Inorganic and Organic Phosphate
Inorganic phosphate is the major caution of the intracellular fluids, and this ion is of enormous importance in the formation of the energy-rich phosphate bonds. Also phosphate is able to combine reversibly with a multitude of enzyme systems and so operates in the majority of metabolic reactions within the cell. Inorganic phosphate is present in the extracellular fluids as well both in the plasma and in the interstitial fluid. This inorganic phosphate exists in the form of phosphate ions. These phosphate ions are closely involved in the maintenance of the acid-base stability of the blood.
Organic phosphate is present in the blood in the form of phospholipid and the phosphate from this compound can be liberated for bone formation.
The absorption of phosphorus from the intestine is dependent on the proper absorption of calcium, which in turn is dependent on the vitamin D concentration. This means that a deficiency of vitamin D will indirectly affect phosphorus and phosphate absorption. Excess phosphorus is excreted mainly through the kidneys. Milk and bone meal are particularly rich in phosphorus, but phosphorus is also widely distributed in both vegetable and animal foods.
Text 24.FEEDING PULLETS.
Feeding growing pullets and laying hens during a protein shortage and high ingredient prices has special challenges. The poultryman desires an economical ration, but a formula should not be cheapened to the detriment of productivity.
A question often asked is, «How far can I lower protein and other high-priced ingredients to lower feed costs?»
Although lowering protein is a consideration, there are some basics that should be reviewed before drastic changes are made in a ration merely to lower costs.
First, a bird eats basically to satisfy energy requirements. Therefore, high energy feed results in lower feed consumption, and a low energy (high fiber) feed results in increased feed consumption. For a bird to obtain an adequate amount of nutrients (protein, vitamins, minerals), the correct amounts must be contained in the quantity of feed consumed. Thus, a dense feed (one that has high energy) must contain a higher percentage of basic nutrients to adjust for lower consumption.
Recognize her protein needs!
The second consideration is the actual protein needs of the bird. There are three uses for protein: (1) Body maintenance to repair and replace body tissue; (2) body growth, since as a pullet adds more body weight, it adds fleshing; (3) numbers and size of eggs.
A young layer (between 20 and 30 weeks of age) is still growing and increasing her egg numbers and egg size. Thus, her needs for nutrients are more critical than a mature hen in lower production and not gaining weight. Feed formulation should be adjusted based on the age and job the flock is doing.
It must be emphasized that whenever the total nutrient intake is below that of actual need, something will suffer. Even small deficiency is harmful
A small deficiency to show up may be a reduction in body weight while the next to suffer may be egg size. Finally, if nutrient intake is significantly below the plateau of requirements, egg numbers will be reduced.
The most serious period for nutrient deficiencies is during the critical period of 20 to 40 weeks of age. Any subnormal intake will greatly affect peaking as well as the normal increase in egg size and body weight. Recommendations:
1. Feed a quality ration and avoid known sources of inferior ingredients.
2. Maintain accurate feed consumption records by individual flocks on a weekly basis.
3. Provide proper nutrient intake needed for each flock by adjusting the protein based on consumption. Whether a flock can go below 3.3 pounds per 100 birds per day (15 grams) must be based on individual flock situations and whether the feed has an adequate balance of all nutrients, especially amino acids. Trial rations could be fed with sufficient checks to pick up possible body weight, egg weight, body condition, or production changes.
4. Although culling has not been practiced in recent years, the lower feed consumption may pay the labor of pulling out the nonlaying birds if they can be sold conveniently and at a satisfactory price.
5. Although some research indicates that limit feeding saves feed, it demands extremely close attention and management know-how. Feeder space is a key factor. An over-crowded cage will not have as uniform consumption per bird as one with more optimum conditions (especially feeder space). Limit feeding should be approached with caution.
6. Controlling feed wastage is still a great challenge to management, but wastage must be kept to a minimum, especially during high feed prices.