.57mg/kg (9.14%), 2.22mg/kg (13.1%), 19.00mg/kg (17.5%), it is seen then that application composite modifying agent and Readily available nutrient of soil content can be significantly improved, may advantageously facilitate absorption of the crop to nutrient.
To sum up, composite modifying agent of the invention is applied on gleying paddy soil, can be dramatically increased soil porosity, be changed The three of kind soil compare, and reduce the soil weight, improve soil aggregate structure, improve the gas permeability of soil and improve soil water supply and protect The performances such as water fertilizer conservation;Soil pH value can be significantly improved, mitigates soil acidification degree, significantly improves soil redox potential, is dropped Low soil reduction process substance total amount mitigates Fe2+Etc. reproducibilities ion toxic action, improve soil alkali-hydrolyzable nitrogen, available phosphorus and speed Imitate potassium content.As it can be seen that applying the physicochemical character that composite modifying agent of the invention can be obviously improved soil, reduces soil and poison and make With promotion soil nutrient release promotes crop to the absorption of nutrient and achievees the purpose that volume increase.
Specific embodiment
Embodiment 1
A kind of composite modifying agent for gleyed soil, the component including following parts by weight:
8 parts of quick lime;23 parts of flyash;57 parts of the cow dung of fermentation maturity;12 parts of the rapeseed oil cake of fermentation maturity.Four kinds Component is uniformly mixed, and composite modifying agent is made.
The cow dung of the fermentation maturity the preparation method is as follows:
By fresh cow dung, cavings and urea by weight being uniformly mixed for 673:320:7, total weight of the mixture is then added 0.5% organic matter decomposing inoculant, then adjusting moisture content is 55%, banks up fermentation, 15-20 primary at interval of turning in 2-3 days It is decomposed after it, it dries rear spare.Cow dung (fresh base) nutrient content is containing N 0.40%, P2O50.10%, K2O 0.23%.
The rapeseed oil cake of the fermentation maturity the preparation method is as follows:
By rapeseed oil cake and cavings by weight being uniformly mixed for 780:220, total weight of the mixture 0.5% is then added Organic matter decomposing inoculant, then adjust moisture content be 55%, bank up fermentation, it is primary at interval of turning in 2-3 days, after 15-20 days It is decomposed, it dries rear spare.Rapeseed oil cake nutrient content is containing N 5.10%, P2O50.85%, K2O 1.11%.
The application method that above-mentioned composite modifying agent is used for when improveing gleyed soil is to fill shallow in rice transplanting the last fortnight Water layer uniformly spreads fertilizer over the fields the composite modifying agent in soil surface, and it is uniform then to plough rake.Composite modifying agent amount of application is 4.5t/ hm2
Embodiment 2
A kind of composite modifying agent for gleyed soil, the component including following parts by weight:
5 parts of quick lime;30 parts of flyash;50 parts of the cow dung of fermentation maturity;15 parts of the rapeseed oil cake of fermentation maturity.Four kinds Component is uniformly mixed, and composite modifying agent is made.
The cow dung of the fermentation maturity the preparation method is as follows:
By fresh cow dung, cavings and urea by weight being uniformly mixed for 645:350:5, total weight of the mixture is then added 0.5% organic matter decomposing inoculant, then adjusting moisture content is 55%, banks up fermentation, 15-20 primary at interval of turning in 2-3 days It is decomposed after it, it dries rear spare.Cow dung (fresh base) nutrient content is containing N 0.44%, P2O50.13%, K2O 0.28%.
The rapeseed oil cake of the fermentation maturity the preparation method is as follows:
By rapeseed oil cake and cavings by weight being uniformly mixed for 750:250, total weight of the mixture 0.5% is then added Organic matter decomposing inoculant, then adjust moisture content be 55%, bank up fermentation, it is primary at interval of turning in 2-3 days, after 15-20 days It is decomposed, it dries rear spare.Rapeseed oil cake nutrient content is containing N 5.18%, P2O50.89%, K2O 1.06%.
The application method that above-mentioned composite modifying agent is used for when improveing gleyed soil is to fill shallow in rice transplanting the last fortnight Water layer uniformly spreads fertilizer over the fields the composite modifying agent in soil surface, and it is uniform then to plough rake.Composite modifying agent amount of application is 3.0t/ hm2
The composite modifying agent of the present embodiment is applied to improvement gleying paddy soil, continuous to implement 3 years, annual rice Maturity period, which surveys, to be produced, and soil sampling measures index of correlation after 3 years.Specific experiment result is as follows:
Influence (t/hm of 5 different disposal of table to rice yield2)
The analysis of 6 soil physical property of table
7 soil w ater-stable aggregates of table are classified (%)
Influence of 8 different disposal of table to soil chemical characteritics
The different letters of same row indicate that statistical test has significant difference, the table if marking same letter in table 5-8 Show that difference is not significant.
As can be seen from Table 5, application composite modifying agent can be obviously promoted increasing production of rice and compare with control group, 2012-2014 Year application composite modifying agent processing seed rate of growth is respectively 10.5%, 12.2%, 13.9%, and stalk rate of growth is respectively 11.2%, 12.1%, 17.0%, biomass rate of growth is respectively 10.8%, 12.2%, 15.4%, and effect of increasing production is obvious, and It is incremented by as the application time limit increases rate of growth, illustrates that application composite modifying agent effect of increasing production is obvious, and there is cumulative effect.
As can be seen from Table 6, application composite modifying agent can dramatically increase soil porosity (increasing by 6.24%), while can change The three of kind soil compare, hence it is evident that reduce solid phase of soil percentage (reducing by 5.08%), and greatly improve gaseous phase of soil percentage and (mention It is high 14.7%), application composite modifying agent can significantly reduce the soil weight (reduce by 5.69%).As it can be seen that application composite modifying agent energy The physical property of soil is significantly improved, the gas permeability of soil is improved and improves the performances such as soil water supply retain water and nutrients.
In addition, can be seen that application composite modifying agent from the aggregate classification results of table 7 can significantly improve soil macro aggregate Wherein being greater than 2mm and 1-2mm partial size aggregate to partial size influences maximum 11.3% and 10.9% is respectively increased, together in the content of body When application composite modifying agent significantly reduce small agglomerates content, 0.106-0.25mm and be less than 0.106mm partial size aggregate amounts 14.6% and 15.3% is reduced respectively, and macro aggregate increases and small agglomerates reduce the physical structure that can obviously improve soil, changes The retain water and nutrients performance of kind soil has great influence to the growth of crop.As it can be seen that application composite modifying agent is to soil texture etc. The improved effect of physical property is clearly.
