鈴木　聡（教授） プロフィール

経歴：1956年北海道生まれ。O型、蟹座、動物占いは黒ひょう。余市高校卒。80年北海道大学水産学部食品学科卒、85年北海道大学大学院薬学研究科博士課程修了、薬学博士。 アルバータ大AHFMRフェロー（85-87）、北大助手（87-92）、高知大助教授（92-00）を経て、2000年から現職。専門分野は環境微生物学、生態系生化学。 国内外の主な活動学会は日本微生物生態学会、国際微生物生態学会（ISME）など。 Associate Editor, Frontiers in Microbiology Associate Editor, Microbes and Environments

座右の銘：「Be, ambitious」いつまでも野心的であれ。フロンティア・スピリットは年をとっても無くしたくないですね。 趣味：水泳，映画，野外料理，掃除，静かに飲む酒。スワローズ（セリーグ）とオイラーズ（NHL）ファン。 受賞歴：99年日本魚病学会研究奨励賞、01年日本微生物生態学会論文賞、16年第三回星新一賞（優秀賞）、17年度愛媛大農学部ベストティーチャー賞、18年度遠山椿吉記念第6回食と環境の科学賞、21年The Best Paper Award (Crit. Rev. Env. Sci. Tech., Taylor & Francis) 連絡先：　ssuzuki at ehime-u.ac.jp, writersoh at gmail.com, 089-927-8552 Google Scholar： https://scholar.google.co.jp/citations?user=UT_qSnoAAAAJ&hl=ja Researchmapへ（全業績にアクセス可能）： https://researchmap.jp/read0171534/

