CN109588218B - Planting method for reducing mercury content of crops - Google Patents

Abstract

The invention discloses a planting method for reducing mercury content of crops, and belongs to the technical field of heavy metal contaminated soil remediation. The planting method comprises the following steps: planting the crops by using mercury-polluted soil applied with a soil conditioner as planting soil; the soil conditioner comprises the following raw materials: limestone powder, organic carbon powder, calcite powder, quartz powder and sepiolite powder. The method can stably solidify various forms of mercury in the mercury-polluted soil, simultaneously reduce the absorption of mercury by crops, has the advantages of good stabilization effect, short period, wide source of medicament raw materials, low cost, no secondary pollution and the like, and is beneficial to wide application.

Description

Planting method for reducing mercury content of crops

Technical Field

The invention belongs to the technical field of heavy metal contaminated soil remediation, and relates to a planting method for reducing mercury content of crops.

Background

Mercury, commonly known as "mercury," is a relatively rare element in the earth's crust and is the only liquid metal. Mercury (Hg) is one of the most toxic heavy metal elements in the environment and is not beneficial to the human body. The method has a plurality of ways of entering the soil, including mercury mine exploitation, industrial wastewater and domestic sewage discharge, atmosphere settlement, pesticide and fertilizer use and the like. According to the national survey bulletin of soil pollution conditions, the mercury exceeding rate of only one point of soil in China reaches 1.6%, and the mercury pollution phenomenon of soil generally exists and is wide in quantity.

Mercury migrates and diffuses in the soil over time and undergoes chemical morphological transformation, and mercury compounds of different morphologies pose serious threats to the environment, food safety and human health. The excessive soil mercury in farmland can cause the excessive mercury in part of grain and vegetable crops, and the human body can enrich mercury through the intake of mercury-polluted food, the breathing and the suction of mercury vapor and the drinking of mercury-polluted water, so that serious people can cause mercury poisoning and central nervous system damage, and the normal physiological functions of the respiration, the digestion and the urinary system of the human body are influenced.

The farmland soil conditioner repairing planting technology is a technology for reducing the heavy metal content of crops by combining a scientific planting method with the combination of the mobility and the bioavailability of heavy metals by adding a natural ore conditioner into soil to change the existing form of the heavy metals in the soil. The key point of the technology is to find a repair material which is efficient, cheap and free of secondary pollution, and a scientific and effective planting technology is integrated. Although some documents and patents disclose some mercury contaminated soil remediation materials and methods, such as sodium thiosulfate, phosphor lime, sulfide salts, ferrous salts, etc. However, because these chemicals have certain toxicity, they will destroy the physical and chemical properties and soil structure of soil, causing secondary pollution, and the repairing effect is not ideal, the cost is high, and the economical efficiency is poor.

Disclosure of Invention

Aiming at the defects of the prior art in the mercury polluted soil remediation and treatment method and the defects of the research on farmland mercury pollution remediation materials. The invention aims to provide a conditioner capable of stably solidifying various forms of mercury in farmland soil, which has the advantages of wide raw material source, low cost, short period, no secondary pollution and contribution to wide popularization.

In order to solve the problems, the invention adopts the following technical scheme:

the soil conditioner for treating mercury pollution includes limestone powder, organic carbon powder, calcite powder, quartzite powder and sepiolite powder.

The soil conditioner also comprises biomass ash and selenium fertilizer.

The soil conditioner comprises the following raw materials in parts by weight: 20-50 parts of limestone powder, 2-13 parts of organic carbon powder, 10-30 parts of calcite powder, 5-15 parts of quartz powder, 15-35 parts of sepiolite powder, 0-6 parts of biomass ash and 0-4 parts of selenium fertilizer.

The soil conditioner comprises the following raw materials in parts by weight: 30-40 parts of limestone powder, 5-10 parts of organic carbon powder, 15-25 parts of calcite powder, 7-13 parts of quartz powder, 20-30 parts of sepiolite powder, 0-3 parts of biomass ash and 0-2 parts of selenium fertilizer.

The preparation method of the soil conditioner for treating mercury pollution comprises the steps of uniformly mixing raw materials, and sequentially carrying out heat preservation maintenance, grinding and sieving to prepare a powdery soil conditioner; the raw materials comprise: limestone powder, organic carbon powder, calcite powder, quartz powder, sepiolite powder, biomass ash and selenium fertilizer.

Mixing the raw materials evenly: mixing the following raw materials in parts by weight; the raw materials comprise the following substances in parts by weight: 20-50 parts of limestone powder, 2-13 parts of organic carbon powder, 10-30 parts of calcite powder, 5-15 parts of quartz powder, 15-35 parts of sepiolite powder, 0-6 parts of biomass ash and 0-4 parts of selenium fertilizer;

preferably, the heat-preservation nursing finger: uniformly mixing the raw materials, and standing at 40-60 ℃ for 1-3 days;

more preferably, the milling and screening means: grinding the raw material mixture after heat preservation and maintenance and sieving the ground raw material mixture with a 100-mesh sieve.

The raw materials comprise the following substances in parts by weight: 30-40 parts of limestone powder, 5-10 parts of organic carbon powder, 15-25 parts of calcite powder, 7-13 parts of quartz powder, 20-30 parts of sepiolite powder, 0-3 parts of biomass ash and 0-2 parts of selenium fertilizer.