Can be seen that application composite modifying agent from the soil chemical characteritics of table 8 analysis result can significantly improve soil pH value (improving 0.57 unit), mitigates soil acidification degree;Soil redox potential (improving 23.6%) can be significantly improved, is reduced Soil reduction process substance total amount (reduces by 14.8%), to mitigate Fe2+Etc. the toxic action of reproducibilities ion and promote soil support Divide release;It is compared with control group, soil alkali-hydrolyzable nitrogen, available phosphorus and the quick-acting potassium content of application modifying agent processing are promoted respectively 14.63mg/kg (10.6%), 1.89mg/kg (11.2%), 15.70mg/kg (14.4%), it is seen then that application composite modifying agent and Readily available nutrient of soil content can be significantly improved, may advantageously facilitate absorption of the crop to nutrient.
Embodiment 3
A kind of composite modifying agent for gleyed soil, the component including following parts by weight:
10 parts of quick lime;20 parts of flyash;60 parts of the cow dung of fermentation maturity;10 parts of the rapeseed oil cake of fermentation maturity.Four Kind component is uniformly mixed, and composite modifying agent is made.
The cow dung of the fermentation maturity the preparation method is as follows:
By fresh cow dung, cavings and urea by weight being uniformly mixed for 690:300:10, total weight of the mixture is then added 0.5% organic matter decomposing inoculant, then adjusting moisture content is 55%, banks up fermentation, 15-20 primary at interval of turning in 2-3 days It is decomposed after it, it dries rear spare.Cow dung (fresh base) nutrient content is containing N 0.35%, P2O50.09%, K2O 0.19%.
The rapeseed oil cake of the fermentation maturity the preparation method is as follows:
By rapeseed oil cake and cavings by weight being uniformly mixed for 800:200, total weight of the mixture 0.5% is then added Organic matter decomposing inoculant, then adjust moisture content be 55%, bank up fermentation, it is primary at interval of turning in 2-3 days, after 15-20 days It is decomposed, it dries rear spare.Rapeseed oil cake nutrient content is containing N 4.92%, P2O50.76%, K2O 0.99%.
The application method that above-mentioned composite modifying agent is used for when improveing gleyed soil is to fill shallow in rice transplanting the last fortnight Water layer uniformly spreads fertilizer over the fields the composite modifying agent in soil surface, and it is uniform then to plough rake.Composite modifying agent amount of application is 6.0t/ hm2
The composite modifying agent of the present embodiment is applied to improvement gleying paddy soil, continuous to implement 3 years, annual rice Maturity period, which surveys, to be produced, and soil sampling measures index of correlation after 3 years.Specific experiment result is as follows:
Influence (t/hm of 9 different disposal of table to rice yield2)
The analysis of 10 soil physical property of table
The soil w ater-stable aggregates of 11 different disposal of table are classified (%)
Influence of 12 different disposal of table to soil chemical characteritics
The different letters of same row indicate that statistical test has significant difference, the table if marking same letter in table 9-12 Show that difference is not significant.
As can be seen from Table 9, application composite modifying agent can be obviously promoted increasing production of rice and compare with control group, 2012-2014 Year application composite modifying agent processing seed rate of growth is respectively 12.0%, 14.8%, 15.6%, and stalk rate of growth is respectively 13.7%, 15.9%, 19.3%, biomass rate of growth is respectively 12.8%, 15.3%, 17.4%, and effect of increasing production is obvious, and It is incremented by as the application time limit increases rate of growth, illustrates that application composite modifying agent effect of increasing production is obvious, and there is cumulative effect.
As can be seen from Table 10, application composite modifying agent can dramatically increase soil porosity (increasing by 7.34%), while energy Improve soil three compare, hence it is evident that reduce solid phase of soil percentage (reducing by 7.58%), and greatly improve gaseous phase of soil percentage (improving 34.1%), application composite modifying agent can significantly reduce the soil weight (reducing by 7.32%).As it can be seen that application composite modifying agent The physical property of soil can be significantly improved, the gas permeability of soil is improved and improves the performances such as soil water supply retain water and nutrients.
In addition, can be seen that application composite modifying agent from the aggregate classification results of table 11 can significantly improve soil agglomerate 14.8% and 15.5% is respectively increased wherein being greater than 2mm and 1-2mm partial size aggregate to partial size influences maximum in the content of aggressiveness, Composite modifying agent, which is administered simultaneously, significantly reduces small agglomerates content, 0.106-0.25mm and contains less than 0.106mm partial size aggregate Amount reduces by 8.61% and 25.4% respectively, and macro aggregate increases and small agglomerates reduce the physical structure that can obviously improve soil, The retain water and nutrients performance for improving soil has great influence to the growth of crop.As it can be seen that application composite modifying agent is to soil texture Etc. physical properties improved effect clearly.
Can be seen that application composite modifying agent from the soil chemical characteritics of table 12 analysis result can significantly improve soil pH value (improving 0.35 unit), mitigates soil acidification degree;Soil redox potential (improving 17.5%) can be significantly improved, is reduced Soil reduction process substance total amount (reduces by 13.3%), to mitigate Fe2+Etc. the toxic action of reproducibilities ion and promote soil support Divide release;It is compared with control group, soil alkali-hydrolyzable nitrogen, available phosphorus and the quick-acting potassium content of application modifying agent processing are promoted respectively 10.80mg/kg (7.85%), 1.76mg/kg (10.4%), 14.80mg/kg (13.6%), it is seen then that application composite modifying agent and Readily available nutrient of soil content can be significantly improved, may advantageously facilitate absorption of the crop to nutrient.
Obviously, the above embodiments are merely examples for clarifying the description, and does not limit the embodiments.It is right For those of ordinary skill in the art, can also make on the basis of the above description it is other it is various forms of variation or It changes.There is no necessity and possibility to exhaust all the enbodiments.And it is extended from this it is obvious variation or It changes still within the protection scope of the invention.

