Monitoring of vitamin E status of dry, early and mid-late lactating organic dairy cows fed conserved roughages during the indoor period and factors influencing forage vitamin E levels

Beeckman, A; Vicca, Jo; Van Ranst, G; Janssens, GPJ; Fievez, V

doi:10.1111/j.1439-0396.2009.00956.x

Monitoring of vitamin E status of dry, early and mid-late lactating organic dairy cows fed conserved roughages during the indoor period and factors influencing forage vitamin E levels

Author:

Beeckman, A

Vicca, Jo ; Van Ranst, G ; Janssens, GPJ ; Fievez, V

Keywords:

Animal Feed, Animal Nutritional Physiological Phenomena, Animals, Cattle, Dairying, Diet, Female, Lactation, Secale cereale, Trifolium, alpha-Tocopherol, Science & Technology, Life Sciences & Biomedicine, Agriculture, Dairy & Animal Science, Veterinary Sciences, Agriculture, organic dairy, vitamin E, clover, PERFORMANCE LIQUID-CHROMATOGRAPHY, ALPHA-TOCOPHEROL, BETA-CAROTENE, E SUPPLEMENTATION, SELENIUM, SILAGE, PLASMA, CATTLE, SERUM, REQUIREMENTS, Secale, 0606 Physiology, 0702 Animal Production, 0707 Veterinary Sciences, Dairy & Animal Science, 3003 Animal production, 3009 Veterinary sciences, 3109 Zoology

Abstract:

Analysis of blood plasma of 60 cows selected on six Flemish organic dairy farms revealed that on average 12% of all samples and on one farm up to 28% of the organic cows showed plasma vitamin E concentrations less than 3.0 μg/ml, which is considered the minimum level to avoid health risks due to vitamin E shortages. Furthermore, this study showed early lactating and dry cows to be more at risk in relation to animals in mid-late lactation. In European organic farming, vitamin supplements are only allowed if granted by the local authority to satisfy daily requirements. Therefore, the vitamin E content of the feedstuffs used on the farms was determined. Grass clover silage (GCS) and mixed silage had significantly more vitamin E than hay, maize or grain (p < 0.05) [mean (SD): 52 (35), 29 (20), 4.5 (1.7), 4.9 (4.4) and 7.1 (3.8) mg/kg DM, respectively]. Apparently, variation in the vitamin E content in the silage samples was huge. Hence, the vitamin E content of ryegrass, white and red clover was determined in a second lab scale experiment and the effects of wilting, DM content and supplementation of ensiling additives were investigated. Fresh ryegrass had a higher vitamin E content than white and red clover (p < 0.05) [156 (11.3), 49.3 (0.67) and 74.3 (5.73) μg/g DM, respectively]. These differences remained after the wilting or ensiling. Supplementation of formic acid or lactic acid bacteria at ensiling had no significant effect on the vitamin E content. Overall, it can be concluded that GCS is the most important source of vitamin E in organic dairy farming. A legal possibility for case-related supplementation should be retained in organic dairy farming as approximately 18% of all dry and early lactating cows were at risk of vitamin E shortage.