研究業績

Peer reviewed papers

査読付き論文

  1. Deng, Y., H. Tanimoto, K. Ikeda, S. Kameyama, S. Okamoto, J. Jung, Y. J. Yoon, E. J. Yang, and S.-H. Kang (2024), Shipborne observations of black carbon aerosols in the western Arctic Ocean during summer and autumn 2016–2020: impact of boreal fires, Atmospheric Chemistry and Physics, 24, 10, 6339-6357, doi: 10.5194/acp-24-6339-2024.
  2. Xia, J., S. Kameyama, F. Prodinger, T. Yoshida, K.-H. Cho, J. Jung, S.-H. Kang, E.-J. Yang, H. Ogata, and H. Endo (2022), Tight association between microbial eukaryote and giant virus communities in the Arctic Ocean, Limnology and Oceanography, 67, 1343-1356, doi: 10.1002/lno.12086.
  3. Nomura, D., H. Ikawa, Y. Kawaguchi, N. Kanna, T. Kawakami, Y. Nosaka, S. Umezawa, M. Tozawa, T. Horikawa, R. Sahashi, T. Noshiro, I. Kaba, M. Ozaki, F. Kondo, K. Ono, I. S. Yabe, E. Y. Son, T. Toyoda, S. Kameyama, C. Wang, H. Obata, A. Ooki, H. Ueno, and A. Kasai (2021), Atmosphere-sea ice-ocean interaction study in Saroma-ko Lagoon, Hokkaido, Japan 2021, Bulletin of Glaciological Research, 40, 1-17, doi: 10.5331/bgr.21R02.
  4. Bénard, R., M. Lizotte, M. Levasseur, M. Scarratt, S. Michaud, M. Starr, J.-É. Tremblay, R. P. Kiene, and S. Kameyama (2021), Impact of anthropogenic pH perturbation on dimethylsulfide cycling: A peek into the microbial black box,, Elementa: Science of Anthropocene, 9(1), doi: 10.1525/elementa.2021.00043.
  5. Tohjima, Y., J. Zeng, T. Shirai, Y. Niwa, S. Ishidoya, F. Taketani, D. Sasano, N. Kosugi, S. Kameyama, H. Takashima, H. Nara, and S. Morimoto (2020), Estimation of CH4 emissions from the East Siberian Arctic Shelf based on atmospheric observations aboard the R/V Mirai during fall cruises from 2012 to 2017, Polar Science, doi: 10.1016/j.polar.2020.100571.
  6. Toyoda, S., T. Kakimoto, K. Kudo, N. Yoshida, D. Sasano, N. Kosugi, M. Ishii, S. Kameyama, M. Inagawa, H. Yoshikawa-Inoue, S. Nishino, A. Murata, S. Ishidoya, and S. Morimoto (2021), Distribution and Production Mechanisms of N2O in the Western Arctic Ocean, Global Biogeochemical Cycles, 35, doi: 10.1029/2020GB006881.
  7. Ando, Y., S. Kawano, Y. Muramiya, S. Niiyama, S. Kameyama, and S. Shimoyama (2020), Fossil decapods from the Upper Quaternary in Shinjima Island in Kagoshima, Kyushu, Japan, and description of a new species of ghost shrimp (Axiidea, Eucalliacidae), Zootaxa, 2878, 523-541, doi: 10.11646/zootaxa.4878.3.5.
  8. Wang, S., E. C. Apel, R. H. Schwantes, K. H. Bates, D. J. Jacob, E. V. Fischer, R. S. Hornbrook, A. J. Hills, L. K. Emmons, L. L. Pan, S. Honomichl, S. Tilmes, J.-F. Lamarque, M. Yang, C. A. Marandino, E. S. Saltzman, W. de Bruyn, S. Kameyama, H. Tanimoto, Y. Omori, S. R. Hall, K. Ullmann, T. B. Ryerson, C. R. Thompson, J. Peischl, B. C. Daube, R. Commane, K. McKain, C. Sweeney, A. B. Thames, D. O. Miller, W. H. Brune, G. S. Diskin, J. P. DiGangi, and S. C. Wofsy (2020), Global Atmospheric Budget of Acetone: Air-Sea Exchangeand the Contribution to Hydroxyl Radicals, Journal of Geophysical Research-Atmospheres, 125, 15, doi: 10.1029/2020JD032553.
  9. Li, J.-L., S. Kameyama, and G.-P. Yang (2020), In-situ measurement of trace isoprene and dimethyl sulfide in seawater and oceanic atmosphere based on room temperature adsorption-thermal desorption, Marine Chemistry, 222, doi: 10.1016/j.marchem.2020.103787.
