|
 |
 (Source: University of Wisconsin) |
Prior to weaning at 6 to 8 weeks, calves are vaccinated, dehorned, have extra teats removed, and male calves may be castrated to be raised as steers. Female calves are either raised by the dairy farm as replacement heifers, contract raised for the dairy farm by a heifer grower, or sold to other dairy farms. Male calves are mainly sold as veal calves or raised as steers, either by the farm or a buyer. A small number of bull calves may be raised for breeding stock and sold to local dairies as natural service bulls. A tiny percentage of bull calves from exceptionally good cows with registered pedigrees may be sold through contract to Artificial Insemination companies. Formerly, the image of the veal industry is that calves were kept in tiny crates in total darkness so they would remain anemic. The modern veal industry is more likely to be in more open facilities with excellent lighting and ventilation.
| Protein Sources | ||
|---|---|---|
| Best | Acceptable | Inferior |
| Skim Milk | Specially manufactured soy flour | Unprocessed soy flour |
| Buttermilk | Soy concentrate | Meat solubles |
| Whole Whey | Hydrolyzed fish protein | Fish Flour |
| Delactosed whey | Distiller solubles | |
| Casein | Brewer's yeast | |
| Milk albumin | Oat flour | |
| Whey protein concentrate | Wheat flour | |
| Fat Sources | ||
| Lard | Hydrogenated vegetable oils | Liquid vegetable oils |
| Tallow | ||
| Stabilized greases | ||
Aside from the very first days when calves are fed colostrum, they are fed discarded milk or milk replacer. The best protein sources for milk replacer are from dairy products. At the same time, the calf is offered water and calf starter feed, which it should be consuming readily prior to weaning it off of milk. Calves should be offered starter within the first week and should be getting adequate energy from the starter by weaning. Often calves are encouraged to eat the starter by addition of molasses. It is not necessary to feed hay to calves prior to weaning, but it is sometimes made available.
| Protein Sources | |||
|---|---|---|---|
| Grain Starters | |||
| 1 | 2 | 3 | |
| Ingredients (air dry basis) | |||
| Corn (cracked or coarse ground), % | 50 | 30 | |
| Ear Corn (coarse ground), % | 50 | ||
| Oats (rolled or crushed), % | 22 | 18 | |
| Barley (rolled or coarse ground), % | 20 | 21 | |
| Wheat Bran, % | 8 | ||
| Soybean Meal, % | 20 | 16 | 21 |
| Molasses, % | 5 | 5 | 5 |
| Dicalcium phosphate, % | 0.5 | 0.5 | 0.5 |
| Limestone, % | 1.5 | 1.5 | 1.5 |
| TM Salt and Vitamins, % | 1 | 1 | 1 |
| Composition (dry matter basis) | |||
| Crude protein, % | 18.1 | 18.0 | 18.4 |
| TDN, % | 80.0 | 78.8 | 78.0 |
| ADF, % | 7.0 | 6.9 | 9.1 |
| Calcium, % | 0.8 | 0.8 | 0.82 |
| Phosphorus, % | 0.48 | 0.56 | 0.47 |
| Vitamin A, IU/lb | 1000 | 1000 | 1000 |
| Vitamin D, IU/lb | 150 | 150 | 150 |
| Vitamin E, IU/lb | 11 | 11 | 11 |
At weaning, calves are moved to group housing. Forms of group housing include superhutches, drive-through freestall barns, drive-by freestall barns, and open housing on bedded pack. Some calves are weaned directly onto pasture. Normally, heifers are kept in these housing systems until they reach breeding age at 12 to 15 months. Feeds tend to include some calf starter, perhaps some other grain or corn silage; and excellent quality hay is offered.
Following breeding, heifers are maintained until moving to the dairy farm for calving. Facilities are often less extensive. Often heifers are raised in feedlots, or on pasture, although some heifers are also raised in freestall barns.
