Drewery M L, Sawyer J E, Pinchak W E, Wickersham T A
Texas A&M University, College Station 77843.
Texas A&M AgriLife Research, Vernon 76384.
J Anim Sci. 2014 Oct;92(10):4642-9. doi: 10.2527/jas.2014-7795. Epub 2014 Aug 1.
Algal biomass has been identified as a third-generation biofuel. Significant quantities of the coproduct postextraction algal residue (PEAR) remain after lipid extraction. After extraction, PEAR is concentrated in protein (17.9% CP on a DM basis and 32.5% CP on an ash-free basis), suggesting it may be an alternative to cottonseed meal (CSM) as a protein supplement. Our objectives were to determine the optimal level of PEAR supplementation to steers consuming straw and to compare the effects of PEAR supplementation on straw utilization and N metabolism with an isonitrogenous level of CSM. Five steers (198.2 ± 6.1 kg of BW), in a 5 × 5 Latin square, had ad libitum access to oat straw (80% NDF and 4.5% CP on a DM basis). Treatments were infused ruminally once daily and included no supplemental protein (CON); PEAR at 50, 100, and 150 mg N/kg BW; and CSM at 100 mg N/kg BW. Provision of PEAR increased total digestible OM intake (TDOMI) quadratically (P = 0.01) from 0.9 (CON) to 1.6 kg/d (100 mg N/kg BW of PEAR). Organic matter digestibility (OMD) increased quadratically (P < 0.01) with supplementation and was maximized (55% OMD) at 50 mg N/kg BW of PEAR. At isonitrogenous levels of PEAR and CSM, TDOMI was similar (P = 0.13) as was OMD (P = 0.50). Negative N balance was observed for all treatments except PEAR provided at 100 or 150 mg of N/kg BW. Nitrogen balance was quadratic (P < 0.01) with the greatest retention (1.84 g N/d) occurring at 100 mg N/kg BW of PEAR. There were no differences (P ≥ 0.22) between isonitrogenous PEAR and CSM supplementation in measurements of ruminal ammonia or VFA concentrations. Straw utilization was maximized when PEAR was provided at 100 mg N/kg BW. Our observations suggest cattle provided PEAR utilize straw in a manner similar to those supplemented CSM, indicating PEAR has potential to substitute for CSM as a protein supplement in forage-based operations.
藻类生物质已被确定为第三代生物燃料。脂质提取后会残留大量的提取后藻类残渣(PEAR)副产品。提取后,PEAR富含蛋白质(以干物质计粗蛋白含量为17.9%,以无灰计粗蛋白含量为32.5%),这表明它可能作为蛋白质补充剂替代棉籽粕(CSM)。我们的目标是确定向采食秸秆的阉牛补充PEAR的最佳水平,并比较补充PEAR与等氮水平的CSM对秸秆利用和氮代谢的影响。五头阉牛(体重198.2±6.1千克)采用5×5拉丁方设计,自由采食燕麦秸秆(以干物质计中性洗涤纤维含量80%,粗蛋白含量4.5%)。处理方式为每天一次瘤胃灌注,包括不补充蛋白质(CON);PEAR分别为50、100和150毫克氮/千克体重;以及CSM为100毫克氮/千克体重。补充PEAR使总可消化有机物摄入量(TDOMI)呈二次方增加(P = 0.01),从0.9(CON组)增加到1.6千克/天(100毫克氮/千克体重的PEAR组)。随着补充量增加,有机物消化率(OMD)呈二次方增加(P < 0.01),在50毫克氮/千克体重的PEAR组达到最大值(OMD为55%)。在PEAR和CSM等氮水平下,TDOMI相似(P = 0.13),OMD也相似(P = 0.50)。除了100或150毫克氮/千克体重的PEAR组外,所有处理组均观察到负氮平衡。氮平衡呈二次方变化(P < 0.01),在100毫克氮/千克体重的PEAR组氮保留量最大(1.84克氮/天)。在瘤胃氨或挥发性脂肪酸浓度的测定中,等氮的PEAR和CSM补充组之间没有差异(P≥0.22)。当提供100毫克氮/千克体重的PEAR时,秸秆利用率最高。我们的观察结果表明,给牛提供PEAR时,其利用秸秆的方式与补充CSM的牛相似,这表明PEAR有潜力在以草料为基础的养殖中替代CSM作为蛋白质补充剂。
