Agronomy Science, przyrodniczy lublin, czasopisma up, czasopisma uniwersytet przyrodniczy lublin

Liczba mikroorganizmów w ryzosferze sorga (Sorghum bicolor (L.) Moench) po zastosowaniu herbicydu, regulatora wzrostu roślin i biopreparatu

Viktor Karpenko

Department of Biology, Uman National University of Horticulture
https://orcid.org/0000-0001-5607-7371

Vasyl Krasnoshtan

Department of plant protection and quarantine, Uman national university of horticulture

Ivan Mostoviak

Department of Plant Protection and Quarantine, Uman National University of Horticulture
https://orcid.org/0000-0003-4585-3480

Ruslan Prytuliak

Department of Biology, Uman National University of Horticulture
https://orcid.org/0000-0001-7572-6904


Abstrakt

In the modern agricultural production, the use of herbicides and other biologically active substances is an important part of the cultivation technologies of most cereals, including the grain sorghum. It is known that most preparations, including the chemical ones, can directly or indirectly influence the development of microorganisms in the rhizosphere of plants, but the nature of their effect on the microbiota of grain sorghum rhizosphere has not been studied enough, which reasoned the relevance of this research. Microbiological activity of the grain sorghum rhizosphere (hybrid Milo W) was studied during 2019–2020 under the treatment by the herbicide Citadel 25 OD (0.6; 0.8 and 1.0 l/ha), plant growth regulator Endophit L1 (30 ml/ha) and biological preparation Bioarsenal (800 g/ 100 kg). The analysis of the obtained experimental data showed that use of the studied preparations both separately and in different compositions had a stimulating effect on the number of grain sorghum rhizosphere microbiota, which was observed in its increase, especially in variants with the combined use of the herbicide Citadel 25 OD, plant growth regulator Endophit L1 and the biopreparation Bioarsenal (compared to the control the number of rhizosphere microbiota increased by 29.4–80.6% in average by groups).

Słowa kluczowe:

microbiological activity, rhizosphere, grain sorghum, herbicide, plant growth regulator, biopreparation

Badri D., Vivanco J., 2009. Regulation and function of root exudates. Plant Cell Environ. 32(6), 666–681. https://doi.org/10.1111/j.1365-3040.2009.01926.x

Bezuglova O.S., Gorovstov A.V., Polienko E.A., Zinchenko V.E., Grinko A.V., Lykhman V.A., Dubinina M.N., Demidov A., 2019. Effect of humic preparation on winter wheat productivity and rhizosphere microbial community under herbicide-induced stress. J. Soils Sediments 19, 2665–2675. https://doi.org/10.1007/s11368-018-02240-z

Dospehov B., 1985. Metodika polevogo opyita (s osnovami statisticheskoy obrabotki rezultatov issledovaniy) [Methodic of field experiment (with basis of statistical analysis)]. Agropromizdat, Moscow, pp. 351 [in Russian].

Hartmann A., Schmid M., Tuinen D., Berg G., 2008. Plant-driven selection of microbes. Plant Soil 321, 235–257. https://doi.org/10.1007/s11104-008-9814-y

Henis Y., 1986. Soil microorganisms, soil organic matter and soil fertility. In: Y. Chen, Y. Avnimelech (eds), The role of organic matter in modern agriculture, Dordrecht, 159–168.

Holodryha O.V., Rozborska L.V., Leontiuk I.B., Zabolotnyi O.I., 2015. Vplyv herbitsydu Diesiliet, rehuliatora rostu roslyn Biolan i mikrobiolohichnoho preparatu Ryzobofit na aktyvnist hruntovoi mikroflory ta symbiotychnoho aparatu soi [Impact of the herbicide Diesiliet, plant growth regulator Biolan and the microbiological preparation Ryzobofit on the activity of soil microflora and symbiotic apparatus of soybean]. Agrobiology 1, 44–48 [in Ukrainian].

Hrytsaienko Z., Voloshyna L., 2014. Microbiological activity of winter wheat rhizosphere on the different growing backgrounds and applying of biologically active preparations. Collected Works of Uman Nat. Univ. Hortic. 84, 14–21 [in Ukrainian].