For
cows, the period from 60 days prior to calving until 40 days after calving is
called the transition period, because cows make a transition
to producing milk and consuming a higher energy ration. Heifers and dry
cows are usually moved to a close-up dry area for close observation beginning
at 3 weeks prior to calving. Usually the close-up dry cows are housed in freestalls,
or on pasture or open lot. When calving appears imminent, cows are moved to
individual maternity pens or an open
calving area. Diligent efforts are made to keep these areas clean. Even
cows raised on pasture are sometimes moved to pens for calving to allow close
observation in case the delivery must be assisted, to keep the calf out of cold
drafts, and to allow careful attention to the calf immediately after birth.
Calving pens are usually bedded with lots of clean wheat or oat straw, although
sand and sawdust are used too.
Some dairy producers prefer to keep cows on pasture. There are certainly advantages in reduced costs of feed harvest and storage, reduced cost for manure management and storage, improved foot health, and perhaps less disease when the cows are not as heavily concentrated in a limited area. These grazing systems often depend on the principles of managed intensive grazing to optimize grass and milk production. Some, but not all, grazers also practice seasonal calving to allow the cow's highest milk yield and energy demands to match with seasons of maximal grass production. Thus calving is planned for Spring in the Northeast and Midwest, and Fall in the far South. Due to less rainfall, little grazing is practiced west of the Great Plains. Grass is far and away the key component of diets on grazing dairies. Even stored feed may include excess grass from pastures that is ensiled and fed when grass is not available. Most grazing dairies supplement the grass with some level of ground corn or other concentrate feeds, and perhaps with some purchased alfalfa hay and/or corn silage. Often the grass is baled in round bales, wrapped in plastic, and stored as baleage.
In
the Midwest and elsewhere it is common for small to medium-sized dairies to
house cows in barns for most of the year, but to provide supplemental grazing
during the summer. Even then, cows may only get a small portion of their forage
from pasture, with most feed fed in the barn or a feedlot.
Traditionally, cows in the Midwest and Northeast were housed in tie-stall barns. Often cows were maintained in these barns and fed and milked right in their own stalls. While several of these barns are still in use, the inefficiency of labor and difficulty of milking have made new tie stall barns relatively uncommon.
The concept of providing cows with the opportunity to
freely move from her stall to the feeding area was developed in Washington State
in the mid 1950s. Freestall barns have become the mainstay of the dairy industry
in recent years. Older freestalls were often constructed of wood and the stall
was bedded with lots of straw. Even these older stalls can still be very useful
today if plenty of bedding is provided to keep
cows comfortable. 
Modern
freestalls are more likely to be constructed of steel loops or dividers
and bedded with sawdust or sand. The fact that sand provides little organic
matter as food for bacteria, keeps cows dry, and helps cool cows in summer makes
it the "gold standard" of bedding materials. Occasionally, freestalls
are lined with rubber mattresses filled with ground tires, other cushion materials, or even water. Modern
barns are constructed of wood or steel supports and rafters or trusses, steel
roofing with an open ridge, and curtain sides that may be opened to maximize
airflow in summer. Ventilation is usually assisted with fans. In some facilities,
tunnel ventilation is used, in which air is mechanically drawn through the length
of the building at rapid speed, which eliminates the dependence on wind speed
needed for natural ventilation. To attain rapid air movement, the roof and sides
are built solid with no air inlets. Greenhouse barns and other kinds of hoop structures are available to dairy producers
for freestall barns. Their advantage is in reduced construction costs, although
covering may need to be replaced as often as every 5 years. The additional light
in these barns is an advantage for observing cattle, and the sun may be partially
blocked out by covering with shade cloth in summer. Cow cooling systems, such
as misters or sprinklers, are often present above feeding areas during hot weather.
In the arid Southwestern states, newer dairy facilities are investing in state-of
the art evaporative cooling systems to keep cows comfortable and productive.
Supplemental cow cooling should be available any time the temperature exceeds
72 to 75 degrees.
Dry cows, during the period in which they are not lactating, are often housed in less expensive buildings. Because dry cows do not metabolize as much energy as lactating cows, they produce less heat, and so it is not as difficult to keep them cool in summer.
Back
to Dairy Main Menu