業績

論文：査読有(Peer-reviewed papers)

• Ueno M., Nakamura J., Nakamura M., Utida S., Itoh M., Yomura T., and Horiuti T. (1994) The Surface Rheological Properties of Protein-Free Synthetic Lung Surfactants. J. Jpn. Med. Soc. Biol. Interface. 25, 31-36.
• Yurimoto H., Ito M., and Nagasawa H. (1998) Oxygen isotope exchange between refractory inclusion in Allende and solar nebula gas. Science 282, 1874-1877
• Ito M., Yurimoto H., Morioka M., and Nagasawa H. (1999) Co2+ and Ni2+ diffusion in olivine by Secondary ion mass spectrometry. Physics and Chemistry of Minerals 26, 425-431.
• Nagasawa H., Suzuki T., Ito M. and Morioka M. (2001) Diffusion in single crystal of melilite: Interdiffusion of Al+Al vs. Mg+Si. Physics and Chemistry of Minerals 28, 706-710.
• Ito M., Yurimoto H., and Nagasawa H. (2004) Oxygen isotopic SIMS analysis in Allende CAI: Details of the very early thermal history of the solar system. Geochimica et Cosmochimica Acta 68, 2905-2923.
• Ito M. and Ganguly J. (2004) Potassium diffusion in melilite: Experimental studies and constraints on the thermal history and size of planetesimals hosting CAIs. Meteoritics and Planetary Science 39, 1911-1920.
• Brownlee D., and the Stardust Preliminary Examination Team (78th author). (2006) Impact Features on Stardust: Implications for Comet 81P/Wild 2 Dust. Science 314, 1711-1716.
• McKeegan K.D., Aléon J., Bradley J., Brownlee D., Busemann H., Butterworth A., Chaussidon M., Fallon S., Floss C., Gilmour J., Gounelle M., Graham G., Guan Y., Heck P.R., Hoppe P., Hutcheon I.D., Huth J., Ishii H., Ito M., Jacobsen S.B., Kearsley A., Leshin L.A., Liu M-C., Lyon I., Marhas K., Marty B., Matrajt G., Meibom A., Messenger S., Mostefaoui S., Mukhopadhyay S., Messenger K.N., Nittler L., Palma R., Pepin R.O., Papanastassiou D.A., Robert F., Schlutter D., Snead C.J., Stadermann F.J., Stroud R., Tsou P., Westphal A., Young E.D., Ziegler K., Zimmermann L., and Zinner E. (2006) Isotopic compositions of cometary matter returned by STARDUST. Science 314, 1724-1728.
• Ito M. and Morioka M. (2006) Growth of pure diopside (CaMgSi2O6) single crystal by Czochralski technique. Geochemical Journal 40, 625-629.
• Ito M. and Ganguly J. (2006) Diffusion Kinetics of Cr in olivine and 53Mn-53Cr thermochronology of early solar system objects. Geochimica et Cosmochimica Acta 70, 799-809.
• Ito M., Yurimoto H., and Nagasawa H. (2006) A study of Mg and K isotopes in Allende CAIs: Implications to the time scale for the multiple heating processes. Meteoritics and Planetary Science 41, 1871-1882.
• Ganguly J., Ito M., and Zhang X. (2007) Cr Diffusion in Orthopyroxene: Experimental Determination, 53Mn-53Cr Thermochronology, and Planetary Applications. Geochimica et Cosmochimica Acta 71, 3915-3925.
• Matrajt G., Ito M., Wirick S., Messenger S., Brownlee D., Joswiak D., Flynn G., Sandford S., Snead C., and Westphal A. (2008) Carbon investigation of two Stardust particles: A TEM, NanoSIMS and XANES study. Meteoritics and Planetary Science 43, 1-43.
• Ito M. and Messenger S. (2008) Isotopic imaging of refractory inclusions in meteorites with the NanoSIMS 50L. Applied Surface Science 255, 1446-1450.
• Herrin J.S, Zolensky M.E., Ito M., Le L., Mittlefehldt D.W., Jenniskens P., and Shaddad M.H. (2010) Thermal and fragmentation history of ureilitic asteroids; Insights from the Almahata Sitta fall. Meteoritics & Planetary Science 45, 1789-1803.
• Zhang X., Ganguly J., and Ito M. (2010) Ca-Mg Diffusion in Diopside: tracer and chemical inter-diffusion coefficients. Contributions to Mineralogy and Petrology 159, 175-186.