Claims (8)

1. a kind of composite modifying agent for gleyed soil, which is characterized in that the component including following parts by weight:
5-10 parts of quick lime;
20-30 parts of flyash;
50-60 parts of the cow dung of fermentation maturity;
10-15 parts of the rapeseed oil cake of fermentation maturity;
Wherein, the cow dung of the fermentation maturity the preparation method is as follows:
By fresh cow dung, cavings and urea by weight being uniformly mixed for 600-700:300-350:5-10, mixture is then added The fermenting agent of total weight 0.5%, then adjusting moisture content is 50%-60%, banks up fermentation, it is primary at interval of turning in 2-3 days, It is decomposed after 15-20 days, it dries rear spare;
The rapeseed oil cake of the fermentation maturity the preparation method is as follows:
By rapeseed oil cake and cavings by weight being uniformly mixed for 750-850:200-250, total weight of the mixture is then added 0.5% fermenting agent, then adjusting moisture content is 50%-60%, banks up fermentation, 15-20 primary at interval of turning in 2-3 days It is decomposed after it, it dries rear spare.
2. the composite modifying agent according to claim 1 for gleyed soil, which is characterized in that the fermenting agent tool Body is organic matter decomposing inoculant.
3. any composite modifying agent for gleyed soil according to claim 1~2, which is characterized in that the powder The pH value of coal ash is 9-10.
4. application of any composite modifying agent of claims 1 to 3 in improvement gleyed soil.
5. application of the composite modifying agent according to claim 4 in improvement gleyed soil, which is characterized in that in soil Shoaling layer is filled before turning over, the composite modifying agent is uniformly spread fertilizer over the fields in soil surface, and it is uniform then to plough rake.
6. application of the composite modifying agent according to claim 5 in improvement gleyed soil, which is characterized in that in rice It is no less than two weeks before rice transplanting and spreads fertilizer over the fields the composite modifying agent.
7. application of the composite modifying agent according to any one of claim 4 to 6 in improvement gleyed soil, feature exist In the amount of application of the composite modifying agent is 3.0-6.0t/hm2
8. application of the composite modifying agent according to claim 4 in improvement gleyed soil, which is characterized in that described latent Educating soil is gleying paddy soil.
CN201610901379.2A 2016-10-17 2016-10-17 A kind of composite modifying agent and its application for gleyed soil Active CN106478296B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201610901379.2A CN106478296B (en) 2016-10-17 2016-10-17 A kind of composite modifying agent and its application for gleyed soil

