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Sheep Extension Program
Montana Farm Flock Sheep Production
Handbook
Nutrition Part 1 - Section 5 of 7
By Rodney Kott, Extension Sheep Specialist,
Animal & Range Sciences Department, Montana State
University
Ultimately, the production of sheep is
controlled by their economic efficiency in converting
available feed resources into products of economic value.
Productivity of the pasture, rangeland or forage crop
will largely dictate the maximum levels of productivity
the sheep producer can achieve.
Supplying the nutrient needs of a sheep
represents the single, largest expense in the total
cost of raising sheep. Because of this, a solid understanding
of nutrition is necessary in order to minimize the annual
cost of production yet maintain optimum production levels.
The National Resource Council (NRC) established a fairly
precise set of nutrient requirements for sheep for various
stages of production and with different levels of productivity.
These resources represent the most current understanding
of the needs of sheep for specific nutrients such as
energy, protein, minerals and vitamins in order to meet
clearly defined production objectives. Requirements
presented in these publications should be used as guidelines
and not as rigid standards. The most common misinterpretation
of these recommendations is that each production system
must provide for these nutrient levels and weight changes.
Deviations from this system are possible, however, short-term
deviations must be compensated for over the course of
the entire production cycle if optimum production is
to be maintained.
NUTRIENT REQUIREMENTS OF SHEEP (Adapted from
NRC, 1985)
| |
DM Intake
(lb) |
Energy |
Crude
Protein
(lb) |
Ca
(g) |
P
(g) |
TDN
(lb) |
ME
(lb) |
| Ewes
(132lb) |
| Maintenance |
2.6 |
1.5 |
2.4 |
.25 |
2.5 |
2.4 |
| Flushing |
4.0 |
2.3 |
3.8 |
.36 |
5.7 |
3.2 |
| Gestation |
 Early |
3.1 |
1.7 |
2.8 |
.29 |
3.5 |
2.9 |
| Last
4 weeks gestation: (130-150 % lambing rate) |
4.0 |
2.3 |
3.8 |
.42 |
6.2 |
5.6 |
| Last
4 weeks gestation: (180-225 % lambing rate) |
4.2 |
2.8 |
4.4 |
.47 |
7.6 |
4.5 |
| Lactation |
|
|
|
|
|
|
| First 6 weeks (singles) |
5.5 |
3.6 |
5.9 |
.73 |
9.3 |
7.0 |
| Last 6 weeks (singles) |
4.0 |
2.3 |
3.8 |
.42 |
6.2 |
5.6 |
| First 6 weeks (twins) |
6.2 |
4.0 |
6.6 |
.92 |
11.0 |
8.1 |
| Last 6 weeks (twins) |
5.5 |
3.6 |
5.9 |
.73 |
9.3 |
7.0 |
| |
DM
Intake
(lb) |
Energy |
Crude
Protein
(lb) |
Ca
(g) |
P
(g) |
TDN
(lb) |
ME
(lb) |
| Replacement
(90 lb.) |
| Ewe lambs |
3.1 |
2.0 |
3.3 |
.39 |
5.9 |
2.6 |
| Ram lambs |
4.0 |
2.5 |
4.1 |
.54 |
7.8 |
3.7 |
| Lamb Finishing |
| 60 lb |
2.9 |
2.1 |
3.4 |
.42 |
6.6 |
6.2 |
| 90 lb |
3.5 |
2.7 |
4.4 |
.41 |
6.6 |
3.3 |
Nutrient needs
The nutrients of primary importance in
sheep are: water; energy as measured by total digestible
nutrients (TDN), metabolizable energy (ME) or net energy
(NE), protein either crude or digestible protein; minerals
and vitamins.
Water
Water, although often overlooked, is one
of the most important nutrients required for life. An
adequate supply of clean, fresh water is essential to
efficient sheep production. Inadequate water consumption
will reduce feed and forage intake and compromise performance.
