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The production process of peas (Pisum sativum L.) under the influence of Ryzohumin and biostimulants in the Southern Steppe of Ukraine
Soil fertility deterioration and crop resistance weakening are among the undesirable consequences of the agricultural production intensifcation. The use of microbiological preparations and biostimulants complexes in the crops cultivation technology stimulates their growth processes, optimizes mineral nutrition, increases yields in adverse conditions. The paper aims to study the features of separate and joint influence of microbiological preparation Ryzohumin and biostimulants (Stimpo, Rehoplant) on growth, development, photoassimilating apparatus and yield formation processes in peas of Devis variety in the Southern Steppe of Ukraine. During the experiment, the number of root nodules was calculated, the leaf area index, the content of chlorophyll were determined, and the netto-photosynthesis productivity was calculated. The structural elements of the biological productivity of pea crops were recorded. It was established that the joint effect of Ryzohumin with biostimulants (Stimpo, Rehoplant) increased the number of root nodules on pea plants at different stages of the vegetation. The tested preparations increased the leaf area index of pea crops at maximum in 1.5 times during vegetative growth and in 1.6 times during generative development. The combined use of Ryzohumin with biostimulants allowed to form a larger area of the pea plants leaf surface than when was used in separate application. In the case of joint interaction of Stimpo with Ryzohumin, the productivity of nettophotosynthesis at the phase of 5–6 stipules-budding exceeded by 21–27 % and at the phase of flowering-bean formation exceeded by 7–14 % the best option with separate use of preparations. The use of Ryzohumin, Stimpo and Rehoplant resulted in an increase in the number of beans on plants by 22 %, 4 % and 11 %, respectively, and compared to the control. The obtained biological yield of peas under combined application of Ryzohumin with Stimpo exceeded by 12–14 %, and Ryzohumin with Rehoplant – by 6–11 %, comparing with the yield of pea crops, where the studied preparations were used separately. The obtained data confrm the future perspective to research of the pea crops productive processes under the influence of biological preparations.
Key words: peas, biostimulator, Ryzohumin, Rehoplant, Stimpo, photoassimilation apparatus, yield.
Reference:
1. Sichkar, V.I. (2015). Stan i perspektyvy rozvytku vyrobnytstva zernobobovykh kultur u sviti ta Ukraini [State and prospects of increasing leguminous plants production in the world and in Ukraine]. Zbirnyk naukovykh prats Selektsiino-henetychnoho instytutu-Natsionalnoho tsentru nasinneznavstva ta sortovyvchennia [Proc. of Breeding and Genetic Institute of Seed science and varietal studies National centre], no. 26 (66), pp. 9–20. Available at: http:// www.irbis-nbuv.gov.ua/cgi-bin/irbis_nbuv/cgiirbis_64. exe?C21COM=2&I21DBN=UJRN&P21DBN=UJRN&IMAGE_FILE_DOWNLOAD=1&Image_file_ name=PDF/Znpsgi_2015_26_3.pdf
2. Petrychenko, V.F., Koc', S.Ja. (2014). Symbiotychni systemy u suchasnomu sil's'kogospodars'komu vyrobnyctvi [Symbiotic systems in modern agricultural production]. Visnik NAN Ukrai'ny [Visnyk of the National Academy of Sciences of Ukraine], no. 3, pp. 57–66. Available at: http://dspace.nbuv.gov.ua/bitstream/handle/123456789/69186/08-Petrychenk...
3. Morgun, V.V., Koc', S.Ja. (2008). Symbiotychna azotfksacija ta i'i' znachennja v azotnomu zhyvlenni roslyn: stan i perspektyvy doslidzhen' [Symbiotic nitrogen fxation and its importance in nitrogen nutrition of plants: status and prospects of research]. Fyzyologyja y byohymyja kul't. Rastenyj [Physiology and biochemistry of cultivated plants], Vol. 40 (3), pp. 187–205.
4. Koc', S.Ja., Morgun, V.V., Patyka, V.F., Dacenko, V.K., Krugova, E.D., Kirichenko, E.V., Mihalkiv, L.M. (2010). Biologicheskaja fksacija azota: bobovo-rizobial'ni'j simbioz [Biological nitrogen fxation: legume-rhizobial symbiosis]. Kyiv, Logos, Vol. 1, 508 p.
