Publication

Peer reviewed papers

  1. Lee CG,  Iida T, Matsuda E, Yoshida K, Kawabe M, Maeda M, Muramoto Y, Watanabe H,  Otani Y, Nakaho K, Ohkuma M. 2019. Comparison of prokaryotic communities between the fields showing different disinfestation effects by anaerobic soil disinfestation.  doi: https://doi.org/10.1101/59825 (in preprint) (Link)
  2. Lee CG, Iida T, Kunitomo E, Nakaho K, Ohkuma M. 2019 Soil prokaryotes associated with changing of pathogen density during anaerobic soil disinfestation. Appl. Soil Ecol. 155. 13632. (Link) 
  3.  Lee CG,  Baba Y, Asano R, Fukuda Y, Tada C, Nakai Y. 2019. Identification of bacteria involved in the decomposition of lignocellulosic biomass treated with cow rumen fluid by metagenomic analysis. J. Biosci. Boieng. 130, 137-141.  (Link)
  4. Sarkodee-Addo E, Omari AR, Lee CG, Yasuda M, Dastogeer KMG, Kanasugi M, Fujii Y, Abebrese SO, Bam R, Asuming-Brempong A, Okazaki S. 2020. Arbuscular mycorrhizal fungi associated with rice (Oryza sativa L.) in Ghana: Effect of regional locations and soil factors on diversity and community assembly. Agronomy. 10. 559. DOI:10.3390/agronomy10040559 (Link)
  5. Tayyab M, Islam W, Lee CG,  Pang Z, Lhalil F, Lin S, Lin W, Zhang H. 2019. Short-term effects of different organic amendments on soil pathogenic and beneficial fungal composition. Sustainability. 11, 198 (Link)
  6.  Lee CG, Suzuki S, Inubushi K. 2018. Temperature sensitivity of anaerobic labile soil organic carbon decomposition in brackish marsh. Soil Sci. Plant Nutr., 64, 443-448. (Link)
  7.  Lee CG, Yuki M, Iida T, Nakaho K, Ohkuma M. 2017. Draft genome sequences of a Tepidibacter mesophilus strain JCM16806T isolated from soil polluted by crude oil in China. Genome Announc., 5:e01308-17. (Link)
  8.  Lee CG, Iida T, Uwagaki Y, Otani Y, Nakaho K, Ohkuma M. 2017. Comparison of prokaryotic and eukaryotic communities in soil samples with and without tomato bacterial wilt collected from different fields. Microbes Environ., 32, 376-385. (Link)
  9.  Lee CG, Iida T, Muramoto Y, Watanabe H, Nakaho K, Ohkuma M*. 2017. Comparison of prokaryotic communities among soil with tomato bacterial wilt symptom and without symptom but pathogen-present soil in different depth in a single greenhouse. Microbes Environ., 32, 118-124. (Link)
  10.  Lee CG, Watanabe T, Asakawa S. 2017. Bacterial community incorporating carbon derived from plant residue in an anoxic non-rhizosphere soil estimated by DNA-SIP analysis. J Soils Sediments, 17, 1084-1091. (Link)
  11.  Lee CG, Suzuki S, Noguchi N, Inubushi K. 2016. Estimation of fine root biomass using a minirhizotron technique among three vegetation types in a cool-template brackish marsh. Soil Sci. Plant Nutr., 62, 465-470. (Link)
  12.  Khalifa A, Lee CG, Ogiso T, Ueno C, Dianou D, Demachi T, Katayama A, Asakawa S*. 2015. Methylomagnum ishizawai gen. nov., sp. nov., a mesophilic type I methanotroph isolated from rice rhizosphere. Int. J Syst. Evol. Microbiol., 65, 3527-3534. (Link)
  13.  Murase J, Shibata M, Lee CG, Watanabe T, Asakawa S, Kimura M. 2012. Incorporation of plant residue-derived carbon into the microeukaryotic community in a rice field soil revealed by DNA stable-isotope probing. FEMS Microbiol. Ecol., 79, 371-379. (Link)
  14.  Lee CG, Watanabe T, Murase J, Asakawa S, Kimura M. 2012. Growth of methanogens in an oxic soil microcosm: Elucidation by a DNA-SIP experiment using 13C-labeled dried rice callus cells. Applied Soil Ecology. Appl. Soil Ecol., 58, 37-44. (Link)
  15.  Lee CG, Watanabe T, Fujita Y, Asakawa S, Kimura M. 2012. Heterotrophic growth of cyanobacteria and phage-mediated microbial loop in soil: Examination by stable isotope probing (SIP) method. Soil Sci. Plant Nutr., 58, 161-165. (Link)
  16.  Watanabe T, Lee CG, Murase J, Asakawa S, Kimura M. 2011. Carbon flow into ammonia-oxidizing bacteria and archaea during decomposition of 13C-labeled plant residue in soil. Soil Sci. Plant Nutr., 57, 775-785, 2011. (Link)
  17.  Watanabe T, Wang G, Lee CG, Murase J, Asakawa S, Kimura M. 2011. Assimilation of glucose-derived carbon into methanogenic archaea in soil under unflooded condition. Appl. Soil Ecol., 48, 201-209. (Link)
  18.  Li Y, Lee CG, Watanabe T, Murase J, Asakawa S, Kimura M. 2011. Identification of microbial communities that assimilate substrate from root cap cells in an aerobic soil using a DNA-SIP approach. Soil Biol. Biochem., 43, 1928-1935 (Link)
  19.  Lee CG, Watanabe T, Sato Y, Murase J, Asakawa S, Kimura M. Bacterial populations assimilating carbon from 13C-labeled plant residue in soil: estimation by DNA-SIP approach. 2011. Soil Biol. Biochem., 43, 814-822. (Link)

