Main Article Content

Sh. A. Mammadova


The article discusses the impact of different norms and ratios of organic and mineral fertilizers on the productivity and quality of Zulal beans on irrigated gray-brown soils of the Absheron Peninsula. Depending on the fertilizers used, the accumulation of nutrients in the soils and aboveground and underground phytomasses of vegetable beans has changed. The content of nutrients in the soils and in the organs of plants on fertilized variants was comparatively high in than on the control.

Article Details

How to Cite
MAMMADOVA, Sh. A.. INFLUENCE OF FERTILIZERS ACCUMULATION OF NUTRIENTS IN SOILS AND VEGETABLE BEANS. Journal of Agriculture and Environment, [S.l.], n. 4 (12), nov. 2019. ISSN 2564-890X. Available at: <>. Date accessed: 31 mar. 2020. doi:
Handling, transporting, storage and protection of agricultural products
Bоsak V.N. Аminkislotniy sostav i bioloqicheskaya chennost belka bobov оvoshnix v zavisimosti ot primeneniya udobreniy [Amino acid composition and biological value of vegetable bean protein depending on the use of fertilizers] / Bоsak, V.N., Мinyuk, О. N. // Vestnik BarQU. Bioloqicheskiye nauki. Selskoxozyaystvennie nauki. 2016. – Issue 4. – P. 79-84. [in Russian]
Bоsak V.N. Vliyanie aqroximicheskix priemov na urojaynost sparjevoy fasoli na dernovo-podzolistoy supeschanoy pochve [The influence of agrochemical methods on the yield of asparagus beans on sod-podzolic sandy loam soil] / V. N. Bоsak, V. V. Skorina, О. N. Мinyuk // Оvoshevodstvo. – 2011. – Vol. 19. – P. 36–42. [in Russian]
Bоsak V.N. Optimizasiya pitaniya rasteniy [Plant nutrition optimization] / V.N. Bоsak // – Saarbrücken: Lambert Academic Publishing. – 2012. – 203 p. [in Russian]
Primenenie udobreniy pri vozdelivanii ovoshnix kultur: rekomendachii [The use of fertilizers in the cultivation of vegetable crops: recommendations] / V.V. Skоrina and others. – Мinsk: BQTU. - 2012. – 16 p. [in Russian]
Spravochnik аqroхimika [Agrochemist Handbook] / V. V. Lаpа and others. İn-t pochvovedeniya i aqroximii. – Мinsk: Belorusskaya nauka. – 2007. – 390 p. [in Russian]
Dospexov B.A. Меtоdikа pоlevоqо оpitа (s оsnоvаmi statisticheskoy оbrabotki rezultatov issledovaniy) [Field experiment methodology (with the basics of statistical processing of research results)] / Dospexov B.A. – 5 edit., add. – М.: Аqrоpromizdat. – 1985. – 351 p. [in Russian]
Маrkоvа О.V. Оtbоr perspektivnix liniy fasoli (Phaseolus Vulgaris L.) sоrtа Elza i osobennosti ix simbiotrofnoqo pitaniya v raznix pochvenno-klimaticheskix usloviyax Preduralya [Selection of promising bean lines (Phaseolus Vulgaris L.) of the Elsa variety and features of their symbiotrophic nutrition in different soil and climatic conditions of the Urals] / Маrkоvа О.V., Qаripоvа S. R. // Vestnik Bashkirskoqo universiteta. – 2013. – Vol. 18. – №3. – P. 709-712. [in Russian]
Аqrохimiya [Agrochemistry] / Ed. by Smirnоvа P.М., Мuravinа E.А. – М.: Коlос. – 1984. – 304 p. [in Russian]
Zаvalin А.А. Vklad bioloqicheskoqo аzоtа bоbоviх kultur v аzotniy bаlаns zemledeliya Rоssii [The contribution of the biological nitrogen of legumes to the nitrogen balance of Russian agriculture] / Zаvalin А.А., Blаqоvеshеnskаya Q.Q. // Аqrохimiya. – 2012. – № 6. – P. 32–37. [in Russian]
Мishustin Е.N. Bioloqicheskiy аzot v zemledelii SSSR [Biological nitrogen in agriculture of the USSR] / Мishustin Е.N., Chеrеpkоv N.İ. // İzv. АN SSSR. Sеr. biоl. – 1976. – № 33. – P. 325–343. [in Russian]
Ehrmann J. Plant: soil interactions in temperate multi-cropping production systems / Ehrmann J., Ritz K. // Plant and Soil. 2014. – Vol. 376 (1–2). – P. 1–29.
Hauggaard-Nielsen H. Interspecific competition, N use and interference with weeds in pea–barley intercropping / Hauggaard-Nielsen H., Ambus P., Jensen E.S. // Field Crop. Res. – 2001. – Vol. 70. – İssue 2. – 101–109.
Hinsinger P. P for two, sharing a scarce resource: soil phosphorus acquisition in the rhizosphere of intercropped species / Hinsinger P., Betencourt E., Bernard L. and others // American Society of Plant Biologists. – 2011. – Vol. 156 (3). – P. 1078–1086.
Jensen, E.S. Intercropping of cereals and grain legumes for increased production, weed control, improved product quality and prevention of N-losses in European organic farming systems / Jensen, E. S., Ambus, P., Bellostas, N. and others. Sørensen, & G. Hansen (Eds.), Proceedings - Tjele: Danish Research Centre for Organic Food and Farming, DARCOF. – 2007. – P. 180-181.
Kabbadj A. Physiological and biochemical responses involved in water deficit tolerance of nitrogen-fixing Vicia faba / Kabbadj A., Makoudi B., Mouradi M. and others // PLoS One. – 2017. Vol. 12 (12).
Khadraji A. Phosphate solubilization capacity, salinity and drought tolerance of rhizobia nodulating chickpea (Cicer arietinum L.) / Khadraji A., Mouradi M., Bassour H. and others // Moroc. J. Chem. – 2017. Vol. 5 (4). – 722–729.
Li H. Phosphorus uptake and rhizosphere properties of intercropped and monocropped maize, faba bean, and white lupin in acidic soil / Li H., Shen J., Zhang F. and others // Biol. Fertil. Soils. – 2010. – 46 (2). – 79–91.
Mouradi M. Effect of faba bean (Vicia faba L.)–rhizobia symbiosis on barley's growth, phosphorus uptake and acid phosphatase activity in the intercropping system / Mouradi M., Mohamed Farissi, Bouchra Makoudi and others // Annals of Agrarian Science. – 2018. – 16. – 297–303.
Tsubo M. A simulation model of cereal–legume intercropping systems for semi-arid regions: I. Model development / Tsubo M., Walker S., Ogindo H. // Field Crop. Res. – 2005. – Vol. 93 (1). – P. 10–22.
Xiao Y. Effect of root contact on interspecific competition and N transfer between wheat and fababean using direct and indirect 15 N techniques / Xiao Y., Li L., Zhang F. // Plant and Soil. – 2004. Vol. 262 (1–2). – P. 45–54.
Zhao M. Intercropping affects genetic potential for inorganic nitrogen cycling by root-associated microorganisms in Medicago sativa and Dactylis glomerata / Zhao M., Jones C.M., Meijer J. and others // Appl. Soil Ecol. – 2017. – № 119. – 260–266.