CN115058251A

CN115058251A - Composite agent for repairing heavy metal arsenic and cadmium in acid paddy field and repairing method

Info

Publication number: CN115058251A
Application number: CN202210997872.4A
Authority: CN
Inventors: 苗竹; 于肖肖; 方英; 张倩; 赵越; 张鹏; 孙红文; 倪鑫鑫; 刘新; 李静文; 董天昊
Original assignee: Beijing Geoenviron Engineering and Technology Inc
Current assignee: Beijing Geoenviron Engineering and Technology Inc
Priority date: 2022-08-19
Filing date: 2022-08-19
Publication date: 2022-09-16

Abstract

The invention discloses a composite medicament for repairing heavy metal arsenic and cadmium in acid paddy fields and a repairing method, wherein the composite medicament comprises the following components in parts by weight: passivation conditioners, gelling agents and fertilizing agents; wherein, the passivation conditioner comprises agricultural ferrous sulfate and bentonite, the gelling agent is magnesium oxide, and the fertility enhancer comprises a silicon fertilizer, an organic fertilizer and a compound fertilizer. The composite agent disclosed by the invention can reduce the bioavailability of arsenic and cadmium, can increase the fertility of soil, and can complete the improvement of the fertility of soil while repairing arsenic and cadmium; the composite agent can repair arsenic and cadmium simultaneously, has simple components and wide sources, and is convenient for farmers to apply and use by themselves.

Description

Composite agent for repairing heavy metal arsenic and cadmium in acid paddy field and repairing method

Technical Field

The invention relates to the technical field of farmland restoration, in particular to a compound agent for restoring heavy metal arsenic and cadmium in an acid paddy farmland and a restoration method.

Background

The main pollutants in the farmland soil are cadmium, nickel, copper, arsenic and the like, the excessive cadmium in the farmland soil can poison crops and reduce the yield of the crops on the one hand, and the cadmium can be absorbed by the crops, enriched in grains, enter a food chain and then enter a human body and damage the human body on the other hand. After the arsenic pollution reaches a certain degree, the growth and development of the rice can be obviously inhibited, so that the yield of the rice is reduced, and even no yield is obtained. As the rice field is in a flooded anaerobic reduction state for a long time, the arsenic has relatively high biological effectiveness, so that the rice is more easily affected by arsenic pollution compared with other crops, and the rice grains polluted by arsenic exceed the standard, so that the rice grains are harmful to the human health and influence the grain safety of China.

Soil acidification of farmland can cause soil hardening, soil pores are reduced, effectiveness of heavy metals in soil is improved, nutrient absorption of crops is reduced, and growth, development and quality of crops are affected. The currently common farmland restoration method is an in-situ passivation restoration method, and the migration capacity and the bioavailability of heavy metals in soil are reduced by adding a passivating agent into farmland soil and utilizing the effects of adsorption, precipitation and the like of the passivating agent and the heavy metals. In practical application, the acidity of the soil can be effectively reduced by applying lime, but the soil is hardened by frequent application; the content of calcium, magnesium and the like in the soil can be increased by applying minerals, but the organic fertility is not supplemented; the application of industrial wastes such as steel slag, fly ash and the like can reduce the acidity of the soil and increase the content of calcium, magnesium and the like in the soil, but the industrial wastes contain high heavy metals, so that the risk of heavy metal pollution to farmland soil can be caused.

In farmland improvement and restoration, cadmium exists in a cation form and has a tendency of losing electrons, and arsenic mainly exists in an anion form and has a tendency of obtaining electrons due to the relative chemical properties of cadmium and arsenic; due to the difference, the arsenic and cadmium pollution in the rice field with arsenic and cadmium combined pollution has antagonistic effect on treatment, so that the control of the arsenic and cadmium pollution in rice grains is difficult.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a composite medicament for repairing heavy metal arsenic and cadmium in acid paddy fields and a repairing method.

The invention discloses a composite reagent for repairing heavy metal arsenic and cadmium in acid paddy fields, which comprises the following components: passivation conditioners, gelling agents and fertility enhancers; wherein,

the passivation conditioner comprises agricultural ferrous sulfate and bentonite, the gelling agent is magnesium oxide, and the fertility enhancer comprises a silicon fertilizer, an organic fertilizer and a compound fertilizer.