• Ito M. and Messenger S. (2010) Thermal metamorphic history of a Ca, Al-rich inclusion constrained by high spatial resolution Mg isotopic measurements with NanoSIMS 50L. Meteoritics & Planetary Science 45, 583-595.
• Yamaguchi A., Barrat J-A., Ito M., and Bohn M. (2011) Posteucritic magmatism on Vesta: Evidence from the petrology and thermal history of diogenites. J. Geophys. Res., 116, E08009, doi:10.1029/2010JE003753.
• Nakamura-Messenger K., Keller L.P., Clemett S., Messenger S., and Ito M. (2011) Nanometer-Scale Anatomy of Entire Stardust Tracks. Meteoritics & Planetary Science 46, 1033-1051.
• Morono Y., Terada H., Nishizawa M., Ito M., Takahata N., Sano Y., and Inagaki F. (2011) Carbon and nitrogen assimilation in deep subseafloor microbial cells. PNAS. 108, 18295-18300.
• Yamaguchi A., Mikouchi T., Ito M., Shirai N., Barrat J.A., Messenger S., and Ebihara M. (2013) Experimental evidence of fast transport of trace elements in planetary basaltic crusts by high temperature metamorphism. Earth and Planetary Science Letters 368, 101–109.
• Kubota K., Morono Y., Ito M., Terada T., Itezono S., Harada H., and Inagaki F. (2014) Gold-ISH: A nano-size gold particle-based phylogenetic identification compatible with NanoSIMS. Systematic and Applied Microbiology 37, 261–266.
• Joswiak D.J., Nakashima D., Brownlee D.E., Matrajt G., Ushikubo T., Kita N.T., Messenger S., and Ito M. (2014) Terminal particle from Stardust track 130: Probable Al-rich chondrule fragment from comet Wild 2. Geochimica et Cosmochimica Acta 144, 277-298.
• Ito M., Uesugi M., Naraoka H., Yabuta H., Kitajima F., Takano Y., Mita H., Karouji Y., Yada T., Ishibashi Y., Okada T., and Abe M. (2014) H, C, and N isotopic compositions of Hayabusa category 3 organic samples. Earth, Planets and Space 66, 91.
• Uesugi M., Naraoka H., Ito M., Yabuta H., Kitajima F., Takano Y., Mita H., Ohnishi I., Kebukawa Y., Yada T., Karouji Y., Ishibashi Y., Okada T., and Abe M. (2014) Sequential analysis of carbonaceous materials in Hayabusa-returned samples for the determination of their origin. Earth, Planets and Space 66, 156.
• Yabuta H., Uesugi M., Naraoka H., Ito M., Kilcoyne A.L.D., Sandford S.A., Kitajima F., Takano Y., Mita H., Karouji Y., Yada T., Ishibashi Y., Okada T., and Abe M. (2014) X-ray absorption near edge structure spectroscopic study of Hayabusa category 3 carbonaceous particles. Earth, Planets and Space 66, 102.
• Kitajima F., Uesugi M., Karouji Y., Ishibashi Y., Yada T., Naraoka H., Abe M., Fujimura A., Ito M., Yabuta H., Mita H., Takano Y., and Okada T. (2015) A micro-Raman and infrared study of several Hayabusa category 3 (organic) particles. Earth, Planets and Space 67, 67.
• Naraoka H., Aoki D., Fukushima K., Uesugi M., Ito M., Yabuta H., Kitajima F., Mita H., Yabuta H., Takano Y., Yada T., Ishibashi Y., Karouji Y., Okada T., and Abe M. (2015) ToF-SIMS analysis of carbonaceous particles in the sample catcher of the Hayabusa spacecraft. Earth, Planets and Space 67, 20.
• Inagaki F., Hinrichs K.-U., Kubo Y., Bowles M.W., Heuer V.B., Hong W.-L., Hoshino T., Ijiri A., Imachi H., Ito M., Kaneko M., Lever M.A., Lin Y.-S., Methé B.A., Morita S., Morono Y., Tanikawa W., Bihan M., Bowden S.A., Elvert M., Glombitza C., Gross D., Harrington G.J., Hori T., Li K., Limmer D., Liu C.-H., Murayama M., Ohkouchi N., Ono S., Park Y.-S., Phillips S.C., Prieto-Mollar X., Purkey M., Riedinger N., Sanada Y., Sauvage J., Snyder G., Susilawati R., Takano Y., Tasumi E., Terada T., Tomaru H., Trembath-Reichert E., Wang D.T., Yamada Y. (2015) Exploring deep microbial life in coal-bearing sediment down to ~2.5 km below the ocean floor. Science 349, 420-424.