5. Ostapchuk, M.O., Polishhuk, I.S., Mazur, V.A. (2011). Mikrobiologichni preparaty – skladova organichnogo zemlerobstva [Microbiological preparations are a component of organic farming]. Zemlerobstvo: zbirnyk naukovyh prac' VNAU [Agriculture: proc. of the VNAU], no. 7 (47), pp. 11–16. Available at: http:// repository.vsau.org/getfle.php/3703.pdf
6. Chen, W.F. (2019). Usage of rhizobial inoculants in agriculture. Ecology and Evolution of Rhizobia. Springer, Singapore, рр. 221–247. DOI: 10.1007/978- 981-32-9555-1_10.
7. Pal, G. (2021). Application of bacterial biostimulants in promoting growth and disease prevention in crop plants. Biostimulants for Crops from Seed Germination to Plant Development. Academic Press, рр. 393–410. DOI: 10.1016/B978-0-12-823048-0.00003-4.
8. Backer, R., Rokem, S.J., Ilangumaran, G., Lamont, J., Praslickova, D. (2018). Plant growth-promoting rhizobacteria: context, mechanisms of action, and roadmap to commercialization of biostimulants for sustainable agriculture. Frontiers in plant science. Vol. 9, 1473 p. DOI: 10.3389/fpls.2018.01473.
9. Pyda, S.V., Motruk, O.V., Moskaljuk, N.V., Tryguba, O.V. (2021). Biometrychni pokaznyky nutu zvychajnogo (Cicer arietinum L.) sortu Skarb za vplyvu mikrobiologichnyh preparativ [Biometric indicators of common chickpea (Cicer arietinum L.) Treasure variety under the influence of microbiological preparations]. Ternopil, bioscience-2021, pp. 101–104. Available at: http://dspace.tnpu.edu.ua/bitstream/123456789/23481/1/Pyda_Motruk_Moskal...
10. Pyda, S.V., Kobryn, I.M., Vakulenko, R.O., Moskaljuk, N.V. (2017). Procesy vodoobminu v ljupynu bilogo ta ljupynu bilogo ta ljupynu zhovtogo za vplyvu reguljatoriv rostu roslyn [Water exchange processes in white lupine and white lupine and yellow lupine under the influence of plant growth regulators]. Naukovi zapysky Ternopil's'kogo nacional'nogo pedagogichnogo universytetu imeni Volodymyra Gnatjuka. Biologija [Scientifc notes of Ternopil Nat. Pedagogical Univ. named after Volodymyr Hnatiuk. Biology]. Ternopil, no. 2 (69), pp. 100–104. Available at: http:// www.irbis-nbuv.gov.ua/cgi-bin/irbis_nbuv/cgiirbis_64.exe?C21COM=2&I21DBN... fle_name=PDF/NZTNPU_2017_2_19.pdf
11. Protasov, D.M., Sajko, V.M., Sakad'ol, P.O., Onychko, T.O. (2021). Efektyvnist' inokuljacii' nasinnja soi' v umovah pivnichno-shidnogo lisostepu Ukrai'ny [Efciency of soybean seed inoculation in the conditions of the north-eastern forest-steppe of Ukraine]. Honcharivski Chytannya: Proceedings of the International Scientifc and Practical Conference Sumy National Agrarian University. pp. 101–103. Available at: http://repo.snau.edu.ua/bitstream/123456789/8919/1/ Гончарівські%20читання_2021.pdf#page=101.