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201610901379.2A CN106478296B (en) 2016-10-17 2016-10-17 A kind of composite modifying agent and its application for gleyed soil

Publications (2)

Publication Number Publication Date
CN106478296A CN106478296A (en) 2017-03-08
CN106478296B true CN106478296B (en) 2019-09-27

Family

ID=58270130

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201610901379.2A Active CN106478296B (en) 2016-10-17 2016-10-17 A kind of composite modifying agent and its application for gleyed soil

Country Status (1)

Country Link
CN (1) CN106478296B (en)

Families Citing this family (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109880634A (en) * 2019-04-11 2019-06-14 江西省农业科学院土壤肥料与资源环境研究所 A kind of soil conditioner and its method for carrying out soil improvement
CN112980448B (en) * 2021-02-03 2022-02-11 湖北省农业科学院植保土肥研究所 Rice field soil conditioner and preparation method and application thereof
CN113462399B (en) * 2021-07-23 2023-04-07 山东省农业科学院 Modifier for coal ash-based sand Jiang Heitu and preparation method and application thereof
CN115322055A (en) * 2022-08-30 2022-11-11 江苏省农业科学院 Tobacco soil conditioner and preparation method and application thereof
CN116806509A (en) * 2023-05-09 2023-09-29 华中农业大学 Rice fertilization method for improving fertility of submerged rice field and application thereof