A method for remediating mercury contaminated soil comprising: applying a soil conditioner to the mercury contaminated soil;

the soil conditioner comprises limestone powder, organic carbon powder, calcite powder, quartz powder, sepiolite powder, biomass ash and selenium fertilizer.

The soil conditioner comprises the following raw materials in parts by weight: 20-50 parts of limestone powder, 2-13 parts of organic carbon powder, 10-30 parts of calcite powder, 5-15 parts of quartz powder, 15-35 parts of sepiolite powder, 0-6 parts of biomass ash and 0-4 parts of selenium fertilizer;

preferably, the soil conditioner is selected from the following raw materials in parts by weight:

the raw materials comprise, by weight, 30-40 parts of limestone powder, 5-10 parts of organic carbon powder, 15-25 parts of calcite powder, 7-13 parts of quartz powder, 20-30 parts of sepiolite powder, 0-3 parts of biomass ash and 0-2 parts of selenium fertilizer;

more preferably, the soil conditioner is applied to the mercury-polluted soil according to the mass ratio of 0.5% -2% of the mass of the mercury-polluted soil.

The method further comprises the following steps: adjusting the pH value of the mercury-contaminated soil to which the soil conditioner is applied;

preferably, the mercury-contaminated soil is weakly acidic soil;

more preferably, the pH adjustment means that the pH value of the mercury-polluted soil applied with the soil conditioner is adjusted to 6-7.5 by using quick lime;

further preferably, the method further comprises: adding water into the mercury contaminated soil applied with the soil conditioner, stirring to control the water content to be 20% -50%, and standing for 3 days for stabilization and ageing.

The invention also aims to provide a planting method and application for reducing the mercury content of crops, so that the mercury absorption of the crops is reduced, and the edible standard is met.

The technical scheme of the invention is as follows:

a planting method for reducing mercury content of a crop, comprising: planting the crops by using mercury-polluted soil applied with a soil conditioner as planting soil; the soil conditioner comprises the following raw materials: limestone powder, organic carbon powder, calcite powder, quartz powder and sepiolite powder.

The soil conditioner also comprises biomass ash and selenium fertilizer;

preferably, the mercury contaminated soil to which the soil conditioner is applied means: the obtained planting soil is prepared according to the following preparation method; the preparation method comprises the following steps: applying a soil conditioner according to 0.5-2% of the mass of the mercury-polluted soil.

The soil conditioner comprises the following raw materials in parts by weight: 20-50 parts of limestone powder, 2-13 parts of organic carbon powder, 10-30 parts of calcite powder, 5-15 parts of quartz powder, 15-35 parts of sepiolite powder, 0-6 parts of biomass ash and 0-4 parts of selenium fertilizer;

preferably, the preparation method further comprises: before application, mixing, grinding and sieving the raw materials of the soil conditioner, and then carrying out heat preservation and maintenance to obtain the soil conditioner; preferably, the sieving is 100 mesh sieving; the heat preservation nursing finger is placed at the temperature of 40-60 ℃ for 1-2 days.

The soil conditioner comprises the following substances in parts by weight: 30-40 parts of limestone powder, 5-10 parts of organic carbon powder, 15-25 parts of calcite powder, 7-13 parts of quartz powder, 20-30 parts of sepiolite powder, 0-3 parts of biomass ash and 0-2 parts of selenium fertilizer;

preferably, the preparation method further comprises: adding water into the mercury contaminated soil after the soil conditioner is applied to control the water content, and stabilizing and aging to obtain the planting soil;

further preferably, the water content is controlled to be 20% -50%, and the stable aging refers to standing for 3 days; .

The planting method further comprises the following steps: adjusting the pH value of the planting soil before planting crops;

preferably, the pH is adjusted to 6-7.5.

The planting method further comprises the following steps: and planting the crops on the planting soil and carrying out leaf surface resistance control on the crops.

The foliage resistance control refers to spraying the foliage resistance control agent to the foliage in 2-3 times regularly during the growth period of crops.

The crop is selected from: rice, pakchoi; preferably, the rice is a low mercury-enriched rice variety.

The planting method further comprises the following steps: and carrying out moisture management on the crops planted on the planting soil.

The water management means controlling the watering amount before the growth period of the rice, keeping the water moist before grouting and flooding after grouting.

The soil conditioner comprises limestone powder (calcium carbonate), organic carbon powder, calcite powder (calcium carbonate) and quartz powder (SiO)₂) And sepiolite powder (hydrous magnesium silicate), biomass ash and selenium fertilizer; the potted plant repairing method comprises the steps of adding a pH regulator, using a foliage resistance and control agent and planting low-mercuryEnriching rice varieties and managing the water in the rice growth period.

The mercury-polluted farmland soil conditioner is measured by 0.5-2% of the mass of mercury-polluted soil in terms of mass ratio;

further, the limestone powder is measured by 40% of the soil conditioner;

further, the organic carbon powder is measured by 5 percent of the soil conditioner;

further, the calcite powder is measured at 20% of the soil conditioner;

further, the quartz stone powder is measured by 10% of the soil conditioner;

further, the sepiolite powder is measured by 20% of the soil conditioner;

further, the biomass ash is measured by 3% of the soil conditioner;

further, the selenium fertilizer is measured by 2% of the soil conditioner;

in addition, the invention also provides a mercury-polluted farmland soil remediation planting method and application, and the method comprises the following steps:

1) the preparation method of the mercury-polluted farmland soil conditioner comprises the steps of uniformly mixing the raw materials according to a formula ratio, and sequentially carrying out heat preservation maintenance and grinding and sieving (100 meshes) to obtain a powdery soil conditioner, wherein the heat preservation maintenance temperature is 1-2 days at 40-60 ℃.

