Kirsten Stemme scite author profile

The aim of the present study was to examine the effects of feeding Fusarium toxin-contaminated wheat to dairy cows on nutrient utilization in the rumen and on duodenal flow of deoxynivalenol (DON), zearalenone (ZON) and their metabolites. Six dairy cows fitted with a large rumen cannula and a simple T-shaped cannula at the proximal duodenum was used in two experiments. The experiments included a control period in which the uncontaminated control wheat was fed and a period in which the control wheat was replaced by the Fusarium toxin-contaminated wheat (8.05 and 7.15 mg DON/kg and 0.26 and 0.1 mg ZON/kg in Expts 1 and 2 respectively). The wheat portion of the daily ration amounted to 50% on a dry matter (DM) basis and rations were completed with hay or grass silage. Five of the six cows were non-lactating and the total daily DM-intake ranged between 4 and 12 kg. The pH-values and the concentration of volatile fatty acids in ruminal fluid were not significantly influenced by feeding the contaminated wheat. In contrast, the postprandial ammonia concentration was consistently higher when the mycotoxin-contaminated wheat was fed. Moreover, the flow of microbial protein and utilizable protein at the duodenum were reduced at the same time. The concentrations of DON and ZON and of their metabolites in freeze-dried duodenal digesta were either not detectable or negligible during the control periods whereas distinct concentrations were measured during the periods where the contaminated wheat was fed. DON was nearly completely metabolized to de-epoxy-DON and the flow at the duodenum ranged between 4% and 28% of DON-intake. The ZON metabolites a-zearalenol (ZOL) and b-ZOL were recovered at the duodenum beside the parent toxin ZON. Their recovery as a percentage of ZON-intake ranged between 43% and 132%. In conclusion, feeding of Fusarium toxin-contaminated wheat altered the ruminal protein utilization. The question of whether this effect was a result of the mycotoxin being present in the rumen or of Fusarium growth-related structural (cell wall) changes of the wheat grain needs to be clarified. The low recovery of DON at the duodenum would indicate either a nearly complete degradation of the molecule in the rumen or an absorption by the mucosa of the rumen, whereas the higher ZON recovery would suggest a lower

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Investigations on prophylactic effects of coarse feed structure and/or potassium diformate on the microflora in the digestive tract of weaned piglets experimentally infected with Salmonella Derby

Papenbrock

Stemme

Amtsberg³

et al. 2005

Animal Physiology Nutrition

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The purpose of this study was to examine potential prophylactic effects of a coarse feed structure and/or potassium diformate (KDF as feed additive) addition to diets on the microflora of the digestive tract in reared piglets experimentally infected with Salmonella Derby. The results show that coarse grinding as well as KDF addition are able to influence positively the intestinal flora and are capable to reduce Salmonella excretion of infected piglets. Coarse grinding of main ingredients (e.g. cereals) led to an increased number of lactobacilli as well as to higher counts of Gram-positive coccoid bacteria in the colon chyme, while KDF resulted in a tendency towards lower counts of Escherichia coli within the digestive tract. Moreover, a combination of both treatments influenced the composition of the gastrointestinal flora quite positively. Furthermore, the combination of these dietetic measures resulted in a reduced Salmonella excretion rate, shorter Salmonella shedding period and a reduced translocation of Salmonella within the infected piglets. The positive effects of combining both treatments led to a significantly reduced spreading of Salmonella within the group of pigs, which might be used to diminish Salmonella prevalence in pig production.

