Ogunbode Adesina Amao*, Adams Taiwo Olutayo and Akinlabi Mustapha Ojo

Department of Animal Production Technology, Oyo State College of Agriculture and Technology, Igboora, Nigeria

*Corresponding Author: Ogunbode Adesina Amao, Department of Animal Production Technology, Oyo State College of Agriculture and Technology, Igboora, Nigeria.

Received: August 07, 2023; Published: November 14, 2023

Abstract

Screening of raw pig manure collected from crossbred growing pigs fed sundried soybean milk residue were carried out at the piggery unit of the Oyo State College of Agriculture and Technology, Igboora, Nigeria. Eighteen (18) crossbred (Largewhite X Landrace) obtained from piggery unit of Oyo State College of Agriculture and Technology, Igboora, Nigeria weaned pigs were used for the study and the experimental animals were allotted into three treatments with six animals per treatment and two animals per replicate. The experimental design used was completely randomized design, data collected were analyzed using one way analysis of variance of statistical system software. The microbiological assays of fresh faecal, total microbial count, lactobacillus, coliform, salmonella and saccharomyces were isolated from pig manure. The experiment lasted eight weeks. At the end of the experiment, bacteria and protozoa counts were not significantly (p > 0.05) different. The highest count (3.61 x 10-9 cfu/ml) was obtained at T1 (control) and the lowest value (3.65 x 10-9 cfu/ml) were obtained in pigs fed 10% (T3) sundried soybean milk residue for total microbial count. Lactobacillus value ranged from (2.82 x 10-3 cfu/ml) to (2.85 x 10-3 cfu/ml).The highest value of coliform, salmonella and saccharomyces were recorded in pigs kept in the control diet (1.66 x 10-1, 1.38 x 10-1 and 2.14 x 10-2) respectively. It can be concluded that sundried soybean milk residue had no influence on the microbial load of pigs.

Keywords: Growing Pigs; Microbial Load; Sundried; Soybean Milk Residue

References

1. Chen GO., et al. “Novel probiotics. “The effects on growth performance, gut development, microbial community and activities of broiler chickens”. Animal Nutrition3 (2015): 104-111.
2. Kim HB and Isaacson RE. “Salmonella in swine microbiota interactions”. Annual Review of Animal Biosciences 5 (2016): 43-63.
3. Kim HB and Isaacson RE. “The pig gut microbial diversity: Understanding the pig gut microbial ecology through the next generation high throughput sequencing”. Veterinary Microbiology3-4 (2015): 242-251.
4. Lesser TD., et al. “Culture-independent analysis of gut bacteria: the pig gastrointestinal tract microbiota revisited”. Applied and Environmental Microbiology2 (2002): 673-690.
5. Xin J., et al. “Probiotic Lactobacillus johnsonii BS15 promotes growth performance, intestinal immunity, and gut microbiota in piglets”. Probiotics Antimicrobe Proteins1 (2020): 184-193.
6. Collins SM., et al. “The interplay between the intestinal microbiota and the brain”. Nature Reviews Microbiology 11 (2012): 735-742.
7. Uyeno Y., et al “Effect of probiotics/prebiotics on cattle”. (2015).
8. Kim HB. “Salmonella in swine: microbiota interactions”. Annual Review of Animal Biosciences 5 (2016): 43-63.
9. Wu J., et al. “Rapid determination of oil content in seed of Jatropha curcas by NMR”. Journal of Biobased Materials and Bioenergy 4 (2010): 436-439.
10. Sillar B. “Dung by preference: The choice of fuel as an example of how Andean pottery production is embedded within wider technical, social and economic practices”. Archaeometry 1 (2000): 43-60.
11. Google Earth. US Department of State geographer 2006. Maplink Tele Atlas Data SIQ, NOAA, US, Navy, Nga, GEBCOC (2021).
12. Fons M., et al. “Mechanisms of colonization and colonization resistance of the digestive Tract part 2: bacteria/bacteria interactions”. Microbial Ecology in Health and Disease 2 (2000): 240-246.
13. Serena C., et al. “Elevated circulating levels of succinate in human obesity are linked to Specific gut microbiota”. (2018): 1642-1657.
14. Mulder RW et al, “Intervention strategies: the use of probiotics and competitive exclusion microfloras against contamination with pathogens in poultry and pigs”. In R.Fuller (ed), probiotics 2: Application and practical Aspects, Chapman and Hall, New York, (1997): 187-207.
15. Prohaszka I., et al. “The role of intestinal volatile fatty acids in the salmonella shedding of pigs”. Journal of Veterinary Medicine. Series B 37 (1990): 570-574.
16. Olsen A., et al. “The antimicrobial activity of lactic acid bacteria from fermented maize (Kenkey) and their interactions during fermentation”. Journal of Applied Biotechnology 79 (1995): 506-517
17. Ravindran V and Kornegay ET. “Acidification of weaner pig diet. A review”. Journal of the Science of food and Agriculture 62 (1993): 313-322.
18. Abulude FO., et al. “Compositional evaluation of livestock dung fed to pigs”. Journal of sustainable Tropical Agricultural Research 6 (2003): 33-36.
19. Forshell LP and Wireup M. “Salmonella contaminant: A significant challenge to the global marketing of animal food products”. Revue Scientifique et Technique de l OIE 25 (2006): 541-554.
20. Udebuani AC., et al. “The value of animal manure in the enhancement of bioremediation processes in petroleum contaminated agricultural soils”. Journal of Agricultural Technology6 (2012): 1935-1952.
21. Alwaneen WS. “Effect of cow manure vermin compost on some growth parameters of alfalfa plants”. Asian Journal of Plant Sciences 15 (2016): 81-85.
22. Muller WS. “Development of fermented taro as a food preservative ingredient in intermediate moisture products”. In: Technical report Natick/TR.06/005 Development and Engineering Command Natick Soldier Center, Massachusetts (2005).

Citation

Citation: Ogunbode Adesina Amao., et al. “Microbial Loads of Pigs Fed Sundried Soybean Milk Residue".Acta Scientific Biotechnology 4.4 (2023): 22-26.

Copyright

Copyright: © 2023 Ogunbode Adesina Amao., et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.