Your search keyword '"Ishimoto C"' showing total 5 results

1. Adaptation of anammox granules in swine wastewater treatment to low temperatures at a full-scale simultaneous partial nitrification, anammox, and denitrification plant.

Author

Ishimoto C, Waki M, and Soda S

Subjects

Anaerobiosis, Animals, Bioreactors, Denitrification, Nitrogen analysis, Oxidation-Reduction, Sewage, Swine, Temperature, Wastewater, Nitrification, Water Purification

Abstract

In the anammox process, maintaining a high anammox activity at low water temperatures for stable nitrogen removal is a challenge. In this study, to verify the adaptability of anammox to low water temperatures, we investigated effects of annual temperature fluctuations on nitrogen removal in a full-scale swine wastewater treatment plant, where anammox bacteria accumulated. Annual quarters were defined as L-1 (November-January), L-2 (February-April), H-1 (April-July), and H-2 (July-October). The total nitrogen removal rate was stable at 0.08-0.11 kg-N/m 3 /d, even during temperature fluctuations. Removal efficiencies of biochemical oxygen demand and total nitrogen were consistently high at 95-99% and 69-81%, respectively. The anammox activity and abundance of anammox bacteria were highest in granule L-1 and lowest in granule H-2. The optimal temperature for anammox activity shifted from 35 °C in granules H-1 and H-2 to 30 °C in granules L-1 and L-2, while the latter maintained a moderate activity compared to the former at low temperature. Candidatus Jettenia asiatica was predominant, especially in granule L-2, accounting for up to 54% of the microbial community composition at the genus level. The high specific anammox activity in granule L-2 was considered to be due to the abundance of anammox bacteria and the adaptation of Ca. Jettenia asiatica to low temperature. The anammox granules adapted well to low temperatures and demonstrated high efficiency in the simultaneous partial nitrification anammox and denitrification process without heating. Thus, constructing an energy-saving and cost-effective nitrogen removal system can be considered., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

2. Anammox biofilm in activated sludge swine wastewater treatment plants.

Author

Suto R, Ishimoto C, Chikyu M, Aihara Y, Matsumoto T, Uenishi H, Yasuda T, Fukumoto Y, and Waki M

Subjects

Ammonia chemistry, Ammonia metabolism, Anaerobiosis, Animals, Oxidation-Reduction, Planctomycetales genetics, Planctomycetales growth & development, RNA, Ribosomal, 16S genetics, Sewage microbiology, Swine, Wastewater microbiology, Ammonia analysis, Biofilms growth & development, Bioreactors microbiology, Sewage chemistry, Wastewater chemistry, Water Purification methods

Abstract

We investigated anammox with a focus on biofilm in 10 wastewater treatment plants (WWTPs) that use activated sludge treatment of swine wastewater. In three plants, we found red biofilms in aeration tanks or final sedimentation tanks. The biofilm had higher anammox 16S rRNA gene copy numbers (up to 1.35 × 10 12 copies/g-VSS) and higher anammox activity (up to 295 μmoL/g-ignition loss/h) than suspended solids in the same tank. Pyrosequencing analysis revealed that Planctomycetes accounted for up to 17.7% of total reads in the biofilm. Most of them were related to Candidatus Brocadia or Ca. Jettenia. The highest copy number and the highest proportion of Planctomycetes were comparable to those of enriched anammox sludge. Thus, swine WWTPs that use activated sludge treatment can fortuitously acquire anammox biofilm. Thus, concentrated anammox can be detected by focusing on red biofilm., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2017

3. Phase separation of a protein-water mixture in cold cataract in the young rat lens.

Author

Tanaka T, Ishimoto C, and Chylack LT Jr

Subjects

Animals, Lens, Crystalline, Models, Biological, Rats, Sodium Chloride, Solutions, Thermodynamics, Cataract etiology, Crystallins, Muramidase

Abstract

A remarkable resemblance between the appearance of opacity in lysozyme--salt water mixtures and the development of opacity in cold cataract in the young rat lens is strong evidence that cold cataract is fundamentally a phase separation of the "protein-water binary mixture" in the lens.

Published

1977

4. Cytoplasmic phase separation in formation of galactosemic cataract in lenses of young rats.

Author

Ishimoto C, Goalwin PW, Sun ST, Nishio I, and Tanaka T

Abstract

We have determined the age dependence of the characteristics of the cytoplasmic phase separation of lenses from normal and galactosemic young rats. In the normal lens, the temperature at which the phase separation occurs decreases monotonically with age. In the lenses of rats fed with a high galactose diet, the phase separation temperature becomes increasingly higher with the development of galactosemia. When the phase separation temperature becomes higher than the ocular temperature, the nuclear opacity appears in vivo. The opacity is the result of light scattering by spatial fluctuations of the refractive index formed by interspersed regions of two separated phases in the fiber cell cytoplasm. This shows that the nuclear opacity that develops in the lens of galactosemic rats is the manifestation of phase separation of the lens fiber cytoplasm.

Published

1979

5. In vivo observation of protein diffusivity in rabbit lenses.

Author

Tanaka T and Ishimoto C

Subjects

Animals, Cataract etiology, Cornea radiation effects, Diffusion, Eye radiation effects, Lasers, Ophthalmoscopy methods, Rabbits, Retina radiation effects, Safety, Scattering, Radiation, Eye Proteins, Lens, Crystalline radiation effects

Abstract

We report the in vivo observation of protein diffusivity in rabbit lenses with the use of laser light-scattering spectroscopy. Levels of laser light irradiation, which we estimate to correspond to a level less than that used in routine ophthalmoscopy, were adequate for observation. The in vivo measurements agreed with measurements on the same lens after excision from the animal. Since changes in protein diffusivity reflecting even very small degrees of protein aggregation can be observed by this method, it should make possible quantitative studies of incipient lens opacification.

Published

1977