1. Perederiyeva, V.M., Vlasova, O.I., SHutko, A.P.: Allelopaticheskiye svoystva sornykh rasteniy i ikh rastitel’nykh ostatkov v protsesse mineralizatsii [Allelopathic properties of weeds and their plant residues in the process of mineralization]. KubGAU, Krasnodar 09(73), 111–121 (2011). https://ej.kubagro.ru/2011/09/pdf/11. (in Russian)

2. Hatcher, P.E., Melander, B.: Combining physical, cultural and biological methods: prospects for integrated non-chemical weed management strategies. Weed Res. 43(5), 303–322 (2003). https://doi.org/10.1046/j.1365-3180.2003.00352.x

3. Abouziena, H.F., Hagaag, W.M.: Weed control in clean agriculture: a review. Planta Daninha. 34(2), 377–392 (2016). https://doi.org/10.1590/S0100-83582016340200019

4. Dorozhko, G.R., Vlasova, O.I., Perederiyeva, V.M.: Sposob obrabotki - faktor regulirovaniya fitosanitarnogo sostoyaniya pochvy i posevov ozimoy pshenitsy na chernozemakh vyshchelo-chennykhzony umerennogo uvlazhneniya Stavropol’skogo kraya [The tillage method is a factor in regulating the phytosanitary state of the soil and winter wheat crops on leached humus of the moderate humidification zone of the Stavropol Territory]. KubGAU, Krasnodar 04(68), 69–77 (2011). https://ej.kubagro.ru/2011/04/pdf/08. (in Russian)

5. Tseplyaev V.A., Shaprov M.N., Tseplyaev A.N.: Optimizatsiya parametrov tekhnologicheskogo protsessa poverkhnostnoy obrabotki pochvy rotornym avtoprivodnym agregatom [Optimization of the technological process parameters of the surface tillage by the rotary automatic drive unit]. Izvestiya Nizhnevolzhskogo agrouniversitetskogo kompleksa: nauka i vyssheye professional’noye obrazovaniye 1(25), 160–164 (2012). (in Russian)