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APPLICATIONS AND
BENEFITS |
Stall Freshener:
One half inch of BRZ in a 14+40 size is laid down in the stall after cleaning.
It is then reapplied each time the stall is cleaned or at regular intervals on
top of the manure. The benefits are:
-
Adsorbs
moisture and creates a drier environment that reduces hoof problems and flies.
-
Adsorbs and
holds ammonium, the main source of odor.
-
The BRZ and
manure make an excellent soil amendment.
Horses are fed from ½ to 2%
BRZ of 14+40 size in mash feeds, or -100 mesh in pelletized rations.
The
benefits are:
-
Increased rate
of gain.
-
Lowers the
conversion ratio. Less feed per pound of gain.
-
Improved
nutrient digestion.
-
Reduced
Scours.
-
Reduces
cribbing (chewing on wood).
-
Improves bone
growth.
-
Improves color
of coat.
-
Mineral:
A volcanic mineral called "clinoptilolite”
(see spec sheet)
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Size:
14 x 40, -100 mesh
-
GRAS: Classified as “GRAS”
(generally regarded as safe)
under 21 CFR Part 182.2729, 40 CFR Part 180.1001
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Color:
Pale green when dry, dark
green when wet
-
Moisture:
Holds up to 55% of its weight in water
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Surface
Area:
High surface area, 24.9 square meters/gram
-
Weight:
55 pounds per cubic foot
-
CEC:
High cation
exchange capacity (CEC) of 150 to 180 meq/100 gram
-
Calcium:
1.6%
-
Sodium:
<0.5% (no water soluble sodium)
-
Potassium:
3.47%
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Use of Natural
Zeolites in Feeding Sakha Horses
Natural Zeolites -
SOFIA’95 Kirov, G., L. Filizova & O. Petrov (eds.) 1997, p. 73-74
Revory V. Ivanov
Yakutsk, Russian
Federation |
INTRODUCTION
The effect of natural
zeolites in the feeding of domestic animals is of particular importance for
their diet.
The purpose of the present
paper is to study the influence of additions of natural zeolites to
the diet on
the growth of young horses during the autumn and winter periods.
EXPERIMENTAL
The first experiment was
preformed with Yakutian (Sakha) horses at an age of 1.5 years.
A group
consisting of 30 horses was divided into 2 subgroups according to weight, sex
and
age. At the beginning of the experiment the weight of a horse in the control
group (no.1) was
about 244 kg. The duration of the experiment was 45 days and
the diet consisted of 10 kg of
hay and 5 kg of oats. A natural zeolite (clinoptilolite)
was added to the food of group 2. The
second experiment was performed with
horses at an age of 11 months which were
combined in two groups with 6 horses in
each kept in different enclosures. The basic diet
consisted of 5 kg of hay and 2
kg of oats. The foals in the experimental group received 70 g
of zeolite per
head daily within the basic diet. On the 30th day of the experiment 3
foals from
each group were taken to control the digestion. The control
methodology was the usual one
for big domestic animals. The duration of the
registration period was 6 days.
RESULTS AND DISCUSSION
At the end of the first
experiment the foals from group 2 (experimental) weighted 5 kg more
than the
foals in group 1 (control). The daily increase was 200 g (15% more than in the
control group). The actual consumption calculated by the expenditures of fodder
units
per kg of increase was 6.3 fodder units in the control group and 5.5
fodder units in group 2,
hence it follow that to enjoy a 1 kg weight increase
the animals spent 12.7% less nutrient
energy. Large differences in the contents
of common protein and its fractions in the blood
serum of the horses in each
group were not registered. Differences in the urea and
residual nitrogen
contents were not registered either.
These results show that the
addition of a zeolite does not cause any special changes in
protein exchange
(table 1). From Table 1 it is seen that the contents of sugars in the blood
of
the experimental horses are by 45% higher which is evidence that the rate of
metabolism
in the organism is higher.
Table 1. Contents of sugars
and nitrogen-containing compounds
in the blood serum of the horses.
|
Group |
Period |
Sugars, ml% |
Urea |
Residual Nitrogen |
|
Controlled |
Beginning |
16.2 ± 1.1 |
25.8 ± 0.2 |
22.9 ± 0.5 |
|
End |
15.2 ± 1.0 |
30.2 ± 0.8 |
25.1 ± .04 |
|
Experimental |
Beginning |
15.3 ± .08 |
27.6 ± 0.9 |
23.8 ± 0.5 |
|
End |
22.0 ± 0.3 |
31.2 ± 2.0 |
25.0 ± 1.0 |
Table 2. Forage examples
identical to the consumed ones and digestion coefficients.
|
Menu Group |
Dry substances |
Raw protein |
Raw grease |
Raw cell material |
|
Chemical Analysis |
|
Hay |
- |
11.7 |
39.2 |
1.49 |
|
Oats |
- |
14.3 |
14.1 |
2.93 |
|
Digestion Coefficients |
|
Controlled |
60.2 ± 1.6 |
61.3 ± 1.6 |
46.3 ± 2.2 |
45.3 ± 2.2 |
|
Experimental |
65.3 ± 0.3 |
60.1 ± 0.3 |
67.8 ± 1.7 |
45.5 ± 0.6 |
Table 2 shows that the
addition of 70 g of a zeolite to the diet of young horses considerable improves
the nutrients’ digestion. In the experimental group the amount of the exchange
energy in
the consumed food calculated by a regression equation was equal to
59.9 MJ showing a
4.1 MJ increase (6.8%).
CONCLUSION
The results from the
performed experiment confirm our supposition about the possibility of a
direct
influence of zeolite additions to fodder on the exchange processes in the
organisms
of Sakha horses.
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