RU2809384C1 - Method of increasing the environmental safety of crop products - Google Patents

Abstract

FIELD: agriculture; crop production.

SUBSTANCE: method of increasing the environmental safety of crop products involves a single application of a composition including eggshells, ammonium nitrate and vermicompost in a wt. ratio to anthropogenically contaminated wt.% components 1:1:3.

EFFECT: proposed method of increasing the environmental safety of crop products provides reducing the concentration of heavy metals in anthropogenically contaminated soil, in the grain of agricultural crops of wheat and barley grown on anthropogenically contaminated soils while maintaining the sowing qualities of the seeds, increasing productivity.

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Description

The technical field to which the invention relates.

The present invention relates to agriculture, in particular to crop production.

State of the art.

Since the 1980s, scientists around the world have been developing methods to reduce the availability of heavy metals (HMs) and their accumulation in above-ground parts of plants. Techniques using sowing herbs (amaranth, calendula, fescue, Russian mustard, soft wheat, Armeria maritima, rapeseed) and applying ameliorants (lime, clay, diatomite) have become widespread [1; 3; 4] .

The increase in the volume of contaminants entering the environment is associated with an increase in the number of vehicles, the work of utilities and road services, and the activities of the mining and processing industries. In this regard, the development of various approaches to increasing fertility and reducing the toxic effects of heavy metals on living organisms and their habitat becomes relevant [5].

Thus, studies in rice fields in South Korea (Lee S. S., 2013) showed that the combined use of eggshell waste with rapeseed residues can be a cost-effective and beneficial way to restore soil contaminated with heavy metals. In soils treated with NPK fertilizer and rapeseed husk, the content of heavy metals in the soil was significantly reduced to 34.01 and to 46.1% with the addition of eggshells to the ameliorant composition compared to the control [7].

Lee C.H. et al. assessed the effect of eggshell waste combined with nitrogen, phosphorus, and potassium fertilizers on the immobilization of Cd and Pb in neutral agricultural soil in China. Their studies showed that 80 days after adding 5% (by weight) eggshells to the soil, the concentration of available forms of Cd and Pb decreased to 68 and 93%, respectively [6].

Soares A.R. (2015) and co-workers investigated the immobilization effect of lead and zinc when composted with eggshells was added. Compost increased the reaction of the soil environment to values above 6 and reduced the content of the mobile form of Pb and Zn by more than 95% [8].

The technical problem to be solved by the claimed invention is expressed in the development of a simple to implement and easily reproducible method for increasing the environmental safety of crop products.

The technical result is a reduction in the concentration of heavy metals in the grain of agricultural crops: wheat ( Tríticum aestívum L. ) and barley ( Hordeum sativum L. ) grown on anthropogenically contaminated soils while maintaining sowing qualities and increasing productivity.

The specified technical result is achieved by a single application to the soil of a composition consisting of eggshells, nitrogen fertilizer and vermicompost in a component ratio of 1:1:3. Achieving a technical result will create conditions for subsequent environmental certification of products, guaranteeing their safety for the life and health of the consumer, and will also increase the competitiveness of the final product.

Implementation of the invention.

As a raw material for preparing the composition in laboratory conditions, eggshells of the BIUD brand (LLC Eco-AgTi, Moscow region, Korolev, Dzerzhinskogo str., 26) were mixed with a particle size of 1-3 mm (pHKCl = 7.1 , mass fraction of chemical elements: Ca - 30%, K - 20%, Mg - 1.05%, S - 2.5%, Na - 0.65%), ammonium nitrate with a mass fraction of nitrogen of at least 34.4% of the Fertika trademark "(ZOA "Fertika", Moscow, Ryazansky Prospekt, 75) and vermicompost brand "Vermi" (LLC "MFK Tochka Opory", Moscow, Balaklavsky Prospekt, 28 B) (with mass fraction of nutrients, % : N – 1.5, P – 0.7, K – 0.6, Ca – 0.8, Mg – 0.1).

To study the influence of the proposed technique on the environmental safety of wheat and barley grain, a single-factor field experiment was carried out on a site located in the coverage area of the federal highway P-239 (53.158723°N. 54.208385°E). The soils of which were represented by typical chernozem of heavy loamy granulometric composition, a neutral reaction of the soil cover (pH = 7.1), the content of the ammonium form of nitrogen was 0.65%, and the mobile forms of P ₂ O ₅ - 156.7 mg/kg and K ₂ O - 860 mg/kg . Preliminary studies showed that the soil cover was characterized by the content of a mobile form of zinc exceeding the maximum permissible concentration by 3.5 times.

The field experiment was carried out according to the methodology of B.A. Dospehov. with a total area of the experimental plot of 1 hectare [2]. The composition was applied at a dose of 400 kg/ha in the fall using a machine for applying solid organic fertilizers MTO-3, followed by plowing with a mounted plow PLN-4-35 to a depth of 20-25 cm. Spring field work was carried out using a T-150 tractor with a trailed combined seeding unit CS 6003 R.

