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本文引用的文献

1
The effect of trace mineral source and concentration on ruminal digestion and mineral solubility.微量矿物质来源和浓度对瘤胃消化及矿物质溶解度的影响。
J Dairy Sci. 2015 Jan;98(1):566-73. doi: 10.3168/jds.2014-8624. Epub 2014 Nov 7.
2
Effects of tribasic copper chloride versus copper sulfate provided in corn-and molasses-based supplements on forage intake and copper status of beef heifers.在以玉米和糖蜜为基础的补充剂中,碱式氯化铜与硫酸铜对肉用小母牛采食量和铜状况的影响。
J Anim Sci. 2007 Mar;85(3):871-6. doi: 10.2527/jas.2006-518. Epub 2006 Oct 23.
3
Effect of intranasal vaccination against bovine enteric coronavirus on the occurrence of respiratory tract disease in a commercial backgrounding feedlot.鼻内接种牛肠道冠状病毒疫苗对商业育肥场呼吸道疾病发生情况的影响
J Am Vet Med Assoc. 2004 Sep 1;225(5):726-31. doi: 10.2460/javma.2004.225.726.
4
Micronutrients and immune function in cattle.牛的微量营养素与免疫功能
Proc Nutr Soc. 2000 Nov;59(4):587-94. doi: 10.1017/s0029665100000835.
5
Effects of dietary copper concentration and source on performance and copper status of growing and finishing steers.日粮铜浓度和来源对生长育肥牛生产性能及铜状况的影响。
J Anim Sci. 2000 Sep;78(9):2446-51. doi: 10.2527/2000.7892446x.
6
Micronutrients and innate immunity.微量营养素与先天免疫
J Infect Dis. 2000 Sep;182 Suppl 1:S5-10. doi: 10.1086/315922.
7
Health of finishing steers: effects on performance, carcass traits, and meat tenderness.育肥牛的健康状况:对生长性能、胴体性状和肉嫩度的影响。
J Anim Sci. 1999 Dec;77(12):3168-75. doi: 10.2527/1999.77123168x.
8
Zinc repletion with organic or inorganic forms of zinc and protein turnover in marginally zinc-deficient calves.在轻度缺锌犊牛中补充有机或无机形式锌与蛋白质周转情况
J Anim Sci. 1997 Nov;75(11):3074-81. doi: 10.2527/1997.75113074x.
9
Bioavailability of feed-grade copper sources (oxide, sulfate, or lysine) in growing cattle.生长牛中饲料级铜源(氧化物、硫酸盐或赖氨酸盐)的生物利用率。
J Anim Sci. 1994 Oct;72(10):2728-34. doi: 10.2527/1994.72102728x.
10
The physiology of stress and its relationship to mechanisms of disease and therapeutics.应激的生理学及其与疾病机制和治疗学的关系。
Vet Clin North Am Food Anim Pract. 1988 Nov;4(3):441-80. doi: 10.1016/s0749-0720(15)31025-2.

作为硫酸盐、有机氨基酸络合物或羟基微量元素来源的补充性微量元素(锌、铜和锰),用于运输应激的犊牛。

Supplemental trace minerals (zinc, copper, and manganese) as sulfates, organic amino acid complexes, or hydroxy trace-mineral sources for shipping-stressed calves.

作者信息

Ryan A W, Kegley E B, Hawley J, Powell J G, Hornsby J A, Reynolds J L, Laudert S B

机构信息

Department of Animal Science, Division of Agriculture, University of Arkansas, Fayetteville 72701.

Micronutrients, Indianapolis, IN 46231.

出版信息

Prof Anim Sci. 2015 Aug;31(4):333-341. doi: 10.15232/pas.2014-01383. Epub 2015 Dec 16.

DOI:10.15232/pas.2014-01383
PMID:32288477
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7147669/
Abstract

Crossbred calves (n = 350; average BW 240 ± 1 kg) were obtained from regional livestock auctions. Within each set (block, n = 4), calves were stratified by BW and arrival sex into 1 of 8, 0.42-ha pens (10 to 12 calves per pen). Pens were assigned randomly to 1 of 3 treatments consisting of supplemental Zn (360 mg/d), Mn (200 mg/d), and Cu (125 mg/d) from inorganic (zinc sulfate, manganese sulfate, and copper sulfate; n = 2 pens per block), organic (zinc amino acid complex, manganese amino acid complex, and copper amino acid complex; Availa-4, Zinpro Corp., Eden Prairie, MN; n = 3 pens per block), and hydroxy (IntelliBond Z, IntelliBond C, and IntelliBond M; Micronutrients, Indianapolis, IN; n = 3 pens per block) sources. During the 42- to 45-d backgrounding period calves had ad libitum access to bermudagrass hay and were fed corn and dried distillers grain-based supplements that served as carrier for the treatments. After removal of data for chronic (n = 6) and deceased (n = 1) calves, trace-mineral source had no effect on final or intermediate BW (P = 0.86) or ADG (P ≥ 0.24). With all data included in the analysis, dietary treatments had no effect on the number treated once (P = 0.93), twice (P = 0.71), or 3 times (P = 0.53) for bovine respiratory disease or on the number of calves classified as chronic (P = 0.55). Based on these results, trace-mineral source had no effect on total BW gain, ADG, or morbidity during the receiving phase in shipping-stressed cattle.

摘要

杂交犊牛(n = 350;平均体重240±1千克)购自当地牲畜拍卖会。在每组(区组,n = 4)中,犊牛按体重和到达时的性别分层,放入8个面积为0.42公顷的围栏中的1个(每个围栏10至12头犊牛)。围栏被随机分配到3种处理中的1种,处理包括来自无机源(硫酸锌、硫酸锰和硫酸铜;每个区组n = 2个围栏)、有机源(氨基酸锌络合物、氨基酸锰络合物和氨基酸铜络合物;Availa - 4,Zinpro公司,伊登草原,明尼苏达州;每个区组n = 3个围栏)和羟基源(IntelliBond Z、IntelliBond C和IntelliBond M;微量营养素公司,印第安纳波利斯,印第安纳州;每个区组n = 3个围栏)的补充锌(360毫克/天)、锰(200毫克/天)和铜(125毫克/天)。在42至45天的育肥前期,犊牛可自由采食百慕大干草,并饲喂以玉米和干酒糟为基础的补充料,这些补充料作为处理的载体。剔除慢性疾病(n = 6)和死亡(n = 1)犊牛的数据后,微量矿物质来源对最终或中期体重(P = 0.86)或平均日增重(P≥0.24)没有影响。分析纳入所有数据后,日粮处理对牛呼吸道疾病接受一次(P = 0.93)、两次(P = 0.71)或三次(P = 0.53)治疗的犊牛数量或被归类为慢性病的犊牛数量没有影响(P = 0.55)。基于这些结果,微量矿物质来源对运输应激牛在接收阶段的总体重增加、平均日增重或发病率没有影响。