Liczebność względnie beztlenowych, mezofilnych, przetrwalnikujących bakterii celulolitycznych w glebie spod uprawy drzew owocowych nawożonej kompostem na bazie miału z węgla brunatnego

Jakub Dobrzyński; Wojciech Stępień; Monika Sitarek; Lidia Sas-Paszt; Patrycja Słodownik; Ewa B. Górska

doi:10.21697/seb.2017.15.2.09

Published: 2017-06-30

Vol. 15 No. 2 (2017)

The number of facultative,anaerobic, mesophilic, spore-forming cellulolytic bacteria in the soil fertilized with compost made from addition of powdered brown coal under cultivation of the fruit trees

Jakub Dobrzyński , Wojciech Stępień

, Monika Sitarek , Lidia Sas-Paszt

, Patrycja Słodownik , Ewa B. Górska

Studia Ecologiae et Bioethicae

Section: Articles

https://doi.org/10.21697/seb.2017.15.2.09

Abstract

Ecology of facultative anaerobic, mesophilic, spore-forming and cellulolytic bacteria (FAMSCB) is poorly understood. In the literature, there are only scant information about the impact of fertilization and type of the crop on the occurrence of FAMSCB. The aim of our study was to demonstrate the effect of the addition of various brown coal fine-based composts on a chemical properties and the occurrence of in the bulk and rhizosphere soil from selected plants. Soil under the experimental plants was slightly acidic, and did not differ in macronutrient content. The number of investigated groups of microorganisms depended on the type of compost and ranged from 9.99 to 3186.9 cfu (colony forming units) per gram of dry soil. All composts stimulated the number of cellulolytic bacteria in a bulk soil. In the case of rhizosphere soil, compost containing effective microorganisms (EM) reduced the number of FAMSCB. The largest number of investigated rizosphere microorganisms were found in the cultivation of cherries, fertilized with compost prepared from brown fine with waste from the production of fruiting bodies of Pleuretus ostreatus (3186.9 cfu per gram of dry soil).

Keywords:

brown coal, composts, cellulas, FAMSCB

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Dobrzyński, J., Stępień, W., Sitarek, M., Sas-Paszt, L., Słodownik, P., & Górska, E. B. (2017). The number of facultative,anaerobic, mesophilic, spore-forming cellulolytic bacteria in the soil fertilized with compost made from addition of powdered brown coal under cultivation of the fruit trees. Studia Ecologiae Et Bioethicae, 15(2), 93–98. https://doi.org/10.21697/seb.2017.15.2.09

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References

Albaladejo J., Garcia C., Ruiz-Navarro A., Garcia-Franco N., Barbera G., 2009, Effects of organic composts on soilproperties: Comparative evaluation of source-separated and non-source separated composts, 2-10, “1st Spanish National Conference on Advances in Materials Recycling and Eco-Energy”, Madrid, Nov 12-13.
Google Scholar

Asha B. M, Revathi M., Yadav A., Sakthivel N., 2012, Purification and characterization of a thermophilic cellulase from a novel cellulolytic strain, Paenibacillus barcinonensis., Journal of Microbiology and Biotechnology, 22 (11): 1501-1509.
Google Scholar

de Castro A. L. M, Vollú R. E, Peixoto R. S, Grigorevski-Lima A. L, Coelho R. R, Bon E. P, Rosado A. S, Seldin L., 2011, Cellulolytic potential of a novel strain of Paenibacillus sp. isolated from the armored catfish Parotocinclus maculicauda gut., Brazilian Journal of Microbiology, 42: 1608-1615.
Google Scholar

Emtiazi G., Pooyan M., Shamalnasab M., 2007, Cellulase activities in nitrogen fixing Paenibacillus isolated from soil in n-free media., World Journal of Agricultural Sciences, 3: 602-608.
Google Scholar

Górska E. B, 2010, Effect of compost made from lignocellulosic waste on biological activity of the soil: habilitation thesis, Warsaw Univeristy of Life Sciences. Warsaw, Poland .
Google Scholar

