Removal of basic nutrients from the soil by field crop rotations with different fertilizers
DOI:
https://doi.org/10.31073/acss91-04Keywords:
podzolized chernozem; fertilizers; basic nutrients; winter wheat; corn; spring barley; soybeansAbstract
The effect of application of different doses and combinations of mineral fertilizers in field crop rotation on the content of basic nutrients in plants, economic and relative removal of winter wheat, corn, spring barley and soybeans was studied. Soil - Luvic Chernic Phaeozem. The scheme of the experiment includes 11 variants of combinations and separate application of mineral fertilizers and, including the variant without fertilizer. It was found that the level of nitrogen content of easily hydrolyzed compounds in the soil significantly affects its content in the grain of spring barley, corn, soybeans (R2 = 0,92–0,93), less - winter wheat (R2 = 0,63). The content of mobile phosphates in the soil has almost the same effect on its content in the main and non-commodity part of the crop, regardless of the crop (R2 = 0,39–0,70). The smallest relationship between the content of mobile compounds in the soil and in the crop was in potassium, but in soybean seeds and straw of spring barley and soybeans it was clearly traced (R2 = 0,53–0,68). Nitrogen (64,4–149,9 kg / ha) has the largest share in the economic extraction of nutrients with grain and seed yield, followed by phosphorus – 21,1–51,4 kg P2O5/ ha, depending on the crop. On the formation of the crop unit of marketable and the corresponding amount of non-marketable crop products absorb nutrients in the following ratio N : P2O5 : K2O: winter wheat – 1 : 0,4: 0,7; corn – 1 : 0,3 : 0,8; spring barley – 1 : 0,4 : 0,7 and soy – 1 : 0,4 : 0,4. With the non-commodity part of the crop, nitrogen with corn stalks returns to the soil from economic removal – 28–36 %, phosphorus with soybean straw (47–54 %) and potassium with winter wheat straw and corn stalks – 74–80 %, depending on the experiment variant.
References
References
Gospodarenko G.M. 2019. Agrochemistry. Kyiv: LLC «SIK GROUP UKRAINE». 560 p. [in Ukrainian].
Geisseler D., Scow K.M. 2014. Long-term effects of mineral fertilizers on soil microorganisms – a review. Soil Biology and Biochemistry. 75. P. 54–63 (Engl.). https://doi.org/10.1016/j.soilbio.2014.03.023.
Hospodarenko H.M., Prokopchuk I.V., Boiko V.P. 2020. Soybean uptake of essential nutrients from soil and fertilizers. Agrochemistry and Soil Science. Collected papers. No. 89. Kharkiv: NSC ISSAR, P. 63-70. [in Ukrainian]. https://doi.org/10.31073/acss89-07.
Selected works of Academician V.I. Vernadsky. 2011. Kyiv. Vol. 1, Book 2. 584 p. [in Ukrainian].
Il'in V.B. Elemental chemical composition of plants. 1985. Novosibirsk: Nauka. 129 p. [in Russian].
Diagnosis of chemical elements of the soil-plant system 2012. Edited by A.I. Fateev, V.L. Samokhvalova. Kharkiv. 146 p. [in Ukrainian].
Olkhovsky G.F. 1980. Biological removal of nitrogen, phosphorus and potassium on mixed backgrounds. Agrochemistry. No. 7. P.54–58. [in Russian].
Miroshnychenko M., Zvonar A., Panasenko E., Leonov O. 2020. Inputs of nutrients to winter wheat plants of different varieties in years, contrasting in weather. Agrochemistry and Soil Science. Collected papers. No. 89. Kharkiv: NSC ISSAR, P. 51-62. (Ukr.). https://doi.org/10.31073/acss89-06 [in Ukrainian].