2) Grinding and sieving the farmland soil, and uniformly stirring.

Further, the adding mass of the mercury-polluted farmland soil conditioner in the step 1) is 0.5-2% of the mass of the mercury-polluted farmland soil.

Further, the mercury-polluted soil conditioner obtained in the steps 1) and 3) is mixed with the mercury-polluted farmland soil, the mixture is subpackaged into label-pasted pot barrels, water is added, the water content is controlled to be 20% -50%, and the mixture is placed for 3 days for stabilization and ageing.

Further, the mercury-polluted soil conditioner in the steps 1) and 3) is mixed with the mercury-polluted farmland soil, the mercury-polluted soil is weakly acidic soil, and quicklime is used for adjusting the pH value of the mercury-polluted soil to be 6-7.

Further, mixing the mercury-polluted soil conditioner and the mercury-polluted farmland soil in the steps 1) and 3), subpackaging, adding water, stirring, stabilizing and aging, and transplanting rice. The foliage resistance and control agent is sprayed on the foliage for 3 times in the tillering stage, the booting stage and the heading stage; the mercury-low-enriched rice varieties are Xiangzao 143 and Xiang late indica No. 3; and the water management in the rice growth period is a measure of moistening before grouting and flooding after grouting.

A mercury-polluted farmland soil conditioner, a planting method and an application are characterized in that: the raw material formula of the conditioner comprises limestone powder, organic carbon powder, calcite powder, quartz powder and sepiolite powder; the method for repairing the pot culture comprises the steps of adding quicklime, using a foliage resistance and control agent, planting a low-mercury-enrichment rice variety and managing the water in the rice growth period.

The soil conditioner is measured by 0.5-2% of the mass of the mercury-polluted soil in terms of mass ratio;

the limestone powder is measured by 40% of the soil conditioner;

the organic carbon powder is measured by 5 percent of the soil conditioner;

the calcite powder is measured at 20% of the soil conditioner;

the quartz stone powder is measured by 10 percent of the soil conditioner;

the sepiolite powder is measured by 20% of the soil conditioner;

the biomass ash is measured as 3% of the soil conditioner;

the selenium fertilizer is measured by 2 percent of the soil conditioner;

the preparation method of the mercury-polluted farmland soil conditioner comprises the steps of uniformly mixing the raw materials according to a formula ratio, and sequentially carrying out heat preservation maintenance and grinding and sieving (100 meshes) to obtain a powdery soil conditioner, wherein the heat preservation maintenance temperature is 1-2 days at 40-60 ℃.

The heavy metal content in the farmland soil conditioner is less than or equal to 10 ppb;

the pH value of the mercury-polluted soil is adjusted to 6-7 by the quicklime; the foliage resistance and control agent is sprayed on the foliage for 3 times in a tillering stage, a booting stage and a heading stage; the mercury-low-enriched rice varieties are Xiangzao 143 and Xiang late indica No. 3; and the water management in the rice growth period is a measure of moistening before grouting and flooding after grouting.

The mercury-polluted soil is weakly acidic soil.

The application method comprises the steps of mixing the mercury-contaminated soil conditioner with mercury-contaminated farmland soil, subpackaging the mixture into pot barrels with labels, adding water, stirring to control the water content to be 20-50%, and standing for 3 days for stabilization and ageing.

The addition mass of the mercury-polluted farmland soil conditioner is 0.5-2% of the mass of the mercury-polluted farmland soil.

The research of the invention discovers that the sepiolite, the calcite, the quartz stone, the organic carbon, the limestone powder, the biomass ash and the selenium fertilizer are mixed according to a certain proportion to achieve the purpose of fixing the mercury, and the limestone powder can improve the pH value of soil and emit certain heat to activate groups (such as MgO and CaCO) in the raw materials in the using process₃、SiO₂Etc.) thereby improving the stable solidification of mercury, and the organic carbon and biomass ash can efficiently stabilize the effective mercury; the selenium fertilizer is beneficial to the formation of iron films of crop roots, strengthens the barrier effect on mercury and hinders the mercury from migrating from the roots to the crop bodies. Meanwhile, the conditioner is also found to have the effects of improving the soil structure and adjusting the physical and chemical properties of the soil, has a certain promotion effect on the formation of soil granules, and effectively reduces the migration of mercury.

Compared with the prior art, the invention has the beneficial effects that:

(1) the mercury-polluted farmland soil conditioner provided by the invention adopts natural ores as raw materials, has no secondary pollution to farmland soil, and the natural ore powder components contain natural components which react with Hg to form stable compounds or chelates. The conditioner made of the natural ore raw material does not damage the existing structure of farmland soil, has little influence on the physicochemical property of the farmland soil, and simultaneously contains nutrient elements required by the growth of crops. Can promote the stabilization and solidification of mercury and promote the growth and development of crops.

(2) According to the mercury-polluted farmland soil remediation planting method and application provided by the invention, the pH of mercury-polluted soil is adjusted to 6-7 by using quicklime aiming at southern acid soil, so that the soil conditioner can exert the optimal stable solidification effect on Hg. The foliage resistance and control agent is sprayed on the foliage for 3 times in the tillering stage, the booting stage and the heading stage; preventing the mercury vapor in the atmosphere from being absorbed into the plant body by the crop leaves. Meanwhile, the rice varieties with low mercury enrichment are Xiangzao 143 and Xiang late long-shaped rice 3; and the water in the rice growth period is managed, and measures of moistening before grouting and flooding after grouting are adopted, so that the mercury adsorption of crops can be greatly reduced.

