P. Micek scite author profile

Simple SummaryFeeds contaminated by mycotoxins cause organ damage, immune suppression and health disorders, limiting growth and performance of farm animals. One of the most practical approaches to minimizing the negative effect of these substances in livestock diets is by the use of different feed additives, preventing their absorption from the gastrointestinal tract. Growing interest in particular is applied to mineral additives, such as clays and clay minerals. These materials are not digested but bind toxic metabolites and mycotoxins, moving them through the digestive tract, without detrimental influence on the animal body. Apart from the binding capacity, clay minerals show other activity which could positively affect animal welfare and productivity. However, each type of clay has its own specific binding capacity that can greatly vary according to its origin deposit and treatment. Moreover, clays may bind with not only noxious substances but also some nutrients, causing a nutritional imbalance for animals. Therefore, the aim of the review was to present the available knowledge on the properties and use of clays in feedstuff decontamination as well as to discuss the resulting potential benefits for animal health and safety of human food.AbstractThe contamination of feeds with microbiological or toxicological agents can affect health, productivity and safety of livestock animals and their products. The treatment of feedstuffs to lower the content of undesired substances before feeding is expensive and labor intensive, therefore an alternative is to reduce their gastrointestinal absorption. Different feed additives are available, however the use of clays and clay minerals are ideal for this purpose due to their high specific surface area, adsorption capacity, low or null toxicity for the animal and low cost. A large number of clays available to producers have different structures that are dependent on their mining source, causing difficulty in proper categorization. For this reason properties of phyllosilicates with 1:1 layers (one sheet of SiO4 tetrahedra joined to one sheet of Al- or Mg-octahedra), 2:1 layers (one sheet of Al- or Mg-octahedra between two sheets of Si-tetrahedra), and 2:1:1 layers (a basic 2:1 structure with an interlayer brucite (with cations Mg2+ or Fe2+) or gibbsite (with cation Al3+) sheet) and tectosilicates are described. The role of clay minerals in animal production shows a reduction in diarrhea, better feed conversion ratio, and improved health of many livestock species due to their specific adsorption potential of many feed mycotoxins. Overall, there is growing interest in the use of clays due to their beneficial characteristics, absence of primary toxicity and success in research to reduce animal disease and improve animal production and safety of animal products.

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Performance of Holstein calves fed milk-replacer and starter mixture supplemented with probiotic feed additive

Kowalski¹,

Górka²,

Schlagheck³

et al. 2009

J. Anim. Feed Sci.

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The aim of a study was to determine the efficacy of the microbial feed additive containing spores of Bacillus licheniformis and Bacillus subtilis (BioPlus 2B ® ) on performance and health status of rearing calves. Sixty four female Holstein calves, aged on average 16.7 ± 4.5 days, were randomly assigned into two groups of 32 animals: control (C) and BioPlus 2B ® (BP). Milk replacer (MR) and starter mixture (SM) fed to BP group contained 1.32 × 10 9 (±3.2%) and 1.13 × 10 9 (±11.5%) spores of Bacilli strains, respectively. Each calf was fed with 2.25 l of MR two times a day for eight weeks, up to the age of approximately 10 weeks. Starter diet (SD) offered to calves consisted of SM and whole maize grain, which were mixed in ratio 50:50 (wt/wt). Intake of MR was equal in both groups, but SD intake was higher in the whole experiment in the BP group (1075 vs 951 g/d; P<0.01). The BP calves grew faster than C ones in the whole trial (P=0.05), but especially in weeks 3-4 (P<0.05). At the end of the trial the BP calves were about 2.9 kg heavier than the C ones (P<0.001). Feed efficiency, calculated as consumption of ME (MJ) or crude protein (g), was not different between treatments. There were also no differences in the health status and faecal score between treatments. The results of this study suggest the beneficial effect of microbial feed additive containing spores of Bacillus licheniformis and Bacillus subtilis for rearing calves. PROBIOTIC FEED ADDITIVE -CALF PERFORMANCE

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A new liquid chromatography method with charge aerosol detector (CAD) for the determination of phospholipid classes. Application to milk phospholipids

Kiełbowicz

Micek

Wawrzeńczyk

2013

Talanta

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Effect of Variety and Plant Protection Method on Chemical Composition and in Vitro Digestibility of Faba Bean (Vicia Faba) Seeds

Micek

Kowalski

Kulig

et al. 2015

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The aim of the work was to determine the effect of faba bean varieties and plant protection method on their yield of seeds and protein, chemical composition, in vitro true digestibility (IVTD) and nutritive value for ruminant feeding. The study was carried out on four cultivars of faba beans grown in similar environmental conditions in a two-factorial field experiment. The variation between cultivars, modified by the plant protection method, in chemical composition and IVTD of seeds may suggest that there would be a need to estimate its real nutritive value used for diet formulation instead of one common value for faba bean species read from feed tables. It was shown that lowtannin varieties are characterized by slightly higher CP and lower NDF content and significantly (P<0.01) higher IVTD digestibility compared to traditional or terminal inflorescence varieties. Regardless of type of faba been variety, the highest seed and protein yields were found when insecticides were applied, with minor effect on chemical composition and the nutritive value of seeds.

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Nutrient Content of Different Wheat and Maize Varieties and Their Impact on Metabolizable Energy Content and Nitrogen Utilization by Broilers

Lasek

Barteczko

Barć

et al. 2020

Animals

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The study aimed to determine the effect of nutrients of wheat (nine cultivars) and maize (nine cultivars) grain on nitrogen balance and apparent metabolizable energy (AMEN) content for broiler chickens. In vivo digestibility and balance trials were carried out with 90 Ross 308 chickens (2 × 9 groups with 5 birds per group) aged from 42 to 49 days, separately for each cultivar. Considerable variation within each cereal species in fiber and non-fiber carbohydrate fractions and nutrient digestibility of grain were demonstrated. Additionally, regression equations were proposed which allow the estimation of AMEN content of wheat and maize grain varieties based on simple analytical procedures, including cell wall components, starch, and sugars. For practical purposes, these equations seem to be the best solution while reducing time, labor, and cost of analytical procedures.

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P. Micek

Physico-Chemical Properties of Clay Minerals and Their Use as a Health Promoting Feed Additive

Performance of Holstein calves fed milk-replacer and starter mixture supplemented with probiotic feed additive

A new liquid chromatography method with charge aerosol detector (CAD) for the determination of phospholipid classes. Application to milk phospholipids

Effect of Variety and Plant Protection Method on Chemical Composition and in Vitro Digestibility of Faba Bean (Vicia Faba) Seeds

Nutrient Content of Different Wheat and Maize Varieties and Their Impact on Metabolizable Energy Content and Nitrogen Utilization by Broilers

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