In fact, a deficiency of water will cause death much
faster than a deficiency of any other nutrient. Daily
water consumption of ewes will vary from .72 gallons
during the cold winter months, to 1.5 gallons during
the late winter months when temperatures begin rising,
to as high as 2.2 gallons when sheep consume dry forage
such as saltbush. In some instances ewes can meet their
winter water needs by eating snow.
Energy
Insufficient energy probably limits performance
of sheep more than any other nutritional deficiency.
It may result from inadequate amounts of feed or from
feeds of low quality. The energy requirements of a ewe
varies greatly with her stage of production.
Adequate amounts of energy are extremely
important during late gestation and during early lactation.
Energy shortages are often complicated by protein or
mineral deficiencies. A sheep's energy needs can, in
most instances, be supplied by feeding good quality
pasture, hay or silage. Additional energy is generally
needed immediately before and after lambing, in conditioning
ewes and rams for breeding and in finishing lambs. Grains
such as barley, corn, wheat, oats and milo are generally
used to raise the energy level when supplementation
is necessary. During lactation a ewe's metabolic energy
requirements can at least partially be met by breaking
down body fat reserves.
Energy Requirements (154 lb ewe)
Protein
In most situations the amount of protein
supplied in the diet is more critical than protein quality.
Ruminants have the ability to convert low quality protein
sources to high quality proteins by bacterial action.
Protein available for digestion in the small intestine
thus consists of microbial protein and feed protein
that has escaped microbial breakdown in the rumen. Microbial
protein synthesis is sufficient to supply the sheep's
protein needs provided adequate precursors are available,
except during lactation in high milk producing ewes
and in very young lambs when rumen activity is limited.
Green pastures, when comprising the
complete diet, will provide adequate protein for most
classes of sheep. When ranges are mature and bleached,
or have been dry for an extended period of time, and
when grass hay or high grain rations are fed, additional
protein may be needed. High protein feeds are often
added to creep rations because they are usually extremely
palatable and stimulate appetite and digestive activity.
In isolated instances, it may be beneficial to feed
proteins with a high bypass value.
Protein Requirements (154 lb ewe)
There are 15 minerals that have been demonstrated
to be essential in sheep nutrition. They are: sodium,
chlorine, calcium, phosphorus, magnesium, potassium,
sulfur, cobalt, copper, iodine, iron, manganese, molybdenum,
selenium and zinc. Although relatively precise requirements
have been published for the different minerals, it should
be recognized that in practice the true dietary requirements
vary greatly depending on the nature and amount of these
and associated minerals in the diet. A number of mineral
balances (e.g. calcium and phosphorus, copper to molybdenum,
selenium and vitamin E) must be considered when establishing
the actual requirements under specific conditions.
Most of these are met under normal grazing
and feeding habits. In many situations poor animal performance
is attributed to a mineral deficiency, when in fact
it is due to something else. Under normal grazing situations
minerals most likely to be deficient are salt (sodium
chloride) and phosphorus. Selenium has been shown
to be deficient in certain areas of Montana and the
U.S.
Trace mineralized salt is usually fed
to sheep free choice. However, care should be taken
to be sure that the trace mineral mixtures are specifically
developed for sheep and do not contain the high levels
of copper commonly found in beef, dairy, swine and poultry
trace mineral mixes. Most trace mineralized salt mixtures
formulated for sheep provide 8 of the 15 essential minerals
(Na, Cl, I, Co, Fe, Mn, and Zn). The minerals that are
normally provided in sufficient amounts in natural feedstuffs
include K, Mg, Fe, Cu and Mn. It is important to note
that trace mineral salt does not usually supply phosphorus.
Salt: Salt serves many functions
in the body. When deprived of salt, sheep will consume
less feed and water. As a general rule, sheep producers
should provide supplemental salt to their sheep. Salt
is generally fed to ewes at the level of .25 to .4 ounces
per head per day. It can be fed "free choice"
or added to the feed mix.
Calcium and Phosphorus: Most pastures,
hays and other forages contain adequate levels of calcium
for sheep and thus calcium supplementation is seldom
necessary. However, grains are somewhat deficient in
calcium and thus supplementation is often beneficial
when sheep consume diets that consist primarily of grains
or corn silage.