(3) The planting method and the application for restoring the soil of the farmland polluted by mercury have obvious restoring effect on the soil of the farmland, and the mercury content of crops can reach the edible standard.

(4) The invention discloses a soil conditioner for mercury-polluted farmland, a planting method and application thereof, wherein the conditioner consists of quartz powder, organic carbon powder, sepiolite powder, calcite powder, limestone powder, biomass ash and selenium fertilizer; the mercury contaminated soil remediation planting method comprises the following steps: crushing and sieving the mercury-polluted soil, and taking fine particles of the mercury-polluted soil under the sieve; adding water into the mercury-contaminated soil fine particles for moisturizing, adding a soil conditioner and an organic fertilizer, subpackaging in a pot barrel with a label, adding water, stirring, adding a pH regulator to regulate the pH value of the mercury-contaminated soil to 6-7, and standing for 3 days for stabilization and aging for later use. Transplanting the rice into the Xiangzao No. 143 and Xiangzao No. 3 varieties of the conventional rice with low mercury enrichment, and spraying a leaf surface resistance control agent on leaf surfaces for 3 times in a tillering stage, a booting stage and a heading stage according to water management of the rice in different growth stages. The method can stably solidify various forms of mercury in the mercury-polluted soil, simultaneously reduce the absorption of mercury by crops, has the advantages of good stabilization effect, short period, wide source of medicament raw materials, low cost, no secondary pollution and the like, and is beneficial to wide application.

Detailed Description

The present invention will be further described with reference to the following specific examples, which are intended to illustrate only some, but not all, of the embodiments of the present invention. Any embodiment based on the embodiments of the present invention without any inventive and innovative changes belongs to the protection scope of the present invention.

Group 1 examples soil conditioners of the invention

The group of embodiments provides a soil conditioner for treating mercury pollution, comprising: limestone powder, organic carbon powder, calcite powder, quartz powder and sepiolite powder.

In a further embodiment, the soil conditioner further comprises: biomass ash and selenium fertilizer.

In a preferred embodiment, the biomass ash refers to agricultural and forestry biomass direct-fired power generation bottom ash.

In a specific embodiment, the soil conditioner comprises the following raw materials in parts by weight: 20-50 parts of limestone powder, 2-13 parts of organic carbon powder, 10-30 parts of calcite powder, 5-15 parts of quartz powder, 15-35 parts of sepiolite powder, 0-6 parts of biomass ash and 0-4 parts of selenium fertilizer;

in a preferred embodiment, the soil conditioner comprises the following raw materials in parts by weight: 30-40 parts of limestone powder, 5-10 parts of organic carbon powder, 15-25 parts of calcite powder, 7-13 parts of quartz powder, 20-30 parts of sepiolite powder, 0-3 parts of biomass ash and 0-2 parts of selenium fertilizer.

The respective functions of the raw materials in the soil conditioner are as follows:

limestone powder plays a role of an adhesive in a soil conditioner and plays a structural auxiliary role in degrading mercury pollution, namely, the limestone powder plays a role in bonding all functional components together and jointly playing a synergistic effect, is equivalent to an auxiliary material in a medicament, and does not play a role in medicinal property and is indispensable.

The organic carbon powder plays a role of an improver in the soil conditioner and plays a role of a catalytic medium in the aspect of degrading mercury pollution, namely, under the action of the organic carbon, the mercury passivation effect of calcite and quartz stone is improved. And has medium effect on improving soil structure and soil fertility.

The calcite powder is a functional component in the soil conditioner, has a curing effect on mercury pollution components in soil in the aspect of degrading mercury pollution, the main component of the calcite is natural calcium carbonate, pores on the surface of the calcite powder can form a complex with heavy metals, and the free mercury in an effective state in the soil is fixed and passivated by virtue of a chelate, so that the leaching concentration of the free mercury is greatly reduced.

The quartz stone powder is a functional component in the soil conditioner, plays a role in passivating in degrading mercury pollution, Si in the quartz stone powder reacts with heavy metal through dangling bonds, and the outer layer Si is oxidized into silicon dioxide to form a compact oxide layer, so that the solidified or passivated mercury is prevented from being restored to effective mercury harmful to soil again;

the sepiolite powder is a functional component in the soil conditioner and can play a role in adsorbing and catalyzing mercury pollution components in soil;

the invention also creatively adopts the biomass ash and the selenium fertilizer as the raw materials of the soil conditioner for treating mercury pollution, and the reason is that the invention discovers unexpectedly that:

due to the characteristic of high adsorption capacity, the biomass ash can adsorb and catalyze mercury pollution components in soil, and can adsorb and solidify free and effective mercury in the soil in a large amount by using a small amount of biomass ash, so that the mercury pollution in the soil is degraded, and the biomass ash is an important functional component in a soil conditioner;

the selenium fertilizer can effectively prevent plants from absorbing mercury through antagonism due to the antagonism of the selenium fertilizer to mercury.

In some embodiments, the soil conditioner is selected from the following group 1, in parts by weight, of the raw materials:

TABLE 1

The specific operations of the planting method, the obtaining process of the treatment effect, and the steps in the above table are detailed in the related contents recorded in the following experimental examples 1-4, and are not described again here.