• Kawasaki N., Kato C., Itoh S., Wakaki S., Ito M., and Yurimoto H. (2015) 26Al-26Mg chronology and oxygen isotope distributions of multiple melting for a Type C CAI from Allende. Geochimica et Cosmochimica Acta 169, 99-114 .
• Ito M. and Messenger S. (2016) Rare Earth Element Measurements and Mapping of Minerals in the Allende CAI, 7R19-1, by NanoSIMS Ion Microprobe. Meteoritics & Planetary Science 51, 818-832.
• Tomioka N., Miyahara M., and Ito M. (2016) Discovery of natural MgSiO3 Tetragonal garnet in a shocked chondritic meteorite. Science Advances 2, no.3, e1501725.
• Jogo K., Nakamura T., Ito M., Wakita S., Zolotov M., and Messenger S. (2016) Mn-Cr ages and formation conditions of fayalite in CV3 carbonaceous chondrites:Constraints on the accretion ages of chondritic asteroids. Geochimica et Cosmochimica Acta 199, 58-74 .
• Zolensky M.E., Bodnar R.J., Yurimoto H., Itoh S., M.Fries., A.Steele., Q.H.-S.Chan., Tsuchiyama A., Kebukawa Y., and Ito M. (2017) The Search for and analysis of direct samples of early Solar Syatem aqueous fluids. Philosophical Transactions of the Royal Society A.
• Hamada M, Kimura J-I., Chang Q., Hanyu T., Ushikubo T., Shimizu K., Ito M., Ozawa T., and Iwamori H. (2017) High-precision in situ analysis of Pb isotopes in melt inclusions by LA-ICP-MS and application of Independent Component Analysis. Geochemical Journal 52, 69–74.
• Shimizu K., Ushikubo T., Hamada M., Itoh S., Higashi Y., Takahashi E., and Ito M. (2017) H2O,CO2,F,S,Cl,and P2O5 analyses of silicate glasses using SIMS:Report of volatile standard glasses. Geochemical Journal 51,299-313.
• Chan Q.H-S, Zolensky ME.,Kebukawa Y.,Marc Fries., Ito M., Steele A., Rahman Z., Nakato A., Kilcoyne A.L.D., Suga H., Takahashi Y., Takeichi Y., and Mase K. (2018) Organic matter in extraterrestrial water-bearing salt crystals. Science Advances Vol.4,1.
• Jogo K., Ito M., Nakamura T., Kobayashi S., and Lee J-K. (2018) Redistribution of Sr and rare earth elements in matrices of the CV3 carbonaceous chondrites during aqueous alteration on their parent body. Earth, Planets and Space 70,37.
• Pant N.C., Jimenez-Espejo F., Cook C.P., Biswas P., McKay R., Marchesi C., Updhyay D., Kuroda J., Ito M., Shimizu K., Senda R., Van de Flierdt. T., Takano Y., Suzuki K., Escutia C., and Shirivastava P.K. (2018) Ice-rafted suspected achondrite-type meteorite fragments in Plio-Pleistocene marine sediments from east Antarctica. Antarctic Science 30, 307–321.
• Kebukawa Y., Okudaira K., Yabuta H., Hasegawa S., Tabata M., Furukawa Y., Ito M., Nakato A., Kilcoyne A.L.D., Kobayashi K., Yokobori S., Imai E., Kawaguchi Y., Yano H., and Yamagishi A. (2019) STXM-XANES analyses of Murchison meteorite samples captured by aerogel after hypervelocity impacts: A potential implication of organic matter degradation for micrometeoroid collection experiments. Geochemical Journal 53, 53–67.
• Uesugi M., Ito M., Yabuta H., Naraoka H., Kitajima F., Takano Y., Mita H., Kebukawa Y., Nakato A., and Karouji Y. (2019) Further characterization of carbonaceous materials in Hayabusa-returned samples to understand their origin. Meteoritic & Planetary Sciences 54, 638–666.
