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Animal Production Science Animal Production Science Society
Food, fibre and pharmaceuticals from animals
RESEARCH ARTICLE (Open Access)

Water quality and management in the Australian pig industry

Louise Edwards https://orcid.org/0000-0003-3114-355X A C and Helen Crabb B
+ Author Affiliations
- Author Affiliations

A Acqua by Davey Pty Ltd, 6 Lakeview Drive, Scoresby, Vic. 3179, Australia.

B Faculty of Veterinary and Agricultural Sciences, The University of Melbourne, Parkville, Vic. 3010, Australia.

C Corresponding author. Email: ledwards@acquabydavey.com

Animal Production Science 61(7) 637-644 https://doi.org/10.1071/AN20484
Submitted: 23 August 2020  Accepted: 10 December 2020   Published: 18 February 2021

Journal Compilation © CSIRO 2021 Open Access CC BY

Abstract

Context: Water is the first nutrient and an essential component of all agricultural production systems. Despite its importance there has been limited research on water, and in particular, the impact of its availability, management and quality on production systems.

Aims: This research sought to describe the management and quality of water used within the Australian pig industry. Specifically, the water sources utilised, how water was managed and to evaluate water quality at both the source and the point of delivery to the pig.

Methods: Fifty-seven commercial piggeries across Australia participated in this study by completing a written survey on water management. In addition, survey participants undertook physical farm parameter measurements including collecting water samples. Each water sample was tested for standard quality parameters including pH, hardness, heavy metals and microbiological status.

Key results: Responses were received from 57 farms, estimated to represent at least 22% of ‘large’ pig herds. Bore water was the most common water source being utilised within the farms surveyed. Management practices and infrastructure delivering water from the source to the point of consumption were found to differ across the farms surveyed. Furthermore, water was regularly used as a delivery mechanism for soluble additives such as antibiotics. The quality of water at the source and point of consumption was found to be highly variable with many parameters, particularly pH, hardness, salinity, iron, manganese and microbiological levels, exceeding the acceptable standard.

Conclusions: In general, water quality did not appear to be routinely monitored or managed. As a result, farm managers had poor visibility of the potential negative impacts that inferior water quality or management may be having on pig production and in turn the economics of their business. Indeed, inferior water quality may impact the delivery of antibiotics and in turn undermine the industry’s antimicrobial stewardship efforts.

Implications: The study findings suggest that water quality represents a significant challenge to the Australian pig industry. Access to drinking water of an acceptable quality is essential for optimal pig performance, health and welfare but also to ensure farm to fork supply chain integrity, traceability and food safety.

Keywords: animal production, antimicrobial stewardship, nutrition, pigs, water quality.


References

Adam M, Voets H, Nielsen JP, Jorsal SE (Eds) (2006) Rearing piglets on nipple drinkers using a proportionner and medicated water system: a study of drinking behaviour of piglets. In ‘19th International Pig Veterinary Society Congress’, Copenhagen, Denmark, 16–19 July. (International Pig Veterinary Society, Available at https://www.theipvs.com/)

Andersen HML, Dybkjær L, Herskin MS (2014) Growing pigs’ drinking behaviour: number of visits, duration, water intake and diurnal variation Animal 8, 1881–1888.

Australian Eggs Ltd (2018) Antimicrobial stewardship in Australian livestock industries. Animal Health Australia, Canberra, Australia. Available at https://www.animalhealthaustralia.com.au/antimicrobial-stewardship-in-australian-livestock-industries/ [Verified 16 December 2020]

Australian Pork Limited (2016) Fact sheet. Water supply to pigs. 3. Available at https://australianpork.com.au/wp-content/uploads/2013/09/Fact-sheet-water.pdf [Verified 16 December 2020]

Australian Pork Limited (2018) Annual report 2017–2018. Barton, ACT. Available at https://australianpork.com.au/wp-content/uploads/2019/11/Annual-Report-2017-2018_web.pdf

Bigelow JA, Houpt TR (1988) Feeding and drinking patterns in young pigs. Physiology & Behavior 43, 99–109.
Feeding and drinking patterns in young pigs.Crossref | GoogleScholarGoogle Scholar |

Brooks PH, Lyons TP, Jaques KA (Eds) (1994) Water – forgotten nutrient and novel delivery system. In ‘10th Annual symposium, biotechnology in the feed industry’. (Alltech: Nottingham University Press: Nottingham, UK)

Brumm M (2010) ‘Water recommendations and systems for swine.’ (US Pork Center of Excellence, Pork Information Gateway: Clive, IA, USA)

Department of Agriculture (2009) ‘National water biosecurity manual – poultry production.’ (Commonwealth of Australia: Canberra, ACT, Australia)

Dorr PM, Madson D, Spencer W, Scheidt AB, Almond GW (2009) Impact of pH modifiers and drug exposure on the solubility of pharmaceutical products commonly administered through water delivery systems. Journal of Swine Health and Production 17, 217–222.