Group 2 example method for preparing soil conditioner of the invention

The embodiment of the group provides a preparation method of a soil conditioner for treating mercury pollution, raw materials are uniformly mixed according to a certain proportion and are sequentially subjected to heat preservation maintenance and grinding and sieving to prepare a powdery soil conditioner, the optimal proportion and the optimal conditions for the components to exert effects can be achieved, the grinding and sieving can ensure that the soil conditioner particles are uniform and the surface area is increased, and the soil conditioner is favorably and fully combined with soil and exerts the effects; the raw materials comprise: limestone powder, organic carbon powder, calcite powder, quartz powder and sepiolite powder.

Further, the raw materials also comprise: biomass ash and selenium fertilizer.

In some embodiments, blending the raw materials refers to: mixing the following raw materials in parts by weight; the raw materials comprise the following substances in parts by weight: 20-50 parts of limestone powder, 2-13 parts of organic carbon powder, 10-30 parts of calcite powder, 5-15 parts of quartz powder, 15-35 parts of sepiolite powder, 0-6 parts of biomass ash and 0-4 parts of selenium fertilizer;

in a preferred embodiment, the raw materials comprise the following substances in parts by weight: 30-40 parts of limestone powder, 5-10 parts of organic carbon powder, 15-25 parts of calcite powder, 7-13 parts of quartz powder, 20-30 parts of sepiolite powder, 0-3 parts of biomass ash and 0-2 parts of selenium fertilizer.

In a preferred embodiment, the heat-preserving health-care fingers: the raw materials are uniformly mixed and then are placed at the temperature of 40-60 ℃ for 1-2 days, so that the key functional groups in the raw material components can be activated, and a chemical structure which is beneficial to passivation and mercury combination is formed;

in a more preferred embodiment, the milling and screening refers to: grinding the raw material mixture after heat preservation and maintenance and sieving the ground raw material mixture with a 100-mesh sieve can ensure that the particles of the soil conditioner are uniform and the surface area is increased, thereby being beneficial to fully combining with soil and playing the effect.

In specific examples, the starting material is selected from the group consisting of the parts by weight materials set forth in any one of example 1 of group 1, table 1.

Group 3 example, method for treating mercury contaminated soil according to the invention

The group of embodiments provides a method for treating mercury contaminated soil, comprising: applying a soil conditioner to the mercury contaminated soil; the soil conditioner comprises limestone powder, organic carbon powder, calcite powder, quartz powder, sepiolite powder, biomass ash and selenium fertilizer.

In a specific embodiment, the soil conditioner comprises the following raw materials in parts by weight: 20-50 parts of limestone powder, 2-13 parts of organic carbon powder, 10-30 parts of calcite powder, 5-15 parts of quartz powder, 15-35 parts of sepiolite powder, 0-6 parts of biomass ash and 0-4 parts of selenium fertilizer;

in a preferred embodiment, the soil conditioner comprises the following raw materials in parts by weight: 30-40 parts of limestone powder, 5-10 parts of organic carbon powder, 15-25 parts of calcite powder, 7-13 parts of quartz powder, 20-30 parts of sepiolite powder, 0-3 parts of biomass ash and 0-2 parts of selenium fertilizer.

In a preferred embodiment, the soil conditioner is selected from group 1 examples any of the parts by weight of the materials set forth in table 1.

In a more preferable embodiment, the soil conditioner is applied to the mercury-polluted soil in a mass ratio of 0.5% -2% of the mass of the mercury-polluted soil, so that the best remediation effect can be achieved, and the cost can be saved to the maximum extent.

In a further embodiment, the method further comprises: adjusting the pH value of the mercury-contaminated soil to which the soil conditioner is applied;

in a preferred embodiment, the original mercury-contaminated soil is weakly acidic soil;

in a more preferable embodiment, the pH adjustment means that the pH value of the mercury-polluted soil applied with the soil conditioner is adjusted to 6-7 by using quick lime, so that key functional groups in the soil conditioner are activated, and the optimal pH condition for the soil conditioner to exert the effect is achieved;

in a further preferred embodiment, the method further comprises: before the pH value is adjusted, the mercury contaminated soil applied with the soil conditioner is added with water and stirred to control the water content to be 20% -50%, so that the conditioner is fully dissolved, the soil and the conditioner are uniformly combined, and organic matters in the soil are fermented under the action of microorganisms, thereby being beneficial to uniform release of fertilizer efficiency of each phase. Standing for 3 days for stabilization and aging, wherein the stabilization is to form a stable structure by chemical substances such as a soil conditioner, mercury and the like, and the soil microorganism and fertility structure tend to be stable; the aging is to fully react the components in the soil.

Different water contents and stable aging time are usually controlled according to different crops to be planted, and the process is essential for potted plant planting. In the field planting process, after watering and irrigating, applying a soil conditioner and quicklime, ploughing the soil by using a rotary cultivator about 20-30cm, and selecting a plurality of representative points to detect the water content and pH of the soil. After the requirements are met, the land parcel is leveled, and the land parcel is stabilized and aged (aged) for about 20 days before the transplanting of the crops.

Group 4 example, planting method for reducing mercury content of crops

The present group of embodiments provides a planting method for reducing mercury content in crops, comprising: planting the crops by using mercury-polluted soil applied with a soil conditioner as planting soil; the soil conditioner comprises the following raw materials: limestone powder, organic carbon powder, calcite powder, quartz powder and sepiolite powder.