  10. Kameyama, S., M. Otomaru, A. McMinn, and K. Suzuki (2020), Ice melting can change DMSP production and photosynthetic activity of the haptophyte Phaeocystis antarctica, Journal of Phycology, 56, 3, 761-774, doi: 10.1111/jpy.12985
  11. Sugie, K., A. Fujiwara, S. Nishino, S. Kameyama, and N. Harada (2020), Impacts of Temperature, CO2, and Salinity on Phytoplankton Community Composition in the Western Arctic Ocean, Frontiers in Marine Science, 6, doi: 10.3389/fmars.2019.00821.
  12. Bui, O. T. N., S. Kameyama, Y. Kawaguchi, S. Nishino, U. Tsunogai, and U. Tsunogai (2019), Influence of warm-core eddy on dissolved methane distributions in the southwestern Canada basin during late summer/early fall 2015, Polar Science, 22, doi: 10.1016/j.polar.2019.100481.
  13. 亀山宗彦・大木淳之・野村大樹, 北極域における臭素および有機硫黄化合物の生物地球化学, 地球化学, 53, 159-171, 2019
  14. Bui, O. T. N., S. Kameyama, H. Yoshikawa-Inoue, M. Ishii, D. Sasano, H. Uchida, and U. Tsunogai (2018), Estimates of methane emissions from the Southern Ocean from quasi-continuous underway measurements of the partial pressure of methane in surface seawater during the 2012/13 austral summer, Tellus B: Chemical and Physical Meteorology, 70:1, 1-15, doi: 10.1080/16000889.2018.1478594.
  15. Omori, Y., H. Tanimoto, S. Inomata, K. Ikeda, T. Iwata, S. Kameyama, M. Uematsu, T. Gamo, H. Ogawa, and K. Furuya (2017), Sea-to-air flux of dimethylsulfide in the South and North Pacific Ocean as measured by Proton Transfer Reaction-Mass Spectrometry coupled with the Gradient Flux (PTR-MS/GF) technique, Journal of Geophysical Research-Atmospheres, 122, 13, 7216-7231, doi: 10.1002/2017JD026527.
  16. Cui, Y., S. Suzuki, Y. Omori, S.-K. Wong, M. Ijichi, R. Kaneko, S. Kameyama, H. Tanimoto, and K. Hamasaki (2015), Abundance and distribution of dimethylsulfoniopropionate-degrading genes and the corresponding bacterial community structure at dimethyl sulfide hotspots in the tropical and subtropical Pacific Ocean, Applied and Environmental Microbiology, 81, 4184-4194.
  17. Kameyama, S., S. Yoshida, H. Tanimoto, S. Inomata, K. Suzuki, and H. Yoshikawa-Inoue (2014), High-resolution observations of dissolved isoprene in surface seawater in the Southern Ocean during austral summer 2010–2011, Journal of Oceanography, 70, 225-239 doi: 10.1007/s10872-014-0.
  18. Tanimoto H., S. Kameyama, T. Iwata, and S. Inomata (2013), Measurement of air-sea exchange of volatile organic compounds by PTR-MS coupled with gradient flux technique, Environmental Science & Technology, 48, 526-533.
  19. Omori, Y., H. Tanimoto, S. Inomata, S. Kameyama, S. Takao, and K. Suzuki (2013), Evaluation of using unfiltered seawater for underway measurement of dimethyl sulfide in the ocean by online mass spectrometry, Limnology and Oceanography: Methods, 11, 549-560.
  20. Kameyama, S., H. Tanimoto, S. Inomata, H. Yoshikawa-Inoue, U.Tsunogai, A. Tsuda, M. Uematsu, M. Ishii, D. Sasano, K. Suzuki, and Y. Nosaka (2013), Strong relationship between dimethyl sulfide and net community production in the western subarctic Pacific, Geophysical Research Letters, 40, 3986-3990, doi:10.1002/grl.50654.
  21. Kameyama, S., H. Tanimoto, S. Inomata, K. Suzuki, D. D. Komatsu, A. Hirota, U. Konno, and U. Tsunogai (2011), Application of PTR-MS to incubation experiments of the marine diatom Thalassiosira pseudonana, Geochemical Journal, 45, 355-363.
