BE1028471B1 - Comprehensive nutrient management technology and its application, taking into account the harmony of the four factors "soil, water, air and microorganism". - Google Patents

Abstract

The present invention provides a water and fertilizer management technology to realize spring onion - wheat crop rotation considering the harmony of the four factors "soil, water, air and microorganism", and belongs to the field of agricultural water and fertilizer technology. This method addresses the problems that exist in spring onion - wheat - crop rotation and takes into account the water and nutrient requirements and water and nutrient distribution of the two crops at different times of the year, and forms a technology model for nutrient management, the "soil , leachate, greenhouse gas emissions and soil microorganism composition". Compared with conventional technology, the method saves 1,298 yuan per hectare in fertilizer costs, increases the average yield by 8,807 kg/hm2 in onion season and 284 kg/hm2 in wheat season. The average yield increase rate of two seasons is 10%, the average annual yield increase per hectare is 16%, the carbon content in the 0 - 20 cm soil layer increases by 2.26t C/hm2, the total - N - leaching rate decreases by 25.72 %, N2O reduction is 25.55%, soil biodiversity increases by 31.2%, soil bulk density decreases by 9.3%, soil carbon-nitrogen ratio increases by 11.8%, which is technical support for the improvement of soil organic matter in China's cultivated land, the comprehensive utilization of nutrient resources, and the sustainable development of agriculture.

Description

Comprehensive nutrient management technology and its application, which takes into account the harmony of the four factors "soil, water, air and microorganism".

TECHNICAL FIELD The present invention relates to the technical field of agricultural fertilization, water and fertilizer management, particularly relates to a comprehensive nutrient management technology to realize spring onion - wheat crop rotation considering the harmony of the four factors "soil, water, air and microorganism". .

BACKGROUND ART With the adjustment of the structure of the planting industry, the area of the vegetable-cereal line has been increasing year by year. Spring onion-wheat succession model has been widely applied to large areas in Luquan, Hebei, Dezhou, Shandong and Linyi, Shandong. Spring onion - wheat - crop rotation has significant advantages: (1) Plants with different rooting depths are planted in an adjusted manner, making full use of soil nutrients. At the same time, the model effectively solves the obstacles of continuous green onion cultivation, guarantees the supply of food, and has significant economic and social benefits. (2) Planting and growing together at regular intervals to save time. (3) Increase harvest and efficiency to ensure revenue. The general yield of wheat is about 400 - 550 kg/mu (mu, a traditional Chinese unit of area, 1 mu=667m°) and the yield of onion is 3000 - 5000 kg/mu, and the income of the two crops can be about 7000 achieve yuan per mu.

There are still many problems in spring onion - wheat - crop rotation production: (1) improper application of organic fertilizer. Research has shown that the use and amount of organic fertilizer in spring onion production is determined by the local supply of livestock and poultry waste. (2) The use of straw is not reasonable. In order to prevent the low quality of straw returning to the field from affecting spring onion planting, conventional cultivation does not return wheat straw to the field or returns it to the field only slightly, which is unfavorable to the accumulation of soil organic matter (Pan Jianling et al., 2013). (3) Excessive fertilization. In spring onion production, in order to achieve high yields, the phenomenon of over-fertilization, especially nitrogen fertilization, occurs. According to the survey, the amount of nitrogen fertilizer used in spring onion production in Zhanggiu was up to N 600 kg/hm° (Jiang, Lihua et al., 2007), while the nitrogen absorbed by nutrients was only 107-180 kg/hm°. Hm? fraud. Excessive nitrogen application not only affects the yield and quality of spring onions, but also the excess nitrogen is lost very easily, which negatively affects the soil, atmosphere and aquatic environment (Zhang Xiansong et al., 2010; Zhang Jing et al., 2012). (4) Irrational fertilizer planning: In the fertilizer planning of two crops, only the spring onion season management is emphasized for efficiency, and the late wheat season is not topdressed. Besides, "more fertilizer in front and less fertilizer in back" fertilization method is mostly applied in spring onion season, which affected yield improvement and environmental safety.

