Research group is investigating alternatives for addressing problems such as acidosis, a serious disease that affects feedlot cattle (photo: Unesp)

Nutrition is key to increasing productivity in intensive breeding
2017-09-27

Research group is investigating alternatives for addressing problems such as acidosis, a serious disease that affects feedlot cattle.

Nutrition is key to increasing productivity in intensive breeding

Research group is investigating alternatives for addressing problems such as acidosis, a serious disease that affects feedlot cattle.

2017-09-27

Research group is investigating alternatives for addressing problems such as acidosis, a serious disease that affects feedlot cattle (photo: Unesp)

 

By Heitor Shimizu, in Lincoln (USA)  |  Agência FAPESP – Improving the productivity of Brazilian livestock means not only finding ways to make the cattle produce more meat or more milk, but also addressing issues such as diseases. One of them is ruminal acidosis.

In cases of this disease, the affected animal experiences an intense production of lactic acid and a decrease in the pH of the rumen, the first compartment of the stock of ruminants – also known as a paunch. Acidosis plays a major role in livestock breeding since it mainly strikes animals kept in intensive farming systems. The mortality rate is high, even in treated cases.

In a study conducted in 2014 by Danilo Domingues Millen and Cassiele Aparecida de Oliveira at São Paulo State University (Unesp) in Dracena (São Paulo, Brazil), acidosis was identified by 37.5% of feedlot cattle nutritionists as the second most important health problem, after respiratory problems (identified by 40.4% of nutritionists) but well before of cysticercosis (identified by 9.4% of the nutritionists).

At FAPESP Week Nebraska-Texas, held on September 18-22 in the cities of Lincoln, Nebraska and Lubbock, Texas, Millen presented the outcome of surveys completed by nutritionists and the findings of research studies he is currently conducting on the feeding of ruminants. The data collected help provide a clearer understanding of the developments in nutritional recommendations and management practices in the production of feedlot cattle in Brazil.

“We conducted three studies: in 2009, 2011 and 2015, based on surveys containing nearly 80 technical questions directed at nutritionists who work with feedlot cattle all over Brazil. We followed a model developed in the United States by Professor Michael Galyean, who is now the Provost of Texas Tech University. When conducting a survey of this type, in order to be sure of the results, the survey needs to include 80% or 90% of the niche wished to be covered. In Brazil, the first study involved 31 nutritionists and the other two studies involved 33. They are responsible for approximately of 90% of all feedlot cattle in Brazil,” he told Agência FAPESP.

Millen said that the papers published on the basis of the results of these three studies – which received funding from FAPESP – besides being frequently cited, have helped several other research groups generate new hypotheses and have also led producers to evaluate their practices. “Producers and nutritionists can see, for example, what other professionals are putting in the diets and improve their breeding,” he said.

Among the publications are “Survey of the nutritional recommendations and management practices adopted by feedlot cattle nutritionists in Brazil” (Animal Feed Science and Technology, 2014) and “A snapshot of management practices and nutritional recommendations used by feedlot nutritionists in Brazil” (Journal of Animal Science, 2009).

Additives that influence fermentation

The studies with nutritionists indicated that the quantity of feed concentrate has increased since 2009. This means the use of higher amounts of carbohydrates that can cause problems such as acidosis.

“All ruminants, whether they be cows, goats or other, have a fermentation chamber, which is the rumen, where gases and acids are produced. Most of the energy ruminants use to produce milk or gain weight comes from the acids produced in the rumen. Therefore, acid needs to be formed so it can be absorbed through the wall of the rumen, go to the liver and be used by the animal as energy,” Millen said.

The problem, he explained, is when there is excess fermentation. When the acid production rate is much higher than the absorption rate (the rate of withdrawal from the rumen) a disorder known as tympanism occurs as a result of acidosis, and the animal becomes bloated by the abnormal accumulation of gases in the stomach. The rumen increases in size and the animal experiences difficulty breathing and can die,” he said.

“The issue is that in order to increase productivity, the feed needs to have better quality products, but these products are also carbohydrates that ferment very quickly so that the animal gains more weight and produces more milk faster, and this cannot be done through grazing,” he said.

One alternative to alleviate this problem is to use feed additives, which cause the animal to produce fewer acids that can cause problems.

“Our group has researched additives, which are micro-ingredients administered to the animals in doses of 1-2 grams per day. They play a beneficial role in fermentation in the rumen. Included among the acids produced in the rumen are weak acids and strong acids. Weak acids are more beneficial in helping the animals gain weight and produce milk. In other words, they have less capacity make pH decrease. Among strong acids are what is known as lactic acid, which the animal has less ability to absorb,” Millen said.

“We use additives, such as ionophores [molecules soluble in lipids], that kill some of the bacteria that lead to the production of lactic acid. By using these additives, we can control the production of lactic acid and the animal is much less likely to have acidosis and tympanism,” he said. Today, most feedlot cattle producers in Brazil use ionophores in the feed.

The researchers in Millen’s group found evidence that Nelore cattle may be more sensitive to acidosis that other breeds, such as those produced in the United States and Europe. Future studies will be carried out to investigate the issue.

Another focus of the group is the study of cattle adaptation methods. For example, the researchers attempted to ascertain the ideal transition time with regard to grazing animal nutrition in containment areas.

“Fourteen days is the minimum window we have observed for removing the animal from pasture and ensuring that it eats close to 80% or 85% concentrate. It is the interval for transitioning the animal – changing its diet gradually in an effort to prevent digestive problems like acidosis,” Millen said.

Millen is also one of the editors of the book Rumenology (2016), about the nutrition and raising of ruminants. The book also highlights the wide variety of aspects that involve the rumen, such as its anatomy, physiology, microbiology, fermentation and metabolism.  

More information about FAPESP Week Nebraska-Texas is available at: www.fapesp.br/week2017/nebraska-texas.

 

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