Fernandes Karlette A, Rogers Chris W, Gee Erica K, Kittelmann Sandra, Bolwell Charlotte F, Bermingham Emma N, Biggs Patrick J, Thomas David G
School of Agriculture and Environment, College of Sciences, Massey University, Private Bag 11-222, Palmerston North 4442, New Zealand.
School of Veterinary Science, College of Sciences, Massey University, Private Bag 11-222, Palmerston North 4442, New Zealand.
Animals (Basel). 2021 Sep 6;11(9):2611. doi: 10.3390/ani11092611.
The management of competition horses in New Zealand often involves rotations of short periods of stall confinement and concentrate feeding, with periods of time at pasture. Under these systems, horses may undergo abrupt dietary changes, with the incorporation of grains or concentrate feeds to the diet to meet performance needs, or sudden changes in the type of forage fed in response to a lack of fresh or conserved forage. Abrupt changes in dietary management are a risk factor for gastrointestinal (GI) disturbances, potentially due to the negative effects observed on the population of GI microbiota. In the present study, the faecal microbiota of horses was investigated to determine how quickly the bacterial communities; (1) responded to dietary change, and (2) stabilised following abrupt dietary transition. Six Thoroughbred mares were stabled for six weeks, consuming freshly cut pasture (weeks 1, 3 and 5), before being abruptly transitioned to conserved forage-based diets, both offered ad libitum. Intestinal markers were administered to measure digesta transit time immediately before each diet change. The conserved forage-based diets were fed according to a 3 × 3 Latin square design (weeks 2, 4 and 6), and comprised a chopped ensiled forage fed exclusively (Diet FE) or with whole oats (Diet FE + O), and perennial ryegrass hay fed with whole oats (Diet H + O). Faecal samples were collected at regular intervals from each horse following the diet changes. High throughput 16S rRNA gene sequencing was used to evaluate the faecal microbiota. There were significant differences in alpha diversity across diets ( < 0.001), and a significant effect of diet on the beta diversity (ANOSIM, = 0.001), with clustering of samples observed by diet group. There were differences in the bacterial phyla across diets ( < 0.003), with the highest relative abundances observed for Firmicutes (62-64%) in the two diets containing chopped ensiled forage, Bacteroidetes (32-38%) in the pasture diets, and Spirochaetes (17%) in the diet containing hay. Major changes in relative abundances of faecal bacteria appeared to correspond with the cumulative percentage of intestinal markers retrieved in the faeces as the increasing amounts of digesta from each new diet transited the animals. A stable faecal microbiota profile was observed in the samples from 96 h after abrupt transition to the treatment diets containing ensiled chopped forage. The present study confirmed that the diversity and community structure of the faecal bacteria in horses is diet-specific and resilient following dietary transition and emphasised the need to have modern horse feeding management that reflects the ecological niche, particularly by incorporating large proportions of forage into equine diets.
新西兰竞赛用马的管理通常涉及短期的厩舍圈养和精饲料喂养,以及在牧场放牧的时间段。在这些饲养体系下,马匹可能会经历突然的饮食变化,为满足运动表现需求而在日粮中添加谷物或精饲料,或者因缺乏新鲜或青贮饲料而突然改变所喂饲的草料类型。饮食管理的突然变化是胃肠道紊乱的一个风险因素,这可能是由于对胃肠道微生物群数量产生的负面影响所致。在本研究中,对马的粪便微生物群进行了调查,以确定细菌群落:(1)对饮食变化的反应速度,以及(2)在饮食突然转变后多久趋于稳定。六匹纯种母马被关在厩舍里六周,食用新鲜割下的牧草(第1、3和5周),然后突然转变为以青贮饲料为基础的日粮,两种日粮均自由采食。在每次饮食变化前立即给予肠道标记物以测量食糜通过时间。以青贮饲料为基础的日粮按照3×3拉丁方设计投喂(第2、4和6周),包括单独投喂切碎的青贮饲料(FE日粮)或与整粒燕麦一起投喂(FE + O日粮),以及与整粒燕麦一起投喂的多年生黑麦草草干草(H + O日粮)。在饮食变化后定期从每匹马采集粪便样本。采用高通量16S rRNA基因测序来评估粪便微生物群。不同日粮间的α多样性存在显著差异(<0.001),日粮对β多样性有显著影响(ANOSIM,R = 0.001),样本按日粮组聚类。不同日粮间细菌门存在差异(<0.003),在含有切碎青贮饲料的两种日粮中厚壁菌门相对丰度最高(62 - 64%),在牧草日粮中拟杆菌门相对丰度最高(32 - 38%),在含有干草的日粮中螺旋体门相对丰度最高(17%)。粪便细菌相对丰度的主要变化似乎与粪便中回收的肠道标记物的累积百分比相对应,因为来自每种新日粮的食糜量增加,通过动物体内。在突然转变为含有切碎青贮饲料的处理日粮96小时后的样本中观察到稳定的粪便微生物群谱。本研究证实,马粪便细菌的多样性和群落结构具有日粮特异性,且在饮食转变后具有恢复力,并强调需要有反映生态位的现代马匹饲养管理,特别是通过在马的日粮中加入大量草料。