As a further improvement of the invention, the addition amount of the agricultural ferrous sulfate is 1-2 per mill of the mass of the soil to be repaired, and the addition amount of the bentonite is 1-3 percent of the mass of the soil to be repaired.

As a further improvement of the invention, the addition amount of the magnesium oxide is 1-3 per mill of the quality of the soil to be repaired.

As a further improvement of the invention, the adding amount of the silicon fertilizer is 1-2 per mill of the quality of the soil to be repaired; the adding amount of the organic fertilizer is 0.75-1% of the mass of the soil to be repaired, and the adding amount of the compound fertilizer is 0.4-0.8 per mill of the mass of the soil to be repaired.

As a further improvement of the invention, the pH value of the compound medicament applicable to the soil to be repaired is between 4 and 6.

The invention also discloses a method for repairing heavy metal arsenic and cadmium in acid paddy farmland, which comprises the following steps:

uniformly mixing a passivation conditioner, a gelling agent and a fertilizer enhancer according to a preset proportion to obtain the composite medicament;

putting the composite agent into a rice farm field;

carrying out rotary tillage on the soil layer of 0-20cm by using a rotary cultivator to ensure that the compound agent is fully mixed with the soil of the paddy field for reaction;

after reacting for 3-5 days, planting and reasonably managing the rice field according to local rice planting habits.

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

the composite agent disclosed by the invention can reduce the bioavailability of arsenic and cadmium, can increase the fertility of soil, and can complete the improvement of the fertility of soil while repairing arsenic and cadmium; the composite agent can repair arsenic and cadmium simultaneously, has simple components and wide sources, and is convenient for farmers to apply and use by themselves.

Drawings

FIG. 1 is a flow chart of a remediation method for remediating heavy metal arsenic and cadmium in acidic paddy fields, which is disclosed by an embodiment of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

The invention is described in further detail below with reference to the attached drawing figures:

because arsenic and cadmium have relative properties and have antagonism, it is difficult to be repaired at the same time, the invention provides a compound medicament capable of repairing heavy metal arsenic and cadmium in acid paddy field at the same time, the compound medicament is suitable for the paddy field with pH of 4-6 and medium-light pollution; it comprises the following steps: passivation conditioners, gelling agents and fertility enhancers; wherein,

the passivation conditioner comprises agricultural ferrous sulfate and bentonite, wherein the addition amount of the agricultural ferrous sulfate is 1-2 per mill of the mass of the soil to be repaired, and the addition amount of the bentonite is 1-3 percent of the mass of the soil to be repaired.

The gelling agent is magnesium oxide, and the addition amount of the magnesium oxide is 1-3 per mill of the mass of the soil to be repaired.

The fertility intensifier comprises a silicon fertilizer, an organic fertilizer and a compound fertilizer, wherein the adding amount of the silicon fertilizer is 1-2 per mill of the mass of the soil to be restored; the adding amount of the organic fertilizer is 0.75-1% of the mass of the soil to be repaired, and the adding amount of the compound fertilizer is 0.4-0.8 per mill of the mass of the soil to be repaired.

Furthermore, each component in the compound medicament is a solid powdery medicament.

Furthermore, the contents of heavy metals such as cadmium, mercury, lead, chromium and arsenic in the components of the composite medicament do not exceed the screening values specified in GB 15618-.

As shown in FIG. 1, the invention provides a method for repairing heavy metal arsenic and cadmium in acidic paddy fields, which comprises the following steps:

s1, uniformly mixing the passivation conditioner, the gelling agent and the fertility intensifier according to a preset proportion to obtain the composite medicament;

s2, putting the composite agent into a rice farmland;

s3, carrying out rotary tillage on a 0-20cm soil layer by using a rotary cultivator to ensure that the compound agent is fully mixed with the paddy field soil for reaction;

and S4, after reacting for 3-5 days, planting and reasonably managing the rice field according to local rice planting habits.