  22. Tsunogai, U., A. Kosaka, N. Nakayama, D.D.Komatsu, U. Konno, S. Kameyama, F. Nakagawa, H. Sumino, K. Nagao, K.Fujikura, and H. Machiyama (2010), Origin and fate of deep-sea seepingmethane bubbles at Kuroshima knoll, Ryukyu forearc region, Japan, Geochemical Journal, 44, 477-487.
  23. Kameyama, S., H. Tanimoto, S. Inomata, U. Tsunogai, A. Ooki, S. Takeda, H. Obata, and M. Uematsu (2010), High-resolution measurement of multiple volatile organic compounds dissolved in seawater using equilibrator inlet-proton transfer reaction-mass spectrometry (EI-PTR-MS), Marine Chemistry, 122, 59-73, doi:10.1016/j.marchem.2010.08.003.
  24. Ooki, A., A. Tsuda, S. Kameyama, S. Takeda, S. Itoh, T. Suga, A. Okubo, H. Tazoe, and Y. Yokouchi (2010), Methyl halides in surface seawater and marine boundary layer of the Northwest Pacific, Journal of Geophysical Research-Oceans, 115, C10013, doi:10.1029/2009JC005703.
  25. Kameyama, S., H. Tanimoto, S. Inomata, U. Tsunogai, A. Ooki, Y. Yokouchi, S. Takeda, H. Obata, and M. Uematsu (2009), Equilibrator inlet-proton transfer reaction-mass spectrometry (EI-PTR-MS) for sensitive, high-resolution measurement of dimethyl sulfide dissolved in seawater, Analytical Chemistry, 81, (21), 9021-9026, doi:10.1021/ac901630h.
  26. Kameyama, S., U. Tsunogai, F. Nakagawa, M. Sasakawa, D.D. Komatsu, A. Ijiri, J. Yamaguchi, T. Horiguchi, H. Kawamura, A. Yamaguchi, and A. Tsuda (2009), Enrichment of alkanes within a phytoplankton bloom during an in situ iron enrichment experiment in the western subarctic Pacific, Marine Chemistry, 115, 92-101, doi:10.1016/j.marchem.2009.06.009.
  27. Kameyama, S., S. Inomata, and H. Tanimoto (2008), Determination of branching ratios for the reactions of H3O+ with ethylbenzenes as a function of relative kinetic energy, International Journal of Mass Spectrometry, 276, (1), 49-55.
  28. Inomata, S., H. Tanimoto, S. Kameyama, U. Tsunogai, H. Irie, Y. Kanaya, and Z. Wang (2008), Determination of formaldehyde mixing ratios in air with PTR-MS: laboratory experiments and field measurements, Atmospheric Chemistry and Physics, 8, 1-12.
  29. Sasakawa, M., U. Tsunogai, S. Kameyama, F. Nakagawa, Y. Nojiri, and A. Tsuda (2008), Carbon isotopic characterization for the origin of excess methane in subsurface seawater, Journal of Geophysical Research-Oceans, 113, C03012, doi:10.1029/2007JC004217.
  30. Tsuda, A., S. Takeda, H. Saito, J. Nishioka, I. Kudo, Y. Nojiri, K. Suzuki, M. Uematsu, M. L. Wells, D. Tsumune, T. Yoshimura, T. Aono, T. Aramaki, W. P. Cochlan, M. Hayakawa, K. Imai, T. Isada, Y. Iwamoto, W. K. Johnson, S. Kameyama, S. Kato, H. Kiyosawa, Y. Kondo, M. Levasseur, R. Machida, I. Nagao, F. Nakagawa, T. Nakanishi, S. Nakatsuka, A. Narita, Y. Noiri, H. Obata, H. Ogawa, K. Oguma, T. Ono, T. Sakuragi, M. Sasakawa, M. Sato, A. Shimamoto, H. Takata, C. G. Trick, Y. W. Watanabe, C. S. Wong, and N. Yoshie (2007), Evidence for the grazing hypothesis: Grazing reduces phytoplankton responses of the HNLC ecosystem to iron enrichment in the western subarctic Pacific (SEEDS II), Journal of Oceanography, 63, (6), 983-994.
  31. 亀山宗彦・角皆潤・蒲生俊敬・張勁・鈴木麻衣・小山裕樹, 溶存メタンを指標に用いた富山湾海底湧出地下水の地球化学的研究, 地球化学, 39, 131-140, 2005
  32. 亀山宗彦・下山正一・宮部俊輔・宮田雄一郎・杉山哲男・岩野英樹・壇原徹・遠藤邦彦・松隈明彦, 姶良カルデラ堆積物の年代と層序について-鹿児島県新島(燃島)に基づく研究-, 第四紀研究, 44, (1), 15-29, 2005