Peer reviewed book chapters

  1.   Riya S, Meng L, Wang Y, Lee CG, Zhou S, Toyota K, Hosomi M. 2020. Dry anaerobic digestion for agricultural waste recycling. In Biogas. Intech Open. 
  2. DOI: 
  3. 10.5772/intechopen.91229

Peer reviewed conference proceedings 

  1.  Lee CG, Iida T, Itoh T, Ohkuma M. An anaerobic bacterium involved in suppressive of tomato bacterial wilt symptom discovered by soil bacterial community information. ISME 17 Liepzig, 2018.
  2.  Baba Y, Lee CG, Chika T, Fukuda Y, Nakai Y. Pretreatment of lignocellulosic rapeseed waste by rumen fluid for methane production. Proceedings of the 11th International Symposium of Integrated Field Science. 11, 89, 2014.
  3.  Lee CG, Baba Y, Chika T, Nakai Y. Investigation of microbial community analysis during the decomposition of lignocellulosic biomass using rumen fluid. Proceedings of the 11th International Symposium of Integrated Field Science 11, 85, 2014.
  4.  LeeCG, Suzuki S, Inubushi K. 2009. Effects of rising soil temperature and vegetation types on CH4 productions, methanogenic archaeal communities, and soil acetic acid concentrations in a cool-temperature marsh soil. 9th ESAFS Meeting. 675-676, 2009
  5.  Lee CG, Suzuki S, Inubushi K. Effects of vegetation and soil temperature on carbon dynamics in a cool-temperate march soil. Proceedings of the International Symposium on Application of a Closed Experiment System to modeling of 14C Transfer in the Environment, 140-142, 2007.

 

著書

  1. 李哲揆な.ど 研究者の子育て: 海外・双子・学生結婚・高齢出産・4人兄弟の親たち
     日本の研究者出版 2020 (Link
  2. 李哲揆. 土壌微生物の力を活かした植物病害防除技術の開発へ. サーモフィッシャサイエンティフィック ライフサイエンス情報誌 NEXT. No. 45. Page 8. 2018 (Link)
  3.  中井裕、李哲揆、東條ふゆみ. 耕種農家に喜ばれる堆肥作りを. 月間養豚界. 9月号. 2013. 
  4.  李哲揆. 土壌微生物通信(19621986)探訪(3)「バクテリオファージの利用と今後の可能性」. 土と微生物. 642.130-131, 2010.

メディア出演

  1.  Abema prime news ゲスト出演(Youtube)2022年6月6日

ネットニュース

  1. yahooニュース「3000人に雇い止めの可能性…危機に瀕する日本の研究者たち、成田悠輔氏「自分自身で社会に情報発信しなければならない時代になった」(Link)

Patent

  1. 特願2018-147186 : 青枯病菌関連病態の抑制剤、青枯病菌関連病態の抑制方法、及びその利用.李哲揆、大熊盛也、井上康宏、中保一浩