9855
26.94
100
Allelopathic Activities of Specific Microbial Metabolites in the Inland Prawn Fisheries off Eastern Uttar Pradesh, India
Authore(s) : Sushil K. Upadhyay || Zoology DepartmentScience FacultySwami Vivekanand Subharti UniversityMeerut-250005Uttar PradeshIndia
Volume : (3), Issue : 211, January - 2019
Abstract : The gram positive bacterial strain of Streptococcus spp. recovered from Macrobrachium rosenbergii is a pathogenic strain. The in vitro allelopathic activities of all 22 bacterial strains of same habitat were tested against Streptococcus spp. Out of aforementioned strains only one showed antagonistic activity and identified as gram positive rod, Clostridium spp. The in vitro allelopathic interactions of these two bacterial strains were demonstrated to be a potential antagonist in the inland water fisheries. This study was carried out for the determination of natural allelopathic and antibacterial activity of antagonistic bacterial strain against the pathogenic bacterial strains of fresh water aquaculture system of eastern Uttar Pradesh, India.
Keywords :Macrobrachium rosenbergii, Allelopathic activity, Antibacterial activity, Inland water fisheries
Article: Download PDF Journal DOI : 2364/2017
Cite This Article:
Macrobrachium rosenbergii, Allelopathic activity, Antibacterial activity, Inland water fisheries.
Vol.I (3), Issue.I 211
Article No : 10008
Number of Downloads : 100
References :
Cembella, A.D., (2003). Chemical ecology of eukaryotic microalgae in marine ecosystems. Phycologia, 42(4), 420-447.
Chang, C.I., Liu, W., and Shyu, C. Z., (2000). Use of prawn blood agar hemolysis to screen for bacteria pathogenic to cultured tiger prawns Pennaeus monodon. Diseases in Aquat-ic Organism, 43, 153-157.
Granéli, E., (2006). Kill your enemies and eat them with the help of your toxins: an algal strategy. African Journal... More
- Cembella, A.D., (2003). Chemical ecology of eukaryotic microalgae in marine ecosystems. Phycologia, 42(4), 420-447.
- Chang, C.I., Liu, W., and Shyu, C. Z., (2000). Use of prawn blood agar hemolysis to screen for bacteria pathogenic to cultured tiger prawns Pennaeus monodon. Diseases in Aquat-ic Organism, 43, 153-157.
- Granéli, E., (2006). Kill your enemies and eat them with the help of your toxins: an algal strategy. African Journal of Marine Science, 28(2), 331-336.
- Gross, E.M., (2003). Allelopathy of aquatic autotrophs. Critical Reviews in Plant Sciences, 22(3-4), 313-339.
- Ianora, A., Boersma, M., Casotti, R., Fontana, A., Harder, J., Hoffmann, F., Pavia, H., Potin, P., Poulet, S.A., and Toth, G., (2006). New trends in marine chemical ecology. Estuaries and Coasts, 29(4), 531-551.
- Jebasingh S.E.J., and Murugan A. (2011). Antagonistic activity of the Barnacle (Balanus amphitrite) associated bacteria against human bacterial pathogen. World Journal of Medical Sciences, 6(1), 36-41.
- Kaynar, P., and Beyatli, Y. (2012). Antago- nistic Activities of Bacillus spp. Strains Isolated from the Fishes. Journal of Applied Biological Sciences, 6(3), 77-81.
- Legrand, C., Rengefors, K., Fistarol, G.O., and Granéli, E., 2003. Allel- opathy in phytoplankton-biochemical, ecological and evolutionary aspects. Phycologia, 42(4), 406-419.
- Ligockaa, A., Paluszak, Z., and Hermann, J. (2005). Influence of physic-chemical factors on the effectiveness of bacteriocins of lactic acid bacteria activity against the pathogens in sewage sludge. Mediterranean Wetlands, 61,413.
- Moriarty, D.J.W., Decamp, O., and Lavens, P. (2005). Probiotics in Aquaculture, Aquaculture Asia Magazine, p14-16.
- Saranya. S., and Hemashenpagam, N. (2011). Antagonistic activity and antibiotic sensitivity of Lactic acid bacteria from fermented dairy products. Advances in Applied Science Research, 2(4), 528-534.
- Servin, A.L. (2004). Antagonistic activities of lactobacilli and bifidobacteria against microbial pathogens. FEMS Microbiology Review, 28,405.
- Szala, B., Paluszak, Z., and Motyl, I. (2012). Antagonistic effect of lactic acid bacteria on Salmonella senftenberg in mixed culture. Poland Journal of Environmental Study, 21(5), 1399-1403.