Mature pasture and range forage is often
deficient in phosphorus. Grains, however, are relatively
high in phosphorus content. Since in most situations
a high percentage of a sheep's diet will consist of
roughage or pasture, phosphorus supplementation is often
beneficial. The most desirable way to supply additional
phosphorus, when needed, is by adding it directly to
the feed mix. This, however, is not always practical
or feasible. It is sometimes more convenient to supplement
the sheep's diet with a high-phosphorus mineral mix.
The ratio between calcium and phosphorus
must be considered when balancing sheep rations. Although
ratios of 5 or 6 to 1 (calcium to phosphorus) seem satisfactory,
a ratio of 2:1 is ideal for most sheep rations. Feedlot
lambs or growing rams fed diets high in grain are prone
to urinary calculi. In these situations the incidence
of urinary calculi can be reduced by raising the calcium
to phosphorus ratio to 3 or 4 to 1.
Copper: There is a delicate balance
between the copper requirement and copper toxicity in
sheep. In most cases, sheep can meet or exceed
their dietary requirements for copper from normal feeds
and thus do not require additional copper. Sheep are
more susceptible to copper toxicity problems than most
other livestock species. Errors in feed mixing frequently
result in death due to copper toxicity.
Copper requirements of sheep are dependent
on dietary and genetic factors and, therefore it is
almost impossible to develop a set of well defined requirements.
In fact, it has been shown that dietary amounts of copper
that are adequate in one situation may be deficient
in another and possibly toxic in a third situation.
Concentration of molybdenum is a major dietary factor
affecting the ewes copper requirement. Molybdenum forms
an insoluble complex with copper which reduces its absorption
thus increasing the dietary levels needed to meet requirements.
Also Merino breeds of sheep generally are less efficient
in absorbing copper from feedstuffs than British breeds
of sheep.
Although it is impossible to give the
exact requirements and toxic levels, the recommended
copper allowance is 7 to 10 mg/kg DM when the Molybdenum
content in the diet is below 1.0 mg/kg up to about 14-20
mg/kg when molybdenum content is above 3.0 mg/kg. It
should be stressed that these are just guidelines and
may vary drastically from situation to situation. When
selecting a trace mineral mix for sheep, it is generally
recommended to choose one that contains no or minimal
copper. Mineral mixes providing over 4 mg of copper
per ewe per day should be avoided.
Selenium: In sheep there is a very
narrow range between the amount of selenium that is
required in the diet and that which will be toxic. Diets
containing less than .1 ppm selenium are deficient while
those containing over 2 ppm are above the maximum tolerable
level. White Muscle Disease in lambs results from a
deficiency of selenium and possibly vitamin E. A marginal
deficiency in selenium can result in reduced reproductive
performance and increased lamb mortality. This deficiency
can be prevented by giving injections of a commercial
product containing both selenium and vitamin E. Selenium
and or vitamin E can also be added to the entire ration,
supplement or salt-mineral mix of sheep. Probably the
most practical and effective way of supplying selenium
to sheep is by feeding a salt-mineral mix containing
selenium. There are many excellent ones on the market.
Do not try to mix your own. When supplementing selenium
(either by feeding or injection), producers should follow
the manufacturer's or veterinarian's recommendations
very closely. There may be some instances in sheep nutrition
where, "If a little is good, a lot is better."
However, "a lot" of selenium can be lethal.
Vitamins
Mature sheep require all of the fat-soluble
vitamins: A, D, E and K. They usually do not require
the B vitamins since these are synthesized in the rumen.
Normally, the forage and feed supply all of the vitamins
in adequate amounts. Vitamin A can become deficient
if sheep have been grazing on dry or winter pastures
for an extended period of time. Sheep, however, store
Vitamin A for a considerable time, and if ewes have
been on green forage or have had access to high-quality
legume hay, Vitamin A is usually not deficient. Vitamin
D deficiencies may develop in confined sheep. Sheep
raised outside will usually have sufficient vitamin
D as sunlight builds a store of this vitamin in the
body.
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