Interactions between Euphorbia esula toxins and bovine ruminal microbes

Cattle generally avoid grazing leafy spurge (LS; Euphorbia esula), whereas sheep and goats will often eat it. Understanding metabolism of toxic phytochemicals in LS by bovine rumen microflora may help explain why cattle often develop aversions to LS after initially eating it. Toxicity of LS compound...

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Bibliographic Details
Published in:Journal of chemical ecology 2006, Vol.32 (1), p.15-28
Main Authors: KRONBERG, Scott L, HALAWEISH, Fathi T, HUBERT, Mindy B, WEIMER, Paul J
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Animals
Antibiotics
Autoecology
Bacteria
Bacteria - classification
Bacteria - metabolism
Biological and medical sciences
Cattle
Chromatography, High Pressure Liquid
Euphorbia - metabolism
Euphorbia esula
Fermentation
Fundamental and applied biological sciences. Psychology
Mammalia
Microbial activity
Plants and fungi
Plants, Toxic - metabolism
Rumen - microbiology
Species Specificity
Toxicity
Toxins
Vertebrata
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Summary:Cattle generally avoid grazing leafy spurge (LS; Euphorbia esula), whereas sheep and goats will often eat it. Understanding metabolism of toxic phytochemicals in LS by bovine rumen microflora may help explain why cattle often develop aversions to LS after initially eating it. Toxicity of LS compounds after in vitro fermentation with normal vs. antibiotic-modified bovine rumen digesta was evaluated at different lengths of fermentation. Levels of toxic and aversion-inducing ingenols were determined for fermented and nonfermented mixtures of LS and bovine rumen digesta, and the toxicity of an aversion-inducing extract of LS to rumen microbial species that are common in cattle, sheep, and goats was evaluated. Fermentation of LS with bovine digesta increased the toxicity of extracted compounds. Introduction of neomycin (an antibiotic that preferentially inhibits gram-negative bacteria) into the LS and bovine rumen digesta mixtures did not appear to affect toxicities regardless of fermentation length. Levels of ingenol were observed in LS and bovine digesta mixtures (both fermented and nonfermented) that were consistent with levels of ingenols reported for LS. Finally, a toxic extract of LS had little or no negative effect on the growth of several common species of rumen bacteria. The results indicate that LS is not generally toxic to the ruminal bacteria, but that microbial activity in the rumen may be responsible for enhancing LS toxicity to cattle.
ISSN:0098-0331
1573-1561
DOI:10.1007/s10886-006-9348-9