EFFICIENCY OF CROP ROTATIONS IN THE LOWER VOLGA CONDITIONS

Elena V. Seminchenko

doi:10.12731/2658-6649-2021-13-6-132-143

Elena V. Seminchenko Federal Scientific Centre of Agroecology, Complex Melioration and Protective Afforestation of the Russian Academy of Sciences https://orcid.org/0000-0003-3155-9563

DOI: https://doi.org/10.12731/2658-6649-2021-13-6-132-143

Keywords: green manure, green manure fallow, black fallow, tillage, disking, plowing, grain crops, productivity, yield

Abstract

Background. In the dry-thermal zone of the Lower Volga region, one of the factors of increasing the productivity of Pashnya is organic fertilizer. The effectiveness of the introduction into the soil of siderates, straw and leaf-weighting mass of field crops and their effect on the decrease in water consumption coefficients, an increase in the return of the organic matter and increasing the yield of grain crops was carried out. Gorodishcheskoe land use Cadastral number 34:03:000000:6.

Purpose. Determine the effectiveness of biologized crop rotations in the agrolandscapes of the Lower Volga region.

Materials and methods. Accounting and observations were: recommendation on the methodology for conducting observations and research in the fields of the NII of the Southeast, Saratov, 1973; Methods of experimental work B.A. Armorovov (Armpecov, 1985). The aggregate composition of the soil (according to the method of N.I. Savinova, 1931, refined TSH). Accounting for the biological mass of siteral crops in the phase of cosset or budgement. Determination of the biological yield of plants from sites of 0.25 m2 located in four places of the defense. Accounting for crop solid, daily. Accounting for sitaral cultures and perennial herbs – a cat in manual. Calculation of the exit of feed units and digestible protein was performed using the transfer coefficients by M.F. Tomme.

Results. Studies have shown that an anti-erosion effect in dry years (8-mpole crop rotation has a counter-erosion effect, in the wet years (GTC> 0.8), the largest anti-erosion effect is observed in 5 and 7-mpole crop rotations with perennial herbs. The analysis of the data showed that in five-field crop rotation, the highest flow into the soil of organic mass (straw + roots) was observed - 5.5 t/ha. Gumus deficiency with the highest indicator (-0.33) t / ha in 4 pollen crop rotation. The 8-mpolous fruitless crop turnover had the greatest productivity. From one hectare of the cropping area, the yield of grain was 1.50 t/ha, feed units 1.67. Upload products in K.ED. 4 and 8-mpol crops are with hectares of sowing square. To stabilize soil fertility, a fruitful 8-mpolor crop rotation with 50% of cereals is recommended. The same crop rotation is the most productive to collect grain and feed units with a hectare of crop-coordinate area.

Conclusion. The results of the study indicate the important role of biologized crop rotations in the conditions of the Lower Volga region. The area of application of the recommendations is the zone of soils of light chestnut soils of the Lower Volga region.

Downloads

Download data is not yet available.

Author Biography

Elena V. Seminchenko, Federal Scientific Centre of Agroecology, Complex Melioration and Protective Afforestation of the Russian Academy of Sciences

Researcher, Postgraduate Student

References

Belenkov A.I., Zelenev A.V., Urishev R.H., Seminchenko E.V. Priemy povysheniya soderzhaniya organicheskogo veshchestva pochvy i produktivnosti po-levyh sevooborotov Nizhnego Povolzh’ya [Methods for increasing the content of soil organic matter and the productivity of field crop rotations in the Lower Volga regionelenkov]. Vestnik Altajskogo gosudarstvennogo universiteta, 2016, no. 12, pp. 5-11.

Zelenev A.V., Seminchenko E.V. Biologizaciya polevyh sevooborotov v Nizhnem Povolzh’e [Biologization of field crop rotations in the Lower Volga region]. Agropromyshlennye tekhnologii Central’noj Rossii, 2017, no. 1, pp. 61-69.

