Применение гуминовых кислот в скотоводстве
DOI:
https://doi.org/10.28983/asj.v0i5.472Ключевые слова:
сельское хозяйство, гуминовые кислоты, кормление, скотоводство, иммунная системаАннотация
Представлены данные о возможном использовании гуминовых кислот в производстве крупного рогатого скота. Изучено влияние смеси древесного угля, сока квашеной капусты и гуминовых кислот на усвояемость кормов, содержащих глифосаты. Исследование данной
смеси показало снижение уровня антител C. botilium ABE и CD у коров с хроническим ботулизмом. В конце 24-недельного опыта исследуемые животные вели нормальный образ жизни, отличались повышенным иммунитетом.
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Библиографические ссылки
1. Barry G., Padgette S.R. (1992) Glyphosate tolerant 5-enolpyruvylshikimate-3phosphate synthases. World Patent WO 92/04449.
2. Bohnel H., Schwagerick B., Gessler F. (2001) Visceral botulism--a new form of bovine Clostridium botulinumtoxication // J Vet Med A PhysiolPatholClin Med 48: 373–383.
3. Cerdeira A.L., Duke S.O. (2006) The current status and environmental impacts of glyphosate-resistant crops: a review.// J Environ Qual 35: 1633–1658.
4. Gerlach H., Gerlach A., Schrodl W., SchottdorfB., Haufe S.et al. (2014) Oral application of charcoal and humic acids to dairy cows influences Clostridium botulinum blood serum antibody level and glyphosate excretion in urine // J CIinical-Toxicol 186: 2161–0495.
5. Gerlach H., Gerlach A., Schrodl W., Haufe S., Schottdorf B. (2014) Oral Application of Charcoal and Humic Acids Influence Selected Gastrointestinal Microbiota, Enzymes, Electrolytes, and Substrates in the Blood of Dairy Cows Challenged with Glyphosate in GMO Feeds. J Environ Anal Toxicol
4: 256. doi: 10.4172/2161-0525.1000256.
6. Kruger M., Grosse-Herrenthey A., Schrodl W., Gerlach A., Rodloff A. (2012) Visceral botulism at dairy farms in Schleswig Holstein, Germany: prevalence of Clostridium botulinum in feces of cows, in animal feeds, in feces of the farmers, and in house dust. Anaerobe 18: 221–223.
7. Mazzei P., Piccolo A. (2012) Quantitative evaluation of non-covalent interactions between glyphosate and dissolved humic substances by NMR spectroscopy. Environ SciTechnol 46: 5939–5946.
8. Shehata A.A., Kuhnert M., Haufe S., Kruger M. (2013) Neutralization of the antimicrobial effect of glyphosate by humic acid in vitro // J chemosphere 10: 258–261.
9. Stevenson F.J. (1982) Humus Chemistry, Wiley, N.Y.
10. Vasiliev A.A. Value, theory and practice of using humic acids in animal husbandry / A.A., Vasiliev, A.P. Korobov, S.P. Moskalenko, L.A. Sivokhina, M.Yu., Kuznetsov // Agrarian Scientific Journal, No. 1, 2017, P. 3–6.
2. Bohnel H., Schwagerick B., Gessler F. (2001) Visceral botulism--a new form of bovine Clostridium botulinumtoxication // J Vet Med A PhysiolPatholClin Med 48: 373–383.
3. Cerdeira A.L., Duke S.O. (2006) The current status and environmental impacts of glyphosate-resistant crops: a review.// J Environ Qual 35: 1633–1658.
4. Gerlach H., Gerlach A., Schrodl W., SchottdorfB., Haufe S.et al. (2014) Oral application of charcoal and humic acids to dairy cows influences Clostridium botulinum blood serum antibody level and glyphosate excretion in urine // J CIinical-Toxicol 186: 2161–0495.
5. Gerlach H., Gerlach A., Schrodl W., Haufe S., Schottdorf B. (2014) Oral Application of Charcoal and Humic Acids Influence Selected Gastrointestinal Microbiota, Enzymes, Electrolytes, and Substrates in the Blood of Dairy Cows Challenged with Glyphosate in GMO Feeds. J Environ Anal Toxicol
4: 256. doi: 10.4172/2161-0525.1000256.
6. Kruger M., Grosse-Herrenthey A., Schrodl W., Gerlach A., Rodloff A. (2012) Visceral botulism at dairy farms in Schleswig Holstein, Germany: prevalence of Clostridium botulinum in feces of cows, in animal feeds, in feces of the farmers, and in house dust. Anaerobe 18: 221–223.
7. Mazzei P., Piccolo A. (2012) Quantitative evaluation of non-covalent interactions between glyphosate and dissolved humic substances by NMR spectroscopy. Environ SciTechnol 46: 5939–5946.
8. Shehata A.A., Kuhnert M., Haufe S., Kruger M. (2013) Neutralization of the antimicrobial effect of glyphosate by humic acid in vitro // J chemosphere 10: 258–261.
9. Stevenson F.J. (1982) Humus Chemistry, Wiley, N.Y.
10. Vasiliev A.A. Value, theory and practice of using humic acids in animal husbandry / A.A., Vasiliev, A.P. Korobov, S.P. Moskalenko, L.A. Sivokhina, M.Yu., Kuznetsov // Agrarian Scientific Journal, No. 1, 2017, P. 3–6.