原著論文

• 国際誌のみカウント。番号は１報目からの連番。2017-2021。2002-2016は英語版サイトにあります。

• 166. Sato-Takabe, Y, Nakajima, Y, Suzuki, S, Sekiguchi, K, Hanada, S, Shiozaki, T (2021) Draft Genome Sequences of Putative Aerobic Anoxygenic Phototrophic Bacterial Strains Jannaschia sp. Strains AI_61 and AI_62, Isolated from Seawater around a Coastal Aquaculture Area. Microbiol. Resour. Announc. 10, e00491-21. https://doi.org/10.1128/MRA.00491-21
• 165. Suzuki S, Ogo M, Takada H, Seki K, Mizukawa K, Kadoya A, Yokokawa T, Sugimoto Y, S-Takabe Y, Boonla C, Anomasiri W, Sukpanyatham N (2021) Contamination of antibiotics and sul and tet(M) genes in veterinary wastewater, river, and coastal sea in Thailand. Sci. Total Environ., 791, 148423, https://doi.org/10.1016/j.scitotenv.2021.148423
• 164. Thiang EL, Lee CW, Takada H, Seki K, Takei A, Suzuki S, Wang A, Bong CW (2021) Antibiotic residues from aquaculture farms and their ecological risks in Southeast Asia: A case study from Malaysia. Ecosystem Health and Sustainability, https://doi.org/10.1080/20964129.2021.1926337
• 163. Shindoh, S., Obayashi, Y. and Suzuki, S. (2021) Induction of extracellular aminopeptidase production by peptides in some marine bacterial species. Microbes Environ., 36, doi:10.1264/jsme2.ME20150
• 162. Matsuura, R., Kanehara, R., Kadoya, A. and Suzuki, S. (2021) Adsorption of sulfonamides to marine diatoms and arthropods. Environ. Toxicol. Pharmacol., 82, 103557, https://doi.org/10.1016/j.etap.2020.103557
• 161. Tanaka, D., Ohnishi, K., Watanabe, S. and Suzuki, S. (2020) Isolation of cellulase-producing Microbulbifer sp. from marine teleost blackfish (Girella melanichthys) intestine and the enzyme characterization. J. Gen. Appl. Microbiol.,67, 47-53. https://doi.org/10.2323/jgam.2020.05.001
• 160. Sugimoto, Y., Ohnishi, K. and Suzuki, S. (2020) Complete genome sequence of cellulase producing Microbulbifer sp. strain GL-2 isolated from marine fish intestine. Microbiol. Resour. Announc. 9, 32, e00746-20
• 159. Obayashi, Y., Kadoya, A., Kataoka, N., Kanda, K., Bak, S-M., Iwata, H. and Suzuki, S. (2020) Tetracycline resistance gene profiles in red seabream (Pagrus major) intestine and rearing water after oxytetracycline administration. Front. Microbiol., 11, 1764, doi: 10.3389/fmicb.2020.01764
• 158. Obayashi, Y. and Suzuki, S. (2019) High growth potential of transiently 0.2-µm-filterable bacteria with extracellular protease activity in coastal seawater. Plankton and Benthos Research, 14, 276-286.
• 157. Kohyama, Y. and Suzuki, S. (2019) Conjugative gene transfer between nourished- and starved cells of Photobacterium damselae ssp. damselae and Escherichia coli. Microbes Environ., 34, 388-392. https://doi.org/10.1264/jsme2.ME19099
• 156. Lye, Y.L., Bong, C.W., Lee, C.W., Zhang, R.J., Zhang, G., Suzuki, S. and Chai, L.C. (2019) Anthropogenic impacts on sulfonamide residues and sulfonamide resistant bacteria and genes in Larut and Sangga Besar River, Perak. Sci. Total Environ., 688, 1335-1347. https://doi.org/10.1016/j.scitotenv.2019.06.304
• 155, Suzuki, S., Nakanishi, S., Tamminen, M., Yokokawa, T., Sato-Takabe, Y., Ohta, K., Chou, H-Y., Muziasari, W.I. and Virta, M. (2019) Occurrence of sul and tet(M) genes in bacterial community in Japanese marine aquaculture environment throughout the year: profile comparison with Taiwanese and Finnish aquaculture waters. Sci. Total Environ.,699, 649-656. https://doi.org/10.1016/j.scitotenv.2019.03.111
• 154, Sato-Takabe, Y., Hamasaki, K. and Suzuki, S. (2018) High temperature accelerates growth of aerobic anoxygenic phototrophic bacteria in seawater. MicrobiologyOpen, e00710, https://doi.org/10.1002/mbo3.710
• 153, Nonaka, L., Yamamoto, T., Maruyama, F., Hirose, U., Onishi, Y., Kobayashi, T., Suzuki, S., Nomura, N., Masuda, M. and Yano, H. (2018) Interplay of a non-conjugative integrative element and a conjugative plasmid in the spread of antibiotic resistance via suicidal plasmid transfer from an aquaculture Vibrio isolate. PLOS ONE, 13 (6): e0198613, https://doi.org/10.1371/journal.pone.0198613
• 152, Suzuki, S., Makihara, N. and Kadoya, A. (2018) Tetracycline resistance gene tet(M) of a marine bacterial strain is not accumulated in bivalves from seawater in clam tank experiment and mussel monitoring. Sci. Total Environ., 634,
  181-187, https://doi.org/10.1016/j.scitotenv.2018.03.305
• 151, Sugimoto, Y., Maruyama, F. and Suzuki, S. (2018) Draft genome sequence of a Shewanella halifaxensis strain isolated from the intestine of marine red seabream (Pagrus major), which includes an integrative conjugative element with macrolide resistance genes. Genome Announc., 6, e00297-18, https://doi.org/10.1128/genomeA.00297-18.
• 150, Obayashi, Y., Bong, C.W. and Suzuki, S. (2017) Methodological considerations and comparisons of measurement results for extracellular proteolytic enzyme activities in seawater. Front. Microbiol.,8, article 1952, doi:10.3389/fmicb.2017.01952.
• 149, Bien, T.L.T.,Thao, N.V., Kitamura, S-I., Obayashi, Y. and Suzuki, S. (2017) Release and constancy of an antibiotic resistance gene in seawater under grazing stress by ciliates and heterotrophic nano flagellates. Microbes Environ., 32,174-179. doi:10.1264/jsme2.ME17042
• 148, Sugimoto, Y., Suzuki, S., Nonaka, L., Boonla, C., Sukpanyatham, N., Chou, H-Y. and Wu, J-H. (2017) The novel mef(C)-mph(G) macrolide resistance genes are conveyed in the environment on various vectors. J. Glob. Antimicrob. Resist., 10, 47-53,
  http://dx.doi.org/10.1016/j.jgar.2017.03.015

 

著書・総説（2017～2021）

• 50. Suzuki, S. (2021) [著書] Section II, Persistence of Antibiotic-Resistance Genes in Aquaculture Environment. AMR & THE ENVIRONMENT; A GLOBAL ONE HEALTH SECURITY ISSUE , AMR Think-Do-Tank, Geneva International. pp. 44-47. ISSN 2673-9232
  
• 49. 鈴木 聡 (2021) [著書] 海とヒトの関係学4，秋道智彌・角南篤編著，西日本出版社，111-124（養殖の死角，担当）ISBN978-4-908443-59-6
  
• 48. 鈴木 聡 (2020) [著書要約，解説] 養殖の死角. Ocean Newsletter, 485, https://www.spf.org/opri/newsletter/485_2.html?latest=1
  
• 47. 鈴木 聡 (2020) [教育講演総説] 環境細菌のもつ薬剤耐性遺伝子のヒト病原菌への伝播リスク. 第54回緑膿菌感染症研究会講演記録，25-29.
  