Further, the soil conditioner further comprises: biomass ash and selenium fertilizer.

Preferably, the mercury contaminated soil to which the soil conditioner is applied means: the obtained planting soil is prepared according to the following preparation method; the preparation method comprises the following steps: applying a soil conditioner according to 0.5-2% of the mass of the mercury-polluted soil.

In other embodiments, the soil conditioner comprises the following raw materials in parts by weight: 20-50 parts of limestone powder, 2-13 parts of organic carbon powder, 10-30 parts of calcite powder, 5-15 parts of quartz powder, 15-35 parts of sepiolite powder, 0-6 parts of biomass ash and 0-4 parts of selenium fertilizer;

in a preferred embodiment, the soil conditioner comprises the following raw materials in parts by weight: 30-40 parts of limestone powder, 5-10 parts of organic carbon powder, 15-25 parts of calcite powder, 7-13 parts of quartz powder, 20-30 parts of sepiolite powder, 0-3 parts of biomass ash and 0-2 parts of selenium fertilizer.

Preferably, the preparation method further comprises: before application, mixing, grinding and sieving the raw materials of the soil conditioner, and then carrying out heat preservation and maintenance to obtain the soil conditioner; preferably, the sieving is 100 mesh sieving; the heat preservation nursing finger is placed at the temperature of 40-60 ℃ for 1-2 days.

In specific examples, the soil conditioner is selected from group 1 examples the raw materials in parts by weight as set forth in table 1:

preferably, the preparation method further comprises: adding water into the mercury contaminated soil after the soil conditioner is applied to control the water content, and stabilizing and aging to obtain the planting soil;

further preferably, the water content is controlled to be 20% -50%, and the stable aging refers to standing for 3 days; .

In a further embodiment, the planting method further comprises: adjusting the pH value of the planting soil before planting crops;

preferably, the pH is adjusted to 6-7.

In a further embodiment, the planting method further comprises: and planting the crops on the planting soil and carrying out leaf surface resistance control on the crops.

Specifically, the foliage resistance control refers to spraying the foliage resistance control agent to the foliage at regular intervals of 2-3 times in the growth cycle process of crops.

In particular embodiments, the crop plant is selected from: rice, pakchoi; preferably, the rice is a low mercury-enriched rice variety.

In still further embodiments, the planting method further comprises: and carrying out moisture management on the crops planted on the planting soil.

In a specific embodiment, the water management means controlling the watering amount before the growth period of the rice, keeping the rice moist before grouting and flooding after grouting.

Experimental example 1

The method comprises the steps of taking farmland soil polluted by mercury in a certain area of copper nuts in Guizhou, leaching the soil sample according to a solid waste leaching toxicity leaching method horizontal oscillation method (HJ557-2009) until the average mercury content in the soil reaches 11.76mg/kg, wherein the concentration of mercury in a leaching solution is 12.74 ug/L.

(1) Naturally air-drying the mercury-polluted farmland soil, grinding and sieving with a 100-mesh sieve to remove larger impurities such as stones and the like;

(2) mixing 40% of limestone powder, 10% of organic carbon powder, 20% of calcite powder, 10% of quartz powder and 20% of sepiolite powder by mass ratio to prepare the soil conditioner (the water content is 15%). The soil conditioner has the advantages that the detected mercury content is 0.2ppb, the arsenic content is 0.02ppm, the cadmium content is 0.6ppmb, and the lead content is 0.2 ppm.

(3) Adding the mercury-polluted farmland soil conditioner into mercury-polluted farmland soil according to the addition amount of 0.5%, adding water until the water content is about 35%, standing and maintaining for 7d under the condition, and leaching according to the horizontal oscillation method of solid waste leaching toxicity leaching method (HJ 557-2010). The soil pH and the mercury leaching concentration were measured before and after remediation, and the results are shown in table 1. The leaching concentration of the mercury in the farmland soil after restoration is reduced to 0.45ug/L, and the curing rate of the mercury is about 96.5%.

The curing rate of mercury (Hg) refers to the efficiency with which available mercury is fixed and deactivated, and is calculated as follows:

the solidification rate of mercury (Hg) ═ Hg leaching concentration before repair-Hg leaching concentration after repair)/Hg leaching concentration before repair × 100%

Table 2 detection data before and after soil remediation

Unit: ug/L

Experimental example 2

In this example, specifically, the soil of the mercury-contaminated farmland was potted, the same soil as in example 1 was used, the average mercury content in the soil was 11.76mg/kg, and the soil sample was leached according to the "solid waste leaching toxicity leaching method horizontal oscillation method" (HJ557-2009), and the concentration of mercury in the leachate was 12.74 ug/L. The specific process is as follows:

(1) and (3) operating according to the steps (1) and (2) in the example 1, and then uniformly stirring the soil conditioner, the farmland soil and the organic fertilizer with the mass ratio of 5% -8%, wherein a miniature cement stirrer is adopted for stirring for 3 minutes.

(2) And (3) potting the uniformly stirred farmland soil, wherein the height of a pot barrel is 22.8cm, the diameter of an upper opening is 20.5, the diameter of a barrel bottom is 16.5, and the farmland soil filled with the mixed conditioner is 5kg in 3 times.

(3) Adding water until the water content is 20% -50%, adjusting pH value to 6-7 with quicklime, standing for 3 days for stabilization and aging.

