Center for Animal Nutrigenomics and Applied Animal Nutrition, Alltech Inc, Nicholasville, KY 40356, USA.
Biol Trace Elem Res. 2011 Dec;144(1-3):504-16. doi: 10.1007/s12011-011-9069-y. Epub 2011 May 12.
Selenium (Se) content of feedstuffs is dependent on the Se level of the soil. Even though Se in grass and forage crops is primarily present in organic forms, Se is commonly supplemented in cattle diets in an inorganic (sodium selenite) form in geographic regions where Se soil concentrations are low. The purpose of this study was to answer two important questions about inorganic (ISe) vs organic (OSe) forms of dietary supplementation of Se (3 mg/day) to growing beef heifers (0.5 kg/day): (1) what would the effect of supplementing Se with an equal blend of ISe:OSe (Mix) have on Se tissue concentrations and (2) how long does it take for the greater assimilation with OSE to occur and stabilize? A long-term (224 day) Se dietary supplementation trial was conducted with serial sampling performed (days 28, 56, 112, and 224) to determine the length of time required to achieve Se supplement (OSE, Mix, and ISe)-dependent changes in Se assimilation in blood fractions and liver tissue. Forty maturing Angus heifers were fed a corn silage-based diet for 98 days with no Se supplementation, and then a cracked corn/cottonseed hull-based diet (basal diet) without Se supplementation for 74 days. Liver biopsies were taken for Se analysis, and heifers were fed the same diet for another 14 days. Heifers were assigned (n = 10) to one of four Se treatment groups such that basal liver Se contents were stratified among groups, and then fed enough of the basal diet (0.08 mg Se per day) and a mineral-vitamin mix that provided 0.16 (control) or 3.0 mg Se per day in ISe (sodium selenite), OSe (Sel-Plex(®)), or Mix (1:1 ISe:OSe) form to support 0.5 kg/day growth for 224 days. More Se was found in whole blood, red blood cells, serum, and liver of Mix and OSe heifers than ISe heifers, and all were greater than control. Se content either increased until day 56 then was stable (liver and plasma), or was stable until day 56 (whole blood) or day 112 (red blood cells) and then increased steadily through day 224, for all supplemental Se treatments. These data indicate that a 1:1 mix (1.5 mg Se:1.5 mg Se) of supplemental ISe and OSe is equal to 3 mg/day OSe supplementation and greater than 3 mg/day ISe supplementation. The data also indicate that Se levels stabilized in liver and plasma by 56 to 112 days whereas whole blood and red blood cell concentrations were still increasing through 224 days of supplementation, regardless of the form of supplemental Se.
饲料中的硒含量取决于土壤中的硒水平。尽管草和饲料作物中的硒主要以有机形式存在,但在硒土壤浓度低的地区,通常以无机(亚硒酸钠)形式向牛饲料中补充硒。本研究旨在回答关于生长育肥牛(每天 0.5 公斤)以无机(ISe)和有机(OSe)形式补充硒(每天 3 毫克)的两个重要问题:(1)用等量的 ISe:OSe(混合)补充硒会对硒组织浓度产生什么影响,(2)OSe 同化发生和稳定需要多长时间?进行了一项为期 224 天的长期硒饮食补充试验,进行了连续采样(第 28、56、112 和 224 天),以确定实现硒补充(OSE、Mix 和 ISe)依赖的血液成分和肝脏组织中硒同化变化所需的时间。40 头成熟安格斯小母牛用玉米青贮饲料喂养 98 天,不补充硒,然后用不含硒的碎玉米/棉籽壳基饲料(基础饲料)喂养 74 天。进行肝活检以进行硒分析,然后小母牛再喂相同的饮食 14 天。将小母牛(n=10)分配到四个硒处理组之一,使基础肝硒含量在组间分层,然后喂足够的基础饮食(每天 0.08 毫克硒)和矿物质-维生素混合物,每天提供 0.16(对照)或 3.0 毫克硒以 ISe(亚硒酸钠)、OSe(Sel-Plex(®))或 Mix(1:1 ISe:OSe)的形式提供,以支持 0.5 公斤/天的生长 224 天。混合和 OSe 小母牛的全血、红细胞、血清和肝脏中的硒含量高于 ISe 小母牛,所有这些都高于对照。所有补充 Se 的处理都发现,全血、红细胞、血清和肝脏中的 Se 含量要么增加到第 56 天,然后稳定(肝脏和血浆),要么在第 56 天(全血)或第 112 天(红细胞)稳定,然后在第 224 天稳定增加,所有补充 Se 的处理都是如此。这些数据表明,1:1 的补充 ISe 和 OSe(1.5 毫克 Se:1.5 毫克 Se)与 3 毫克/天的 OSe 补充相等,并且大于 3 毫克/天的 ISe 补充。数据还表明,肝脏和血浆中的硒水平在第 56 至 112 天稳定,而全血和红细胞浓度在补充 224 天内仍在增加,无论补充硒的形式如何。
