Suppression of red rot disease by Bacillus sp. based biopesticide formulated in non-sterilized sugarcane filter cake

Red rot disease affects sugarcane production adversely throughout the world. Intensive cropping and uninterrupted use of chemicals results in evolution of new pathotypes which can infect the resistant cultivars. Bacillus sp. inhabiting plant rhizosphere can protect the plants from multiple pathogens...

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Veröffentlicht in:	BioControl (Dordrecht, Netherlands) Netherlands), 2015-10, Vol.60 (5), p.691-702
Hauptverfasser:	Hassan, Muhammad Nadeem, Namood-e-Sahar, Zia-Ul-Husnain Shah, Syed, Afghan, Shahid, Hafeez, Fauzia Yusuf
Format:	Artikel
Sprache:	eng
Schlagworte:	Agriculture Animal Biochemistry Animal Ecology Antibiotics Bacillus Bacillus subtilis bacteria Behavioral Sciences biological control Biomedical and Life Sciences biopesticides Biosynthesis Crop diseases Crop yield Cultivars Disease control Entomology Enzymes Epidemics evolution Filter cake Flowers & plants Food processing industry Fungicides Homogenization intensive cropping Life Sciences Microorganisms Pathogens pathotypes pesticide formulations Pesticides Plant diseases Plant Pathology Plant protection plant rots Potassium Red rot Rhizosphere strains Strains (organisms) Sugarcane
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creator	Hassan, Muhammad Nadeem Namood-e-Sahar Zia-Ul-Husnain Shah, Syed Afghan, Shahid Hafeez, Fauzia Yusuf
description	Red rot disease affects sugarcane production adversely throughout the world. Intensive cropping and uninterrupted use of chemicals results in evolution of new pathotypes which can infect the resistant cultivars. Bacillus sp. inhabiting plant rhizosphere can protect the plants from multiple pathogens. In the present study, two antagonistic strains Bacillus subtilis NH-100 and Bacillus sp. NH-217 were able to maintain their population at 9.0 log CFU g⁻¹ in sugarcane filter cake until nine months. These strains were compatibile to the indigenous bacteria of sugarcane filter cake which maintained their population at 7.8–8.0 log CFU g⁻¹. The developed bioformulation induced the activity of various defense-related enzymes (0.6–6.9 change in absorbance min⁻¹ g⁻¹ of tissue), suppressed the red rot disease and enhanced crop yield under field conditions. This formulation could be used as potential biopesticide to control red rot disease of sugarcane.
doi_str_mv	10.1007/s10526-015-9673-4
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Intensive cropping and uninterrupted use of chemicals results in evolution of new pathotypes which can infect the resistant cultivars. Bacillus sp. inhabiting plant rhizosphere can protect the plants from multiple pathogens. In the present study, two antagonistic strains Bacillus subtilis NH-100 and Bacillus sp. NH-217 were able to maintain their population at 9.0 log CFU g⁻¹ in sugarcane filter cake until nine months. These strains were compatibile to the indigenous bacteria of sugarcane filter cake which maintained their population at 7.8–8.0 log CFU g⁻¹. The developed bioformulation induced the activity of various defense-related enzymes (0.6–6.9 change in absorbance min⁻¹ g⁻¹ of tissue), suppressed the red rot disease and enhanced crop yield under field conditions. This formulation could be used as potential biopesticide to control red rot disease of sugarcane.</abstract><cop>Dordrecht</cop><pub>Springer Netherlands</pub><doi>10.1007/s10526-015-9673-4</doi><tpages>12</tpages></addata></record>
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subjects	Agriculture Animal Biochemistry Animal Ecology Antibiotics Bacillus Bacillus subtilis bacteria Behavioral Sciences biological control Biomedical and Life Sciences biopesticides Biosynthesis Crop diseases Crop yield Cultivars Disease control Entomology Enzymes Epidemics evolution Filter cake Flowers & plants Food processing industry Fungicides Homogenization intensive cropping Life Sciences Microorganisms Pathogens pathotypes pesticide formulations Pesticides Plant diseases Plant Pathology Plant protection plant rots Potassium Red rot Rhizosphere strains Strains (organisms) Sugarcane
title	Suppression of red rot disease by Bacillus sp. based biopesticide formulated in non-sterilized sugarcane filter cake
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