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Collecting and Evaluating Semen from Boars

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Collecting semen from boars
Boar semen collection is commonly done in closed herds where, for health reasons, it is
unwise to put introduced boars with the herd. These boars are kept well away from the main
herd in pens equipped with a dummy sow.
In piggeries relying on natural mating, artificial insemination (AI) is used in emergencies
when death, lameness or refusal to work decreases the number of herd boars fit for service.
AI can also be used to overcome the size difference between boars and sows.
Who may collect semen
The Queensland Artificial Breeding of Stock Act 1979 does not apply where:
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an owner (or a person acting under his authority) collects and/or processes semen
from his own boar
the owner's sows are inseminated with this semen or semen which is approved for
use on the owner's premises and there is multiple ownership of a boar.
The Act and Regulations do apply where:
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the stock involved do not belong to the piggery owner
the semen is supplied to someone, not the owner of the boar.
A veterinarian must be present at artificial breeding centres when semen is being collected,
the premises must be registered and certain technical staff must have appropriate
certificates of competency.
Equipment
Dummy sow
Semen is collected while the boar mounts a dummy sow. This is preferable to using an
oestrus sow when semen is routinely collected. It avoids size differences between animals
and the sow's reluctance to support the boar's weight until ejaculation is completed. Using
an oestrus sow is feasible when only collecting occasionally. Figure 1 shows dimensions for
an adjustable dummy sow.
Figure 1. Adjustable dummy sow
Other equipment
A plastic insulated flask or polystyrene cups (minimum capacity, 250 mL) commonly
available from supermarkets are used for collecting semen. A semen filter (fitted over the
collection flask) is made from surgical or bandage gauze. A polythene graduated measuring
cylinder will be needed if semen is evaluated by volume.
Care of equipment
Soak reusable containers in cold water straight after use, making it easy to clean later. Gel
particles can be removed with a brush. Do not use soap or detergent because these
residues affect sperm viability. Rinse the containers several times in boiling water and allow
to dry, later storing them in a dust-free cabinet or in a sealed plastic bag.
Boar training
Young boars are easily trained to mount a dummy sow, but boars normally used for natural
mating may be more difficult. To train a boar, place the dummy sow in an area the boar
knows, such as his pen or the mating pen (in strange territory he may start by exploring the
surroundings). The smell of another boar's semen, saliva and sow urine on the dummy
helps stimulate the trainee boar to mount and thrust. If the boar does not react to the
dummy, use an oestrus sow to arouse him; collect a little semen before removing her. His
own semen smeared on the dummy may attract him to it, however this procedure is seldom
needed.
Rough handling, an injury or a fall during training can discourage the trainee boar. The
dummy must be set at the right height for him, be stable, comfortable, have no sharp
projections and stand on a dry, slip-free floor. Use a non-slip mat to overcome any floor
surface problems.
Collection
Use a shady, draught-free area when collecting semen since exposure to ultra violet light,
sudden temperature changes and water contamination lower the spermatozoa's viability.
When the boar is mounted on the dummy grasp the spiral end of the penis with the hand
(gloved or bare, it must be clean, dry and warm). Allow the boar to thrust through the
clenched hand a few times before applying pressure. Hand pressure on the spiral part of
the penis imitates that of the oestrus sow's cervix, stimulating ejaculation. With experience,
it becomes obvious that some boars prefer more pressure than others. The long hairs
around the boar's prepuce should be clipped to minimise injury.
When the penis is 'locked' in the hand and the boar relaxes, a four-phase ejaculation follows
in a few seconds, taking 5 to 10 minutes to complete. The first phase, called the pre-sperm
fraction, has clear seminal fluid, some gel, dead sperm cells and is heavily contaminated
with bacteria. It should not be collected.
The next phase is the sperm-rich fraction, easily recognised by its creamy-white colour.
Although only 50 mL in volume, it contains the greatest density of spermatozoa. Because
spermatozoa are very sensitive to rapid temperature change, a warm, dry, insulated
collecting flask is required to safeguard semen fertility. The third fraction, greyish because
of lower density of spermatozoa, accounts for about 80 mL of the collection. Fractions two
and three only are collected when semen is to be diluted for storage over a few days.
The fourth phase or post-sperm fraction provides the large semen volume peculiar to pigs.
Up to 250 mL of clear seminal plasma free of spermatozoa plus gel is secreted from the
accessory glands. The gel portion apparently has no physiological significance. It is
separated from the collection by several layers of gauze or a similar filter fastened over the
collection flask. Filtering particles of gel from the semen prevents catheter blockage during
insemination. Hair, skin or dust particles from the boar or dummy must also be excluded
from the flask during collection.
Large amounts of gel signal the end of ejaculation. When it is clear the boar's erection is
fading, a second ejaculation can be stimulated with brief, firm, pulsating hand pressure
applied to his penis.
