Abstract
The effect of different forms of phosphorite (activated and crude ground) of the Burenkhansk deposit on the phosphate status of chestnut soils and the productivity of spring wheat was studied in Northern Mongolia. It was found that the transformation of mineral soil phosphates upon the application of activated phosphorite (together with NK) is similar to that upon superphosphate application, and the available phosphorus concentration is even a gradation higher. The application of crude ground phosphorite helped to preserve the content of mineral phosphates in the soil at the initial level. Optimum concentrations of available phosphorus and the sum of loosely bound and calcium phosphates in the plow horizon were estimated 33–35 mg/kg) and 16–18 mg/100 g, respectively. Under these concentrations, high and sustainable yields of spring wheat were obtained upon application of activated phosphorite.
Similar content being viewed by others
References
Agrophysical Methods of Soil Studies (Nauka, Moscow, 1966) [in Russian].
Agrochemical Methods of Soil Studies (Nauka, Moscow, 1975) [in Russian].
S. N. Adrianov, V. N. Kapranov, and B. A. Sushenitsa, “Efficiency and technology of production of chemically active phosphorite meal,” Plodorodie, No. 6, 11–12 (2007).
L. P. Antipina, Doctoral Dissertation in Agriculture (Omsk, 1991).
O. I. Antonova, “Phosphorous forms in soils of the Altai region,” in Phosphorus in Siberian Soils (Novosibirsk, 1983), pp. 21–31.
Zh. Bayarmagnai, Candidate’s Dissertation in Agriculture (Ulan-Ude, 2006).
S. A. Beketov, V. E. Shevchuk, L. N. Kostyukhin, and N. I. Simonenko, “Distribution of mobile phosphorous in arable soils of Eastern Siberia and key factors of its concentration,” in Phosphorous in Siberian Soils (Novosibirsk, 1983), 40–45.
U. Bekhtor, Candidate’s Dissertation in Agriculture (Moscow, 1991).
N. I. Gantimurova, “Microflora of chestnut soils,” in Microflora of Soils of Western Siberia (Nauka, Novosibirsk, 1970, 116–127.
V. N. Gurin and D. V. Gurin, “Development of technology of mechano-chemical activation of phosphorites of Burenkhanskoe field,” Visn. Mizhd. Slovyan. Univ., Tekhn. Nauki 9(2), 3–10 (2006).
V. A. Demin, Musa Audu, A. V. Sharapova, and V. A. Povetkin, “Changes in the content of phosphorous and potassium forms in soddy-podzolic soil and crop yields upon long-term fertilization,” Agrokhimiya, No. 3, 18–26 (2003).
T. E. Dudareva, “Microorganisms mobilizing difficultly soluble phosphates in soils of Central Kulunda,” in Soils of Kulundinskaya Steppe (Nauka, Novosibirsk, 1967) [in Russian].
R. E. Eleshov, Doctoral Dissertation in Agriculture (Moscow, 1984).
V. N. Efimov, L. A. Trusova, T. B. Diallo, and B. Diallo, “Transformation of phosphorous from mineral fertilizers in soddy-podzolic soils,” Pochvovedenie, No. 10, 86–92 (1994).
Complex Fertilizers from Natural and Technogenic Materials of the Transbaikal Region (Buryat Scientific Center, Siberian Branch, Russian Academy of Sciences, Ulan-Ude, 2002) [in Russian].
I. E. Koroleva, “Criteria of the selection of parameters of soil tolerance towards phosphorous and potassium depletion in agricultural soils,” in Soil Tolerance towards Natural and Anthropogenic Influences (Moscow, 2002), p. 38.
A. G. Kryuchkov, V. I. Eliseev, and R. R. Abdrashitov, “Dynamics of the content of mobile phosphorus in an ordinary chernozem under winter wheat in the longterm stationary experiment,” Agrokhimiya, No. 3, 32–35 (2013).
V. N. Kudeyarov, “Modern assessment of an input of fertilizers to agrochemical cycle of nitrogen and potassium on the territory of Russia,” in The IV Pryanishnikov Siberian Agrochemical Conference “Agrochemical Properties of Soils and Their Control” (Novosibirsk, 2009), pp. 33–45.
V. N. Kudeyarov and V. M. Semenov, “Assessment of the current contribution of fertilizers to the agrogeochemical cycles of nitrogen, phosphorus, and potassium,” Eurasian Soil Sci. 37(12), 1279–1285 (2004).
T. P. Lapukhin, Doctoral Dissertation in Agriculture (Barnaul, 2000).
V. S. Levina, Candidate’s Dissertation in Agriculture (Saratov, 2010).
A. P. Lisoval and D. Tsermaa, “Influence of mineral fertilizers and manure on nutritional regime of soil, crop yield, and quality of winter wheat cultivated in the People’s Republic of Mongolia,” Agrokhimiya, No. 3, 50–55 (1977).
M. G. Merkusheva, L. L. Ubugunov, N. M. Kozhevnikova, V. A. Lbov, and A. V. Lbov, Agrochemical Mineral Materials: P, K, S, and Microelements (Buryat Scientific Center, Siberian Branch, Russian Academy of Sciences, Ulan-Ude, 2009) [in Russian].
M. G. Merkusheva, E. G. Ineshina, L. N. Boloneva, and Ts. D. Mangataev, “Microbiological methods for improving efficiency of fertilizers based on natural materials,” in Complex Fertilizers from Natural and Technogenic Materials of the Transbaikal region (Buryat Scientific Center, Siberian Branch, Russian Academy of Sciences, Ulan-Ude, 2002), pp. 85–96.