Edwards L (2018) Drinking water quality and its impact on the health and performance of pigs. Final report prepared for the cooperative research centre for High Integrity Australian Pork. No. 2A–118A, Canberra, Australia. Available at http://porkcrc.com.au/wp-content/uploads/2018/08/2A-118-Drinking-Water-Quality-Final-Report.pdf [Verified 16 December 2020]

Felix LMB, Moreira LC, Chlavone-Filho O, Mattedi S (2016) Solubility measurements of amoxicillin in mixtures of water and ethanol from 283.15 to 298.15 K. Fluid Phase Equilibria 422, 78–86.
Solubility measurements of amoxicillin in mixtures of water and ethanol from 283.15 to 298.15 K.Crossref | GoogleScholarGoogle Scholar |

King RK (1999) ‘Water supply to pigs. A report prepared for the Pig Research and Development Corporation.’ (PRDC: Roseworthy, SA, Australia)

Lees P, Pelligand L, Giraud E, Toutain P-L (2020) A history of antimicrobial durgs in animals: evolution and revolution. Journal of Veterinary Pharmacology and Therapeutics 00, 1–35.

Li YZ, Chénard L, Lemay SP, Gonyou HW (2005) Water intake and wastage at nipple drinkers by growing-finishing pigs. Journal of Animal Science 83, 1413–1422.
Water intake and wastage at nipple drinkers by growing-finishing pigs.Crossref | GoogleScholarGoogle Scholar | 15890820PubMed |

Little SB, Crabb H, Woodward AP, Browning GF, Billman-Jacobe H (2019) Review: water medication of growing pigs: sources of between-animal variability in systemic exposure to antimicrobials. Animal 13, 3031–3040.
Review: water medication of growing pigs: sources of between-animal variability in systemic exposure to antimicrobials.Crossref | GoogleScholarGoogle Scholar | 31475656PubMed |

Lumb KR, Robertson J, Scott HE, Woolfenden NJ (2017) Optimising the use of antimicrobials: preparing the industry for in-water delivery in the short term and improving hygiene and more effectively targeting medication in the longer term., Kenilworth, Warwickshire. Available at https://pork.ahdb.org.uk/media/274247/51510014_ft014_raft-solutions-ltd-water-report_approved_september-2017.pdf [Verified 16 December 2020]

McLeese JM, Tremblay ML, Patience JF, Christison GI (1992) Water intake patterns in the weanling pig: effect of water quality, antibiotics and probiotics. Animal Science 54, 135–142.
Water intake patterns in the weanling pig: effect of water quality, antibiotics and probiotics.Crossref | GoogleScholarGoogle Scholar |

National Research Council (2012) Water. In ‘Nutrient requirements of swine’. pp. 66–74. (National Academies Press: Washington DC, USA)

NHMRC and NRMMC (2011) ‘Australian drinking water guidelines paper 6. National water quality management strategy.’ (Commonwealth of Australia: Canberra, ACT, Australia)

Nyachoti M, Kiarie E (2010) Water in swine production: a review of its significance and conservation strategies. In ‘Sharing ideas and information for efficient pork production. Manitoba Swine Seminar. Manitoba, Canada. Vol. 24’. Available at https://thepigsite.com/articles/water-in-swine-production-a-review-of-its-significance-and-conservation-strategies [Verified 16 December 2020]

R Core Team (2013) ‘R: A language and environment for statistical computing.’ (R Foundation for Statistical Computing: Vienna, Austria)

Sofi MH, Gudi R, Karamuthil-Melethil S, Perez N, Johnson BM, Vasu C (2014) pH of drinking water influences the composition of gut microbiome and type 1 diabetes incidence. Diabetes 63, 632–644.
pH of drinking water influences the composition of gut microbiome and type 1 diabetes incidence.Crossref | GoogleScholarGoogle Scholar | 24194504PubMed |

Taylor G, Roese G, Brewster C (2006) ‘Primefacts 108: Water medication for pigs.’ (NSW DPI: Sydney, NSW, Australia)

Vandeel F, Filippitzi M-E, Dewulf J, Daeseleire E, Eeckhout M, Devreese M, Croubels S (2019) Oral group medication in pig production: characterising medicated feed and drinking systems. Vet Record 185, 1–9.
Oral group medication in pig production: characterising medicated feed and drinking systems.Crossref | GoogleScholarGoogle Scholar |