Frequency
To ensure high sperm cell concentration and semen volume, do not collect boars more than
three times a week. Collect twice a day or on two successive days to re-inseminate females
bred 8 to 12 hours before. Excessive collection in a short time reduces the quality and
quantity of semen and the boar's sex drive.
Evaluating semen
Volume
This is measured in a warm, dry calibrated flask. Semen volume varies between 100 and
500 mL; a large volume does not mean the total spermatozoa content is greater than that
from smaller ejaculates. If the semen is to be used undiluted, its volume determines the
number of inseminations possible from each collection. The dose per insemination is
between 50 and 100 mL.
Motility
Subjective assessment of sperm cell motility is the best way of estimating semen quality.
Semen from obviously fertile boars need not be routinely evaluated unless dilution is
required for inseminating a large number of sows.
Using the low power lens (x50) of a microscope, examine semen on a warm slide (30 to
35°C) immediately after collection. Good quality semen shows a typical 'wave' motion and
individual spermatozoa movement. A poor sample shows weak motility and 'clumping' of
spermatozoa.
Motility depends on how much of each fraction is collected. If the collection is mainly spermrich fraction, there is higher motility and wave motion than when accessory fluids dilute the
semen.
Density
Accurate estimates of semen density are needed only with high dilution rates done at
artificial breeding centres. Density varies from 100 to 500 million sperm cells per mL with 60
to 80 billion in a normal ejaculation. Density is also influenced by how much post-sperm
fraction is collected.
Abnormalities
Estimates of dead and abnormal spermatozoa in each collection are normally only done at
artificial breeding centres. Abnormalities include detached heads, bent and returned tails,
broken tails and twin heads or tails. There are more immature sperm cells - evident by
protoplasmic droplets on their tails - when the boar has been overworked.
If total abnormalities are less than 25%, semen quality is satisfactory.
Processing and storing
The semen collected on-farm can be used undiluted fresh or diluted chilled.
Undiluted fresh semen
Procedures for microscopic evaluation, extension and storage of semen can be complex
and are rarely needed in small within-herd AI programs. Keep the semen at the temperature
collected (34°C) and use within a few hours. Best results are obtained when 100 mL of gelfree fraction is used. Before dividing the semen into doses, gently rock the container to
disperse sperm cells settled on the bottom. Results with fresh semen compare with those
from natural mating. Undiluted semen from young boars can be used to inseminate two or
three sows while from older boars, four to six inseminations are possible from one
collection.
Diluted semen
A simple skim milk diluent can be used but it protects semen for only a few hours. More
complex diluents allow chilling of semen and extend 'shelf-life' to several days. Diluents are
available from artificial breeding centres and can be freeze-stored until required. They are
preferable to the milk diluent. For on-farm AI programs, one part gel-free semen is added to
four or five parts diluent; for example, 20 mL of good quality semen is made up to 80 or 100
mL with diluent. Higher dilution is possible when accurate estimates of total live and normal
spermatozoa are made.
Diluting semen
The basic steps for dilution are:
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dilute only the sperm-rich fractions when storage is to exceed 24 hours (seminal
plasma does not protect semen during storage but some inclusion is not detrimental)
warm the diluent to semen temperature (32 to 35°C) by standing the diluent
contained in a warm water bath
to avoid diluent shock, gently add the diluent to the semen, not the semen to the
diluent
gently agitate the semen before pouring 80 to 100 mL of diluted semen into the
inseminating bottles
allow semen to cool slowly for one hour to around 20°C
over the next hour, cool semen further to between 15 and 20°C and store at this
temperature range
gently swirl semen twice daily to prevent sedimentation.
In cool weather storage at 15 to 20oC is not difficult but summer presents problems. Storage
in small polystyrene boxes using frozen glacial acetic acid as a refrigerant is successful.
Rubber balloons partly filled with water and then frozen work in a similar way. This method
requires monitoring and extra refrigerant added when needed. To avoid cold spots the
refrigerant must not directly contact the semen bottles so the box must be fitted with
dividers.
With large-scale AI programs, more reliable methods of chilling semen are advisable.
Household refrigerators are unsuitable but some portable models can be adjusted to
maintain the temperature range required.
Summary
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AI helps maintain health status of closed herds.
Queensland legislation allows do-it-yourself AI on your own farm and pigs.
Young boars can be easily trained to mount dummy sows.
Use a clean semen collecting flask that filters out gel, dust and bristles.
Choose a shady collecting area.
Maximum semen collection per boar - three times weekly.
Ejaculate volume indicates number of inseminations possible.
Microscopic assessment of sperm cell motility indicates quality of semen.
Boar semen can be used fresh or diluted.
Keep chilled dilute semen at 15 to 20oC in a polystyrene box, not a refrigerator.
AI results with chilled semen are best if done within 72 hours of collection.
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