Mineral availability in soil and fodders affecting blood profiles in Nili-Ravi dairy buffaloes.

A mineral assessment study for dairy buffaloes, Nili-Ravi breed, was carried out seasonally at silvopasture farm at Sargodha, Pakistan. Sampling for soil, forage, and buffalo serum was done seasonally for a period of 1 year for mineral (P, Mg, Na, K, Ca) evaluation. In the study, experiments on forages showed significant differences in mean concentrations of Mg and P with changing seasons, whereas the values for Ca, Mg, Na, and K did not vary significantly. Three groups of buffaloes were checked for mineral concentration in blood serum, viz., calves, lactating and non-lactating. Ca mean concentration varied significantly for non-lactating buffaloes and calves between two seasons. Na mean level showed a significant difference for two sampling seasons among calves and lactating buffaloes. Mean level for Mg only differed significantly in serum of non-lactating buffaloes between the two seasons. Mean levels for Ca and P in soil and forage remained higher than the optimal level, whereas soil Na was below the critical level. K concentrations in soil and blood serum were above the critical level, while Mg levels remained below the optimal range in soil, forage, and blood serum. K concentration in forage remained below the optimal level. All buffalo categories displayed lower levels of Ca and P in serum. Na concentration in forage and serum exceeded the critical level. Furthermore, Ca yielded significant and positive correlation between soil and serum level, whereas K had significant but negative correlation for soil-forage and forage-serum. Overall, it was determined that P deficiency existed among buffaloes, which could be improved via supplementation. Similarly, K deficiency and Mg deficiency were exhibited for forage and soil respectively which could be countered through addition of fertilizers rich for these minerals. In brief, the mineral utilization of buffaloes is affected by reduced availability of essential nutrients and may result in lower productivity. It is suggested to add mineral supplementation in addition to natural diet of buffaloes to enhance the productivity of these animals.

Bioconcentration of some macrominerals in soil, forage and buffalo hair continuum: A case study on pasture irrigated with sewage water.

The present study aimed to evaluate the bioaccumulation of some macrominerals in grazing buffaloes fed forage irrigated with sewage water or canal water. In particular, the transfer of sodium (Na), magnesium (Mg), potassium (K) and calcium (Ca) from soil to plant and in turn to animals was evaluated under sub-tropical environmental conditions. Samples of soil, forage and buffalo hair were collected and digested by wet method. Sodium and K concentrations were significantly higher in the soil but lower in the forages; however, Mg and Ca concentrations in both soil and forages were higher. The correlation between soil, forage and hair showed an imbalanced flow of Na, Mg and K and a balanced flow of Ca from soil to forage and then to animals. Based on the findings, the highest rates of transfer of minerals were found for sewage water treatment, whereas lowest rates were found for canal water treatment, except for Na. As the transfer of minerals depends on their bioavailability, the highest values may be due to the high rates of mineral uptake by plants. Thus, the high transfer rate of some elements by plants could become toxic in future causing detrimental effect to grazing livestock.

Effect of sewage water on mineral nutritive potential of six fodder species grown under semiarid conditions.

Investigation was performed to assess the effect of different sewage water treatments on the metal status of different fodder species consumed by ruminants under semi-arid conditions. Five samples each of six fodder species viz., Trifolium alexandrinum, Cichorium intybus, Avena sativa, Medicago polymorpha, Brassica campestris and Medicago sativa were collected from three fields irrigated with canal water, mix water (canal water and sewage water) and sewage water, respectively. Fodder samples were analyzed to determine the Mg, Co and Zn concentrations in shoots. Higher values of these metals were found in fodder species irrigated with sewage water relatively. Mg and Zn concentrations in all the fodder species were found to be below the critical level among all treatments. Whereas, concentrations of Co in the different fodder species were significantly different (p < 0.05) and above the critical level. Consequently, ruminants feeding on these fodder species need continued mineral supplementation of Zn and Mg elements to prevent diseases caused by the deficiency of these elements, and to support optimum animal productivity.

Studies on the transfer of copper from soil to pastures at different sampling periods: a case study of a semiarid region (Sargodha) in Pakistan.

The present investigation was carried out to assess the transfer of copper element from the soil to forage plants consumed by the ruminants in two different pastures at the Livestock Experimental Station at Sargodha, Punjab, Pakistan. Soil and forage samples were collected periodically from two different pastures and analyzed after wet digestion. The survey of copper flow from forage from both pastures in the grazing period exhibited a consistent pattern of decrease from sampling periods 1 to 4 across all the sampling periods. In the legumes and grass pastures, it was decreased regularly and reduced up to 50% to that at the beginning across all the samplings. The copper concentration was higher in the legume pasture than that of grass pasture and sufficient to fulfill the requirement of grazing animals, while in grass pasture, it was higher at the first two sampling periods but dropped to a marginal deficient level at sampling period 3 and reached at the severe deficient level at the fourth sampling period during this investigation. The soil-plant transfer factor for Cu was higher in legume pasture compared to its counterpart. It was found that with the increase of forage maturity, a significant reduction in the forage Cu concentration was observed reaching its minimum level at the last sampling period in the grass pasture. These concentrations were within the marginal and severe deficient levels and provide for only 76% of the ruminant requirements. The naturally upset balance of Cu offers a potential hazard not only to both pastures, but also to the Cu status of grazing ruminants therein. This necessitates the provision of additional amount of Cu mixture in the nutrition of livestock for health and reproduction potential enhancement of the animals being reared at that farm. Supplementing the deficient mineral with locally available Cu feed sources like green fodders, cakes, and brans or providing region-specific mineral supplements would alleviate the deficiency of copper during the late season at the livestock farm.