12. Sherstoboieva, O.V., Vaha, L.I. (2012). Vplyv systemy udobrennia na biolohichnu aktyvnist shtamiv azotobaktera z gruntu ahroftotsenozu pshenytsi ozymoi [Influence fertilizer system on biological activity of soil strains Azotobacter agrophytocenoses winter wheat]. Zbalansovane pryrodokorystuvannia [Balanced nature management], no. 1, pp. 79–83. Available at: http://natureus.org.ua/archive/2012/Збалансоване_ природокористування_№_1_2012.pdf
13. Rokytianskyi, A.B. (2015). Vplyv sumisnoho zastosuvannia herbitsydiv riznoho klasu nebezpechnosti ta biopreparatu Azotoft-R na chyselnist fosfatmobilizuiuchykh mikroorhanizmiv u chornozemi opidzolenomu [Influence of co-application of herbicides of different hazard class and Azotoft-P biological preparation on the number of phosphatmobilizing microorganisms in podzol black soil]. Vidnovlennja biotychnogo potencialu agroekosystem: materialy II Mizhnarodnoi' konferencii' [Restoring biotic potential of agroecosystems: Proceeding of 2nd International scientifc-practical conference]. Dnipro, pp. 166–169. Available at: http://dspace.nuph.edu.ua/ bitstream/123456789/11046/1/%D0%A0%D0%BE %D0%BA%D0%B8%D1%82%D1%8F%D0%BD%D1%81%D0%BA%D0%B8%D0%B9-%20%D0 %90%D0%B7%D0%BE%D1%82%D0%BE%D1%8 4%D0%B8%D1%82.PDF
14. Volkohon, V.V., Salnyk, V.P. (2005). Znachennia rehuliatoriv rostu roslyn u formuvanni aktyvnykh azotfksuvalnykh symbioziv ta asotsiatsii [The importance of plant growth regulators in the formation of active nitrogen-fxing symbioses and associations]. Fyzyolohyia y byokhymyia kult. Rastenyi [Phyziology and biochemistry of cultured plants], Vol. 37, no. 3, pp. 187–197. Available at: http://www.frg.org.ua/en/ journal/archive.htm
15. Karpenko, V.P., Ivasiuk, Yu.I., Prytuliak, R.M. (2017). Funktsionalna aktyvnist lystkovoho aparatu soi za dii biolohichnykh i khimichnykh preparativ [Functional activity of soybean leaf apparatus in the action of biological and chemical preparations]. Biolohichni studii [Studia Biologica], Vol. 11(3-4), pp. 22–23. DOI: 10.30970/sbi.1103
16. Kanmani, Е., Ravichandran, V., Sivakumar, R., Senthil, A., Krishna Surendar, K., Boominathan, P. (2017). Influence of Plant Growth Regulators on Physiological Traits under Salinity Stress in Constrasting Rice Varieties (Oryza sativa L.). International journal of current microbiology and applied sciences. Vol. 6 (5), pp. 1654–1661. DOI: 10.20546/ijcmas.2017.605.108.
17. Khodanitska, О.О., Shevchuk, O.A., Tkachuk, O.O., Shevchuk, V.V. (2019). Features of the anatomical structure of the autonomic organs and flax oil yield (Linum usitatissimum L.) at applications growth stimulants. Science Rise: Biological Science. Vol. 4(20), pp. 35–40. DOI: 10.15587/2519-8025.2019.1883178.
18. Kolesnikov, M.O., Ponomarenko, S.P. (2016). Vplyv biostymuliatoriv Stympo ta Rehoplant na produktyvnist yachmeniu yaroho [The effect of Stympo and Rehoplant biostimulators on spring barley productivity]. Ahrobiolohiia [Agrobiology], no. 1 (124), pp. 82–87. DOI: 10.15587/2519-8025.2019.1883178
19. Kolesnikov, M.O., Pashhenko, Ju.P., (2019). Dija biostymuljatoriv ta mikrobiologichnyh preparativ na formuvannja korenevyh bul'bochok Pisum sativum L. v umovah pivdennogo stepu Ukrai'ny [The effect of biostimulants and microbiological drugs on the formation of root nodules Pisum sativum L. in the conditions of the southern steppe of Ukraine]. Rozvytok agrarnoi' galuzi ta vprovadzhennja naukovyh doslidzhen' u vyrobnyctvo: materialy Mizhnarodnoi' naukovo-praktychnoi' konferencii' [Development of the agricultural sector and implementation of research in production: Proceedings of the International scientifc-practical conference]. Mykolayiv, MNAU, pp. 26–27. Available at: http://elar.tsatu.edu.ua/bitstream/123456789/8632/1/2.pdf
20. Pyda, S.V., Kononchuk, O.B., Tryguba, O.V., Gurs'ka, O.V. (2021). Efektyvnist' zastosuvannja mikrobiologichnyh preparativ Ryzoboft ta Ryzogumin za biometrychnymy pokaznykamy bobiv (Faba bona Medic) [The effectiveness of Ryzoboft and Ryzohumin microbiological preparations use for beans biometric indicators (Faba bona Medic)]. Zbirnyk naukovyh prac' «Agrobiologija» [Agrobiology], no. 1, pp. 115–121. DOI: 10.33245/2310-9270-2021-163-1-115-121.