V. G. Mineev, Agrochemistry (Kolos, Moscow, 2004) [in Russian].
N. B. Namzhilov, “The effect of deflation on microbiological characteristics of chestnut soils in the Lake Baikal region,” Eurasian Soil Sci. 36(7), 775–779 (2003).
K. Nedyalkova, “Phosphorous-decomposing activity of soil bacteria in culture in vitro,” Pochvozn., Agrokhim., Ekol. 38(3), 45–48 (2003).
B. S. Nosko, V. I. Babynin, T. A. Yunakova, and L. N. Burlakova, “Dynamics of fractions of mineral phosphates in ordinary chernozem after long-term fertilization,” Agrokhimiya, No. 3, 27–34 (2003).
B. K. Samatov, Candidate’s Dissertation in Agriculture (Kazan, 2005).
Ts. Surenzhav, Candidate’s Dissertation in Agriculture (Moscow, 1981).
B. A. Sushenitsa and V. N. Kapranov, “Improvement of the efficiency of powdered phosphorites,” Agrokhim. Vestn., No. 6, 14–16 (2007).
L. L. Ubugunov, A. I. Kulikov, V. I. Ubugunova, M. G. Merkusheva, and S. G. Doroshkevich, Soil Fertility of Agrolandscapes of Buryatia (Fillipov Buryat State Agricultural Academy, Ulan-Ude, 2009) [in Russian].
L. L. Ubugunov, M. G. Merkusheva, V. I. Ubugunova, and Ts. D. Mangataev, “Content, reserves, and fractions of nitrogen and phosphorous compounds in rainfed and irrigated chestnut soils of the Transbaikal region,” Agrokhimiya, No. 10, 24–32 (1999).
A. A. Khristenko, “Dynamics of concentration of mobile phosphorus compounds in soils,” Agrokhimiya, No. 10, 16–22 (2001).
D. Tsermaa, Candidate’s Dissertation in Agriculture (Kiev, 1975).
D. Tsermaa, Doctoral Dissertation in Agriculture (Darhan, Ulaanbaatar, 2000).
L. Chultemsuren, Candidate’s Dissertation in Agriculture (Moscow, 1975).
A. L. Yanshin and M. A. Zharkov, Phosphorous and Potassium in Nature (Nauka, Novosibirsk, 1986) [in Russian].
A. L. Yanshin and N. S. Zaitsev, “The 20th anniversary of the Soviet-Mongolian scientific research expedition,” Mezhd. Nauchn. Svyazi, No. 9, 112 (1987).
A. Delgado and J. Torrent, “Phosphorus forms and desorption patterns in heavily fertilized calcareous and limed soils,” Soil Sci. Soc. Am. J., No. 64, 2031–2037 (2000).
D. Dodor and O. Kazuhiro, “Phosphate sorption characteristics of major soils in Okinava, Japan,” Commun. Soil Sci. Plant Anal. 31(3–4), 277–288 (2000).
B. Higgs, A. E. Johnston, J. L. Salter, and C. J. Dawson, “Some aspects of achieving sustainable phosphorus use in agriculture,” J. Environ. Qual. 29, 80–87 (2000).
H. Li and X.-M. Zhang, “Reaction of the young plants of the different wheat genotypes on insufficient phosphorus and moisture,” Agr. Res. Arid Areas 19(1), 72–78 (2001).
M. B. McGechan and D. R. Lewis, “Sorption of phosphorus by soil, Part 1: Principles, equations and models,” Biosyst. Eng., No. 82, 1–24 (2002).
M. G. Merkusheva, “The humus state and structure of microbial cenosis in deflated chestnut soils of Barguzin Depression (Western Transbaikalia),” Arid Ecosyst. 2(2), 98–104 (2012).
K. W. Perrott and R. G. Wise, “Determination of residual reactive phosphate rock in soil,” Commun. Soil Sci. Plant Anal. 31(11–14), 1412–1413 (2000).
V. K. Ravichandran, N. Devarani, and T. N. Balasubramanian, “Dissolution of low grade rock phosphate in the soil amended with organic manure and phosphobacteria,” J. Ecobiol. 15(1), 55–59 (2003).
R. Riffaldi, A. Saviozzi, R. Levi-Minzi, and M. M. Wahba, “Phosphate sorption by some Egyptian and Italian calcareous soil,” Agrochimica 45(3–4), 147–158 (2001).
Y. Sun, Q. Lin, and X. Zhao, “Combined effect of Protozoa and phosphobacteria on solution of phosphorite meal,” Chin. J. Ecol. 22(3), 84–86 (2003).
S.-G. Zhang, G.-D. Liu, Y.-Q. Dou, and G.-L. Liu, “Influence of insufficient phosphorous and drought on the growth of soft wheat,” Acta Bot. Boreali-Occident. Sin. 22(3), 574–578 (2002).
Author information
Authors and Affiliations
Corresponding author
Additional information
Original Russian Text © L.L. Ubugunov, B. Enkhtuyaa, M.G. Merkusheva, 2015, published in Pochvovedenie, 2015, No. 6, pp. 731–739.
Rights and permissions
About this article
Cite this article
Ubugunov, L.L., Enkhtuyaa, B. & Merkusheva, M.G. The content of available mineral phosphorus compounds in chestnut soils of Northern Mongolia upon application of different forms of phosphorite. Eurasian Soil Sc. 48, 634–642 (2015). https://doi.org/10.1134/S1064229315060113
Received:
Published:
Issue Date:
DOI: https://doi.org/10.1134/S1064229315060113