(4) The cultivated conventional rice variety Xiangzao 143 with low mercury enrichment is transplanted into a pot barrel filled with soil, the watering amount is controlled, the rice is kept moist before grouting, and flooding is carried out after grouting, which is a unique irrigation technology for rice, so that the enrichment of heavy metal of rice can be reduced, and the rice yield is not influenced (if other crops have the same water dependence as the rice, the method is adopted, if the crops are dry land crops, the treatment is not needed, and the heavy metal adsorption of the water-modified dry land crops is obviously reduced). And spraying the leaf surface resistance control agent on the leaf surfaces for 3 times in a tillering stage, a booting stage and a heading stage. The whole growth period is maintained for about three and a half months.

(5) After the rice is ripe, soil is leached according to a horizontal oscillation method (HJ557-2010) of a solid waste leaching toxicity leaching method, and the total mercury content of rice straws and rice is measured by a microwave digestion method. The detection results are as follows: the average value of the mercury leaching concentration in the repaired soil is as low as 0.29ug/L, and the mercury curing rate is about 99.8%. The average content of total mercury in rice straws is 0.0175mg/kg, the average content of total mercury in rice is 0.0036mg/kg, and the average content is far lower than the standard that the maximum limit value of brown rice in limit standards of pollutants in food (GB2762-2012) is 0.02 mg/kg.

Experimental example 3

The soil conditioner for the mercury-polluted farmland and the related operation steps used in the embodiment are basically the same as those in the experimental example 2, except that the cultivated conventional low-mercury-enrichment rice variety Xiang late indica No. 3 is implemented for 7-11 months.

After the rice is ripe, soil is leached according to a horizontal oscillation method (HJ557-2010) of a solid waste leaching toxicity leaching method, and the total mercury content of rice straws and rice is measured by a microwave digestion method. The detection results are as follows: the average value of the mercury leaching concentration in the repaired soil is as low as 0.17ug/L, and the mercury curing rate is about 99.9%. The average content of total mercury in rice straws is 0.0125mg/kg, the average content of total mercury in rice is 0.0027mg/kg, and the average content is far lower than the standard of 0.02mg/kg of the maximum limit value of brown rice in the limit standards of pollutants in food (GB 2762-2012).

Experimental example 4

In the embodiment, the soil of a certain farmland in the mercury mining area of the Hunan Phoenix tea field is subjected to remediation planting, the average mercury content in the soil of the farmland is 8.71mg/kg through inspection, and the concentration of mercury in the leachate is 9.35 ug/L. The method for restoring and planting the mercury-polluted farmland soil comprises the following specific processes:

(1) adding a soil conditioner into the mercury-polluted farmland, wherein the application amount is 100 kg/mu; quicklime is sprayed in the fertilizer, and the application amount is 50 kg/mu.

(2) And (3) deep ploughing and turning soil by using a rotary cultivator, wherein the ploughing depth is 20-30cm, so that the soil texture is uniform.

(3) And (3) carrying out soil preparation on the ploughed farmland, keeping the soil properly moist, controlling the water content to be about 35%, and selecting a plurality of representative points to detect the pH value of the soil. Leveling land, stabilizing before transplanting, and aging for about 20 days.

(4) Transplanting the cultivated plantlets of the pakchoi into a farmland applied with the mercury-contaminated soil conditioner, wherein the spacing between plantlets of the pakchoi is 10-15cm, and carrying out management such as watering, seedling supplementing, top dressing, biological deinsectization and the like at regular intervals.

(5) After about 7 days after the Chinese cabbage is transplanted, the growth condition and the biological characteristics tend to be stable, the foliage resistance and control agent is sprayed once, and after 15 days, the foliage resistance and control agent is sprayed once again.

(6) Harvesting the pakchoi after the pakchoi grows for about 30-40 days, sampling by adopting a chessboard method, and selecting 20 soil samples and 20 plant samples in total.

(7) Leaching the detection soil after planting according to a horizontal oscillation method (HJ557-2010) of a solid waste leaching toxicity leaching method, and measuring that the average mercury leaching value in the leaching solution is 0.31ug/L and the mercury curing rate is about 96.7%; digesting the plant sample by a microwave digestion method, wherein the average value of the total mercury content of the plant sample is 0.006mg/kg, which is far lower than the standard of 0.01mg/kg of the maximum limit value of vegetables in the limit standards of pollutants in food (GB 2762-2012).

Claims (20)

1. The soil conditioner containing limestone powder, organic carbon powder, calcite powder, quartz stone powder and sepiolite powder is used for reducing the mercury content of crops in mercury-polluted soil.

2. The use of a soil conditioner comprising limestone flour, organic carbon powder, calcite powder, quartz stone powder, sepiolite powder according to claim 1 for reducing mercury content in crops, the soil conditioner further comprising biomass ash, selenium fertilizer.

3. Use of a soil conditioner comprising limestone flour, organic carbon powder, calcite powder, quartz stone powder, sepiolite powder according to claim 1 for reducing the mercury content of crops, the soil conditioner being applied on mercury contaminated soil; the mercury-contaminated soil to which the soil conditioner is applied means: the obtained planting soil is prepared according to the following preparation method; the preparation method comprises the following steps: applying a soil conditioner according to 0.5-2% of the mass of the mercury-polluted soil.