To conduct the research, we used seeds of soft spring wheat of the “Uchitel” variety and barley “Natalie”, which were provided by the Department of Grain and Forage Crops Technologies of the Federal Scientific Center BST RAS (http://fncbst.ru/). The sowing rate for spring wheat and barley was 5.0 million seeds per 1 hectare. After ripening and harvesting, the average increase in phytomass per season was determined, as well as the content of zinc, lead and copper in the grain using the atomic absorption method (atomic absorption spectrometer “Kvant-2AT”, Kortek LLC, Moscow).

An assessment of the field germination of seeds showed that when the composition was added, the indicator for spring soft wheat increased by 16% relative to control values, and for spring barley by 21%, and phenological observations in areas with the introduction of the proposed composition allowed us to note an increase in plant survival by 15% (table 1).

Table 1

Vital and morphometric indicators of field crops

Experience Option Root mass, g Weight
aboveground organs, g Weight of 1000 seeds, g Germination rate, % Productivity, c/ha Soft wheat "Uchitel" variety Control 14.26 122.54 34.5 75 14.01 Option with addition of composition 20.3 165.28 37.5 91 20.17 Spring barley variety "Natalie" Control 4 29.53 41.5 67 11.3 Option with addition of composition 8.92 83.55 42.5 88 19.9

The increase in the phytomass of cultivated plants after applying the developed composition for wheat was 42.4% for root systems and 34.9% for above-ground plant organs, and for barley 123% and 182.9% for sub- and above-ground plant organs, respectively. The complex effect on soil properties, processes of growth and development of plants of eggshells, nitrogen fertilizer and vermicompost was expressed in an increase in the yield of wheat by 1.4 times and barley by 1.8 times compared to the control. The decrease in the availability of heavy metals in the soil solution and their accumulation in the crop biomass is well illustrated by the obtained analytical data (Table 2).

table 2

Content of heavy metals (mg/kg) in grain of cultivated plants

Experience Option Soft wheat "Uchitel" variety Spring barley variety "Natalie" Zn Control thirty 35.2 Option with addition of composition 27.6 15.2 Pb Control 0.31 0.28 Option with adding composition 0.12 0.24 Cu Control 2.67 4.35 Option with addition of composition 2.3 3.7

Note: * significant at p ≤ 0.05 (difference from the prototype).

The concentration of zinc relative to the control decreased in wheat grain by 8%, and in barley by 56.8%. The decrease in copper content in the crop biomass for the studied crops and lead in barley grain varied from 13.9 to 14.9%, and the greatest effect of reducing the accumulation of heavy metals by more than 61% was noted for lead in wheat grain.

Thus, the proposed composition promotes soil detoxification and reduces the accumulation of heavy metals in the biomass of cultivated plants, and therefore can be used as an effective way to increase the environmental safety of crop products.

List of sources used:

1. Borisochkina T.I. Restoration of soils contaminated with heavy metals / T.I. Borisochkina // Ecology of Russia: On the Path to Innovation. – 2012. – No. 6. – P. 128-132.

2. Dospehov B.A. Methodology of field experience / B.A. Armor. – 5th ed., add. and processed - M.: Agropromizdat, 1985. - 351 p.

3. Kireycheva L.V. Natural sorbents for detoxification of contaminated soils / L.V. Kireycheva, I.V. Glazunova // Fertility. – 2008. – No. 6 (45). – P. 44-46.

4. Popova A.A. Wild plants as accumulators of heavy metals (pb) in an urban environment using the example of creeping clover (trifolium Repens L.) / A.A. Popova, Nguyen Thi Kim Phung, T.V. Arkhipova. – Moscow Pedagogical State University, 2019. – pp. 233-236.

5. Suleymanova N.O. Content and migration of heavy metals in the soil-plant system in agrocenoses of the Chu Valley / N.O. Suleymanova // News of Universities (Kyrgyzstan). – 2005. – No. 6. – P. 50-54.

6. Effects of oyster shell on soil chemical and biological properties and cabbage productivity as a liming materials: Pay as you throw: a tool for urban waste management / C.H. Lee [et al.] // Waste Management. – 2008. – T. 28. – No. 12. – P. 2702-2708.

7. Heavy metal immobilization in soil near abandoned mines using eggshell waste and rapeseed residue / S.S. Lee [et al.] // Environmental Science and Pollution Research International. – 2013. – T. 20. – No. 3. – P. 1719-1726.

8. Soares M.A.R. Immobilization of lead and zinc in contaminated soil using compost derived from industrial eggshell / M.A.R. Soares, M. J. Quina, R.M. Quinta-Ferreira // Journal of Environmental Management. – 2015. – T. 164. – P. 137-145.

Claims (1)

A method of increasing the environmental safety of crop products, characterized by the fact that a composition based on eggshells, ammonium nitrate and vermicompost is added once to the soil of a technogenically polluted agrocenosis in a ratio by weight. % 1:1:3.