SUMMARY OF THE PRESENT INVENTION The purpose of the present invention is to remedy the deficiencies of the prior art and to provide a comprehensive nutrient management technology to achieve a spring onion - wheat - crop rotation considering the harmony of the four factors "soil, water, air and microorganism". realize. Through the implementation of the technology, a comprehensive nutrient management technology is formed, taking into account the four factors "soil, water, air and microorganism". This will improve the organic matter of China's farmland, reduce nitrate in leachate, reduce greenhouse gas emissions from agricultural sources, and increase the richness of soil microbial populations, and support sustainable agricultural development.

The technical solution used in the present invention to solve its technical problems is. a comprehensive nutrient management technology in the present invention, which realizes spring onion - wheat crop rotation considering the harmony of the four factors "soil, water, air and microorganism", includes the following steps:

1) After crushing the wheat straw, all the wheat straw is fed back to the field to utilize and fertilize the wheat straw and increase the soil organic matter. Before planting green onions, rotted organic fertilizer is applied according to the conditions of the cultivated land to improve the physical and chemical properties of the soil, increase soil fertility, and replace part of the chemical fertilizer. The amount of decomposed organic fertilizer applied is 40 - 90 kg/hm?, calculated as N. 2) Rational application of chemical fertilizers, with the annual application rate of nitrogen fertilizer ranging from 500 - 700 kg/hm? to 350 - 450 kg/hm° (calculated as N), the application rate of phosphorus fertilizer from 250 - 350 kg/hm? to 160 - 200 kg/hm? (calculated as P2Os) and the application rate of potassium fertilizer from 200 - 250 kg/hm° to 280 - 350 kg/hm? (calculated as KO) is reduced.

3) Appropriate distribution of fertilizer consumption for two crops, of which: (1) Nitrogen fertilization (calculated as N): The amount of nitrogen fertilizer applied is 60-70% in spring onion season, of which 6-10% is for basic fertilization. Four top dressings are carried out in early August, late August, mid-early September and early October, each accounting for 6 - 10%, 10 - 20%, 30 - 42% and 30 - 38%, while the amount of nitrogen fertilizer applied in the wheat season was 30% - 40%, with a ratio of 3 - 5:7 - 5 of base dressing to top dressing.

(2) Phosphorus fertilization (calculated as P2Os): The amount of phosphorus fertilizer applied is 50 - 60% in the spring onion season, with the base fertilization accounting for 50 - 80%, with 40% - 50% of the phosphate fertilizer applied for the first top dressing, while the The amount of phosphate fertilizer used is 40 - 50% in the wheat season and is applied once in the basal period.

(3) Potassium fertilization (calculated as K2O): The amount of potassium fertilizer applied is 60-80% in spring onion season, applying one base fertilizer and four top dressings and each dosage is 20%, while the amount of potassium fertilizer applied is 20% in wheat season - 40%, with a 1:1 ratio of base dressing to top dressing.

4) water management, where the annual water consumption (including rainfall) is 1000-1200mm, and the green onion season is 700-900mm, and where the

Seedling period (planting until end of August) is 300 - 330mm and the formation period of Welsh onion stalk is 550 - 600mm (early September 150 - 180mm, mid September 60 - 80mm, late September 40 - 60mm, early October 150 - 180mm , mid-October 40-60 mm, late October 90-110 mm, early November 50-70 mm, mid-November 50-70 mm), while the wheat season is 400-500 mm, with the seedling phase (sowing by March of the following year) is 200 - 300 mm, the nodulation period is 80 - 100 mm, the gestation period is 100 - 150 mm and the filling period is 30 - 50 mm. The comprehensive nutrient management technology of the present invention, which realizes a - wheat - crop rotation taking into account the harmony of the four factors "soil, water, air and microorganism", has the following advantageous effects compared to the prior art:

1. After the wheat straw is crushed, it is fully plowed and returned to the field to convert the wheat straw into resources and fertilizer. In this way, the burning of the wheat straw is fundamentally prevented, ensuring the recycling of resources and avoiding economic and environmental losses caused by the burning of wheat straw. It can also increase soil organic matter, improve soil grain structure, and increase nitrogen fertilizer utilization. After returning the wheat straw to the field, before planting the onion, according to the condition of the cultivated land, additional nitrogenous organic fertilizer is applied to improve the physical and chemical properties of the soil, increase soil fertility, the effective use of the straw and the organic fertilizer to avoid the loss of nutrients, which will greatly increase the fertility and yield of the land.

