RU2041587C1 - Method for growing maize for grain - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves placement of organic fertilizer before cultivation of soil and sowing. Organic fertilizer is a byproduct of hydrolysis production ammonized lignin applied at the rate of 4.5 9.0 t/ha. EFFECT: higher cropping power of maize. 1 tbl

Description

 The invention relates to agriculture, specifically to a technology for growing corn for grain.

 Modern technology for growing corn for grain includes a number of stages: applying the estimated amount of organic or mineral fertilizers; plowing for chill and its leveling; presowing cultivation and sowing; inter-row processing; harvesting.

 A known method of growing corn, which consists in introducing the estimated amount of mineral fertilizers, while the calculation is carried out on N, P, K (see Kayumov M.K. Field crop productivity programming manual. M. Rosselkhozizdat, p. 288, 1982).

 The disadvantage of this method is the rapid decrease in the effectiveness of mineral fertilizers due to their transformation in the soil, leaching by precipitation, transition to forms that are difficult to access for plants, etc.

 This not only leads to large economic costs, but also negatively affects the environmental situation and accelerates the growth of weeds. Another disadvantage of using mineral fertilizers is their scarcity and high cost.

There is also known an environmentally friendly way to increase the yield of corn by making semi-overripe manure before plowing for winter chaff [1]
The disadvantages of this method are the difficult control of the content of nutrients in manure due to the variability of its composition, relatively large (30-40 t / ha) costs and low (38-40 t / ha) grain yield, as well as deficiency of manure. Another disadvantage of the use of manure is the need for sanitary-bacteriological control and control over the content of viable weed seeds.

 The aim of the invention is to increase the yield of corn for grain, eliminating the need for high doses of mineral fertilizers or manure from the system of agrotechnical measures, as well as the absence of the need for sanitary-bacteriological monitoring and control over the content of viability of weed seeds.

 The goal is achieved by the fact that the proposed method of increasing productivity, which consists in applying to the soil and incorporation during cultivation of ammoniated lignin (AL). The latter is a hydrolysis lignin neutralized by ammonia (up to a free nitrogen content of 2%) by the multi-ton by-products of the hydrolysis workshop of the Kropotkin chemical plant.

 The application of the proposed method allows not only an environmentally friendly way to increase the yield of corn, but also to solve the problems of using (recycling) large volumes of acid hydrolysis lignin.

EXAMPLE 1. In a field experiment on leached chernozem at three repetitions, ammoniated lignin was introduced at a rate of 6 t / ha. The plot area was 126 m ² . The introduction was carried out manually, randomly, followed by termination with a cultivator. All other elements of the agricultural technology of corn cultivation were generally accepted.

 Other examples of specific performance of the invention are presented in the table. At the same time, the conditions and technology were similar to Example 1. The only difference was the amount of applied AL and mineral fertilizers.

 As can be seen from the table, the optimal amount of AL introduced is 4.5–9 t / ha (examples 5, 8–10), which provides an increase in the yield of corn grain in the range of 17.8–28.3 c / ha. An increase and decrease in the amount of AL delivered (exorbitant values) leads to a decrease in yield (example 4), or is not very effective (example 13).

 The introduction of the estimated amount of complete mineral fertilizer (examples 2, 3, 14) leads to a yield increase in the range of 21.0-21.8 kg / ha, which is close to that when using AL in the amount of 6-7.5 t / ha (examples 5, 8). Not received a large increase in combination with the introduction of AL with mineral fertilizers (examples 6, 7, 10-12).

 Using an additive of half-ripened humus in an amount of 35 t / ha (which is 4 times higher than the upper optimum for AL), a corn grain yield of 38.4 kg / ha was obtained, which in comparison with the control amounted to an increase of 6 kg / ha (examples 15 and 1) and much less (examples 4-13) in comparison with the yield when using AL.

Claims (1)

 METHOD FOR GROWING CORN FOR GRAIN, including the application of organic fertilizer, soil cultivation and sowing, characterized in that the organic by-product of the hydrolysis production is ammonized lignin with a free nitrogen content of 2% in an amount of 4.5 - 9 t / ha.

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