Crop Yield Response to Climate Variables on Dryland versus Irrigated Lands / W. Lu, W. Adamowicz, S. Jeffrey, G. Goss, M. Faramarzi. Canadian Journal of Agricultural Economics, 2018, vol. 66, no. 2, pp. 283-303

Loshakov V.G. Effektivnost’ razdel’nogo i sovmestnogo ispol’zovaniya sevooborota i udobrenij [Efficiency of separate and joint use of crop rotation and fertilizers]. Dostizheniya nauki i tekhniki APK, 2016, vol. 30, no. 1, pp. 9-13.

Kloster N.V., Azarov B.F., Azarov V.B. Poligonnyj agroekologicheskij monitoring pochv Belgorodskoj oblasti [Polygon agroecological monitoring of the Soils of the Belgorod region]. Nauchnyj zhurnal Kubanskogo gosudarstvennogo agrarnogo universiteta, 2014, no. 103, pp. 81-98.

Zelenev A.V., Urishev R.H., Seminchenko E.V. Effektivnost’ sredstv biologizacii v polevyh sevooborotah zasushlivoj stepnoj zony Nizhnego Povolzh’ya [The effectiveness of biologization means in field crop rotations of the arid steppe zone of the Lower Volga region]. Vestnik Nizhnevolzhskogo agrouniversiteta: nauka i vysshee professional’noe obrazovanie, 2017, no. 1, pp. 63–69.

Boldyr’ D.A., Protopopov V.M., Romanova G.O. Sohranenie plodorodiya pochvy za schet uvelicheniya postupleniya organicheskogo veshchestva v sevooborotah [Preservation of soil fertility by increasing the intake of organic matter in crop rotations]. Nauchno agronomicheskij zhurnal, 2013, no. 2, pp. 28-32.

ZHarova T.F. Sevooboroty i ih effektivnost’ v upravlenii plodorodiem pochvy [Crop rotations and their effectiveness in soil fertility management]. Science Time, 2016, no. 2, pp. 233-238.

Rassadnikov V.N. Produktivnost’ biologizirovannyh sevooborotov [Productivity of biologized crop rotations]. Nauchno-agronomicheskij zhurnal, 2012, no. 1, pp. 6-9.

SHurygin A.V. Vlaga v bogarnom zemledelii - eto dar [Moisture in rainfed agriculture is a gift]. Fermer, 2017, no. 2, pp. 28-30.

Early flowering as a drought escape mechanism in plants: How can it aid wheat production? / Y. Shavrukov, A. Kurishbayev, S. Jatayev, V. Shvidchenko, L. Zotova, F. Koekemoer, S. De Groot, K. Soole, P. Langridge. Frontiers in Plant Science, 2017, vol. 8, no. 17, 1950.

Smirnov B.M. Rekomendacii po metodike provedeniya nablyudenij i issledovanij v polevom opyte [Recommendations for the methodology of observation and research in the field experiment]. Saratov, 1973, 223 p.

Dospekhov B.A. Metodika polevogo opyta (s osnovami stati-sticheskoj obrabotki rezul’tatov issledovanij) [Field experiment technique (with the basics of statistical processing of research results)]. M.: Agroproimzdat, 1985, 315 p.

Zaharov A.I. Sovershenstvovanie sistemy sevooborotov i struktury posevov v sovremennyh usloviyah [Improving the system of crop rotations and the structure of crops in modern conditions]. Zemledelie, 2002, no. 4, pp. 6-7.

ZHidkov V.M., Zelenev A.V. Biologizirovannye priemy povysheniya urozhajnosti zernovyh kul’tur v Volgogradskoj oblasti: monografiya [Biologized techniques for increasing the yield of grain crops in the Volgograd region: monograph]. Volgograd, Volgogradskaya GSKHA, 2011, 188 p.

Seminchenko E.V.Vliyanie predshestvennikov i meteouslovij na urozhajnost’ ovsa [The effect of predecessors and meteo conditions on the yield of oats]. Vestnik Gorskogo GU, 2020, no. 1, pp. 53-59.

Seminchenko E.V. Rol’ sideratov v uvelichenii plodorodiya pochv v se-vooborotah Nizhnego Povolzh’ya [The role of the Siderators in increasing the fertility of soils in the CE-Actress of the Lower Volga region]. Agrohimicheskij vestnik, 2021, no. 2, pp. 78-82.

FOR AUTHORS

EDITORIAL POLICIES