Bulletin papers

紀要等論文

  1. 亀山宗彦, 高時間分解能分析法を用いた海洋表層における揮発性有機化合物に関する研究, 地球化学, 48, 53-66, 2014. (2013年度日本地球化学会奨励賞受賞記念論文)
  2. Kameyama, S., S. Shimoyama, S. Miyabe, and T. Yamanaka (2008), Water mass conditions during the past 11,000 years in the innermost part of the Kagoshima Bay, South Kyushu, Japan: evidence from the fossil shell assemblages, oxygen and carbon isotopic compositions, Mem. Fac. Sci., Kyushu Univ., Ser. D, Earth & Planet. Sci., Vol. XXXII, 1, 97–112.
  3. 角皆潤・中川書子・笹川基樹・亀山宗彦, 安定同位体組成を指標に用いた大気‐海洋間の物質循環解析, 筑波大学陸域環境研究センター電子モノグラフ, No. 2, 47–53, 2006
  4. 亀山宗彦, 溶存気体成分を指標に用いた海底湧出地下水の地球化学的研究, 研究交流誌, 北海道大学大学院生協議会 全学幹事会, 33–36, 2004
  5. Kameyama, S., U. Tsunogai, T. Gamo, J. Zhang, and M. Suzuki (2003), Geochemical Studies of the Submarine Ground Water Discharge by using Methane Concentration and its Carbon Isotope Ratio as a Tracer; Toyama Bay, Japan, Geochimica et Cosmochimica Acta, 67, 18S, A197.

Books

書籍

  1. 亀山宗彦 (2017), 海の生物活動に由来する短寿命微量気体と気候の関わり, 海の温暖化, 日本海洋学会編, 朝倉書店, 東京.
  2. 亀山宗彦 (2014), 海洋における硫化ジメチル(DMS)生成とその分布, 生物の科学 遺伝, 2014年11月号, エヌ・ティー・エス, 東京.
  3. Tanimoto H., S. Kameyama, Y. Omori, S. Inomata, and U. Tsunogai (2014), High-Resolution Measurement of Volatile Organic Compounds Dissolved in Seawater Using Equilibrator Inlet-Proton Transfer Reaction-Mass Spectrometry (EI-PTR-MS). In: Western Pacific Air-Sea Interaction Study, (eds. M. Uematsu, Y. Yokouchi, Y. W. Watanabe, S. Takeda, and Y. Yamanaka), TERRAPUB, 89-115.
  4. Tanimoto, H., S. Inomata, S. Kameyama, and U. Tsunogai (2009), Recent PTR-MS activities at NIES: Instrumentation and field measurements. In: 4th International Conference on Proton Transfer Reaction Mass Spectrometry and Its Applications, (eds. A. Hansel and J. Dunkl), Innsbruck University Press, ISBN 978-3-902571- 99-1, 98-102

