Abstract

Fish culture aimed at high production through intense culture practices often leads not only to the alteration in water quality but also to severe disease problems.  The accumulation of organic wastes deteriorates water quality and encourages the proliferation of pathogenic microorganisms.  To avoid these problems, probiotics are used as bioremediation tool. The present study was aimed to know the changing patterns of beneficial and pathogenic bacterial loads and water quality in fish ponds treated with pond probiotics. For this study, three earthen fish ponds, were cultured Pangasius sutchi, Catla catla and Labeo rohita, located in Balliparru near Machilipatnam in Krishna District, Andhra Pradesh, India were selected and studied for a culture period during 2009 to 2010.  Two ponds were treated with probiotics having Nitrosomonas (1.62 kg/ha) and Nitrobacter (0.82 kg/ha) species and one pond was kept as control. During the culture period (August 2009 to July 2010), water quality parameters and the populations of total heterotrophic bacteria (THB), beneficial bacteria (Nitrosomonas and Nitrobacter species) and pathogenic bacteria (Pseudomonas) in water were analyzed. It was observed that in treated ponds, THB and beneficial bacterial load increased and pathogenic Pseudomonas load decreased. The bacterial population changed during every fortnight sampling of the culture period. The changing patterns of different bacteria in treated and control ponds were compared and discussed. The concentrations of ammonia, nitrite and phosphates were observed to be low in treated ponds than in the control pond. The present study revealed that the probiotics are instrumental in maintaining good water quality, higher beneficial and lower pathogenic bacterial loads in fish ponds.   Key words: Probiotics, fish ponds, physico-chemical parameters of water, total heterotrophic bacteria, nitrifying bacteria.  

Highlights

  • Aquaculture has emerged as an important food producing sector in many countries

  • The present study was aimed to know the changing patterns of beneficial and pathogenic bacterial loads and water quality in fish ponds treated with pond probiotics

  • The present study revealed that the probiotics are instrumental in maintaining good water quality, higher beneficial and lower pathogenic bacterial loads in fish ponds

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Summary

Introduction

It constantly requires newly emerging technologies to increase the production yield. Application of probiotics in aquaculture is such a technology and research on probiotics as bioremediation and biocontrol agents is increasing with the demand for eco-friendly aquaculture (Maeda et al, 1997; Moriarty, 1997; 1998; Gatesoupe, 1999; Prabhu et al, 1999; Gomez-Gil et al., 2000; Verschuere et al, 2000; Rao, 2001; Shariff et al, 2001; Irianto and Austin, 2002; Balcázar, 2003; Ali, 2006; Lakshmanan and Sounderpandian, 2008; Sreedevi and Ramasubramanian, 2010; Dimitroglou et al, 2011; Iribarren et al, 2012). Probiotic bacteria directly uptake or decompose the organic matter or toxic material in the water, improving the water quality. There is a great interest in the use of probiotic bacteria in aquaculture to

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