AbstractThe aim of this study was t

Abstract
The aim of this study was to determine changes in
quality of skeletal system in healthy or suffering from leg
deformities farm turkeys by measuring volumetric bone
density of trabecular and cortical bone, geometrical and
mechanical properties of femur and tibia. All animals were
kept under standard rearing conditions of commercial turkey
farms, with constant access to water and appropriate feed,
supplied in accordance with the stage of production cycle.
Bone samples were collected from two different groups of
turkeys after finishing the production cycle. To the first group
belonged control turkeys with physiologically developed and
properly functioning skeletal system. The second group
consisted of turkeys which suffered from leg deformities and
impaired locomotory function. Volumetric bone density of
femur and tibia were estimated for trabecular and cortical bone
Independent Effects of Hen Age and Egg Size on Incubation and Poult
Characteristics in Commercial Turkeys1ABSTRACT Nicholas hens from the same flock were
studied throughout the growing and laying periods.
From 36 to 55 wk of age, 800 eggs were collected at
approximately 5-wk intervals. At each age, a subsample
of 100 eggs were randomly selected for egg weight, yolk
weight, yolk DM, and yolk lipid (DM). The remaining
700 eggs were individually weighed and incubated. All
eggs were reweighed at 25 d (transfer) and poults were
individually weighed at hatch. At each sampling age, 50
poults were selected for analysis of yolk sac weight, yolk
sac DM, and yolk sac lipid (DM). From 33 to 45 wk,
mean hen BW decreased 0.9 kg. Across all ages, the
relative weight of abdominal fat decreased more than
INTRODUCTION
The 1993 commercial turkey grew twice as fast as the
commercial turkey of 1963 (Lilburn, 1994) and with a
considerable increase in breast muscle size (Lilburn and
Nestor, 1991). Selection for growth, however, can result
in increased carcass fat (Bacon et al., 1986) as well as
negative effects on egg production and hatchability
(Nestor, 1984; Nestor and Noble, 1995).
Turkey hens reach their maximal BW shortly after
photostimulation and then go through a period of BW
loss during the initial stages of egg production (Krueger
et al, 1978; Bacon and Nestor, 1982; Lilburn and Nestor,
1993). Much of this BW loss is as carcass lipid
(McCartney et al, 1977; Robel, 1984; Ferket and Moran,
1986; Lilburn and Nestor, 1993).
Hen age is positively correlated with egg size and egg
size is positively correlated with poult weight (Reinhart
and Moran, 1979; Shanawany, 1987). Increased egg
weight, however, is not necessarily accompanied by
proportional increases in egg components. Reidy et al.
(1994) reported that the weight of eggs from commercial
Received for publication January 30, 1996.
Accepted for publication June 11, 1996.
Claries and research support provided by State and Federal funds
appropriated to the Ohio Agricultural Research and Development
Center, The Ohio State University. Manuscript Number 198-95.
that of the Pectoralis major. Relative yolk weight
increased and relative albumen weight decreased with
age. Yolk sac weight and lipid content (DM) of the
poults at hatch increased markedly with age of hen.
Across all ages, eggs were divided into weight
classes. Initial egg weight had no effect on proportional
moisture loss at 25 d or on relative poult weight at
hatch. Egg moisture loss through 25 d was greatest in
eggs from 36-wk-old hens compared with hens at 41, 45,
50, or 55 wk. Mean poult weight increased from 62.6 g at
36 wk to 64.9 g at 55 wk. Relative poult weight increased
3% from 36 to 55 wk when corrections for initial egg size
were taken into consideration.