- Tillmann, U., John, U., and Cembella, A., (2007). On the allelochemical potency of the marine dinoflagellate Alexan- drium ostenfeldii against heterotrophic and autotrophic protists. Journal of Plankton Research, 29(6), 527-543.
- Upadhyay, S.K, Malhotra, A., and Malhotra, S.K. (2009). Antagonistic microbial interactions with specific metabolites activity patterns in aquatic and terrestrial host parasite systems. 21st National Congress Parasitology, p60.
- Verschuere, L., Rombout, G., Sorgeloos, P., and Verstraete, W. (2000). Probiotic bacteria as biological control agents in aquaculture. Microbial Molecular Biology Review, 64(4), 655-671.
- Vuyst, L., and Leroy, F. (2007). Bacteriocins from lactic acid bacteria. Production, purification and food application. Journal of Molecular Microbiology and Biotechnology, 13(4), 194-199.
... Less
- Cembella, A.D., (2003). Chemical ecology of eukaryotic microalgae in marine ecosystems. Phycologia, 42(4), 420-447.
- Chang, C.I., Liu, W., and Shyu, C. Z., (2000). Use of prawn blood agar hemolysis to screen for bacteria pathogenic to cultured tiger prawns Pennaeus monodon. Diseases in Aquat-ic Organism, 43, 153-157.
- Granéli, E., (2006). Kill your enemies and eat them with the help of your toxins: an algal strategy. African Journal of Marine Science, 28(2), 331-336.
- Gross, E.M., (2003). Allelopathy of aquatic autotrophs. Critical Reviews in Plant Sciences, 22(3-4), 313-339.
- Ianora, A., Boersma, M., Casotti, R., Fontana, A., Harder, J., Hoffmann, F., Pavia, H., Potin, P., Poulet, S.A., and Toth, G., (2006). New trends in marine chemical ecology. Estuaries and Coasts, 29(4), 531-551.
- Jebasingh S.E.J., and Murugan A. (2011). Antagonistic activity of the Barnacle (Balanus amphitrite) associated bacteria against human bacterial pathogen. World Journal of Medical Sciences, 6(1), 36-41.
- Kaynar, P., and Beyatli, Y. (2012). Antago- nistic Activities of Bacillus spp. Strains Isolated from the Fishes. Journal of Applied Biological Sciences, 6(3), 77-81.
- Legrand, C., Rengefors, K., Fistarol, G.O., and Granéli, E., 2003. Allel- opathy in phytoplankton-biochemical, ecological and evolutionary aspects. Phycologia, 42(4), 406-419.
- Ligockaa, A., Paluszak, Z., and Hermann, J. (2005). Influence of physic-chemical factors on the effectiveness of bacteriocins of lactic acid bacteria activity against the pathogens in sewage sludge. Mediterranean Wetlands, 61,413.
- Moriarty, D.J.W., Decamp, O., and Lavens, P. (2005). Probiotics in Aquaculture, Aquaculture Asia Magazine, p14-16.
- Saranya. S., and Hemashenpagam, N. (2011). Antagonistic activity and antibiotic sensitivity of Lactic acid bacteria from fermented dairy products. Advances in Applied Science Research, 2(4), 528-534.
- Servin, A.L. (2004). Antagonistic activities of lactobacilli and bifidobacteria against microbial pathogens. FEMS Microbiology Review, 28,405.
- Szala, B., Paluszak, Z., and Motyl, I. (2012). Antagonistic effect of lactic acid bacteria on Salmonella senftenberg in mixed culture. Poland Journal of Environmental Study, 21(5), 1399-1403.
- Tillmann, U., John, U., and Cembella, A., (2007). On the allelochemical potency of the marine dinoflagellate Alexan- drium ostenfeldii against heterotrophic and autotrophic protists. Journal of Plankton Research, 29(6), 527-543.
- Upadhyay, S.K, Malhotra, A., and Malhotra, S.K. (2009). Antagonistic microbial interactions with specific metabolites activity patterns in aquatic and terrestrial host parasite systems. 21st National Congress Parasitology, p60.
- Verschuere, L., Rombout, G., Sorgeloos, P., and Verstraete, W. (2000). Probiotic bacteria as biological control agents in aquaculture. Microbial Molecular Biology Review, 64(4), 655-671.
- Vuyst, L., and Leroy, F. (2007). Bacteriocins from lactic acid bacteria. Production, purification and food application. Journal of Molecular Microbiology and Biotechnology, 13(4), 194-199.