DEVELOPMENT OF ENTEROSORBENT RECOVERY TECHNOLOGY BASED ON MECHANICALLY ACTIVATED HYDROLYTIC LIGNIN
Keywords:
Dioxynivalenol (DON), T-2 toxin, zearalenone, ochratoxin A, mycotoxin, optimization.Abstract
According to the test results, neither mineral-based sorbents, nor complex sorbents (using microorganisms, elements of their cells, products of their metabolism, etc.), nor "biotransformers" can show 100% efficiency against the main mycotoxins. According to the test results (mycotoxins at a concentration of 200 μg/kg were added to the feed and adsorbents at the level of 0.5% of the feed), the maximum absorption rate of zearalenone was 58%, ochratoxin A - 54%, deoxynivalenol - no more than 40%, T-2 toxin - not more than 30%. Currently, there is no single drug that has universal adsorption and inactivating activity against all major mycotoxins.
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Published
2022-09-15
How to Cite
Kholmirzayeva, K. (2022). DEVELOPMENT OF ENTEROSORBENT RECOVERY TECHNOLOGY BASED ON MECHANICALLY ACTIVATED HYDROLYTIC LIGNIN. INTERNATIONAL CONFERENCES, 1(5), 22–24. Retrieved from https://researchedu.org/index.php/cf/article/view/194