4. The use of the soil conditioner comprising limestone powder, organic carbon powder, calcite powder, quartz stone powder and sepiolite powder according to claim 1 for reducing the mercury content of crops, wherein the soil conditioner comprises the following raw materials in parts by weight: 20-50 parts of limestone powder, 2-13 parts of organic carbon powder, 10-30 parts of calcite powder, 5-15 parts of quartz powder, 15-35 parts of sepiolite powder, 0-6 parts of biomass ash and 0-4 parts of selenium fertilizer.

5. The use of the soil conditioner comprising limestone powder, organic carbon powder, calcite powder, quartz stone powder and sepiolite powder according to claim 2 for reducing the mercury content of crops, wherein the soil conditioner comprises the following raw materials in parts by weight: 20-50 parts of limestone powder, 2-13 parts of organic carbon powder, 10-30 parts of calcite powder, 5-15 parts of quartz powder, 15-35 parts of sepiolite powder, 0-6 parts of biomass ash and 0-4 parts of selenium fertilizer.

6. Use of a soil conditioner comprising limestone powder, organic carbon powder, calcite powder, quartz stone powder, sepiolite powder according to claim 3 for reducing mercury content in crops, the preparation method further comprising: before application, the raw materials of the soil conditioner are mixed, ground, sieved and then subjected to heat preservation and maintenance to obtain the soil conditioner.

7. Use of a soil conditioner comprising limestone powder, organic carbon powder, calcite powder, quartz stone powder, sepiolite powder according to claim 6 for reducing the mercury content of crops, wherein the sieving is a 100 mesh sieve; the heat preservation nursing finger is placed at the temperature of 40-60 ℃ for 1-2 days.

8. Use of a soil conditioner comprising limestone powder, organic carbon powder, calcite powder, quartz powder, sepiolite powder according to any of claims 1 to 7 for reducing the mercury content of crops, the soil conditioner comprising the following materials in parts by weight: 30-40 parts of limestone powder, 5-10 parts of organic carbon powder, 15-25 parts of calcite powder, 7-13 parts of quartz powder, 20-30 parts of sepiolite powder, 0-3 parts of biomass ash and 0-2 parts of selenium fertilizer.

9. Use of a soil conditioner comprising limestone powder, organic carbon powder, calcite powder, quartz stone powder, sepiolite powder according to claim 3 for reducing mercury content in crops, the preparation method further comprising: and adding water into the mercury contaminated soil after the soil conditioner is applied to control the water content, and stabilizing and aging to obtain the planting soil.

10. The use of a soil conditioner comprising limestone flour, organic carbon powder, calcite powder, quartz stone powder, sepiolite powder according to claim 6 for reducing mercury content in crops, the preparation method further comprising: and adding water into the mercury contaminated soil after the soil conditioner is applied to control the water content, and stabilizing and aging to obtain the planting soil.

11. Use of the soil conditioner comprising limestone powder, organic carbon powder, calcite powder, quartz stone powder and sepiolite powder according to claim 9 for reducing mercury content in crops, wherein the water content is controlled to be 20-50%, and the stable aging is standing for 3 days.

12. Use of the soil conditioner comprising limestone powder, organic carbon powder, calcite powder, quartz stone powder and sepiolite powder according to claim 10 for reducing mercury content in crops, wherein the water content is controlled to be 20-50%, and the stable aging is standing for 3 days.

13. Use of a soil conditioner comprising limestone flour, organic carbon powder, calcite flour, quartzite flour, sepiolite flour according to any one of claims 1 to 7, 9 to 12 for reducing the mercury content of crops, further comprising: adjusting the pH value of the planting soil before planting the crops.

14. Use of a soil conditioner comprising limestone flour, organic carbon powder, calcite powder, quartz flour, sepiolite powder according to claim 13 for reducing the mercury content of crops, the pH being adjusted to 6-7.5.

15. Use of a soil conditioner comprising limestone flour, organic carbon powder, calcite flour, quartzite flour, sepiolite flour according to any one of claims 1 to 7, 9 to 12 for reducing the mercury content of crops, further comprising: and planting the crops on the planting soil and carrying out leaf surface resistance control on the crops.

16. The use of a soil conditioner comprising limestone powder, organic carbon powder, calcite powder, quartz stone powder, sepiolite powder according to claim 15 for reducing the mercury content of crops, wherein the foliar resistance control means that foliar resistance control agent is periodically sprayed to the foliar surface 2-3 times during the growth cycle of crops.

17. Use of a soil conditioner comprising limestone flour, organic carbon powder, calcite powder, quartzite powder, sepiolite powder according to any one of claims 1 to 7, 9 to 12 for reducing the mercury content of crops selected from: rice and pakchoi.

18. The use of a soil conditioner comprising limestone flour, organic carbon powder, calcite powder, quartzite powder, sepiolite powder according to claim 17 for reducing the mercury content of crops, wherein the rice is a low mercury-enriched rice variety.

19. Use of a soil conditioner comprising limestone flour, organic carbon powder, calcite flour, quartzite flour, sepiolite flour according to any one of claims 1 to 7, 9 to 12 for reducing the mercury content of crops, further comprising: and carrying out moisture management on the crops planted on the planting soil.

20. The use of a soil conditioner comprising limestone powder, organic carbon powder, calcite powder, quartz stone powder, sepiolite powder according to claim 19 for reducing mercury content in crops, wherein the water management means controlling watering amount before the growth period of rice, keeping moistening before grouting, and flooding after grouting.