Hrytsaienko Z., Hrytsaienko A., Karpenko V., 2003. Methods of biological and agrochemical researches of plants and soils. ZAT Nichlava, Kyiv, pp. 320 [in Ukrainian].

Hrytsaienko Z., Karpenko V., 2012. Zalezhnist rozvytku okremykh ekoloho-trofichnykh hrup mikroorhanizmiv ryzosfery yachmeniu yaroho vid dii herbitsydiv i rehuliatora rostu roslyn [Dependence of development of particular ecological trophic groups of microorganisms in the rhizosphere of spring barley on the action of a herbicide and a plant growth regulator]. Bull. Inst. Agric. Steppe Zone NAAS Ukraine 2, 78–82 [in Ukrainian].

Huliaieva H.B., 2019. Mikrobiotsenoz ryzosfery pshenytsi yaroi za dii peredposivnoi obrobky nasinnia biolohichno aktyvnymy rechovynamy [Rhizosphere microbiocenosis of the spring wheat under

the action of pre-sowing seeds treatment by biologically active substances]. ScienceRise, Biol. Sci. 1(16), 4–9 [in Ukrainian]. https://doi.org/10.15587/2519-8025.2019.158380

Jennifer E.F., Jay G., Erika E., Matthew E.B., John A.M., 2007. Pesticides reduce symbiotic efficiency of nitrogen-fixing rhizobia and host plants. Proc. Nat. Acad. Sci. USA 104(24), 10282–10287. https://doi.org/10.1073/pnas.0611710104

Karpenko V.P., Zabolotnyi O.I., Prytuliak R.M., Holodryha O.V., Leontiuk I.B., Rozborska L.V.,

Novikova T.P., Patyka V.P., 2019. Microbiota of Soil of Soybean Rhizosphere under the Use of Rhizoactive and Herbicides. Mìkrobìol. Ž. 81(5), 48–61. https://doi.org/10.15407/microbiolj81.05.048

Karpenko V. (ed.), 2012. Biolohichni osnovy intehrovanoi dii herbitsydiv i rehuliatoriv rostu roslyn [Biological basis of integrated action of herbicides and plant growth regulators]. Uman, Sochinskyi, pp. 357 [in Ukrainian].

Khamova O., Ledovsky E., Tukmacheva E., Shuliko N., 2016. Influence of bacterial fertilizer on the biological activity of leached chernozem and cereal crops productivity. Vestnik of Omsk SAU 3(23), 44–48 [in Russian].

Patyka N., Kruglov Y., Shein E., Patyka V., 2014. Mikroorganismy pochvy: struktura i funkcionalnoe raznoobrazie [Soil microorganisms: structure and functional diversity]. In: Special Issue for The IX Congress of The Ukrainian Society of Soil Scientists and Agrochemists. Soil Protection – The Basis of Sustainable Development. Soil Protection from Erosion and Man-Made Pollution, Reclamation, Agrochemistry, Soil Biology. National scientific center „Institute for soil science and agrochemistry research named after O.N. Sokolovsky”, Kharkiv, 312–313 [in Russian].

Pidan L., 2015. Mikrobiolohichna aktyvnist ryzosfery soniashnyka za dii herbitsydu Fiuzylad forte 150 ta rehuliatora rostu roslyn Radostym [Microbiological activity of sunflower rhizosphere under the impact of a herbicide Fiuzylad forte 150 and plant growth regulator Radostym]. Scientific reports of NULES of Ukraine 7(56) [in Ukrainian], http://nbuv.gov.ua/UJRN/Nd_2015_7_13 [access: 11.02.2021].

Poltoretskyi S.P., 2017. Formation of density of seed sowing of millet (Panicum miliaceum L.) depending on the term and method of sowing. Bull. Uman Nat. Univ. Hortic. 1, 59–64.