Ågren G.I., Weih M. 2012. Plant stoichiometry at different scales: element concentration patterns reflect environment more than genotype. New Phytologist. 194. Р. 944-952. https://doi.org/10.1111/j.1469-8137.2012.04114.x
Marschner's Mineral Nutrition of Higher Plants. 3rd edition. Edited by P. Marschner. Amsterdam, Netherlands: Elsevier/Academic Press, 2012. 684 p.
Mineev V.G., Rempe E.Kh. 1991. Ecological consequences of prolonged use of elevated and high doses of mineral fertilizers. Agrochemistry. No 3. P. 35–48. [si Russian].
Hospodarenko G.M., Cherno O.D., Cherednik A.Y. 2019. Formation of soil fertility for different fertilizer systems in field crop rotation. Agrology. 2(2). P. 79–85. https://doi.org/10.32819/019011. [in Ukrainian].
The system of fertilization of agricultural crops in agriculture at the beginning of the XXI century. / Edited by S.A. Balyuk, M.M. Miroshnichenko. Kyiv: Alfa-stevia, 2016. 400 p. [in Ukrainian].
Stationary field experiments of Ukraine. Kyiv: Agrarian Science, 2014. 146 p. [in Ukrainian].
Plants. Determination of general forms of nitrogen, phosphorus and potassium in one sample of plant material: MVV 31–497058–019–2005. Methods for determining the composition and properties of soils. Kharkiv: Typography No. 13, 2005. Book. 2. P. 189–208. [in Ukrainian].
Chaddock R.E. 1952. Exercises in statistical methods. Houghton. 166 p.
Tueva O.F. 1966. Phosphorus in plant nutrition. Moscow: Nauka. 296 p. [in Russian].
Nosko B.S. 2017. Phosphorus in Soils and Agriculture of Ukraine. Kharkiv. 475 p. [in Ukrainian].
Hospodarenko H.M. 2002. Basic principles of fertilizer system construction in field rotation. Agrochemistry and Soil Science (special issue). Book 3. Kharkiv. P. 200–203. [in Ukrainian].
Ivoilova A.V., Shilnikov I.A., Shelkunova A.V. 1990. Removal of N, P, K and Ca by crops of crop rotation. Agrochemistry. No. 1. P. 26–32. [in Russian].
Nikitina O.V. 2017. Change of potassium state of chernozem podzolized for long-term use of fertilizers in field crop rotation in the conditions of the Right-bank Forest Steppe of Ukraine: author. diss. … Сand. agricultural Sciences: 06.01.04. Kharkiv. 23 p. [in Ukrainian].
Acher С.J., Ozanne P.L. 1963. Calcium and potassium content of plant in solution cultures maintained at constant potassium concentration. Soil Sci. V. 103. P. 155.
Klimenko I.I. 2015. Influence of fertilizer system on the productivity of crops of the link of grain-tilled crop rotation and fertility of dark gray podzolized soil: author. diss. Cand.agricultural Sciences. Kyiv. 22 p. [in Ukrainian].
Kravets I.S. 2001. Changes in the nitrogen fund and nitrogen balance of chernozem podzolic Right-Bank Forest-Steppe of Ukraine with long-term use of fertilizers in field crop rotation: author. diss. … Сand. agricultural Sciences: 01/06/04 Kharkiv, 2001. 20 p. [in Ukrainian].
Klimashevsky E.L. 1991. Genetic aspect of the mineral nutrition of plants. Moscow: Agropromizdat. 415 p. [in Russian].
Tkachenko M.A., Drach Y.A. 2016. Specific genotype ratio of nutrients as a basis for optimization of fertilizers of crops. Coll. Papers of Institute of Agriculture of the NAAS of Ukraine. Iss. 1, P. 113–123. [in Ukrainian].
Yurkin S.N., Pimenov E.A., Makarov N.B. 1979. Soil-zonal differences in the consumption of nutrients in connection with the use of fertilizers. Agrochemistry. No. 12. P. 127–130. [in Russian]
Downloads
Published
Issue
Section
License

This work is distributed under the Creative Commons Attribution-NonCommercial 4.0 International License.