Abstract:
Ostrich (struthio camelus) chicks from the same hatch-group 2 days old and
weighing between 0.72 to 1.06kg were studied for 16weeks. A total of 44 chicks
were randomly assigned to two groups, 22 chicks in each. They were similarly
managed and fed except for the type of floor. One group was reared on concrete
floored room and yard, this group is later referred to as ‘Concrete group’. The
other group was reared on a normal sand ground yard, later referred to as ‘Sand
group ’.
The average weekly live body-weights of the chicks in the two experimental
groups were the same (p≥0.05) for the first two weeks of age. From the third
week to the eighth week, the sand-group had significantly higher average live
body-weights (p≤0.05) as compared to the concrete-group. From the ninth to
sixteenth week, there was no significant difference between the two groups in
terms of average live-body weight (p≥0.05)
There were a total of 7 cases of leg deformity in both groups (n = 44) of
chicks under observation; that is about 15.91%. Two cases were from the sand
ground (sand group) (28.57%); and five cases (71.43%) in the concrete group.
There were three cases of right leg-tibiotarsal rotation (42.86%), two cases of
left leg-tibiotarsal rotation (28.57%) and two cases in which both legs
(bilateral) were affected (28.57%).
The mean bone-calcium and phosphorus percentages of the affected leg bones
were significantly lower than that of the normal leg bones (p≤ 0.05). For normal
bones, the levels were calcium 17.92 ±1.84% and Phosphorus 8.57± 0.75%.
Deformed leg bone values were calcium, 15.29 ±1.02% and phosphorus 7.33±
0.51%.
Serum analysis results for chicks affected with leg deformity were Calcium
7.02±0.852 mg/dl (5.64-8.01 mg/dl), Total Phosphorus 8.10±0.65 mg/dl
(7.19-9.30 mg/dl), Zinc 0.16±0.066 μg/dl (0.06-0.24 μg/dl), Manganese
2.33±0.852 μg/dl (1.35-3.42 μg/dl), Copper 54±17.49 μg/dl (37-55 μg/dl), and
Selenium 17.86±7.31 μg/dl (11.13-25.63 μg/dl).
iiiThere were two outbreaks of E.coli infection in the concrete group while there
was none on the sand group. Geophagy which caused sand impaction in the
proventriculus, gizzard and intestines has affected seven chicks of the sand
group; while eye-pecking and coprophagy developed in the concrete group;
none, on the sand group.
A total of fifteen chicks died among the chicks under study (34.09 %; n=44).
Five (11.36 %) chicks died from the sand group and ten (22.73%) from the
concrete group.
The five chicks of the sand group died (22.73 % ; n=22). Two chicks died due
to leg deformity (9.09 %, n=22) and three due to sand impaction (13.64 %,
n=22).
Ten chicks died in the concrete group resulting in 45.45 % mortality (n=22),
five died due to leg deformity (22.73%), three due to E.coli infection (13.64 %)
and one due to eye-pecking (4.55 %).
It is concluded that rearing on concrete floor resulted in higher mortality due
to leg deformity and infections, compared to rearing on sand floor. On the other
hand, rearing on sand floor poses a challenge in terms of control of geophagy.
Generally, rearing of ostrich chicks requires careful consideration of the
management practices to ensure not only their nutritional requirements, but also
their behavioral satisfaction.
