Effect of mucusforming bacteria p. Bacillus on activity of photosynthesis in fodge beans under different glyphosate content in soil
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Abstract
Model inoculation experiments for cultivation of fodge beans were conducted in conditions of soil microcosm with artificially created levels of glyphosate content in soil: 0; 3; 10 and 50 l/ha in the field conditions. Stress effect of glyphosate on the growth, development and photosynthesis parameters of plants was observed. Application of strains Bacillus circulans К-81 and Bacillus sp. Кт for seed inoculation resulted in signif- icant anti stress effects on plants at wide diapason of glyphosate content in soil. Plant’s growth stimulation, the increase of assimilation leafs square as well as chlorophyll and carotenoid contents in leafs were observed.
About the Authors
N. A. Мikhailouskaya
Институт почвоведения и агрохимии
Belarus
Belarus
S. A. Kasyanchyk
Национальная академия наук Беларуси
Belarus
Belarus
T. B. Barashenko
Институт почвоведения и агрохимии
Belarus
Belarus
T. V. Pogirnitskaya
Институт почвоведения и агрохимии
Belarus
Belarus
S. V. Dyusova
Институт почвоведения и агрохимии
Belarus
Belarus
References
1. Aristovskaya, T. V. Mikrobiologiya protsessov pochvoobrazovaniya / T. V. Aristovskaya. - L.: Nauka, 1980. - 187 s.
2. Zvyagintsev, D. G. Biologiya pochv / D. G. Zvyagintsev, I. L. Bab'eva, G. M. Zenova. - M.: MGU, 2005. - 445 s.
3. Aleksandrov, V. G. Silikatnye bakterii / V. G. Aleksandrov. - M.: Sel'khozgiz, 1953. - 115 s.
4. Berthelin, J. Microbial weathering processes / J. Berthelin // Microbial Geochemistry / Editor W.E. Krumbein. - Blackwell, London. - 1983. - P. 223-262.
5. Laboratory evidence for microbially mediated silicate mineral dissolution in nature / W. J. Ullman [et al.] // Chemical Geology. - 1996. - Vol. 132. - P. 11-17.
6. Ternovskaya, M. I. Teoreticheskie i prakticheskie osnovy roli Bacillus mucilaginosus v uvelichenii urozhainosti sel'skokhozyaistvennykh kul'tur: avtoref. …dis. d-ra. s.-kh. nauk: 06.01.04 / M. I. Ternovskaya; Odessa, 1975. - 49 s.
7. Vliyanie silikatnykh bakterii na razvitie prorostkov yachmenya i pshenitsy / N. A. Mikhailovskaya [i dr.] // Pochvennye issledovaniya i primenenie udobrenii. - 2003. - Vyp. 27. - S. 316-324.
8. Mikhailovskaya, N. A. Kolichestvennaya otsenka aktivnosti kaliimobilizuyushchikh bakterii i ikh effektivnost' na posevakh ozimoi rzhi / N. A. Mikhailovskaya // Vestsi NAN Belarusi. Seryya agrarnykh navuk. - 2006.− № 3. - S. 41-46.
9. Lapa, V. V. Effektivnost' bakterial'nogo udobreniya Kaliplant na dernovo-podzolistoi supeschanoi pochve s raznoi obespechennost'yu podvizhnym kaliem / V. V. Lapa, N. A. Mikhailovskaya, T. B. Barashenko // Agrokhimiya. - 2016. - № 6. - S. 29-38.
10. Mikhailovskaya, N. A. Vliyanie bakterial'nogo udobreniya Kaliplant na urozhainost' i kachestvo yarovoi pshenitsy na erodirovannykh pochvakh / N. A. Mikhailovskaya, A. F. Chernysh, S. A. Kas'yanchik // Vestsi NAN Belarusi. Seryya agrarnykh navuk. - 2010. - № 2. - S. 51-58.
11. Skrining sposobnosti kaliimobilizuyushchikh rizobakterii metabolizirovat' gerbitsid glifosat / N. A. Mikhailovskaya [i dr.] // Pochvovedenie i agrokhimiya. - 2022. - № 1(68). - S. 200-212.
12. Shushkova, T. V. Biodestruktsiya glifosata pochvennymi bakteriyami: dis. … kand. biol. nauk / T. V. Shushkova; VAK RF 03.01.06; In-t biokhimii i fiziologii mikroorganizmov im. G. K. Skryabina RAN. - Pushchino, 2010. - 128 s.
13. Shushkova, T. Glyphosate bioavailability in soil / T. Shushkova, I. Ermakova, A. Leontievsky // Biodegradation. - 2010. - Vol. 21(3). - R. 403-410.
14. Mikrobnaya degradatsiya gerbitsida glifosata / A. V. Sviridov [i dr.] // Prikladnaya biokhimiya i mikrobiologiya. - 2015. - T. 51. - Vyp. 2. - S. 183-190.
15. Bioremediation of glyphosate contaminated soils / I. Ermakova [et al.] // Appl. Microbiol. Biotechnol. - 2010. - Vol. 88(2). - P. 585-594.
16. Kononova, S. V. Fosfonaty i ikh degradatsiya mikroorganizmami / S. V. Kononova, M. A. Nesmeyanova // Biokhimiya. - 2002. - T. 67. - Vyp. 2. - S. 220-233.
17. Lapa, V. V. Primenenie udobrenii i kachestvo urozhaya / V. V. Lapa, V. N. Bosak. - Minsk, 2006. - 120 s.
18. Posypanov, G. S. Metody izucheniya biologicheskoi fiksatsii azota vozdukha: sprav. posobie / G. S. Posypanov. - M.: Agropromizdat, 1991. - 300 s.
19. Lichtenthaler, H. K., Bussman C. Chlorophylls and carotenoids: measurement and characterization by UV-VIS spectroscopy. Curr. Protoc. Food Anal. Chem. - 2001. - P. 1-8.
20. Haslam, E. The shikimate pathway: biosynthesis of natural products series / E. Haslam // Elsevier, New York. - 2014.
21. Fedtke, K. Herbicides / K. Fedtke, S. Duke // Plant toxicology / Hock B, Elstner E, eds. - New York: Marcel Dekker. - 2005. - R. 247-330.
22. Glyphosate-Dependent Inhibition of Photosynthesis in Willow / M. P. Gomes [et al.] // Front. Plant Sci. - 2016. - Vol. 8. - P. 150-164.
23. Gomes, M. P. Alteration of plant physiology by glyphosate and its by-product aminomethylphosphonic acid: an overview / M. P. Gomes [et al.] // J. Exp. Bot. - 2014. - Vol. 65, № 17. - P. 4691-4703.
Review
For citations:
Мikhailouskaya N.A., Kasyanchyk S.A., Barashenko T.B., Pogirnitskaya T.V., Dyusova S.V. Effect of mucusforming bacteria p. Bacillus on activity of photosynthesis in fodge beans under different glyphosate content in soil. Soil Science and Agrochemistry. 2024;(1):99-107. (In Russ.)
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