2. The fertilizer application was reduced, with the annual application rate of nitrogen fertilizer from 500 - 700 kg/hm? to 350 - 450 kg/hm° (calculated as N), the annual spread of phosphorus fertilizer from 250 - 350 kg/hm? to 160 - 200 kg/hm? (calculated as P2Os) and annual application rate of potassium fertilizer of 200 - 250 kg/hm? to 280 - 350 kg/hm? (calculated as K2O) is reduced. Compared to farmers traditional planting mode:

1) Cost Savings. The use of nitrogen fertilizer is reduced by 30-36%, and the use of phosphate fertilizer is reduced by 30-50%, saving 20-25% of the total fertilizer and fertilizer input cost of 1000-1200 yuan per hectare; 2) Yield increase. The average production increase in spring onion season 5 is 7000 - 8000 kg/hm? and the average production increase in the wheat season is about 260 - 300 kg/hm?, making the average yield increase rate in the two seasons 10 - 16%, 3) income increase. The average annual income per hectare of farmers using conventional technology is 60000-70000 yuan, while the average annual income per hectare is 75000-80000 yuan in the technical mode of the present invention, thereby increasing the average annual income of farmers by 10-22% will rise.

4) Increase in efficiency. In technical mode, the reduction in N2O emissions is 20 - 28%, the carbon content in the 0 - 20 cm soil layer increases by 2.26t C/hm”, the total nitrogen leaching rate is reduced by 15 - 25% and the microbial species richness index is reduced by 31 .2% increased. The technology has good economic, social and environmental benefits.

3. The key period of plant growth is viewed in an integrated manner, and water and fertilizer management is targeted for different growth stages, implementing base fertilization and top dressing to selectively supplement the nutrients and water required by the plant growth stage, which is a plays a good role in improving yield and efficiency.

DETAILED DESCRIPTION In the following, a comprehensive nutrient management technology in the present invention realizing a spring onion - wheat crop rotation considering the harmony of the four factors "soil, water, air and microorganism" will be described in detail, taking spring onion - wheat crop rotation as an example will, however, the present invention is not limited to the following examples.

Example of a comprehensive nutrient management technology in the present invention, which realizes a spring onion - wheat crop rotation considering the harmony of the four factors "soil, water, air and microorganism", includes the following steps: 1) In mid-June, during the wheat harvest, will crushed the wheat straw with the combine harvester to achieve in - situ - crushing of the wheat straw and recycling to the field. Timely tillage is further carried out to promote rapid decomposition of straw and utilize wheat straw and fertilize and increase soil organic matter, while increasing soil organic matter, improving soil grain structure and increasing nitrogen fertilizer utilization will.

2) From late June to early July, before the spring onion is planted, the cultivated land is finely prepared, and according to the state of the cultivated land, additional rotted organic fertilizer is applied to improve soil fertility. This rotted organic fertilizer is made from fully rotted chicken manure 30000 kg/hm? with a nitrogen content of 40 - 90 kg/hm?, calculated as N, selected and applied by spreading in the onion furrow. At the same time, 130 kg/hm? diammonium phosphate and 150 kg/hm? Potassium sulphate applied by spreading in the onion furrow, providing nutrients N 23.4 kg/hm?, P2Os 59.8 kg/hm? and K2O 75 kg/hm? are and this fertilizer are applied evenly in the onion furrow and, if necessary, the back of the monopoly is graded.

3) After 0 - 3 days, start transplanting and planting, sort the onion seedlings to ensure the spring onion seedlings are even, plant at the standard planting spacing of 18000-21000 plants/mu.