Kumar A., Prakash A., Johri B. N, 2011, Bacteria in agrobiology: crop ecosystems. Bacillus as PGPR in Crop Ecosystem, Springer, Berlin, pp: 37-59.
Google Scholar

Kumar D., Ashfaque M., Muthukumar M., Singh M., Garg N., 2012, Production and characterization of carboxymethyl cellulase from Paenibacillus polymyxa using mango peel as substrate., Journal of Environmental Biology, 33: 81-84.
Google Scholar

Kwiatkowska J., Sokołowska Z., Maciejewska A, 2006, Selected physical and chemical properties for evaluating Węgiel brunatnys used for soil reclamation, International Agrophysics, 20:121-128.
Google Scholar

Lisdiyanti P., Suyanto E., Gusmawati N. F., Rahayu W., 2012, Isolation and characterization of cellulose produced by cellulolytic bacteria from peat soil of Ogan Komering Ilir, South Sumatera., International Journal of Environment and Bioenergy, 3(3): 145-153.
Google Scholar

Moon J. C., Jung X. J., Jung J. H, Jung H. S, Cheong Y. R, Jeon C. O, Lee K. O, Lee S. Y, 2011, Paenibacillus sacheonensis sp. nov., a xylanolytic and cellulolytic bacterium isolated from tidal flat sediment, International Journal of Systematic and Evolutionary, 61: 2753-2757.
Google Scholar

Morgan J. A. W, Bending G. D, White P. J., 2005, Biological costs and benefits to plant–microbe interactionsin the rhizosphere., Journal of Experimental Botany, 56: 1729–1739.
Google Scholar

Pandey A., Palni L. M. S, 2007. The rhizosphere effect in trees of the Indian Central Himalaya with special reference to altitude., Applied Ecology and Environmental Research, 5(1): 93–102.
Google Scholar

Shi S., Richardson A. E., O’Callaghan M., DeAngelis K. M., Jones E. E., Stewart A., Firestone M. K, Condron L. M., 2011, Effects of selected rootexudate components on soil bacterial communities. FEMS., Microbiology Ecology, 77: 600–610.
Google Scholar

Valarini P. J, Curaqueo G., Seguel A., Manzano K., Rubio R., Cornejo P., Borie F., 2009, Effect of compost application on some properties of volcanic soil from central south Chile. Chilean ., Journal of Agricultural Research, 69 (3): 416-425.
Google Scholar

Wang L. K, Chu H. W., Li Z. Y., Wang J, Li J. T., QiaoY., Fu Y. R., Mou T. M., Chen C. L. Xu J., 2014, Origin and development of the root cap in rice, Plant Physiology, 166: 603-613.
Google Scholar

Yin L. J., Lin H. H., Xiao Z. R., 2010, Purfication and characterization of a cellulase from Bacillus subtilis YJ1., Journal of Marine Science and Technology, 18: 466-471.
Google Scholar

Zhen Z., Liu H., Wang N., Guo L., Meng J., Ding N., Wu G., Jiang G., 2014, Effects of manure compost application on soil microbial community diversity and soil microenvironments in a temperate cropland in China, Plos One, doi:10.1371/journal.pone.0108555.
Google Scholar

Jakub Dobrzyński

Affiliation:

Warsaw University of Life Sciences Poland

Wojciech Stępień

https://orcid.org/0000-0003-0053-4849

Affiliation:

Faculty of Agriculture and Biology, Warsaw University of Life Sciences Poland

Monika Sitarek

Affiliation:

Faculty of Agriculture and Biology, Warsaw University of Life Sciences Poland

Lidia Sas-Paszt

https://orcid.org/0000-0003-4076-4032

Affiliation:

Research Institute of Horticultural, Skierniewice Poland

Patrycja Słodownik

p.slodownik@onet.pl

Affiliation:

Warsaw University of Life Sciences Poland

Ewa B. Górska

https://orcid.org/0000-0003-0001-2274

Affiliation:

Warsaw University of Life Sciences Poland