• Hanyu T., Shimizu K., Ushikubo T., Kimura J-I., Chang Q., Hamada M., Ito M., Iwamori H., and Ishikawa T. (2019) Tiny droplets of ocean island basalts unveil Earth’s deep chlorine cycle. Nature Communications 10, 60.
• Li X., Pu T., Hoshi T., Zhang T., Xie T., Fujiwara S.J.L., Kitahata H., Li L., Kobayashi S., Ito M., Li X., Ao J-P. (2019) GaN Schottky barrier diodes with nickel nitride anodes sputtered at different nitrogen partial pressure. Vacuum 162, 72–77.
• Selliez L., Briois C., Carrasco N., Thirkell L., Thissen R., Ito M., Orthous-Daunay F.-R., Chalumeau G., Colin F., Cottin H., Engrand C., Flandinet L., Fray N., Gaubicher B., Grand N., Lebreton J.-P., Makarov A., Ruocco S., Szopa C., Vuitton V., and Zapff P. (2019) Identification of organic molecules with a laboratory prototype based on the Laser Ablation-CosmOrbitrap. Planetary and Space Science 170, 42–51.
• Kebukawa Y., Ito M., Zolensky M.E., Greenwood R.C., Rahman X., Suga H., Nakato A., Chan Q.H.-S., Fries M., Takeichi Y., Takahashi Y., Mase K.,Kobayashi K. (2019) A novel organic-rich meteoritic clast from the outer solar system. Scientific Reports 9, 3169.
• Morono Y., Wishart J., Ito M., Ijiri A., Hoshino T., Torres M., Verba C., Terada T., Inagaki F., and Colwell F. (2019) Microbial Metabolism and Community Dynamics in Hydraulic Fracturing Fluids Recovered from Deep Hydrocarbon-Rich Shale. Frontiers in Microbiology 10.
• Jogo K., Ito M., Wakita S., Kobayashi S., and Lee J-K. (2019) Origin of the metamorphosed clasts in the CV3 carbonaceous chondrite breccias of Graves Nunataks 06101, Vigarano, Roberts Massif 04143, and Yamato-86009. Meteoritics & Planetary Science 54, 1133–1152.
• Shimizu K., Ito M., Chang Q., Miyazaki T., Ueki K., Toyama C., Senda R., Vaglarov B.S., Ishikawa T., and Kimura J. (2019) Identifying volatile mantle trend with the water–fluorine–cerium systematics of basaltic glass, Chemical Geology 522, 283-294.
• Matsumoto M., Tsuchiyama A., Nakato A., Matsuno J., Miyake A., Kataoka A., Ito M., Tomioka N., Kodama Y., Uesugi K., Takeuchi A., Nakano T., and Vaccaro E. (2019) Discovery of fossil asteroidal ice primitive meteorite Acfer 094, Science Advances Vol. 5, no. 11, eaax5078.
• Kebukawa Y., Zolensky M.E., Ito M., Ogawa O.N., Takano Y., Ohkouchi N., Nakato A., Suga H., Takeichi Y., Takahashi Y., Kobayashi K. (2020) Primordial organic matter in the xenolithic clast in the Zag H chondrite: Possible relation to D/P asteroids, Geochimica et Cosmochimica Acta 271, 61-77.
• Imachi H., Nobu K.M., Nakahara N., Morono Y., Ogawara M., Takaki Y., Takano Y., Uematsu K., Ikuta T., Ito M., Matsui Y., Miyazaki M., Murata K., Saito Y., Sakai S., Song C., Tasumi E., Yamanaka Y., Yamaguchi T., Kamagata Y., Tamaki H., and Takai K. (2020) Isolation of an archaeon at the prokaryote–eukaryote interface. Nature 577, 19–525.
• Hamada M., Iwamori H., Brandl P.A., Ushikubo T., Shimizu K., Ito M., Li H., and Savov I.P. (2020) Temporal evolution of proto-Izu–Bonin–Mariana arc volcanism over 10 Ma: Constraints from statistical analysis of melt inclusion compositions. Journal of Petrology, egaa022.
• Uesugi M., Hirahara K., Uesugi K, Takeuchi A., Karouji Y., Shirai N., Ito M., Tomioka N., Ohigashi T., Yamaguchi A., Imae N., Yada T., and Abe M. (2020) Development of a sample holder for synchrotron radiation-based computed tomography and diffraction analysis of extraterrestrial materials. Review of Scientific Instruments, Volume91.
• Suzuki Y., Yamashita S., Kouduka M., Ao Y., Mukai H., Mitsunobu S., Kagi H., Steven D’Hondt, Inagaki F., Morono Y., Hoshino T., Tomioka N., and Ito M. (2020) Deep microbial proliferation at the basalt interfacein 33.5–104 million-year-old oceanic crust. Communications Biology 3, 136.
• Shirai N., Karouji Y., Kumagai K., Uesugi M., Hirahara K., Ito M., Tomioka N., Uesugi K., Yamaguchi A., Imae N., Ohigashi T., Yada T., and Abe M. (2020) The effects of possible contamination by sample holders on samples to be returned by Hayabusa2. Meteoritics & Planetary Science 55, 1133–1152. DOI: 10.1111/maps.13480.
• Soda Y., Matsuda T., Kobayashi S., Ito M., Harigane Y., and Okudaira T. (2020) Reversely zoned plagioclase in lower crustal meta-anorthosites: an indicator of multistage fracturing and metamorphism in the lower crust. American Mineralogist 105, 1002–1013. DOI: 10.2138/am-2020-7284
• Kodama Y., Tomioka N., Ito M., and Imae N. (2020) Developments in microfabrication of mineral samples for simultaneous EBSD-EDS analysis utilizing an FIB-SEM instrument: study on an S-type cosmic spherule from Antarctica. Journal of Mineralogical and Petrological Science 115, 407-415.
• Morono Y., Ito M., Hoshino T., Terada T., Hori T., Ikehara M., D’Hondt S., and Inagaki F. (2020) Aerobic microbial life persists in oxic marine sediment as old as 101.5 million years. Nature Communications 11, 3626. DOI: 10.1038/s41467-020-17330-1.
• Ito M., Tomioka N ., Uesugi K., Uesugi M., Kodama Y., Sakurai I., Okada I., Ohigashi T., Yuzawa H., Yamaguchi A., Imae N., Karouji Y., Shirai N., Yada T., and Abe M. (2020) The universal sample holders of microanalytical instruments of FIB, TEM, NanoSIMS, and STXM-NEXAFS for the coordinated analysis of extraterrestrial materials. Earth, Planets and Space 72, 133. DOI: 10.1186/s40623-020-01267-2
• Mukai H., Kon Y., Sanematsu K., Takahashi Y., and Ito M. (2020) Microscopic analyses of weather granite in ion-adsorption rare earth deposit of Jiangxi Province, China. Scientific Reports, 10:20194, doi.org/10.1038/s41598-020-76981-8.
• Kerraouch I., Bischoff A., Zolensky M.E., Pack A., Patzek M., Hanna R.D., Fries M.D., Harries D., Kebukawa Y., Le L., Ito M., and Rahman Z. (2021) The polymict carbonaceous breccia Aguas Zarcas: A potential analogue to samples being returned by the OSIRIS-REx and Hayabusa2 missions. Meteoritics & Planetary Science 56, 277–310. DOI: 10.1111/maps.13620.
• Ito M., Okada T., Kebukawa Y., Aoki J., Kawai Y., Matsuoka J., Chujo T., Nakamura R., Yano H., Yokota S., Toyoda M., Yurimoto H., Watanabe M., Ikeda R., Kubo Y., Grand N., Cottin H., Buch A., Szopa C., and Mori O. (2020) A feasible study of in-situ measurements of light isotopes and organic molecules with high resolution mass spectrometer MULTUM on the OKEANOS mission. Transactions of the Japan Society for Aeronautical and Space Sciences, Aerospace Technology Japan 19, 477-484. DOI: 10.2322/tastj.19.477
• Kebukawa Y., Zolensky M.E., Goodrich C.A., Ito M., Ogawa N.O., Takano Y., Ohkouchi N., Kiryu K., Igisu M., Shibuya T., Marcus M.A., Ohigashi T., Martinez J., Kodama Y., Shaddad M.H., Jenniskens P. (2021) Organic matter in carbonaceous chondrite lithologies of Almahata Sitta: Incorporation of previously unsampled carbonaceous chondrite lithologies into ureilitic regolith. Meteoritics & Planetary Science 56, 1311–1327. DOI: org/10.1111/maps.13713
• Ito M., Takano Y., Kebukawa Y., Ohigashi T., Matsuoka M., Kiryu K., Uesugi M., Nakamura T., Yuzawa H., Yamada K., Naraoka H., Yada T., Abe M., Hayakawa M., Saiki T., Tachibana S., and Hayabusa2 project team. (2021) Assessing the debris generated by the small carry-on impactor operated from the Hayabusa2 mission. Geochemical Journal 55, 223–239. DOI: 10.2343/geochemj.2.0632
• Yada, T. et al. (Ito, M., 53rd of 102 authors) (2021) Preliminary analysis of the Hayabusa2 samples returned from C-type asteroid Ryugu. Nature Astronomy 6, 214–220. DOI: 10.1038/s41550-021-01550-6
• Kerraouch, I. et al. (Ito, M., 7th of 33 authors) (2022) Heterogeneous nature of the carbonaceous chondrite breccia Aguas Zarcas – Cosmochemical characterization and origin of new carbonaceous chondrite lithologies. Geochimica et Cosmochimica Acta (In press).
• Takamiya, H., Kouduka, M., Furutani, H., Mukai, H., Nakagawa, K., Yamamoto, T., Kato, S., Kodama, Y., Tomioka, N., Ito, M., and Suzuki, Y. (2022) Copper-nanocoated microbial cells in grain boundaries inside an extinct vent chimney. Frontiers in Microbiology DOI: 10.3389/fmicb.2022.864205.
• Yokoyama, T. et al. (Ito, M., 32nd of 150 authors) (2022) Samples returned from the asteroid Ryugu are similar to Ivuna-type carbonaceous meteorites. Science DOI: 10.1126/science.abn7850.

日本語による総説／解説：査読有

• 伊藤元雄 (2005) 鉱物の中で元素が動く？ アイソトープ総合センターニュース Vol 36, No.2.
• 伊藤元雄・圦本尚義. (2000) 同位体組織学：SIMSが拓く宇宙・地球化学のフロンティア. 地学雑誌 109, No.6, 836-844.
• 伊藤元雄・スコットメッセンジャー. (2007) 同位体組成からわかる彗星塵の形成環境―NanoSIMSによる同位体イメージング―. 遊星人 Vol.16.No.4, 308-315.
• 伊藤元雄. (2011) 超高空間分解能型二次イオン質量分析器NanoSIMSによるイメージング法：隕石と海底下微生物への応用. 機能紙研究会誌, 50, 3-7.
• 諸野祐樹, 伊藤元雄, 稲垣史生. (2013) 超高空間分解能二次イオン質量分析法による微小領域イメージングの環境微生物学. 化学と生物. 51, 205-207.
• 諸野祐樹, 伊藤元雄. (2015) NanoSIMSにより基質の流れを可視化するー未培養微生物のシングルセルレベルでの生理生態解析. 水環境学会誌 38巻, 10号, 375-379.
• 伊藤元雄. (2017)はやぶさ探査機がもたらす太陽系始原物質の分析に向けて.ぶんせき2017 Vol.9, 403-409.
• 伊藤元雄. (2019) レーザコンプトン散乱γ線源を用いた核共鳴蛍光散乱による同位体の非破壊分析.ぶんせき 2019 vol.6, ｐ249.
• 安部正真, 橘省吾, 小林桂, 伊藤元雄, 渡邊誠一郎 (2020) 火の鳥「はやぶさ」未来編 その20 ~小惑星リュウグウからのリターンサンプル分析の全体像~. 日本惑星科学会誌Vol. 29, 28–37.

著書など：査読有

• 伊藤元雄・圦本尚義 (2014) 先端科学への応用（宇宙・惑星科学等）—質量分析法. “マイクロビームアナリシスハンドブック” 日本学術振興会マイクロビームアナリシス第141委員会編、オーム社
• Morono Y., Ito M., and Inagaki F. (2014) Detecting slow metabolism in the subseafloor: analysis of single cells using NanoSIMS. In “Life in Extreme Environments, Microbial Life of the Deep Biosphere”, De Gruyter
• 伊藤元雄 (2015) 酸素同位体からみる太陽系の進化の歴史. “地球のしくみを理解する” 広島大学理学部地球惑星システム学科編, 広島大学出版会
• Kubota K., Morono Y. and Ito M. (2017) Nano-scale Secondary-Ion Mass Spectrometry (NanoSIMS) Imaging of Biological Structures. Encyclopedia of Analytical Chemistry