4) At the beginning of August, spring onions are treated for the first time with diammonium phosphate 130kg/hm? and potassium sulphate 150kg/hm° topdressed, which is applied in strips 5 - 10cm away from the onion root. It is covered with a layer of flat soil to prevent the onion seedlings from falling over, with the nutrients of this topdressing N 23.4kg/hm?, P2Os 59.8kg/hm? and K2O 75kg/hm2? is.

5) At the end of August, the spring onions for the second time with urea 80kg/hm? and potassium sulfate 150kg/hm? topdressed, which is applied in strips 5 - 10 cm away from the onion roots. The furrows are smoothed out, with the nutrients of this application N 36.8kg/hm? and K2O 75kg/hm? is. 6) In the middle and end of September, the spring onions are treated for the third time with urea 217.4 kg/hm? topdressed, where the urea is applied in strips 5 - 10 cm from the bulb roots and the soil is cultivated, and where the nutrient of this application is N 100 kg/hm°. 7) In early October, the spring onion is topdressed for the fourth time with urea 210 kg/hm2, applying the urea in strips 5 - 10 cm from the onion roots, doing fertilization and tillage and water management; At the same time, wheat is treated with basic fertilizer, urea 6.9 kg/hm?, diammonium phosphate 204.5 kg/hm? and potassium chloride 75 kg/hm? deployed. The nutrients provided by this fertilization are N 136.6 kg/hm?, P2Os 94.1 kg/hm?, KO 45kg/hm?, Winter wheat is sown evenly, and the wheat is watered 0 - 3 days after sowing, and the amount of watering is 60 - 90 mm.

8) From early November to mid-November, the spring onions are harvested, the winter water is 60 - 100mm for wheat, the bottom seedlings per mu are 150000 - 180000, and the total number of stalks per mu is 400000 - 450000 before winter.

9) From March to April of the following year, the wheat with urea becomes 137.4 kg/nm? and potassium chloride 75 kg/hm? topdressed, which were applied by even spreading, the nutrients provided by this application N 63.2 kg/hm? and K20 45 kg/hm? is. Wheat is harvested in mid-June of the following year, with an ear count of 370,000 - 400,000 mu, 32 - 35 grains per ear and a grain weight of 40 - 43 g per thousand. Application Examples The method of the present invention was compared with the conventional planting mode in Zhanggiu and the current production from June 2016 to July 2019. The test wheat variety was selected as JIMAI 22 and the test onion variety as ZHANGQU DAWU. The steps of conventional planting mode are as follows: spring onions are graded from north to south, organic fertilizer is 3t/hm? as basic fertilizer, chemical fertilizer: N - P2Os - K20=420 - 300 - 175, with diammonium phosphate 326 kg/hm? and potassium sulfate 110 kg/hm? applied as a base fertilizer. The first top dressing consists of diammonium phosphate 163 kg/hm? and potassium sulphate 60 kg/hm°, the second top -

Dressing consists of urea 150 kg/hm?, diammonium phosphate 130 kg/hm? and potassium sulfate 60 kg/hm?, and the third top dressing consists of urea 217.4 kg/hm? and potassium sulphate 60 kg/hm?, the fourth top dressing consists of urea 240.6 kg/hm? and potassium sulfate 60 kg/hm?. Wheat season: sowing wheat per hm2, the amount of seed used is about 225 kg.

The total amount of chemical fertilizers used is N - P2Os - K:O=180 - 150 - 105, using 34.1% nitrogen fertilizer, 100% phosphorus and 50% potassium fertilizer as the base fertilizer, namely diammonium phosphate 341 kg/hm? and potassium chloride 87.5 kg/hm?; In the second year, 2/3 nitrogen fertilizer and 1/2 potassium fertilizer were applied in the nodulation period, namely urea 257.9 kg/hm? and potassium chloride 87.5 kg/hm?. In the examples, the measures are consistent except for the inconsistent fertilizer application rates.

Comparisons are made in terms of fertilizer costs, spring onion production, wheat production, average annual income, N2O emissions, total loss to nitrogen leaching, and soil microbial population richness, as shown in Table 1.