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103250607A (en) * 2013-05-27 2013-08-21 江西省红壤研究所 Method for increasing yield of gleying paddy soil at lake paddy area
CN103283334A (en) * 2013-05-27 2013-09-11 江西省红壤研究所 Gleying paddy soil modification method for lake-around paddy fields
CN105272750A (en) * 2015-11-04 2016-01-27 梁丁 Organic bio-fertilizer and preparation method thereof
CN105493677A (en) * 2015-11-27 2016-04-20 江西省农业科学院土壤肥料与资源环境研究所 Gleying rice field improvement method
CN106045757A (en) * 2016-05-26 2016-10-26 合肥信文农业科技有限公司 Acidic soil amendment for rice planting and preparation method therefor

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103250607A (en) * 2013-05-27 2013-08-21 江西省红壤研究所 Method for increasing yield of gleying paddy soil at lake paddy area
CN103283334A (en) * 2013-05-27 2013-09-11 江西省红壤研究所 Gleying paddy soil modification method for lake-around paddy fields
CN105272750A (en) * 2015-11-04 2016-01-27 梁丁 Organic bio-fertilizer and preparation method thereof
CN105493677A (en) * 2015-11-27 2016-04-20 江西省农业科学院土壤肥料与资源环境研究所 Gleying rice field improvement method
CN106045757A (en) * 2016-05-26 2016-10-26 合肥信文农业科技有限公司 Acidic soil amendment for rice planting and preparation method therefor

Also Published As

Publication number Publication date
CN106478296A (en) 2017-03-08

Similar Documents

Publication Publication Date Title
Kim et al. Considering winter cover crop selection as green manure to control methane emission during rice cultivation in paddy soil
CN106478296B (en) A kind of composite modifying agent and its application for gleyed soil
Biswas et al. Comprehensive approaches in rehabilitating salt affected soils: a review on Indian perspective
CN103143556B (en) Passivating agent for reducing cadmium activity of acidic vegetable soil and use method thereof
CN106590671B (en) Soil conditioner and preparation method and application thereof
Li Research progress of humic acid fertilizer on the soil
CN104289506A (en) Biological remediation method for soil polluted by cadmium, zinc, lead and copper ions
CN103626536A (en) Fast returning-to-field straw decomposing treatment method for fertilizing low-yield yellow-clay paddy fields in double-cropping paddy region in central China
CN106034454B (en) Improve paddy growth in arsenic pollution rice field and reduces the water-fertilizer conditioning method that arsenic absorbs
CN106165585A (en) The method utilizing charcoal preventing and treating region, Rice-rape rotation farmland phosphorus loss
CN106348951A (en) Bioorganic fertilizer prepared from bagasse for salinity reduction and alkali improvement of saline-alkali soil, and preparation method thereof
CN107787635A (en) A kind of powder sticks the modification method of loamy texture saline-alkali soil
CN104774620A (en) Compound conditioner for vanadium contaminated soil as well as preparation method and conditioning method of conditioner
CN105950174B (en) A kind of microbial soil conditioner for salt-soda soil
Sharma et al. Reviving the productivity of salt-affected lands: technological options, constraints and research needs
CN103283334A (en) Gleying paddy soil modification method for lake-around paddy fields
CN104232096A (en) Soil conditioner
CN109504396A (en) A kind of saline-alkali land soil conditioner and preparation method thereof
CN105993779A (en) Method for carrying out original coil cultivation on mild saline-alkali soil through wormcast containing organic matter
CN107805159A (en) A kind of slight alkaline land improves special fertilizer
CN112088607A (en) Saline-alkali soil improvement method and application thereof
CN102511278A (en) Desert control technique using special microbial fertilized psammophyte fertilizer
CN109365506A (en) A kind of heavy metal deactivator and its application suitable for neutral and alkali cadmium pollution soil
CN108456107A (en) A kind of seedling growth organic fertilizer and its manufacture craft
CN104016796B (en) A kind of nutrient material for landscape engineering planting soil and preparation method thereof

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
SE01 Entry into force of request for substantive examination
SE01 Entry into force of request for substantive examination
GR01 Patent grant
GR01 Patent grant