21. Dubey, A., Kumar, A., Khan, M.L. (2020). Role of biostimulants for enhancing abiotic stress tolerance in Fabaceae plants. The Plant Family Fabaceae. Springer, Singapore, pp. 223–236. DOI: 10.1007/978- 981-15-4752-2_8.
22. Kolesnikov, M.O., Ponomarenko, S.P., Pashchenko, Yu.P. (2020). Vplyv biostymuliatoriv ta mikrobiolohichnoho preparatu na produktsiinyi protses horokhu posivnoho (Pisum Sativum L.) v umovakh sukhoho Stepu Ukrainy [The influence of biostimulants and microbiological preparation on the production process of peas (Pisum sativum L.) in the drought Steppe of Ukraine]. Zbirnyk naukovyh prac' "Agrobiologija" [Agrobiology], no. 1, pp. 57–66. DOI: 10.33245/2310- 9270-2020-157-1-57-66.
23. Castiglione, A.M., Mannino, G, Contartese, V., Berte, C.M., Ertani, A. (2021). Microbial Biostimulants as Response to Modern Agriculture Needs: Composition, Role and Application of These Innovative Products. Plants. Vol .10, 1533 p. DOI: 10.3390/ plants10081533.
24. Volkohon, V.V., Nadkernycha, O.V., Krutylo, D.V., Kovalevska, T.M. (2008). Biopreparaty na osnovi bulbochkovykh bakterii dlia pidvyshchennia urozhainosti bobovykh kultur [Biologicals based on tuber bacteria to increase the productivity of legumes]. Posibnyk ukrainskoho khliboroba [Handbook of Ukrainian farmers], pp. 118–119. http://www.yuriev. com.ua/index.php?option=com_content&view=article &id=57&Itemid=31〈=ua
25. Ponomarenko, S.P., Hrytsaienko, Z.M., Babaiants, O.V. (2015). Biorehuliatory roslyn [Plant bioregulators]. Rekomendatsii po zastosuvanniu [Plant bioregulators. Application guidelines]. Kyiv, Ahrobiotekh, 35 p.
26. Yeshchenko, V.O., Kopytko, P.H., Kostohryz, P.V., Opryshko, V.P., (2014). Osnovy naukovykh doslidzhen v ahronomii [Fundamentals of scientifc research in agronomy]. Vinnytsia, TD Edelveis i K, 332 p.
27. Tao, K., Kelly, S., Radutoiu, S. (2019). Microbial associations enabling nitrogen acquisition in plants. Current opinion in microbiology. Vol. 49, pp. 83–89. DOI: 10.1016/j.mib.2019.10.005
28. Bulgari, R, Cocetta, G, Trivellini, A. (2015). Biostimulants and crop responses: a review. Biol Agric Hortic. Vol. 31, pp. 1–17. DOI: 10.1080/01448765.2014.964649.
29. Le Mire, G., Nguyen, M.L., Fassotte, B., Du Jardin, P., Verheggen, F., Delaplace, P., Haissam Jijakli, M. (2016). Implementing plant biostimulants and biocontrol strategies in the agroecological management of cultivated ecosystems. A review. Biotechnol. Agron. Soc. Environ. Vol. 20, pp. 299–313. DOI: 10.25518/1780-4507.12717.
30. Morhun, V.V., Yavorska, V.K., Drahovoz, I.V. (2002). Problema rehuliatoriv rostu u sviti i yii vyrishennia v Ukraini [The problem of growth regulators in the world and its solution in Ukraine]. Fyzyolohyia y byokhym. kult. rast [Phyziology and biochemistry of cultured plants], no. 34(5), pp. 371–375. Available at: http://www.frg.org.ua/en/journal/ archive.htm
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