A study of the effects of nutritionally-induced bodyweight differences on ovarian function in the ewe : a thesis presented in partial fulfilment of the requirements for the degree of Master of Agricultural Science in Animal Science at Massey University
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Date
1987
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Massey University
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Abstract
The aim of this study was to investigate the mechanisms by which
nutritionally-induced bodyweight differences(i.e.the so-called "static
bodyweight effect") influence ovulation rate in sheep.
Seventy Romney ewes (5-7 years old) were randomly divided into 2
groups of 35 each and differentially grazed on mixed ryegrass/white
clover pastures for 12-16 weeks to generate two treatment groups
differing in mean bodyweight by 14.9±1.8kg (mean± s.e.d.) early in
the breeding season. Within each bodyweight (BWT) group, ewes were
further divided into 3 blocks. Blocks 1 and 2 were used for the main
experiment and only ovulation rate data were collected from ewes in
block 3.
The oestrous cycles of all ewes were synchronized by treatment
for 14 days with progesterone-impregnated intravaginal sponges. Two
weeks after sponge withdrawal, ewes in block 3 were subjected to
laparoscopy to record their ovulation rate.
After returning to oestrus following sponge withdrawal, ewes in
block 1 and 2 were housed indoors and fed a maintenance diet of
lucerne chaff until the end of the experiment about 16 days later. On
day 12 of the synchronized oestrous cycle, ewes were injected with
150vg cloprostenol to induce luteolysis. Laparotomies were performed
at 0, 24, 48 (block 1 only), and 76h after the prostaglandin treatment
to study the patterns of preovulatory follicular development. The
number of corpora lutea present on the ovaries at the time of the
first laparotomy were also recorded. Ewes were blood-sampled by
jugular venipuncture during the late luteal and follicular phases of
the cycle and the plasma concentrations of FSH and LH were measured.
After the laparotomy study, ovaries of the ewes were removed, fixed in
Bouin's fluid and the left ovaries serially sectioned at 10vm
thickness. Every 5th section was mounted and observed under a light
microscope to study the populations of follicles 0.2mm or greater in
diameter.
Ewes in the high BWT group (H) had significantly higher ovulation
rates than those in the low BWT group (L) (H=1.73±0.20, L=1.18±0.13,
P<0.001). On average, ovulation rate increased by 3.1% for each
kilogram increase in bodyweight. Significant relationships between
bodyweight and ovulation rate also existed within treatment groups
(P<O.OS). Compared with ewes in the low BWT group, ewes in the high
BWT group had more follicles ~2mm in diameter present on the ovarian
surface at the time of the first laparotomy(H=10.70±1.19, L=7.66±0.75,
P<0.001); a greater number of follicles being recruited early in the
follicular phase (H=3.79±0.19, L=2.80±0.30, P<0.05); and a lower
intensity of selection through atresia late in the follicular phase
(H=43.7±4.2%, L=53.9±5.5%, P<0.10). There were no differences between
BWT groups in the total number of follicles 0.2mm or greater in
diameter, their size distribution or rate of atresia, but ovaries of
ewes in the high BWT group had significantly more healthy follicles
greater than 2mm in diameter than those of ewes in the low BWT group.
Within treatment, bodyweight was significantly and positively correlated
with the numbers of healthy follicles of 0.5-1 and 1-2mm diameter.
Plasma FSH levels decreased during the follicular phase, but there was
no effect of treatment on mean FSH concentrations during the late
luteal and follicular phases. For ewes in block 2, preovulatory LH
surges had occurred in most animals by about 72h after prostaglandin
injection, with no difference in the time interval from prostaglandin
injection to the onset of the LH surge (H=60.8±3.8h, L=60.9±3.1h,
P>O.lO).
It is concluded that variation in ovulation rate due to nutritionally-
induced bodyweight differences is associated with changes in
the number of follicles being recruited into the actively growing pool
shortly after luteolysis and the proportion of the recruited follicles
that become atretic at the time of selection late in the follicular
phase of the oestrous cycle. However, large differences in bodyweight
do not appear to influence the antral follicle populations in the
ovary. FSH, which plays many important roles during follicular
development, may not be involved in the control of bodyweight-induced
variation in ovulation rate.
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Keywords
Sheep, Reproduction