寺田　昭彦

Professional Career

経歴

2005年4月 - 2005年11月 : Technical University of Denmark, Institute of Environment& Resources, Guest Researcher
2006年4月 - 2006年7月 : 早稲田大学　理工学総合研究センター　助手
2006年8月 - 2009年3月 : Technical University of Denmark, Department of Environmental Engineering, Postdoctoral Associate
2009年4月 - 2012年3月 : 東京農工大学大学院　共生科学技術研究院　講師
2012年4月 - 2017年11月 : 東京農工大学大学院　工学研究院　准教授
2017年12月 - 現在 : 東京農工大学大学院　工学研究院　教授

Academic Degrees

学位

2006年　博士（工学）早稲田大学

Research Interests

キーワード

自然環境中に雑多に存在する微生物を有効活用して水環境の浄化および有用物質の生産を目指す。　具体的には、難生分解性有機化合物・窒素除去を志向したバイオリアクターシステムの開発、畜産排水除去の性能向上を目指した水田土壌における微生物叢の解析・制御など。　さらには、微生物の集合体であるバイオフィルムコントロールを目指した材料表面の開発およびバイオフィルム形成防止のための戦術の開発。

Publications

論文

• Bai, Y., Hu, H., Lee, P.-H., Zhussupbekova, A., Shvets, I.V., Du, B., Terada, A. and Zhan, X. 2023. Nitrate removal in iron sulfide-driven autotrophic denitrification biofilter: Biochemical and chemical transformation pathways and its underlying microbial mechanism. Science of The Total Environment (Sci. Tot. Environ.), 165908

• Meng, J., Shi, L., Wang, S., Hu, Z., Terada, A. and Zhan, X. 2023. Membrane fouling during nutrient recovery from digestate using electrodialysis: Impacts of the molecular size of dissolved organic matter. Journal of Membrane Science (J. Membr. Sci.), 121974

• Zhou, C., Zhou, M., Jia, R., Peng, Y., Zhao, F., Xu, R., Liang, S., Terada, A., Wang, G., Kinouchi, T. and Xu, X. 2023. Particulate organic carbon potentially increases methane emissions from oxic water of eutrophic lakes. Science of The Total Environment (Sci. Tot. Environ.) 889, 164339.

• Zhao, S., Shi, T., Terada, A., Riya, S., 2023, Evaluation of Pollution Level, Spatial Distribution, and Ecological Effects of Antimony in Soils of Mining Areas: A Review, International Journal of Environmental Research and Public Health (Int. J. Environ. Res. Public Health), 20, 242

• Kim, D.D., Han, H., Yun, T., Song, M.J., Terada, A., Laureni, M. and Yoon, S. Identification of nosZ-expressing microorganisms consuming trace N2O in microaerobic chemostat consortia dominated by an uncultured Burkholderiales. The ISME Journal. (ISME J.), 16(9), 2087-2098, 2022

• Qi, C., Zhou, Y., Suenaga, T., Oba, K., Lua, J., Wang, G., Zhang, L., Yoon, S., Terada, A. 2022. Organic carbon determines nitrous oxide consumption activity of clade I and II nosZ bacteria: Genomic and biokinetic insights, Water Research 209: 117910

• Zhao, S., Terada, A., Nakamura, K., Nakashima, M., Komai, T., Riya, S., Hosomi, M. and Hou, H. 2022. Significance of soil moisture on temperature dependence of Hg emission. Journal of Environmental Management 305, 114308.

• Ahmad, W. A. Latif, N.A., Zaidel, D. N. A. Z., Ghazi, R. M., Terada, A., Aguilar, C. N., Zakaria, Z. A. 2021. Microbial Biotransformation and Biomineralization of Organic-Rich Waste, Current Pollution Reports, 7: 435–447

