Effects of Extruded Corn with Different Gelatinization Degrees on Feed Preference, Growth Performance, Nutrient Digestibility, and Fecal Microbiota of Weaning Piglets
文献类型: 外文期刊
第一作者: Deng, Bo
作者: Deng, Bo;Wu, Jie;Tao, Xin;Qi, Keke;Xu, Ziwei;Liu, Xuan;Ma, Qian;Diao, Xinping
作者机构:
关键词: extrusion; corn gelatinization; choice feeding; palatability; growth rate; fecal microbiota; piglets
期刊名称:ANIMALS ( 影响因子:3.0; 五年影响因子:3.2 )
ISSN: 2076-2615
年卷期: 2023 年 13 卷 5 期
页码:
收录情况: SCI
摘要: Simple Summary This study was conducted to evaluate the effects of extruded corn with different gelatinization degrees on the feed preference, growth performance, nutrient digestibility, and fecal microbiota of weaning piglets. The results showed that extruded corn can improve feed preference, increase growth performance and nutrient digestibility, and modify gut microbiota, and the ideal degree of gelatinization is approximately 41.82-62.60%. Preference and performance trials were conducted to investigate the effects of extruded corn with different degrees of gelatinization on the feed preference, growth performance, nutrient digestibility, and fecal microbiota of weaning piglets. In the preference trial, 144 piglets who were 35 days old were weighed and allotted to six treatments with four replications per treatment. Piglets in each treatment group were allowed to choose two of the following four corn-supplemented diets: conventional corn (NC) or extruded corn with low (LEC; 41.82% gelatinization), medium (MEC; 62.60% gelatinization), or high (HEC; 89.93% gelatinization) degrees of gelatinization for 18 days. The results showed that the piglets preferred diets supplemented with a low degree of gelatinization of extruded corn. In the performance trial, 144 piglets who were 35 days old were weighed and allotted into four treatments with six replications per treatment. Piglets in each treatment were fed one of the four diets for 28 days. The results showed that LEC and MEC decreased the feed:gain ratio at 14-28 days and 0-28 days, respectively, and increased the apparent total tract digestibility (ATTD) of crude protein compared with NC. Meanwhile, LEC increased the total protein and globulin content in the plasma on day 14, and MEC increased the ATTD of ether extract (EE) compared with NC. Extruded corn with low and medium degrees of gelatinization increased the abundance of Bacteroidetes at the phylum level and Lactobacillus, Alloprevotella, Prevotellaceae_UCG-03, and Prevotella_2 at the genus level. The results showed that extruded corn can improve feed preference, increase growth performance and nutrient digestibility, and modify gut microbiota, and the ideal degree of gelatinization is approximately 41.82-62.60%.
分类号:
- 相关文献
作者其他论文 更多>>
-
Effect of different pectin sources and structures on the stability of cyanidin-3-O-glucoside (C3G)
作者:Jiang, Xiyu;Verkerk, Ruud;Dekker, Matthijs;Bi, Jinfeng;Liu, Xuan;Liu, Meng;Xie, Huimin;Liu, Meng
关键词:Pectin structures; Binding percentage; Color; Particle size and zeta potential; Light and thermal degradation
-