Table 1 Impact of Economic, Environmental and Social Benefits of Present Invention Compared to Conventional Farming Model Average Manure Cut | Through Average Total | cut cut loss| wealth medium early | lichen No at the capacity| bottom h lings- | wheat | Annual Stick | of carbon and- | cost Á ; en microbial ; two- n- com- material from soil |- nitrogen n kg N/ha/ soil Ai Yuan bel yield men year waschu | gem: |- ratio mm? | yield kg/ million ng | population kg/ hm? yuan/ha kg/hm? Hm? this invention | 5806.2 | 65872.4 | 5976.2 14.03 3.38 24.32 2.9 1.07 9.85 From Table 1 it can be seen that through 3 years of monitoring compared to conventional technology under the condition of spring onions - wheat - crop rotation by means of a comprehensive Nutrient management technology that considers the harmony of the four factors "soil, water, air and microorganism" has achieved: (1) Saving costs, reducing nitrogen fertilizer application by 33%, phosphate fertilizer application by 40% and total fertilizer application by 22%, reducing the fertilizer input cost by 1298 yuan each

hectares are saved. (2) Yield increase.

The average production increase is 8807 kg/hm? in the spring onion season and the average production increase is about 284 kg/hm? in the wheat season, making the average yield increase rate in the two seasons 10.2%; (3)

income increase.

The average annual income per hectare of farmers using conventional technology is 120,700 yuan, while the average annual income per hectare is 140,300 yuan in the technical mode of the present invention, which will increase the average annual income of farmers by 16%. (4) Increase in efficiency.

In technical mode, the reduction in N2O emissions is 25.55%, the carbon content in the 0 - 20 cm soil layer increases by 2.26t C/hm?, the overall nitrogen leaching rate is reduced by 25.72%, the microbial species richness index is increased by 31 .2% increased, soil bulk density decreased by 9.3%, soil carbon-nitrogen ratio increased by 11.8%. The technology has good economic, social and environmental benefits.

Claims (8)