• Zhou, Y.W., Xu, X., Yeerken, S., Li, L., Deng, M., Song, K., Riya, S., Wang, Q., Terada A. 2021. Nonlinear pattern and algal dual impact in N2O emission with increasing trophic levels in shallow lakes, Water Research 203: 117489
• Suenaga, T., Ota, T., Oba, K., Usui, K., Sako, T., Hori, T., Riya, S., Hosomi, M., Chandran, K., Lackner, S., Smets, B.F., Terada, A. 2021. Combination of 15N tracer and microbial analyses discloses N2O sink potential of anammox community. Environ. Sci. Technol. 55 (13) 9231-9242
• Yasuda, S., Suenaga, T., Orschler, L., Agrawal, S., Lackner, S., Terada, A., Metagenomic insights into functional and taxonomic compositions of an activated sludge microbial community treating leachate of a completed landfill: A pathway-based analysis, Frontiers in Microbiology (Front. Microbiol.). 12. doi: 10.3389/fmicb.2021.640848.
• Agrawal, S., Weissbrodt, D.G., Annavajhala, M., Jensen, M.M., Carvajal Arroyo, J.M., Wells, G., Chandran, K., Vlaeminck, S.E., Terada, A., Smets, B.F., Lackner, S. 2021. Time to act –assessing variations in qPCR analyses in biological nitrogen removal with examples from partial nitritation/anammox systems. Water Res. 190 (15): 116604
• Zhou Y., Suenaga, T., Qi, C., Riya, S., Hosomi, M., Terada, A. Temperature and oxygen level determine N2O respiration activities of heterotrophic N2O-reducing bacteria: Biokinetic study. Biotechnol. Bioeng. 118 (3), 1330-1341, doi.org/10.1002/bit.27654
• Phanwilai, S., Kangwannarakul, N., Noophan, P., Kasahara, T., Terada, A., Munakata-Marr, J., Figueroa, L.A. 2020. Nitrogen removal efficiencies and microbial communities in full-scale IFAS and MBBR municipal wastewater treatment plants at high COD:N ratio. Frontiers of Environmental Science & Engineering 14(6), 115.
• Yasuda, S., Toyoda, R., Agrawal, S., Suenaga, T., Riya, S., Hori, T., Lackner, S., Hosomi, M., Terada, A. 2020. Exploration and enrichment of methane-oxidizing bacteria derived from a rice paddy field emitting high-concentrated methane. J. Biosci. Bioeng., 130 (3), 311-318.
• Zhou, Y., Song, K., Han, R., Riya, S., Xu, X., Senbati, Y., Geng, S., Ma, Y., Terada, A. 2020. Nonlinear response of methane release to increased trophic state levels coupled with microbial processes in shallow lakes. Environ. Pollut. 265(B) 114919.
• Li, J., Yoshi, S., Hashimoto, Y., Wang, L., Wang, F., Riya, S., Terada, A., Hosomi, M. 2000. Reducing geogenic arsenic leaching from excavated sedimentary soil using zero-valent iron amendment followed by dry magnetic separation: A case study. Sci. Total Environ., 724, 138203.
• Agrawal, S., Kinh, C.T., Schwartz, T., Hosomi, M., Terada, A.,Lackner, S. Determining uncertainties in PICRUSt analysis – An easy approach for autotrophic nitrogen removal. Biochemical Engineering Journal (Biochem. Eng. J.). 2019; 152:107328
• Suenaga, T., Hori, T., Riya, S., Hosomi, M., Smets, B.F., Terada, A. Enrichment, isolation, and characterization of high-affinity N2O-reducing bacteria in a gas-permeable membrane reactor. Environmental Science and Technology (Environ. Sci. Technol.).53.20. 12101-1212112
• Li, J., Hashimoto, Y., Riya, S., Terada, A., Hou, H., Shibagaki, Y., Hosomi, M. Removal and immobilization of heavy metals in contaminated soils by chlorination and thermal treatment on an industrial-scale. Chemical Engineering Journal (Chem. Eng. J.), 359, 385-392, 2019.
• Song, K., Sawayanagi, K., Numano, T., Taniichi, Y., Kikuchi, T., Takeda, T., Kanou, H., Riya, S., Hori, T., Hosomi, M., Terada, A. High-rate partial nitrification of semiconductor wastewater: Implications of online monitoring and microbial community structure. Biochemical Engineering Journal (Biochem. Eng. J.). 143: 34-40, 2019
• Jia, S., Chen, X., Suenaga, T., Terada A., Ishikawa, F., Nishimura S., Ding, T., Fujiwara, T. Spatial and daily variations of nitrous oxide emissions from biological reactors in a full-scale activated sludge anoxic/oxic process. Journal of Bioscience and Bioengineering (J. Biosci. Bioeng.)127(3) 333-339
• Sabba, F., Terada, A., Wells, G., Smets, B.F., Nerenberg, R. Nitrous oxide emissions from biofilm processes for wastewater treatment. Applied Microbiology and Biotechnology (Appl. Microbiol. Biotechnol.) 102.22.9815-9829
• Li, J., Kosugi, T., Riya, S., Hashimoto, Y., Hou, H., Terada, A., Hosomi, M. Investigations of water-extractability of As in excavated urban soils using sequential leaching tests: Effect of testing parameters. Journal of Environmental Management (J. Environ. Manage.). 217: 297-304, 2018.
• Riya, S., Suzuki, K., Meng, L., Zhou, S., Terada, A., Hosomi, M. The influence of the total solid content on the stability of dry-thermophilic anaerobic digestion of rice straw and pig manure. Waste Management (Waste Manage.). 76: 350-356, 2018.