Add to ORKGRuminal methanogenesis has disadvantageous effects on ruminant animals and environment of atmosphere. Inhibition of methane produced through reduction of carbondioxide has been conducted by bacteriological approach. The approach involved the isolation of bacteria from rumens of sheep (IBD) and buffalo (IBK) using medium for CO-utilizing acetogens. The isolate of bacterium was multiplied with the usual culture medium and then used as inoculum to degrade a substrate of King grass under constant temperature (390C) for 48 hours. Fresh rumen fluid of sheep (CRDS) was used as comparing inoculum. Measurementswere carbondioxide and methane gasses, pH, volatile fatty acid (VFA) and NH3-N contents, bacterial count, and dry matter digestibility (in vi...
The aim of this study was to determine the potential of bioaugmentation with cellulolytic rumen micr...
An in vivo study was conducted to compare the enteric methane emissions and diversity of ruminal met...
Enteric fermentation in ruminants is the single largest anthropogenic source of agricultural methane...
Ruminal methanogenesis has disadvantageous effects on ruminant animals and environment of atmosphere...
Methanogenesis can be inhibited by various chemicals through different mechanism reaktion. The use o...
Six reductive acetogenic bacteria from a variety of ruminal and non-ruminal environments were invest...
Methanogenesis is a predominant fermentation reaction in the gut ecosystem of ruminants. A functiona...
Ruminal methanogens reduce carbon dioxide to methane (CH 4 ), thereby preventing hydrogen use by bac...
Feeding roughage to cattle can produce a high methane emission from fermentation process in the rume...
A study on utilization of Acetoanaerobium noterae to decrease enteric methane production through fee...
International audienceThe aim of this work was to determine whether reductive acetogenesis can provi...
The primary target of this research was to explore the ability of promising propionibacteria strains...
Interest exists in replacing methanogenesis with acetogenesis in ruxminal contents. However, acetoge...
Concerns about the environmental effect and the economic burden of methane (CH4) emissions from rumi...
The rumen is a highly diverse ecosystem comprising different microbial groups including methanogens ...
The aim of this study was to determine the potential of bioaugmentation with cellulolytic rumen micr...
An in vivo study was conducted to compare the enteric methane emissions and diversity of ruminal met...
Enteric fermentation in ruminants is the single largest anthropogenic source of agricultural methane...
Ruminal methanogenesis has disadvantageous effects on ruminant animals and environment of atmosphere...
Methanogenesis can be inhibited by various chemicals through different mechanism reaktion. The use o...
Six reductive acetogenic bacteria from a variety of ruminal and non-ruminal environments were invest...
Methanogenesis is a predominant fermentation reaction in the gut ecosystem of ruminants. A functiona...
Ruminal methanogens reduce carbon dioxide to methane (CH 4 ), thereby preventing hydrogen use by bac...
Feeding roughage to cattle can produce a high methane emission from fermentation process in the rume...
A study on utilization of Acetoanaerobium noterae to decrease enteric methane production through fee...
International audienceThe aim of this work was to determine whether reductive acetogenesis can provi...
The primary target of this research was to explore the ability of promising propionibacteria strains...
Interest exists in replacing methanogenesis with acetogenesis in ruxminal contents. However, acetoge...
Concerns about the environmental effect and the economic burden of methane (CH4) emissions from rumi...
The rumen is a highly diverse ecosystem comprising different microbial groups including methanogens ...
The aim of this study was to determine the potential of bioaugmentation with cellulolytic rumen micr...
An in vivo study was conducted to compare the enteric methane emissions and diversity of ruminal met...
Enteric fermentation in ruminants is the single largest anthropogenic source of agricultural methane...