Prytuliak R., Kutnyi V., Lazaruk O., Maistruk S., Chornyi V., 2016. Mikrobiolohichna aktyvnist gruntu v posivakh trytykale ozymoho za dii biolohichno aktyvnykh rechovyn [Microbiological soil activity in crops of winter triticale under the action of biologically active substances]. In: Domestic science at the turn of the era: problems and prospects of development. PKhDPU, Pereiaslav-Khmelnytskyi, 335–337 [in Ukrainian].

Qian H., Zhu Y., Chen S., Jin Y., Lavoie M., Ke M., Fu Z., 2018. Interacting effect of diclofopmethyl on the rice rhizosphere microbiome and denitrification. Pestic. Biochem. Physiol. 146, 90–96. https://doi.org/10.1016/j.pestbp.2018.03.002

Shutko S.S., 2019. Physiological processes and productivity of soriz crops under the action of herbicide Peak 75 WG and plant growth regulator Regoplant. Candidate of agricultural sciences. Uman Nat. Univ. Hortic. [in Ukrainian].

Singh A., Kewat M.L., Sondhia S., 2018. Studies on the effect of day time application of herbicide mesosulfuron-methyl on soil microbial communities of wheat rhizosphere. J. Environ. Biol. 39(1), 59–65. ttp://doi.org/10.22438/jeb/39/1/MRN-562

Treesubsuntorn C., Dhurakir P., Khaksar G., Thiravetyan P., 2018. Effect of microorganisms on reducing cadmium uptake and toxicity in rice (Oryza sativa L.). Environ. Sci. Pollut. Res. 25(26), 25690–25701. https://doi.org/10.1007/s11356-017-9058-6

Volkohon V. (ed.), 2010. Experimental soil microbiology. Ahrarna nauka, Kyiv, pp. 464 [in Ukrainian].

Voloshyna L., 2014. Count of ecological-trophic groups of microorganisms of winter wheat rhizosphere on the background of different predecessor and biologically active preparations. Bull. Uman Nat. Univ. Hortic. 1, 69–73 [in Ukrainian].

Zhalnina K., Louie K.B., Hao Z., Mansoori N., Rocha U.N. da, Shi S., ChoH., Karaoz U., Loque D., Bowen B.P., Firestone M. K., Northen T. R., Brodie E. L., 2018. Dynamic root exudate chemistry and microbial substrate preferences drive patterns in rhizosphere microbial community assembly. Nat. Microbiol. 3(4), 470–480. https://doi.org/10.1038/s41564-018-0129-3

Zvyagintsev D. (ed.), 1991. Metody pochvennoi mikrobiologii i biokhimii [Methods of soil microbiology and biochemistry]. 2nd ed. Publishing House of the Moscow University, Moscow, pp. 304 [in Russian].


Opublikowane
21-07-2021



Viktor Karpenko 
Department of Biology, Uman National University of Horticulture https://orcid.org/0000-0001-5607-7371
Vasyl Krasnoshtan 
Department of plant protection and quarantine, Uman national university of horticulture
Ivan Mostoviak 
Department of Plant Protection and Quarantine, Uman National University of Horticulture https://orcid.org/0000-0003-4585-3480
Ruslan Prytuliak 
Department of Biology, Uman National University of Horticulture https://orcid.org/0000-0001-7572-6904



Licencja

Artykuły są udostępniane na zasadach CC BY 4.0 (do 2020 r. na zasadach CC BY-NC-ND 4.0)..
Przysłanie artykułu do redakcji oznacza, że nie był on opublikowany wcześniej i nie jest rozpatrywany do publikacji gdzie indziej.

Autor podpisuje oświadczenie o oryginalności dzieła, wkładzie poszczególnych osób i źródle finansowania.

 

Czasopismo Agronomy Science przyjęło politykę samoarchiwizacji nazwaną przez bazę Sherpa Romeo drogą niebieską. Od 2021 r. autorzy mogą samoarchiwizować postprinty artykułów oraz wersje wydawnicze (zgodnie z licencją CC BY). Artykuły z lat wcześniejszych (udostępniane na licencji CC BY-NC-ND 4.0) mogą być samoarchiwizowane tylko w wersji wydawniczej.