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Evaluating Water Quality for Poultry

Published: December 2, 2016
By: John P. Blake 1 and Joseph B. Hess 2. / 1 Extension Poultry Scientist, Professor; 2 Extension Poultry Scientist, Associate Professor; both in Poultry Science at Auburn University.
Water is the most important nutrient for poultry; survival time is limited in its absence. Birds can survive for longer periods without any other nutrient than they can survive without water.
Although water is regarded as the most essential nutrient, it is impossible to state its exact requirements. Birds generally drink approximately twice as much water as the amount of feed consumed on a weight basis. During periods of extreme heat stress, water requirements may easily quadruple.
Although the importance of providing a sufficient amount of water or adequate access to it is well accepted, the importance of water quality on performance is often overlooked. Water quality attributes can have a direct or indirect effect on performance. High levels of bacterial contaminants, minerals, or other pollutants in drinking water can have detrimental effects on normal physiological properties resulting in inferior performance.
Water quality can be evaluated by a number of criteria. It can be difficult, however, to describe good quality drinking water for poultry because many of the standards have been derived from recommendations for other species of animals or from human standards. In many cases, guidelines have been established based on mortality and not defi- ciencies in performance. Submitting a water sample annually for analysis should be an important part of good water management. The results of the analysis should be interpreted appropriately to determine the proper course of action. The following are some of the most important factors that influence water quality.
 
Evaluating Water Quality for Poultry - Image 1
 
Color, Taste, Odor
Drinking water should be clear, tasteless, odorless, and colorless. As a general observation, a reddish-brown color may indicate the presence of iron, while a blue color indicates the presence of copper. Hydrogen sulfide is indicated by a rotten egg odor. Hydrogen sulfide may also combine with iron to form black water (iron sulfide) that may also implicate the presence of sulfate-reducing bacteria. Taste can be affected by the presence of salts, and a bitter taste is usually associated with the presence of ferrous and manganese sulfates.
 
Bacteria
The presence of microorganisms is typically a result of surface contamination by organic materials and can result in poor performance. The presence of coliform bacteria is generally related to fecal contamination of drinking water due to runoff to surface or ground waters. Ideally, bacterial contaminants should not be present in drinking water and measurable levels should be zero. Chlorination or filtration of the water supply can eliminate bacterial contaminants. Samples taken for bacterial testing should be obtained in a sterile manner and may need to be taken at the source and at strategic points to localize any problems.
 
pH
The acidity or alkalinity of water is measured by pH. A pH of 7 indicates that the water is neutral, a pH less than 7 indicates acidity, and a pH greater than 7 indicates alkalinity. Low pH water can be unpalatable, corrosive to equipment, and may have a negative impact on performance. High pH water is also unacceptable since it reflects high levels of calcium and magnesium, which can clog watering systems. Poultry accept water on the acid side better than they accept water on the alkaline side. Typically, wells in Alabama range in pH from 5 to 6.5. Municipal water systems may range in pH from 6 to 9 depending on their water sources.
 
Turbidity
Turbidity results from the suspension of materials such as silt, clay, algae or organic materials in water. Levels of turbidity above 5 ppm result in unpalatable water and indicate surface contamination. Turbid water can be filtered to remove particular contaminants and prevent clogged water lines.
 
Total Dissolved Solids
Measurement of total dissolved solids (TDS), or salinity, indicates levels of inorganic ions dissolved in water. Calcium, magnesium, and sodium salts are the primary components that contribute to TDS. High levels of TDS are the most commonly found contaminants responsible for causing harmful effects in poultry production. Table 1 provides guidelines suggested by the National Research Council (1974) for the suitability for poultry water with different concentrations of total dissolved solids (TDS), which are the total concentration of all dissolved elements in the water.
 
Hardness
Hardness refers to the presence of dissolved minerals such as calcium and magnesium in either bicarbonate or sulfate form and is expressed as an equivalent of calcium carbonate. It measures the tendency of water to precipitate soap and form scale. Hard water is commonly associated with the buildup of deposits and the formation of scale in the components of the watering system. Hardness is not commonly harmful to poultry unless certain ions are present in toxic amounts. High levels of magnesium sulfate (MgSO4) may cause an increase in water consumption, wet droppings, and a drop in production. Extreme hardness may diminish the effectiveness of water-administered medications, disinfectants, and cleaning agents.
 
Mineral Contaminants
A wide variety of minerals are commonly found in drinking water. Normally, they are found in relatively low concentrations and cause no harm (Table 2).
 
