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Technological methods stabilizing humus content of sod-podzolic light loamy soil | ||
| Caspian Journal of Environmental Sciences | ||
| مقالات آماده انتشار، اصلاح شده برای چاپ، انتشار آنلاین از تاریخ 08 مهر 1402 اصل مقاله (633.67 K) | ||
| نوع مقاله: Research Paper | ||
| شناسه دیجیتال (DOI): 10.22124/cjes.2023.7124 | ||
| نویسندگان | ||
| O.A. Savoskina1؛ I.A. Zavertkin1؛ A.I. Kuracheva2؛ L.I. Ilyin2 | ||
| 1FSBEI HE RSAU-Moscow Agricultural Academy named after K.A. Timiryazev, Moscow, Russia | ||
| 2Department of Economics, Director of FSFRI, Verkhnevolzhsky FASC, Moscow, Russia | ||
| چکیده | ||
| Intensive use of arable land with unbalanced application of mineral fertilizers negatively affects soil fertility and the environment. Anthropogenic activity alters the relatively stable natural balance. The nature and direction of such alterations are largely determined by the intensity of agricultural practices implemented during field crop growing, among which the most important are the cultivation method, the fertilizer system and chemical soil reclamation. To improve the balance of organic matter in sod-podzolic light loamy soil, it is recommended to apply organic mineral fertilizers with a chemical ameliorant (lime), which reduces the rate of humus mineralization in soil and improves plant nutrition. The article shows the influence of mineral fertilizers, manure and lime on humus balance and its stabilization in the agroecosystem of the long-term field experiment. | ||
| کلیدواژهها | ||
| Soil fertility؛ Organic matter؛ Plant residues؛ Fertilizers؛ Mineral؛ Liming؛ Water resistance؛ Soil density؛ Field crops | ||
| مراجع | ||
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Zandbasiri, M, Soosani, J & Pourhashemi, M 2017, Evaluation of the crisis severity in forests of Kohgiluye and Boyerahmad province (Case study: Tang-e Solak). Iranian Journal of Forest and Poplar Research, 24: 665-674, [In Persian].
Zarenistanak, M, Dhorde, AG & Kripalani, RH 2014, Trend Analysis and Change Point Detection of Annual and Seasonal Precipitation and Temperature Series over Southwest Iran. Journal of Earth System Science, 123: 281-295. Granstedt, A & Kjellenberg, L 1997, Long-term field experiment in Sweden: Effects of organic and inorganic fertilizers on soil fertility and crop quality. In: Proceeding of an International Conference in Boston, Tufts University of Agriculture. Production and Nutrition, 1-11 Massachusetts.
Haynes, RJ & Naidu, R 1998, Influence of lime, fertilizer and manure applications on soil organic matter content and soil physical conditions: A review. Nutrient Cycling in Agroecosystems, 51: 123-137.
Ivanov, AL, Kogut, BM, Semenov, VM, Tyurina Oberlander MI & Waxman Shanbacher, N 2017, Development of the theory of humus and soil organic matter: From Tyurin and Waxman to the present day. Bulletin of Soil Institute named after V.V. Dokuchaev, 90: 3-38, DOI: 10.19047/0136-1694-2017-3-38.
Körschens M, Weigel A & Schulz E 1998, Turnover of soil organic matter (SOM) and long-term balances – tools for evaluating sustainable productivity of soils. Zeitschrift für Pflanzenernährung und Bodenkunde, 161: 409-424.
Kosolapova, А, Yamaltdinova, V, Mitrofanova, E, Fomin, D & Teterlev, I 2016, Yields of field crops and sod-podzolic soil fertility of west Ural depending on fertilizer system. Bulgarian Journal of Agricultural Science, 22: 381-385.
Magdoff, F & Weil, RR 2004, Soil organic matter management strategies. In: Soil organic matter in sustainable agriculture. F, Magdoff, RR, Weil, Boca Raton et al. (Eds.): CRC Press, pp. 45-65.
Mandal, A, Patra, AK, Singh, D, Swarup, A, Masto, RE 2007, Effect of long-term application of manure and fertilizer on biological and biochemical activities in soil during crop development stages. Bioresearch Technology, 98: 3585-3592.
Mazirov, MA, Matyuk NS, Polin VD, Malakhov NV 2018, Influence of different systems of processing and fertilization on the fertility of sod-podzolic soil. Agriculture, 2: 33-36.
Matyuk, NS, Shevchenko VA The effect of various fertilization systems and the methods of sod-podzolic soil processing on the content of humus, nutrients and the yield of crops in crop rotation. Fertility. 2017. No. 1(94). pp. 26-29.
Savoskina, OA, Shitikova, AV & Chebanenko, SI 2020, Change of the content of soil water stable aggregates in a fallow field depending on the cultivation level of albic glossic retisols of long-term field experience. International Journal on Emerging Technologies, 11: 475-478.
Shitikova, AV, Bazhenova SS, Lyakina VO 2020, Prospects for the development of crop product organic production. From the collection "Plant growing and meadow growing." The collection of the articles of All-Russian scientific conference with international participation. pp. 804-808.
Spain, AV, Isbell, RF & Probert, ME 1983, Soil organic matter. In: ‘Soils: an Australian viewpoint’, Division of Soils, CSIRO, pp. 551-563 (CSIRO: Melbourne/Academic Press: London).
Suanda, IW, Martanto, EA, Iriani, F, Nurhayati, Farni, Y, Wirda, Z & Sutiharni, S 2023, Integrated pest control strategy (IPM) corncob borer (Helicoverpa armigera Hubner): Fertilization and weeding control. Caspian Journal of Environmental Sciences, 21: 395-402
Tyurin, IV 1965, Soil organic matter and its role in fertility. Publishing House Nauka, 322 p.
Wander, M 2004, Soil organic matter fractions and their relevance to soil function, soil organic matter in sustainable agriculture. In: F, Magdoff, RR, Weil, Boca Raton et al. (Eds.), CRC Press, pp. 67-102.
Yasnolob, IO, Chayka, TO, Gorb, OO, Galych, OA, Kalashnyk, OV, Konchakovskiy, YeО, Moroz, SE & Shvedenko, PYu 2019, Using resource and energy-saving technologies in agricultural production as a direction of raising energy efficiency of rural territories | ||
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