Awards

受賞

  • 2013年度日本地球化学会奨励賞 2013年9月
    「高時間分解能分析法を用いた海洋表層における揮発性有機化合物に関する研究」
  • 海のフロンティアを拓く岡村健二賞 2012年11月
  • 第2回北海道大学地球化学優秀修士論文賞(角皆賞) 2004年3月

Research Grants

外部資金獲得状況

科学研究費補助金等政府関連競争的研究費

  • 2024年度 – 2027年度
    基盤研究(C)、「海洋プラスチックの揮発性有機化合物の放出源としての影響評価」、課題番号24K15257、分担
  • 2022年度 – 2024年度
    挑戦的研究(萌芽)、「海の暗い所で珪藻が栄養塩を消費する事実-生存戦略の仮説を提唱-」、課題番号22K19838、分担
  • 2020年6月 – 2025年3月
    北極域研究加速プロジェクト(ArCS II: Arctic Challenge for Sustainability II)、海洋課題、研究分担者
  • 2020年度 – 2023年度
    挑戦的研究(萌芽)、「サンゴが雲を作り気候を変化させているのか?遺伝子解析技術を用いた検証」、課題番号20K21860、分担
  • 2018年度 – 2020年度
    基盤研究(C)、「精密試料採取手法に基づく北極海の海氷域における硫黄循環像の解明」、課題番号18K11612、代表
  • 2017年度 – 2019年度
    北極域研究推進プロジェクト(ArCSプロジェクト:Arctic Challenge for Sustainability Project)、テーマ4「北極海洋環境観測研究」、実施担当者
  • 2015年度 – 2016年度
    挑戦的萌芽研究、「海洋表面への落雷に伴う物質循環の検討」、課題番号15K12181、代表
  • 2014年度 – 2016年度
    基盤研究(B)、「北極海における海洋揮発性有機分子の動態とその支配要因に関する研究」、課題番号26281001、分担
  • 2011年度 – 2013年度
    基盤研究(A)、「気候系に影響を及ぼす南大洋の二酸化炭素と揮発性有機分子に関する研究」、課題番号23241002、分担
  • 2010年度 – 2012年度
    若手研究(B)、「海洋表層水の高分解能定量に基づく海洋起源DMS・イソプレンの大気環境への影響評価」、課題番号22740355、代表
  • 2007年度 – 2008年度
    特別研究員奨励費(DC)、「安定同位体比を用いた海洋におけるメタンと亜酸化窒素の挙動及び生成過程の解明」、課題番号06J04207

その他の外部資金

  • 2023年度-2024年度
    住友財団、「南シナ海西部沿岸域から大気への年間メタンフラックスの見積もり」
  • 2019年度-2020年度
    アサヒグループ学術振興財団、「雷放電が誘発する大気-海洋境界層における新しい窒素循環像」
  • 2017年度-
    Korea Polar Research Institute、受託研究「Study on the Distribution and its Controlling Factors of Dimethyl sulfide in the Arctic Ocean」「Study on the Distribution and Behavior of Black Carbon in the Arctic Ocean」
  • 2009年度
    海洋未来技術研究会による海外渡航援助、SOLAS Open Science Conference 2009 (Barcelona, Spain)
  • 2004年度
    日本海洋科学振興財団・海外渡航援助プログラム、AGU 2004 Fall Meeting (San Francisco, USA)

Review experiences

論文査読経験

Advance in Polar Science、Atmospheric Environment、Atmospheric Research、Biogeosciences、地球化学、Environmental Science & Technology、Frontiers in Marine Science、Geochemical Journal、Geophysical Research Letters、Global Biogeochemical Cycles、Journal of Marine Systems、Limnology、Limnology and Oceanography、Marine Chemistry、Polar Science、Ocean Science、Science of the Total Environment、Scientific Reports