Table 1. Suitability of Water With Different Concentrations of Total Dissolved Solids (TDS)
Evaluating Water Quality for Poultry - Image 2
 
Table 2. Drinking Water Quality Guidelines for Poultry
 
Nitrogen contamination of water supplies usually occurs in the form of nitrates and nitrites. Both are a result of biological decay of animal or plant matter, chemical fertilizers, or animal wastes. The presence of nitrates often suggests bacterial contamination, since their presence is often a direct result of the seepage of surface water from surrounding fields that were fertilized by either chemicals or animal manures.
Nitrate itself is not toxic. After ingestion, however, it is converted to the toxic form of nitrite by microorganisms found in the intestinal tract of the animal. Once absorbed into the bloodstream, nitrite binds strongly to hemoglobin and, thereby, reduces the oxygen carrying capacity of the blood. Chronic nitrate toxicity causes poor growth, anorexia, and poor coordination. Studies demonstrate that nitrate nitrogen levels in the drinking water as low as 3 to 5 mg/lt depress broiler growth rate.
High concentrations of sulfates can combine with magnesium to form Epsom salt or with sodium salts that cause a laxative effect and can result in wet litter. High concentrations of sodium or chloride may also increase water consumption and increase litter moisture. High levels of sulfate may also interfere with the intestinal absorption of other minerals such as copper.
High levels of magnesium are only a problem in the presence of high sulfate levels since they combine to form Epsom salt. The formation of scale in the watering system can be attributed to high levels of or combinations of sulfate, magnesium, or calcium.
High levels of iron may encourage the growth of bacteria, which can lead to diarrhea. When the ferrous form of iron present in well water is exposed to the air, it is converted to the ferric hydroxide form commonly referred to as rusty water.
Other contaminants in the water may include pesticides, herbicides, industrial residues, petroleum products, and heavy metals such as lead or cadmium. Such contaminants are more difficult to detect and require more costly testing procedures.
 
Water Treatments
Various methods are available that can reduce or eliminate the impurities that adversely affect water quality. Options include the following. CHLORINATION. Chlorination is the most common method used to treat water for bacterial contamination and effectively eliminate bacteria from the water supply. Chlorine can be administered through an in-line proportioner. General recommendations are to have a level of 2 to 3 ppm at the drinker farthest from the proportioner. Chlorine levels can be easily monitored using a pool test kit.
Guidelines for Chlorination
• Do not chlorinate market age birds under extreme heat stress.
• Measure residual chlorine at the waterer to maintain at least a 1.0 ppm level at the drinker mid-house.
• Discontinue chlorination and administer powdered milk solution before vaccination to neutralize chlorine since chlorine kills vaccines.
• Use caution since chlorine solutions are acidic and often oxidize soft rubber.
SOFTENERS. Use water softening equipment to reduce hardness. Most softening equipment uses ion exchange to effectively remove the calcium and magnesium ions and replace them with sodium ions. Levels of TDS, however, are simply substituted and increases in sodium concentration of the water occur, possibly to unacceptable levels. Poultry are generally sensitive to increases in sodium levels, so producers should be judicial in their selection and use of water softening equipment.
POLYPHOSPHATES. Polyphosphates are chemical compounds used primarily to prevent the buildup of scale in the watering systems. They act to cause mineral contaminants to go into solution more readily.
ELECTRICAL/MAGNETIC DEVICES. Electrical or magnetic devices keep minerals associated with scale buildup in solution by altering their electrical charges.
 
This article was originally published in Alabama Cooperative Extension System ANR-1201.
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Authors:
Joseph Hess
Auburn University
Auburn University
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Khaled Fadlallah
3 de mayo de 2017
Dr. Joseph Hess and Dr.John P. Blake. Thank you for your article about water quality for poultry the element usually neglegted by most poultry producers specially small producers. If I have a water source with increased content of an element like sodium can I decrease sodium content in the feed to overcome it's increase in water?
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Tahir Naseem
13 de diciembre de 2016
Thanks for such an informative article. However I have noticed in field conditions that, a pH of 6 and above can't stop E.coli growth in water. So a pH of 5.5 is quite beneficial for this purpose. For this purpose we have to add organic acids in water to decrease pH & also as a water softener. Long term use of organic acids enhance the algae growth, therefore stabilized form of 50percent H2O2 is added in water @0.1ppm. Chlorine dioxide is also a safe option for water sanitation.
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Ismet Mamode
Food & Allied Group of Companies
7 de diciembre de 2016
Farmers should not neglect the quality of water given to birds. This is one of the criteria to obtain a better profit in the end.
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Dr.majed H. Al-jaff
7 de diciembre de 2016
very important subject, specially in layers..poor qualjty water will cause visceral gout which has adverse effect on birds (high mortality , decrease egg production & low performance ) Dr.Majed H. AL- Jaff Consultant IRAQ
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