Huang Haihao, Lechniak Dorota, Szumacher-Strabel Malgorzata, Patra Amlan Kumar, Kozłowska Martyna, Kolodziejski Pawel, Gao Min, Ślusarczyk Sylwester, Petrič Daniel, Cieslak Adam
Department of Animal Nutrition, Poznań University of Life Sciences, Wołyńska 33, 60-637, Poznań, Poland.
Department of Genetics and Animal Breeding, Poznań University of Life Sciences, Wolynska 33, Poznań, 60-637, Poland.
J Anim Sci Biotechnol. 2022 Aug 12;13(1):104. doi: 10.1186/s40104-022-00745-9.
The use of industrial by-products rich in bioactive compounds as animal feeds can reduce greenhouse gas production. Paulownia leaves silage (PLS) was supplemented to dairy cows' diet and evaluated in vitro (Exp. 1; Rusitec) and in vivo (Exp. 2, cannulated lactating dairy cows and Exp. 3, non-cannulated lactating dairy cows). The study investigated the PLS effect on ruminal fermentation, microbial populations, methane production and concentration, dry matter intake (DMI), and fatty acid (FA) proportions in ruminal fluid and milk.
Several variables of the ruminal fluid were changed in response to the inclusion of PLS. In Exp. 1, the pH increased linearly and quadratically, whereas ammonia and total volatile fatty acid (VFA) concentrations increased linearly and cubically. A linear, quadratic, and cubical decrease in methane concentration was observed with increasing dose of the PLS. Exp. 2 revealed an increase in ruminal pH and ammonia concentrations, but no changes in total VFA concentration. Inclusion of PLS increased ruminal propionate (at 3 h and 6 h after feeding), isovalerate, and valerate concentrations. Addition of PLS also affected several populations of the analyzed microorganisms. The abundances of protozoa and bacteria were increased, whereas the abundance of archaea were decreased by PLS. Methane production decreased by 11% and 14% in PLS-fed cows compared to the control in Exp. 2 and 3, respectively. Exp. 3 revealed a reduction in the milk protein and lactose yield in the PLS-fed cows, but no effect on DMI and energy corrected milk yield. Also, the PLS diet affected the ruminal biohydrogenation process with an increased proportions of C18:3 cis-9 cis-12 cis-15, conjugated linoleic acid, C18:1 trans-11 FA, polyunsaturated fatty acids (PUFA), and reduced n6/n3 ratio and saturated fatty acids (SFA) proportion in milk. The relative transcript abundances of the 5 of 6 analyzed genes regulating FA metabolism increased.
The dietary PLS replacing the alfalfa silage at 60 g/kg diet can reduce the methane emission and improve milk quality with greater proportions of PUFA, including conjugated linoleic acid, and C18:1 trans-11 along with reduction of SFA. Graphical abstract of the experimental roadmap.
使用富含生物活性化合物的工业副产品作为动物饲料可以减少温室气体排放。在奶牛日粮中添加泡桐叶青贮料(PLS),并在体外(实验1;瘤胃模拟技术)和体内(实验2,带瘘管的泌乳奶牛和实验3,不带瘘管的泌乳奶牛)进行评估。本研究调查了PLS对瘤胃发酵、微生物种群、甲烷产生和浓度、干物质摄入量(DMI)以及瘤胃液和牛奶中脂肪酸(FA)比例的影响。
添加PLS后,瘤胃液的几个变量发生了变化。在实验1中,pH呈线性和二次方增加,而氨和总挥发性脂肪酸(VFA)浓度呈线性和三次方增加。随着PLS剂量的增加,甲烷浓度呈线性、二次方和三次方下降。实验2显示瘤胃pH和氨浓度增加,但总VFA浓度没有变化。添加PLS增加了瘤胃丙酸(采食后3小时和6小时)、异戊酸和戊酸浓度。添加PLS还影响了所分析的几种微生物种群。PLS增加了原生动物和细菌的丰度,而降低了古菌的丰度。与对照组相比,实验2和实验3中,采食PLS的奶牛甲烷产量分别降低了11%和14%。实验3显示,采食PLS的奶牛牛奶蛋白质和乳糖产量降低,但对DMI和能量校正乳产量没有影响。此外,PLS日粮影响瘤胃生物氢化过程,牛奶中C18:3顺-9顺-12顺-15、共轭亚油酸、C18:1反-11脂肪酸、多不饱和脂肪酸(PUFA)比例增加,n6/n3比值和饱和脂肪酸(SFA)比例降低。所分析的6个调节FA代谢的基因中有5个的相对转录丰度增加。
日粮中用PLS以60 g/kg的比例替代苜蓿青贮料可减少甲烷排放,并改善牛奶品质,增加包括共轭亚油酸在内的PUFA以及C18:1反-11的比例,同时降低SFA比例。实验路线图的图形摘要。