Example (b):

the method is used for passivating and repairing 81.79 mu of paddy field soil polluted by arsenic and cadmium in Jian city in Jiangxi, and the detection results of original samples are as follows:

TABLE 1 arsenic and cadmium content in rice field soil

TABLE 2 arsenic and cadmium content of rice seeds

TABLE 3 soil fertility chart

The method for restoring the rice field comprises the following steps:

firstly, cleaning up a paddy field; then 1 per thousand of ferrous sulfate, 1.1 percent of bentonite, 1 per thousand of magnesium oxide, 0.75 percent of organic fertilizer, 1 per thousand of silicon fertilizer and 0.4 per thousand of compound fertilizer are added into each mu of the fertilizer, and the medicines are prepared and uniformly mixed, and are all in powder shape; the mixed medicament is put into the paddy field in a manual spreading mode, after all the mixed medicament is added, a rotary cultivator is used for rotary tillage on 0-20cm of soil, and the medicament and the soil are fully mixed and react. After reacting for 3-5 days, planting and reasonably managing the rice according to the local rice (rice variety Xinyou 188) planting habit.

After the rice is mature, according to an effect evaluation point distribution principle in the evaluation criterion of arable land pollution treatment effect (NY/T3343-2018), 10 samples are collected from farmland soil and rice at corresponding point positions, each sample is sampled according to a 5-point sampling method, 5-point samples are uniformly mixed to serve as a sample, and a central point serves as a sample number. The soil arsenic-cadmium effective state and the content of arsenic and cadmium in rice grains are detected, and the result is as follows:

TABLE 4 available states of As and Cd in soil samples

According to the detection results, the average decrease rate of the content of the available arsenic and cadmium in the farmland soil after the mixed medicament is added reaches more than 20 percent.

TABLE 5 Rice Kernel arsenic cadmium content (mg/kg)

According to the detection results, all the rice grain samples reach the standard.

TABLE 6 soil fertility chart after restoration

The above table shows that the various indexes of the soil fertility are all improved after the mixed medicament is applied.

The repairing principle of the invention is as follows:

the agricultural ferrous sulfate can form iron-arsenic minerals with heavy metal arsenic to reduce the toxicity of the heavy metal arsenic, and aluminum octahedron contained in bentonite can form an inner-layer ligand structure with arsenic and cadmium to adsorb the heavy metal arsenic and cadmium, so that the biological toxicity of the arsenic and cadmium is reduced, and the pH value of soil can be adjusted.

The invention selects magnesium oxide as the gelling agent, so that the passivation conditioner can be better combined with heavy metal to form more stable precipitate.

The silicon fertilizer can play a role in preventing and controlling the rice from absorbing arsenic, and can increase the yield of the rice; the compound fertilizer and the organic fertilizer can increase the soil fertility and prevent the soil fertility from being attenuated due to the addition of the passivation conditioner.

The invention has the advantages that:

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The compound agent for repairing heavy metal arsenic and cadmium in acid paddy fields is characterized by comprising the following components in parts by weight: passivation conditioners, gelling agents and fertility enhancers; wherein,

2. The compound medicament for remedying the heavy metal arsenic and cadmium in the acid paddy field as claimed in claim 1, wherein the addition amount of the agricultural ferrous sulfate is 1-2 per mill of the mass of the soil to be remediated, and the addition amount of the bentonite is 1-3 percent of the mass of the soil to be remediated.

3. The compound medicament for remedying the heavy metal arsenic and cadmium in the acid paddy field as claimed in claim 1, wherein the addition amount of the magnesium oxide is 1 to 3 per mill of the mass of the soil to be remediated.

4. The compound reagent for remediating the heavy metal arsenic and cadmium in the acidic paddy field as claimed in claim 1, wherein the addition amount of the silicon fertilizer is 1-2 per mill of the mass of the soil to be remediated; the adding amount of the organic fertilizer is 0.75-1% of the mass of the soil to be repaired, and the adding amount of the compound fertilizer is 0.4-0.8 per mill of the mass of the soil to be repaired.

5. The compound agent for remedying the heavy metal arsenic and cadmium in the acidic paddy field as claimed in any one of claims 1 to 4, wherein the pH value of the compound agent for remedying the soil to be remediated is between 4 and 6.

6. A restoration method for restoring heavy metal arsenic and cadmium in an acid paddy field is characterized by comprising the following steps:

uniformly mixing a passivation conditioner, a gelling agent and a fertilizer enhancer according to a preset proportion to obtain the composite agent for repairing the heavy metal arsenic and cadmium in the acidic paddy field as claimed in any one of claims 1 to 5;

putting the composite agent into a rice farm field;