Mushi_247-249.qxd


INTRODUCTION

Utilization of yolk sac in the ostrich (Struthio came-
lus) is an important aspect of its post-hatching de-
velopment (Bertram & Burger 1981). There is limited
information as to when yolk sac resorption in ostrich
chicks occurs (Keffen & Jarvis 1984; Deeming
1995). The latter author suggested a 10–14 day
period for yolk utilization to be completed. This pro-
cess has been more intensively studied in avian
species other than the ratites (Paganelli, Oliszowka
& Ar 1974; Moran & Reinhart 1980; Matshusita
1986; Murakami, Akiba & Horiguchi 1992; Reidy,
Atkinson & Leeson 1998). In the ostrich, failure to
establish when yolk sac is considered “retained”
has often led to unnecessary surgical excision of
the yolk sac (deutectomy). This surgical operation

would be justified in conditions such as omphalitis
among others (Huchzermeyer 1994).

The main purpose of this study was to investigate
the process of ostrich yolk sac resorption, the pos-
sible pertinent factors involved in this phenomenon
and the clinical implications.

MATERIALS AND METHODS

Using sterile disposable gloves a total of 1 036 eggs
were collected in the ostrich laying season from June
2002 to February 2003. These eggs were placed in
sponge-padded, well-ventilated boxes twice a day,
on the same day they were laid, to prevent brood-
ing by the hens. The eggs were buffed with dry steel
wool to remove dried mud on the surface and trans-
ported on their sides. Subsequently they were la-
belled to indicate source camp and date of collec-
tion. The eggs were weighed on an electronic bal-
ance (Adam Equipment Co., UK) and the mass of
each egg recorded on the shell. The eggs were
fumigated with a mixture of 200 g potassium per-
manganate 300 ml 40 % formaldehyde in a special

247

Onderstepoort Journal of Veterinary Research, 71:247–249 (2004)

RESEARCH COMMUNICATION

Yolk sac utilization in ostrich (Struthio camelus)
chicks

E.Z. MUSHI1, M.G. BINTA2 and R.G. CHABO1

ABSTRACT

MUSHI, E.Z., BINTA, M.G. & CHABO, R.G. 2004. Yolk sac utilization in ostrich (Struthio camelus)
chicks. Onderstepoort Journal of Veterinary Research, 71:247–249

The mass of residual yolk sac expressed as a percentage of initial mass of the egg from which the
chick hatched decreased sharply in the first 2 days post-hatching. A gradual reduction occurred
between 3 and 10 days after which a sharp decline was noted between 11 and 13 days post-hatch-
ing. The highest number of chicks with unabsorbed yolk sac was noted on day 5 post-hatching fol-
lowed by days 6 and 7. Chick mortality followed the same pattern. The dynamics, causes and clini-
cal consequences of yolk sac utilization are discussed.

Keywords: Ostrich, Struthio camelus, yolk sac

1 Botswana College of Agriculture, Private Bag 0027, Gab-
orone, Botswana

2 National Veterinary Laboratory, Private Bag 0035, Gab-
orone, Botswana

Accepted for publication 15 March 2004—Editor



room and afterwards stored at 12–18 °C, relative
humidity (RH) of 70–80 % in a cold room. Prior to
transfer to the incubator, the eggs were warmed at
25 °C for 8–12 h and then set on day 10. Incubation
was done at 36.2 °C and 42 % RH.

Eggs were frequently weighed to assess water loss
by the embryo. They were turned 45 ° to each side
of the vertical, six times a day. As hatching was
expected to occur at day 42, the eggs were incu-
bated for between 35–39 days, after which they
were placed in a hatcher where the temperature
was 0.5–1 °C lower. Eggs were now candled every
3 h to assess whether the chicks had pipped inter-
nally. Hatching chicks were not assisted, in order to
prevent the establishing of a weak population of
chicks. Once hatched, the umbilical cord was treat-
ed with a tetracycline-containing wound spray. The
chicks were left to dry off completely and to settle
down in a clean rest room. Prior to their removal
from the drying room, the chicks were given either
a commercial probiotic (Enteroform) or yoghurt
depending on their availability.

Post-mortem examinations were conducted on all
dead ostrich chicks from day 2 to day 13 post-
hatching. The carcasses were refrigerated at 4 °C
and autopsies were performed at most 2 days after
death. The mass of the chick and of any residual
yolk sac in the abdomen were recorded. Swabs of
the yolk sac and viscera were taken for bacterial
and fungal culture.

RESULTS

There was variation in the initial mass of the eggs,
the average mass being 1.5 ± 0.5 kg. The post-

mortem examinations revealed that the chicks died
from a variety of causes including omphalitis, star-
vation, dehydration, septicaemia and enteritis. High
chick mortality was noted in the chicks aged be-
tween 3 and 11, peaking on days 6 and 7. It grad-
ually declined after day 13.

The highest number of dead chicks with unabsorbed
yolk sac was in the 3–11 day age group as depicted
in the histogram in Fig. 1. The yolk sac mass was
expressed as a percentage of the initial mass of the
egg from which the chick hatched. At the time of
hatching, it was noted that the yolk sac contributed
to about 19.5 % of the initial egg mass. A sharp
reduction in the mass of the yolk sac expressed as
a percentage of the initial egg mass was realized in
the first 48 h post-hatch. Thereafter a gradual
decline occurred from day 3 to day 10. Subsequent-
ly, within 2 days, a sharp temporary increase was
noted which fell precipitously to insignificant levels
within a day.