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Beet‐vinasse (condensed molasses solubles) as an ingredient in diets for cattle and pigs – nutritive value and limitations

Stemme

Gerdes

Harms

et al. 2005

Animal Physiology Nutrition

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Sugar beet vinasse, originating as the condensed molasses residue from yeast production, was fed to bulls and pigs to determine the feed value. It contained, per kg dry matter (DM content 66.8%), 293 g crude protein, 305 g N-free extract (therefrom 34.4 g total sugar), and 395 g crude ash. The experiment was carried out with three fattening bulls (German Holstein) and four adult pigs (Gottingen Minipig). In bulls, two balance trials lasting 20 days each (10 days adaptation; 10 days collection) were conducted in which subsequently a basal ration without and with vinasse (14% in DM) was fed. In pigs, the experiment consisted of three 12-day balance trials with the final 5 days as collection period. In the first trial, pigs received a basal diet without vinasse and in the following, a mixed diet with 16 and 43% vinasse (in DM) respectively. Digestibilities of components in vinasse in bulls were: organic matter 73.5%, crude protein 72.6%, and N-free extract 52.3%. In bulls, no influence on faeces quality could be detected while feeding 14% vinasse in DM. While feeding 16% vinasse in DM to pigs, the digestibility of organic matter amounted to 72.3% (crude protein 71.8%; NfE 74.6%). Feeding higher amounts of vinasse (43% in DM) in the diet of pigs, digestibilities were reduced (organic matter: 61.6%), which might be a result of a reduced retention time of the chyme as a result of an osmotically driven diarrhoea because of unexpectedly high sulphate (136 g/kg DM) content in the vinasse. It is concluded that because of organic matter digestibility >70% for cattle and pigs, the use of vinasse in these species in small proportions is reasonable.

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The influence of an increased cobalt supply on ruminal parameters and microbial vitamin B₁₂synthesis in the rumen of dairy cows

Stemme¹,

Lebzien²,

Flachowsky³

et al. 2008

Archives of Animal Nutrition

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The aim of the study was to examine the effects of an elevated dietary cobalt supply to dairy cows on rumen fermentation parameters and microbial vitamin B12 synthesis in the rumen. Five lactating dairy cows fitted with a ruminal and a duodenal cannula were subsequently fed either a ration containing only the native cobalt content (0.17 mg Co/ kg DM) or a ration supplemented with cobalt sulphate (0.29 mg Co/kg DM). The pH-value, the ammonia concentration as well as the concentration and the molar proportions of short chain fatty acids in the rumen were not significantly influenced by feeding the ration with the higher cobalt content. While there was no difference in microbial protein flow, the cobalamin flow at the duodenum was significantly elevated in supplemented animals (3.67 +/- 0.69 vs. 8.63 +/- 2.22 mg B12/d). The efficiency of cobalt utilisation for ruminal vitamin B12 synthesis was calculated to be 7.1 +/- 1.3% for the unsupplemented and 9.5 +/- 2.4% for the supplemented ration. Further investigation has to prove if there are any benefits for cows resulting from the elevated cobalamin synthesis measured, caused by feeding higher amounts of dietary cobalt.

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Kirsten Stemme

Effects of Fusarium toxin‐contaminated wheat grain on nutrient turnover, microbial protein synthesis and metabolism of deoxynivalenol and zearalenone in the rumen of dairy cows

Investigations on prophylactic effects of coarse feed structure and/or potassium diformate on the microflora in the digestive tract of weaned piglets experimentally infected with Salmonella Derby

Beet‐vinasse (condensed molasses solubles) as an ingredient in diets for cattle and pigs – nutritive value and limitations

The influence of an increased cobalt supply on ruminal parameters and microbial vitamin B₁₂synthesis in the rumen of dairy cows

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Kirsten Stemme

Effects of Fusarium toxin‐contaminated wheat grain on nutrient turnover, microbial protein synthesis and metabolism of deoxynivalenol and zearalenone in the rumen of dairy cows

Investigations on prophylactic effects of coarse feed structure and/or potassium diformate on the microflora in the digestive tract of weaned piglets experimentally infected with Salmonella Derby

Beet‐vinasse (condensed molasses solubles) as an ingredient in diets for cattle and pigs – nutritive value and limitations

The influence of an increased cobalt supply on ruminal parameters and microbial vitamin B12synthesis in the rumen of dairy cows

Contact Info

Product

Resources

About

The influence of an increased cobalt supply on ruminal parameters and microbial vitamin B₁₂synthesis in the rumen of dairy cows