Abstract Background: Very clinical cases of mineral deficiency, specially associated with copper in sheep of Khuzestan province have been annually seen; whereas the studies on soil and forage related mineral and effects of them on zonal domestic animals are rare. Objectives: The aim of the present study was to investigate the copper, sulfur, iron, molybdenum and zinc of soil and pastures forages status in order to see the probable correlation of these elements with copper and zinc serum of sheep in Susngerd town of Khuzestan province. Methods: 5 soil and forage samples and 50 blood samples from sheep that were grazing in the area were taken. All the samples were sent to the institute of radiation at atomic energy organization of Iran for the elements measurement. The soil samples were alkaline digested and read by ICP-OES apparatuses. After acidic digesting, forage samples were read by ICP-MS apparatuses. Serum levels of copper and zinc were also measured by atomic absorption spectroscopy. Results: The averages iron and sulfur content of soil were higher than international standard and critical levels, while the averages copper and molybdenum were within normal range. The mean of soil zinc in comparison to the crisis amounts was in the lower level (p= .05). Comparing the mean values of forage elements with their critical levels showed that sulfur and iron were higher than standard levels. The results revealed that the serum copper and zinc were lower than normal and sheep under this investigation were mostly in a borderline deficiency status. Conclusions: It seem that high levels of sulfur and iron in pastoral forages reduces intestinal absorption and bioavailability of copper and zinc in sheep grazing in the under study areas.

Introduction: Reindeer are adapted to long distance migration. This species can cope with variations in substrate, especially in ice and snow environment. However, few detailed studies about reindeer hoof are available. Thus this article describes the results of studies on macro- and micro-structures of reindeer hoof.Material and Methods: The gross anatomy of the reindeer hooves was examined. Stereo microscope (SM) and a scanning electron microscope (SEM) were used to observe four key selected positions of reindeer hooves. Moreover, element contents of the three selected positions of reindeer hooves were analysed using the SEM equipped with energy dispersive spectroscope.Results: Hoof bone structures were similar to other artiodactyl animals. In the microscopic analysis, the surfaces of the ungula sphere and ungula sole presented irregular laminated structure. Ungula edge surfaces were smooth and ungula cusp surfaces had unique features. Aside from C, O, and N, reindeer hooves contained such elements as S, Si, Fe, Al, and Ca. The content of the elements in different parts varied. Ti was the particular element in the ungula sole, and ungula edge lacked Mg and S which other parts contained.Conclusion: The macro- and micro-structures of the reindeer hooves showed high performance of skid and abrasion resistance. It is most probably essential to the long distance migration for the animals.

Sulfur-induced polioencephalomalacia (PEM) is an important disease affecting cattle in certain geographical regions. However, the pathogenesis of brain damage is not completely understood. We previously observed that excess dietary sulfur may influence thiamine status and altered thiamine metabolism may be involved in the pathogenesis of sulfur-induced PEM in cattle. In this study, we evaluated the activities of thiamine-dependent enzymes [α-ketogluterate dehydrogenase (α-KGDH) and pyruvate dehydrogenase (PDH)] and cytochrome c oxidase (COX) in the cerebral cortex of sulfur-induced PEM-affected cattle (n = 9) and clinically normal cattle (n = 8, each group) exposed to low or high dietary sulfur [LS = 0.30% versus HS = 0.67% sulfur on a dry matter (DM) basis]. Enzyme activities in PEM brains were measured from the brain tissue regions and examined using ultraviolent (UV) light illumination to show fluorescence or non-fluorescence regions. No gross changes under regular or UV light, or histopathological changes indicative of PEM were detected in the brains of cattle exposed to LS or HS diets. The PDH, α-KGDH, and COX activities did not differ between LS and HS brains, but all enzymes showed significantly lower (P < 0.05) activities in UV-positive region of PEM brains compared with LS and HS brains. The UV-negative regions of PEM brain had similar PDH activities to LS and HS brains, but the activities of α-KGDH and COX were significantly lower than in LS and HS brains. The results of this study suggest that reduced enzyme activities of brain PHD, α-KGDH, and COX are associated with the pathogenesis of sulfur-induced PEM.