Your search keyword '"Miho Fujimori"' showing total 3 results

1. The role of rumen microbiota in enteric methane mitigation for sustainable ruminant production

Author

Takumi Shinkai, Shuhei Takizawa, Miho Fujimori, and Makoto Mitsumori

Subjects

greenhouse gas, methane, rumen, rumen microbiota, Zoology, QL1-991

Abstract

Ruminal methane production functions as the main sink for metabolic hydrogen generated through rumen fermentation and is recognized as a considerable source of greenhouse gas emissions. Methane production is a complex trait affected by dry matter intake, feed composition, rumen microbiota and their fermentation, lactation stage, host genetics, and environmental factors. Various mitigation approaches have been proposed. Because individual ruminants exhibit different methane conversion efficiencies, the microbial characteristics of low-methane-emitting animals can be essential for successful rumen manipulation and environment-friendly methane mitigation. Several bacterial species, including Sharpea, uncharacterized Succinivibrionaceae, and certain Prevotella phylotypes have been listed as key players in low-methane-emitting sheep and cows. The functional characteristics of the unclassified bacteria remain unclear, as they are yet to be cultured. Here, we review ruminal methane production and mitigation strategies, focusing on rumen fermentation and the functional role of rumen microbiota, and describe the phylogenetic and physiological characteristics of a novel Prevotella species recently isolated from low methane-emitting and high propionate-producing cows. This review may help to provide a better understanding of the ruminal digestion process and rumen function to identify holistic and environmentally friendly methane mitigation approaches for sustainable ruminant production.

Published

2024

2. Impacts of Mootral on Methane Production, Rumen Fermentation, and Microbial Community in an in vitro Study

Author

Eslam Ahmed, Rintaro Yano, Miho Fujimori, Deepashree Kand, Masaaki Hanada, Takehiro Nishida, and Naoki Fukuma

Subjects

mootral, methane emission, rumen, bacteria, archaea, Veterinary medicine, SF600-1100

Abstract

Methane mitigation strategies have a two-sided benefit for both environment and efficient livestock production. This preliminary short-term in vitro trial using Mootral (garlic and citrus extracts), a novel natural feed supplement, was conducted to evaluate its efficacy on rumen fermentation characteristics, methane production, and the bacterial and archaeal community. The experiment was performed as a batch culture using rumen fluid collected from sheep, and Mootral was supplemented in three concentrations: 0% (Control), 10%, and 20% of the substrate (50% Grass:50% Concentrate). The rumen fermentation data and alpha diversity of microbial community were analyzed by ordinary one-way analysis of variance. The relative abundance and statistical significance of families and operational taxonomic units (OTUs) among the groups were compared by Kruskal–Wallis H test using Calypso software. After 24-h incubation at 39°C, Mootral in a dose-dependent manner improved the production of total volatile fatty acids and propionate while it reduced the acetate proportion and acetate/propionate ratio. The total produced gas was two times higher in the Mootral-supplemented groups than control (P < 0.01), while the proportion of methane in the produced gas was reduced by 22% (P < 0.05) and 54% (P < 0.01) for 10 and 20% Mootral, respectively. Mootral did not change pH, digestibility, and ammonia-nitrogen. Microbial community analyses showed that Mootral effectively changed the ruminal microbiome. The bacterial community showed an increase of the relative abundance of the propionate-producing family such as Prevotellaceae (P = 0.014) and Veillonellaceae (P = 0.030), while there was a decrease in the relative abundance of some hydrogen-producing bacteria by Mootral supplementation. In the archaeal community, Methanobacteriaceae was decreased by Mootral supplementation compared with control (P = 0.032), while the Methanomassiliicoccaceae family increased in a dose-dependent effect (P = 0.038). The results of the study showed the efficacy of the new mixture to alter the ruminal microbial community, produce more propionate, and reduce microbial groups associated with methane production, thus suggesting that Mootral is a promising natural mixture for methane reduction from ruminants.

Published

2021

3. N2O emission factors for organic amendments in Japan from measurement campaign and systematic review

Author

Hiroko Akiyama, Tomohito Sano, Kazuya Nishina, Shigeto Sudo, Noriko Oura, Miho Fujimori, Ichiro Uezono, Shinji Yano, Satoru Ohkoshi, Yutaka Fujita, Yutaka Shiratori, Masaki Tsuji, Hiroyuki Hasukawa, Yasufumi Suzue, Yasunao Yamada, Hiroyuki Mizukami, Takehiko Matsumoto, and Kazuyuki Yagi

Subjects

Environmental Engineering, Environmental Chemistry, Pollution, Waste Management and Disposal

Published

2023