The bacteriological culture of yolk sacs yielded var-
ious bacterial species, amongst others Staphylo-
coccus spp., Escherichia coli, Bacillus lichenformis,
Achromobacter spp. and Acinebacter calcoaceticus.

DISCUSSION

The mass of the 1 036 ostrich eggs that were incu-
bated ranged from 1.4–1.6 kg. These values were
comparable to those obtained by Keffen & Jarvis
(1984) and Foggin (1992). The results obtained in
this study suggest that the presence of a yolk sac
in a chick beyond day 13 should be considered as
retained. Studies conducted by Murakami et al.
(1992) indicated that the residual yolk sac plays a

248

Yolk sac utilization in ostrich chicks

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FIG. 1  Number of chicks with unabsorbed egg yolk FIG. 2 Relationship between age of a chick (n =  ) and the
mass of the residual yolk expressed as  percentage of
the initial egg mass from which the chick hatched



crucial role in complementing the nutrients absorbed
to assure rapid growth of the chick once it has
hatched. The yolk sac is therefore necessary for
early initiation of growth, since dietary fat is only
effective at 10 days after hatching (Chamblee,
Brake, Schultz & Thaxton 1992). It has been found
that in the avian uptake of fructose increases after
hatching, which allows the inherent yolk glucose
resources or reserves to become a major source of
energy, as the yolk sac lipids are rapidly depleted
(Sklan 2003). The presence of the enzyme sucrase
in the yolk sac of the chick emphasizes the role
played by the yolk sac in growth initiation during
pre-hatch and post-hatch period (Matsushita 1986).

There was a precipitous fall in the mass of yolk sac
within the first 48 h period post-hatch. In newly-
hatched broiler chicks, absorption of the yolk sac
was found to precede initiation of growth within
24 h (Chamblee et al. 1992). Loss of mass of the
egg yolk in the chickens between the ages of 3 and
11 days post-hatch was variable. The gradual
decline in mass may partly be attributed to the var-
ied rate at which yolk constituents, mainly lipids and
carbohydrates, are utilized by the growing chick
(Moran & Reinhart, 1980; Reidy et al. 1998). The
rate of yolk sac utilization is known to be influenced
by exogenous feeding (Noy & Sklan 2001). It is also
possible that various fractions of lipids are metabo-
lized at different rates in the chicks as described by
Reidy et al. (1998). Yolk sac utilization has been
shown to be more rapid in fed rather than fasted
birds, suggesting that the transport of yolk through
the intestine could be increased by the greater
intestinal motility found in chicks receiving feed
(Noy & Sklan 2001). This finding lends support to
the recommendation that ostrich chicks should be
fed on the day they hatch, which is contrary to the
common belief that dietary intake of carbohydrates
and lipids delays yolk sac absorption.

The results of this study suggest that unless the
yolk sac is infected, its early removal, before ostrich

chicks are 10 days old, may be detrimental. Deu-
tectomy has been shown to delay growth by 2 days
(Murakami et al. 1992). Systemic infections or lack
of exercise may also reduce chick metabolism and
slow down yolk sac utilization.

REFERENCES

BERTRAM, B.C.R. & BURGER, A.E. 1981. Aspects of incuba-
tion in ostriches. Ostrich, 52:36–43. 

CHAMBLEE, T.N., BRAKE, J.D., SCHULTZ, C.D. & THAXTON,
J.B. 1992.Yolk sac absorption and initiation of growth in
broilers. Poultry Science, 71:1811–1816.

DEEMING, D.C. 1995. Possible effect of microbial infection on
yolk utilization in ostrich chicks. The Veterinary Record, 136:
270–271.

FOGGIN, C.M. 1992. Veterinary problems of ostriches, in The
topaz introduction to practical ostrich farming, edited by
M.G. Hallam. Harare: The Ostrich Producers Association of
Zimbabwe.

HUCHZERMEYER, F.W. 1994. Transmissible diseases, in
Ostrich diseases, edited by F.W. Huchzermeyer, Agricultural
Research Council, Onderstepoort Veterinary Institute, Pre-
toria, South Africa.

KEFFEN, R.H. & JARVIS, M.J.F. 1984. Some measurements
relating to ostrich eggs. Ostrich, 55:182–187.

MATSUSHITA, S. 1986. Presence of sucrase in the yolk sac of
the chick. Journal of Experimental Zoology, 237:337–346.

MORAN, E.T. & REINHART, B.S. 1980. Poultry yolk sac amount
and composition upon placement: effect of breeder age, egg
mass, sex and subsequent change with feeding and fasting.
Poultry Science, 59:1521–1528.

MURAKAMI, H., AKIBA, Y. & HORIGYCHI, M. 1992. Growth
and utilization of nutrients in newly-hatched chick with or
without removal of residual yolk. Growth Development Aging,
56:75–84.

NOY, Y. & SKLAN, D. 2001. Yolk and exogenous utilization in
the post-hatch chick. Poultry Science, 110:490–495.

PAGANELLI, C.V., OLISZOWKA, A.J. & AR, A. 1974. The avian
egg: surface area, volume and density. Condor, 76:319–
325.

REIDY, J.R., ATKINSON, J.L. & LEESON, S. 1998. Size and
components of poultry yolk sacs. Poultry Science, 77:639–
643.

SKLAN, D. 2003. Fat and carbohydrate use in post-hatch chicks.
Poultry Science, 82:117–122.

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E.Z. MUSHI, M.G. BINTA & R.G. CHABO