Institute of Agricultural and Nutritional Sciences, Martin Luther University Halle-Wittenberg, Halle, Germany.
Julius Kühn Institute (JKI), Federal Research Centre for Cultivated Plants, Institute for Crop and Soil Science, Braunschweig, Germany.
J Equine Vet Sci. 2020 Jul;90:103020. doi: 10.1016/j.jevs.2020.103020. Epub 2020 Apr 9.
Fructooligosaccharides (FOS) and inulin may modulate hindgut fermentation. It was tested if digesta batch cultures taken from horses adapted to FOS and inulin show different fermentation compared with such taken from nonsupplemented horses. Six horses received 0.15 g FOS and inulin/kg body weight/d via Jerusalem artichoke meal (JAM) upon a hay-based diet; six horses received corncob meal without grains (CMG) as placebo. The horses were euthanized after 20 days. Digesta samples were taken from stomach, cecum, ventral colon ascendens (VCA), and colon transversum (CT). Digesta batch cultures were incubated 48 hours to measure in vitro gas production as well as pre- and post-incubation pH and oxidation-reduction potential (ORP). A distinct fermentation of the surplus of fructans present in the inoculum was found with JAM-adapted batch cultures. Gas production was accelerated in inoculated gastric contents of horses adapted to JAM compared with CMG adapted ones (7.8 vs. 16.4 hours to achieve half of the 48 hours gas quantity, respectively; P > .05). Although buffered, pH decreased during fermentation. Postincubation pH was lower with JAM than CMG-adapted batch cultures (P > .05). Preinoculation ORP was lower with stomach batch cultures adapted to CMG than with such adapted to JAM. The ORP increased twofold from pre- to post-incubation with the latter. Asymptotic maximal gas production decreased gradually using cecum, VCA, or CT digesta. Parts of FOS and inulin of digesta are fermented in the stomach, which reduce possible effects on hindgut fermentation. Elevated fermentation may considerably impact stomach health.
低聚果糖(FOS)和菊粉可能会调节后肠发酵。本研究旨在测试经过 FOS 和菊粉适应的马的消化批培养物与未经补充的马的消化批培养物相比是否表现出不同的发酵。6 匹马接受 0.15 g FOS 和菊粉/公斤体重/天,通过洋蓟粉(JAM)添加到以干草为基础的日粮中;6 匹马接受不含谷物的玉米芯粉(CMG)作为安慰剂。20 天后,这些马被安乐死。从胃、盲肠、升结肠(VCA)和横结肠(CT)采集消化批培养物样本。消化批培养物孵育 48 小时,以测量体外产气量以及孵育前后的 pH 值和氧化还原电位(ORP)。发现 JAM 适应的批培养物对存在于接种物中的剩余低聚糖进行了明显的发酵。与 CMG 适应的接种物相比,JAM 适应的接种物胃内容物中的气体产生更快(分别在 7.8 和 16.4 小时达到 48 小时气体量的一半;P >.05)。尽管缓冲,pH 值在发酵过程中下降。后孵育 pH 值在 JAM 适应的批培养物中低于 CMG 适应的批培养物(P >.05)。与 JAM 适应的批培养物相比,CMG 适应的胃批培养物的预接种 ORP 较低。后者的预接种 ORP 从孵育前增加了两倍到孵育后。使用盲肠、VCA 或 CT 消化物,渐近最大产气量逐渐降低。消化物中的部分 FOS 和菊粉在胃中发酵,这可能会减少对后肠发酵的影响。发酵增加可能会对胃健康产生重大影响。