EXPECTATIONS 1. Comprehensive nutrient management method that considers the harmony of the four factors "soil, water, air and microorganism", taking spring onion - wheat - crop rotation as an example, characterized in that under the comprehensive consideration of nutrients, including straw, organic fertilizer, chemical fertilizer and nutrients from the environment (e.g. soil, irrigation water, wet and dry deposition) and other nutrients, through the integrated application of nutrients, realizing the potential of soil and environmental nutrient resources, coordinating the balance between input and output of the system, the nutrient cycle and regulates the intensity of use and realizes the efficient use of nutrient resources, realizing the harmony of the four factors "soil, water, air and microorganism" in the soil - plant system, the nutrient management method includes the following steps: 1) After crushing d it wheat straw, which is the last crop of spring onions, the entire amount of wheat straw is returned to the field; Before planting spring onion, rotted organic fertilizer is applied according to the conditions of the cultivated land to improve soil fertility and replace part of the chemical fertilizer, the amount of the applied rotted organic fertilizer is 40 - 90kg/hm? is calculated as N; 2) Rational application of chemical fertilizer, with the annual application rate of nitrogen fertilizer 350 - 450 kg/hm? (calculated as N), the application rate of phosphorus fertilizer is 160 - 200 kg/hm? (calculated as P2Os) and the application rate of potassium fertilizer is 280 - 350 kg/hm? (calculated as KO); 3) Appropriate distribution of fertilizer consumption for two crops, of which: (1) nitrogen fertilization (calculated as N): where the amount of nitrogen fertilizer applied in spring onion season is 60 - 70%, of which 6 - 10% is for basic fertilization; Four top dressings are carried out in early August, late August, mid-early September and early October, each accounting for 6 - 10%, 10 - 20%, 30 - 42% and 30 - 38%, while the amount of nitrogen fertilizer applied into the wheat season 30 - 40%, with a ratio of 3 — 5 : 7 - 5 of base dressing to top dressing; (2) phosphorus fertilization (calculated as PzOs), where the amount of phosphorus fertilizer applied is 50 - 60% in the spring onion season, and where the base fertilization is 50 - 60%, and 40% - 50% of the phosphate fertilizer is applied for the first top dressing, while the amount of used phosphate fertilizer in the wheat season is 40 - 50% and applied once in the basal period; (3) Potassium fertilization (calculated as K2O), where the amount of potassium fertilizer applied in spring onion season is 60 - 80%, applying one base fertilizer and four top dressings and each dosage is 20%, while the amount of potassium fertilizer applied in wheat season is 20 - Makes up 40%, with a 1:1 ratio of base dressing to top dressing; 4) Water management, where the annual water consumption (including rainfall) is 1000-1200mm, and where the spring onion seedling period (planting by the end of August) is 300-330mm, and the Welsh onion stalk formation period is 550-600mm (early September 150 - 180mm, mid-September 60-80mm, late September 40-60mm, early October 150-180mm, mid-October 40-60mm, late October 90-110mm, early November 50-70mm, mid-November 50-70 mm), while the seedling phase of wheat (sowing by March of the following year) is 200 - 300 mm, the nodulation period is 80 - 100 mm, the gestation period is 100 - 150 mm, and the filling period is 30 - 50 mm. 2. Comprehensive nutrient management method according to claim 1, which takes into account the harmony of the four factors "soil, water, air and microorganism", taking spring onion - wheat - crop rotation as an example, characterized in that the nutrient management method includes the following steps: 1) middle June, after crushing the wheat straw, the whole amount of wheat straw is fed back to the field to utilize the wheat straw and fertilize; 2) From late June to early July, before the spring onion is planted, the cultivated land is finely prepared, and additional rotted organic fertilizer is applied according to the state of the cultivated land, with the nitrogen content of the organic fertilizer being 40 - 90 kg/hm?, calculated as N, amounts to; At the same time, N 20 - 25 kg/hm?, P2Os 50 - 70kg/hm°, K2O 70 - 80kg/hm?2 are applied, evenly introducing them into the onion furrow and, if necessary, trampling the back of the monopoly; 3) 0- 3 days later is the transplanting and planting period, using water insertion method, and the irrigation is 40-50mm, and the standard planting distance is 18000-21000plants/um, to ensure that the onion seedlings are complete, so that the spring onions can easily enter the slow seedling period; 4) At the beginning of August, the first top dressing of spring onions is carried out, the nutrients provided by the top dressing being N 20 - 25 kg/hm?, P2Os 50 - 70 kg/hm?, K2O 70 - 80 kg/hm? and the amount of irrigation is 140 - 160 mm (including rainfall, as below); 5) At the end of August, the spring onions are topdressed for the second time, with the provided nutrients N 30 - 40kg/hm?, KO 70 - 80kg/hm? and the amount of watering is 50 - 70 mm; 6) In early to mid-September, the spring onions are topdressed for the third time, with the nutrients provided N 100 - 120kg/hm? are and the watering is 220 - 240 mm; At the end of September, the amount of watering is 40 - 60 mm; 7) In early October, the spring onion is topdressed for the fourth time, with the provided nutrients N being 90-110kg/hm and the amount of watering being 80-90mm; In mid-October, wheat is applied with basic fertilizer, the nutrients provided by this basic fertilizer being N 30 - 50kg/hm?, P2Os 90 - 100kg/hm?, K2O 40 - 50kg/hm? amount, while winter wheat is sown evenly, watering the wheat 0 - 3 days after sowing, and the amount of watering is 40 - 60mm; The nutrients provided on this occasion accelerate the storage of assimilated material in the onion leaves up to the Welsh onion stalk, while at the same time ensuring basic fertility for the provide growth of wheat; In late October, the watering amount is 90 - 100mm, and in early to mid-November, the watering amount is 100 - 120mm; 8) From March to April of the following year, the wheat is topdressed, the nutrients provided being N 60 - 70kg/hm2, K2O 40 - 50kg/hm?; March to late April, the watering amount during the nodulation period is 80 - 100mm, early May, the watering amount during the gestation period is 100 - 150mm, and mid to late May, the watering amount during the filling period is 30 - 50mm; Wheat is harvested in mid-June of the following year.