• 46. Abe, K., Nomura, N. and Suzuki, S. (2020) [総説] Biofilms: Hot spots of horizontal gene transfer (HGT) in aquatic environments, with a focus on a new HGT mechanism. FEMS Microbiol. Ecol., 96, fiaa031, https://doi.org/10.1093/femsec/fiaa031
  
• 45. 鈴木 聡 (2020) [総説] 沿岸海域における薬剤耐性菌・耐性遺伝子の潜伏. 水環境学会誌, 43，95-98
  
• 44. 鈴木 聡 (2019) [総説] 水環境における薬剤耐性菌・耐性遺伝子の公衆衛生学的研究. 平成30年度事業年報，一般財団法人東京顕微鏡院，163-170.
  
• 43. Amarasiri, M., Sano D. and Suzuki, S. (2019) [総説] Understanding human health risks caused by antibiotic resistant bacteria (ARB) and antibiotic resistance genes (ARG) in water environments: Current knowledge and questions to be answered. Crit. Rev. Environ. Sci. Technol.,https://doi.org/10.1080/10643389.2019.1692611
  
• 42. Suzuki, S. (2019) [提言] Drug resistant bacteria in our oceans: Where did they come from and where will they go? Ocean Newsletter Selected Papers, No. 23, The Ocean Policy Research Institute. https://www.spf.org/_opri_media/projects/information/newsletter/selected/pdf/ssp23.pdf
  
• 41. 鈴木 聡 (2018) [総説] 薬剤耐性遺伝子の巨大リザーバとしての水圏環境：遺伝子のシンクとリンク. 日本臨床腸内微生物学会誌, 20, 47-52.
  
• 40. 鈴木 聡 (2018) [解説]水環境に蓄積する薬剤耐性遺伝子、ラジオNIKKEI（オンデマンド聴講可能）
  http://medical.radionikkei.jp/kansenshotoday/ondemand/kansenshotoday-180516.html
• 39. 鈴木 聡（2018) [解説] 海にもいる薬剤耐性菌：彼らはどこから来て、どこへ行くのか？Ocean Newsletter, 427, https://www.spf.org/opri-j/projects/information/newsletter/latest/latest02.html
• 38. 鈴木 聡, 高田秀重 (2017) [総説] 水環境に拡散する抗菌薬，薬剤耐性遺伝子の汚染実態と課題．公衆衛生，81, 828-833.
• 37. Suzuki, S., Pruden, A., Virta, M., Zhang, T., eds. (2017) [編著書] Antibiotic Resistance in Aquatic Systems. Lausanne: Frontiers Media. doi: 10.3389/978-2-88945-131-9
• 36. Wondwossen A. G., Thomas W., Gregory H., Walid A., Usui, M. and Suzuki, S. (2017) [著書] Chapter 4. Spread of antibiotic resistance in food animal production systems. 3rd Edition, Foodborne Diseases (Eds. Dodd, C. et al), Elsevier, p.105-130.
  
• 35. Suzuki, S. (2017) [著書] Chapter ５, Asian waters as hot spots of antibiotic resistance genes.  Antibiotic Resistance Genes in Natural Environments and Long-Term Effect (Eds. S Mirete and M López Pérez), Nova Science Publishers, Inc. (ISBN:978-1-53611-818-6)

2021年度の主な研究費

• 科研費基盤A（一般）「水環境に潜伏する薬剤耐性菌から人への耐性遺伝子の伝播機構とリスク評価」（代表・鈴木聡）（2020～2023年度）
• 共通政策課題分（共同利用共同研究概算要求プロジェクト）「新たな化学物質の環境汚染と養殖魚・人への影響—低濃度医薬品の環境微生物を介した連鎖的影響の実態と機構の解明—」（代表・鈴木聡）（2016〜2021年度）

• 研究室沿革と研究室の様子
• 教授　鈴木 聡
• 講師　大林 由美子
• ポスドク・事務補佐員
• 学生
• 研究室ルール

国立大法人愛媛大学 沿岸環境科学研究センター系解析部門 (海洋分子生態学)〒790-8577 松山市文京町総合研究棟2

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