Calves coming off drought-stricken pastures where quality and quantity of forage have been limited may suffer from mineral deficiencies. This is possible even in areas where it has not been a problem in the past. Dietary cobalt, copper, manganese and zinc are necessary for a strong immune system and may be at low levels in the ration. High levels in the ration of antagonistic elements such as sulfur or iron will interfere with the utilization of these essential trace minerals resulting in impaired immune function and production For example, pond water in drought areas may be high in sulfur and relatively unpalatable. Distillers’ grains also tend to be high in sulfur, potentially leading to excessive intake or even toxicity if sulfur levels also are high in water and forage.

An appropriate mineral program in gestating cows is necessary for proper fetal deelopemnt, colostrums quality and pre- and post-weaning performance of calves. Animals suffering from marginal mineral deficiencies may not show symptoms other than compromised immune systems and reduced performance.

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Finding a Mineral Balance

Article from cattlenetwork.com | By: John Maday

"When we take care of immunity, performance follows," said Zinpro nutritionist Connie Larson, PhD, in a presentation to the Academy of Veterinary Consultants last week. And balanced nutrition, she says, is a key factor in building immunity and optimizing production in cattle, with proper levels of protein, energy, minerals, vitamins and water all critical.

Minerals particularly are involved in cattle reproduction, rumen function, fetal development, milk production and development of the immune system. She says pharmaceutical companies have developed effective vaccines and vaccination programs, but nutrition can be a limiting factor in how well those programs work.

Early in the production cycle, minerals and micro-nutrients in the gestating cow’s diet influence development of the fetus’ organs and tissues and its long-term immunity. An appropriate mineral program in gestating cows also benefits colostrum quality, affecting pre- and post-weaning performance of calves. A calf’s trace-mineral status at weaning also plays a critical role in its immune response as it moves through later production stages.

Dietary zinc, copper, manganese and cobalt influence development of the animal’s immune system, Larson says, and sometimes are at low levels in soils and forages. Antagonistic elements, such as sulfur or iron in feed or water, can also contribute to mineral deficiencies in cattle.

Sulfur intake, for example, can inhibit the animal’s utilization of copper with detrimental effects on health and performance. Sulfur intake can come from several sources including feed and water, adding up to reach excessive levels. Particularly during times of drought, the sulfur concentration in pond water can build up, along with concentrations of other minerals, reducing palatability of the water and leading to excess sulfur intake. Distillers’ grains also tend to be high in sulfur, potentially leading to excessive intake or even toxicity if sulfur levels also are high in water and forage.

Larson says calves often have marginal mineral deficiencies, which do not manifest as direct symptoms but result in compromised immune systems and reduced performance. This year, she says, calves coming off drought-stricken pastures where quality and quantity of forage have been limited, the chance of mineral deficiencies increases even in areas where mineral levels in forage are usually adequate.

Several research trials have shown that incorporating mineral supplements in a preconditioning program results in improved gains in the feedyard, Larson says. Providing a supplement through a 28- to 45-day weaning period can make up for deficiencies as calves come off depleted pastures, and optimize levels of critical minerals in tissues. Larson adds that producers have flexibility to design programs that fit their management system, as supplementing minerals prior to weaning, after weaning or both can benefit calves through the transition.

In a Colorado State University trial sponsored by Zinpro, animal scientist Terry Engle, PhD, evaluated the effect of mineral supplementation during a 28-day post-weaning preconditioning program on the ranch and continuing through a 28-day feedlot receiving period.

The researchers sourced calves from three different ranches at varying distances from the university feedlot. They sorted the calves into weight groups at weaning and randomly assigned them to treatment groups, which included a control group receiving no mineral supplements, a group receiving standard sulfate forms of zinc, manganese, copper and cobalt, and a group receiving a supplement containing more bio-available organic sources of the same minerals. The minerals were formulated in alfalfa pellet for daily feeding.

Following a 28-day post-weaning ranch program, all calves were weighed and shipped to the CSU feedlot, with shipping distances from the ranches ranging from 45 miles to 120 miles and 450 miles.

During the 28-day post-weaning period on the ranch, the groups receiving the mineral supplements showed a 6.3 percent improvement in average daily gains compared with the control and standard-mineral groups. The researchers continued the same treatments through a 28-day receiving program in the feedlot, and the calves receiving the supplement posted daily gains averaging 9.4 percent higher than the control group and 13.2 percent higher than the standard-mineral group.

Another recent Colorado State University trial involved 10 ranches over a two year period, following their calves through finishing. The data revealed correlations between the addition of organic mineral supplements and decreased pulls and re-pulls in the feedyard. A better mineral balance helps calves stand up to stress, Larson says.