Abstract:
A completely randomized design experiment was conducted to determine the effects o f
physical form o f the diet (pellets or mash) on the growth performance and water intake of
broiler chicken. Twenty seven days-old (n=32) broiler chicks were randomly allocated
into 8 deep litter cages. Each cage housed 4 birds and contained a feeder and a drinker.
Birds in four cages were fed a commercial broiler finisher diet (Nutrina Feed Sri Lanka)
in pelleted form. The pellets o f the same diet were ground and fed as a mash to the other
four groups. The experimental diets were fed for two weeks from day 28 to day 42. The
bulk densities o f the pelleted and mash form diets were 0.67 and 0.55 g/crn , respectively.
Feeds and water were given ad libitum. Daily feed and water intakes were measured. The
mean day time temperature and relative humidity during the experiment period ranged
from 26 to 32 0 C (mean 29.1 °C) and 65 to 92%, (mean 76.3), respectively. Live weights
were taken on day 35 and day 42. Growth performance parameters such as weight on day
42 and weight gains and feed intake were not significantly affected due to the physical
form o f the diets. Water intake was also not significantly affected by the dietary physical
form. Water intakes o f broilers between 28 and 42 days old broilers were 478 and 502 ml
per day for mash and pellets, respectively. The intake o f water per 100 g o f BW decreased
from 36 ml to 34 ml in mash form diet fed birds and from 40 ml to 36 ml in pelleted diet
fed birds during day 28-35 and day 35-42, respectively. In contrast, the water intake per
unit o f feed ingested increased as birds grew. Water: feed ratio o f the mash form diet fed
birds during day 38-35 increased from 2.9 to 3.6 during day 35-42. Similarly, when
pelleted diets were given, the water: feed ratio increased from 3 to 3.7 during day 28-35 to
day 35-42 periods. It was concluded that growth performances o f broiler chicks fed
reground pellets in mash form are comparable with the broilers fed pelleted form o f the
same diet.