K. Nonaka scite author profile

The objective of this study was to determine the effect of beet pulp (BP) and lactic acid bacteria (LAB) on silage fermentation quality and in vitro ruminal dry matter (DM) digestion of vegetable residues, including white cabbage, Chinese cabbage, red cabbage, and lettuce. Silage was prepared using a small-scale fermentation system, and treatments were designed as control silage without additive or with BP (30% fresh matter basis), LAB inoculant Chikuso-1 (Lactobacillus plantarum, 5mg/kg, fresh matter basis), and BP+LAB. In vitro incubation was performed using rumen fluid mixed with McDougall's artificial saliva (at a ratio of 1:4, vol/vol) at 39°C for 6h to determine the ruminal fermentability of the vegetable residue silages. These vegetable residues contained high levels of crude protein (20.6-22.8% of DM) and moderate levels of neutral detergent fiber (22.7-33.6% of DM). In all silages, the pH sharply decreased and lactic acid increased, and the growth of bacilli, coliform bacteria, molds, and yeasts was inhibited by the low pH at the early stage of ensiling. The silage treated with BP or LAB had a lower pH and a higher lactic acid content than the control silage. After 6h of incubation, all silages had relatively high DM digestibility (38.6-44.9%); in particular, the LAB-inoculated silage had the highest DM digestibility and the lowest methane production. The vegetable residues had high nutritional content and high in vitro DM digestibility. Also, both the addition of a LAB inoculant and moisture adjustment with BP improved the fermentation quality of the vegetable residue silages. In addition, LAB increased DM digestibility and decreased ruminal methane production.

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An acid-tolerant ammonia-oxidizing γ-proteobacterium from soil

Hayatsu

Tago

Uchiyama

et al. 2017

147

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Nitrification, the microbial oxidation of ammonia to nitrate via nitrite, occurs in a wide range of acidic soils. However, the ammonia-oxidizing bacteria (AOB) that have been isolated from soil to date are acid-sensitive. Here we report the isolation and characterization of an acid-adapted AOB from an acidic agricultural soil. The isolated AOB, strain TAO100, is classified within the Gammaproteobacteria based on phylogenetic characteristics. TAO100 can grow in the pH range of 5-7.5 and survive in highly acidic conditions until pH 2 by forming cell aggregates. Whereas all known gammaproteobacterial AOB (γ-AOB) species, which have been isolated from marine and saline aquatic environments, are halophiles, TAO100 is not phenotypically halophilic. Thus, TAO100 represents the first soil-originated and non-halophilic γ-AOB. The TAO100 genome is considerably smaller than those of other γ-AOB and lacks several genes associated with salt tolerance which are unnecessary for survival in soil. The ammonia monooxygenase subunit A gene of TAO100 and its transcript are higher in abundance than those of ammonia-oxidizing archaea and betaproteobacterial AOB in the strongly acidic soil. These results indicate that TAO100 plays an important role in the nitrification of acidic soils. Based on these results, we propose TAO100 as a novel species of a new genus, Candidatus Nitrosoglobus terrae.

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Effect of replacing corn with brown rice grain in a total mixed ration silage on milk production, ruminal fermentation and nitrogen balance in lactating dairy cows

Miyaji

Matsuyama

Hosoda

et al. 2012

Animal Science Journal

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Nine multiparous Holstein cows were used in a replicated 3 × 3 Latin square design to determine the effects of substituting corn grain with brown rice (BR) grain in total mixed ration (TMR) silage on milk yield, ruminal fermentation and nitrogen (N) balance. The TMR silages were made from the ensiling of TMR containing (dry matter basis) 50.1% forage in rice silage and corn silage combination, and 49.9% concentrate. The grain portion of the diets contained 31.2% steam-flaked corn, 31.2% steam-flaked BR or an equal mixture of corn and BR. Dietary treatments did not affect dry matter intake, milk yield and milk fat, protein and lactose yields. The ruminal pH and total volatile fatty acid concentrations were not affected by dietary treatment. The urinary N excretion decreased linearly (P < 0.01) in response to increased levels of BR, with no dietary effect on N intake, N secretion in milk and fecal N excretion. Our results indicate that steam-flaked BR is a suitable replacement for steam-flaked corn in dairy cow diets, and that it can be included in rations to a level of at least 31.2% of dry matter without adverse effects on milk production, when cows were fed rice silage and corn silage-based diets.

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Evaluation of drinking water intake, feed water intake and total water intake in dry and lactating cows fed silages

et al. 2010

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Data of 46 water balance measurements were collected from dry and lactating Holstein cows in the controlled climatic chamber, which maintained at 20°C and 60% relative humidity, to evaluate between drinking water intake (DWI), feed water intake (FWI), total water intake (TWI) and some variables in cows. Orchardgrass silage, alfalfa silage and corn silage were offered in dry cows, and alfalfa or orchardgrass silage and concentrates were given as a TMR in ratio of 60:40 in lactating cows. DMI and milk production were highly related to DWI and TWI of lactating cows. DWI in dry and lactating cows increased and FWI decreased as dietary DM increased, but there was a very weak correlation between dietary DM and TWI. In both dry and lactating cows, positive correlations were obtained between dietary CP or K and TWI, especially highly correlations between dietary K and TWI. There were strong positive correlations between N intake, K intake or urine volume and TWI rather than DWI in dry and lactating cows. These results suggest that dry and lactating cows accelerate DWI to excrete large amounts of K or N into urine in excess of their needs, but TWI is more suitable to evaluate the effects of dietary CP or K on water intake and urine volume in dairy cows.

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Effect of supplementation of purple pigment from anthocyanin-rich corn (Zea mays L.) on blood antioxidant activity and oxidation resistance in sheep

et al. 2012

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K. Nonaka

Effect of lactic acid bacteria inoculant and beet pulp addition on fermentation characteristics and in vitro ruminal digestion of vegetable residue silage

An acid-tolerant ammonia-oxidizing γ-proteobacterium from soil

Effect of replacing corn with brown rice grain in a total mixed ration silage on milk production, ruminal fermentation and nitrogen balance in lactating dairy cows

Evaluation of drinking water intake, feed water intake and total water intake in dry and lactating cows fed silages

Effect of supplementation of purple pigment from anthocyanin-rich corn (Zea mays L.) on blood antioxidant activity and oxidation resistance in sheep

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