Identification of QTLs associated with very-long chain fatty acid (VLCFA) content via linkage mapping and BSA-seq in peanut
作者:Xue, Xiaomeng;Li, Jianguo;Wu, Jie;Hu, Meiling;Liu, Nian;Yan, Liying;Chen, Yuning;Wang, Xin;Kang, Yanping;Wang, Zhihui;Jiang, Huifang;Lei, Yong;Liao, Boshou;Huai, Dongxin;Xue, Xiaomeng;Zhang, Chunyu
关键词:
-
The cGAS-STING pathway in viral infections: a promising link between inflammation, oxidative stress and autophagy
作者:Zhang, Kunli;Zhao, Ziqiao;Sun, Zeyi;Li, Chunling;Zhang, Jianfeng;Huang, Qiuyan;Li, Xinming;Hong, Chun;Wang, Sutian;Huang, Qiuyan;Deng, Bo;Zhang, Jianfeng;Wang, Sutian
关键词:cGAS-STING; viral infection; innate immune; autophagy; inflammation; oxidative stress; virus-host interaction
-
Unveiling the molecular regulatory mechanisms underlying sucrose accumulation and oil reduction in peanut kernels through genetic mapping and transcriptome analysis
作者:Huai, Dongxin;Zhi, Chenyang;Wu, Jie;Xue, Xiaomeng;Hu, Meiling;Liu, Nian;Huang, Li;Yan, Liying;Chen, Yuning;Wang, Xin;Wang, Qianqian;Kang, Yanping;Wang, Zhihui;Jiang, Huifang;Liao, Boshou;Lei, Yong;Zhang, Jianan
关键词:Peanut; Sucrose content; Oil content; Genetic mapping; Transcriptome analysis
-
Combination of Bacillus tequilensis with difenoconazole to control pear black spot and the related synergistic mechanism
作者:Bi, Qiuyan;Lu, Fen;Wu, Jie;Liu, Xiangyu;Han, Xiuying;Wang, Wenqiao;Zhao, Jianjiang
关键词:Alternaria alternata; synergistic mechanisms; combined efficacy; field applications; pear
-
Cold tolerance SNPs and candidate gene mining in the soybean germination stage based on genome-wide association analysis
作者:Chen, Yuehan;Ma, Qian;Chen, Yuehan;Liu, Zhi;Yang, Qing;Li, Chenhui;Shi, Xiaolei;Zhang, Mengchen;Yang, Chunyan;Yan, Long;Han, Dezhi;Jia, Hongchang;Wang, Shu;Lu, Wencheng;Qiu, Lijuan
关键词:
-
Multi-omic characterization of allele-specific regulatory variation in hybrid pigs
作者:Quan, Jianping;Wang, Xingwang;Cai, Gengyuan;Ding, Rongrong;Zhuang, Zhanwei;Zhou, Shenping;Ruan, Donglin;Wu, Jiajin;Zheng, Enqin;Zhang, Zebin;Liu, Langqing;Meng, Fanming;Wu, Jie;Xu, Cineng;Qiu, Yibin;Wang, Shiyuan;Lin, Meng;Li, Shaoyun;Ye, Yong;Zhou, Fuchen;Lin, Danyang;Li, Xuehua;Deng, Shaoxiong;Zhang, Yuling;Yao, Zekai;Yang, Yingshan;Liu, Yiyi;Zhan, Yuexin;Zhang, Jiaming;Ma, Fucai;Yang, Jifei;Chen, Qiaoer;Yang, Jisheng;Gu, Ting;Huang, Sixiu;Xu, Zheng;Li, Zicong;Yang, Jie;Wu, Zhenfang;Quan, Jianping;Ding, Rongrong;Tan, Suxu;Huang, Wen;Quan, Jianping;Cai, Gengyuan;Wu, Jiajin;Zheng, Enqin;Zhang, Zebin;Liu, Langqing;Lin, Meng;Huang, Sixiu;Yang, Jie;Quan, Jianping;Ding, Rongrong;Ye, Jian;Dong, Linsong;Wu, Zhenfang;Yang, Ming;Gao, Xin;Liu, Zhihong;Yang, Ming;Ding, Rongrong;Ye, Jian;Dong, Linsong;Wu, Zhenfang;Wang, Xingwang;Cai, Gengyuan;Zhuang, Zhanwei;Zhou, Shenping;Ruan, Donglin;Wu, Jiajin;Zheng, Enqin;Zhang, Zebin;Liu, Langqing;Wu, Jie;Xu, Cineng;Qiu, Yibin;Wang, Shiyuan;Li, Shaoyun;Ye, Yong;Zhou, Fuchen;Lin, Danyang;Li, Xuehua;Deng, Shaoxiong;Zhang, Yuling;Yao, Zekai;Yang, Yingshan;Liu, Yiyi;Zhan, Yuexin;Zhang, Jiaming;Ma, Fucai;Yang, Jifei;Gu, Ting;Xu, Zheng;Li, Zicong;Yang, Jie;Meng, Fanming
关键词:
