FUMITO SHIRAISHI

Last Updated :2024/10/01

Affiliations, Positions
Graduate School of Advanced Science and Engineering, Associate Professor
Web Site
E-mail
fshiraihiroshima-u.ac.jp
Self-introduction
I'm studying sediments and sedimentary rocks formed by microorganisms for understanding the histories of life and Earth environment.

Basic Information

Academic Degrees

  • Doctor of Science, The University of Goettingen
  • Master of Science, Hiroshima University

Educational Activity

  • [Bachelor Degree Program] School of Science : Earth and Planetary Systems Science : Earth and Planetary Systems Science
  • [Master's Program] Graduate School of Advanced Science and Engineering : Division of Advanced Science and Engineering : Earth and Planetary Systems Science Program
  • [Doctoral Program] Graduate School of Advanced Science and Engineering : Division of Advanced Science and Engineering : Earth and Planetary Systems Science Program

Research Fields

  • Mathematical and physical sciences;Earth and planetary science;Geology
  • Mathematical and physical sciences;Earth and planetary science;Stratigraphy / Paleontology

Affiliated Academic Societies

Educational Activity

Course in Charge

  1. 2024, Undergraduate Education, 2Term, Introduction to Earth and Planetary Sciences A
  2. 2024, Liberal Arts Education Program1, 1Term, Introductory Seminar for First-Year Students
  3. 2024, Undergraduate Education, 2Term, Sedimentology and Paleontology I
  4. 2024, Undergraduate Education, Second Semester, Field Excursion for Earth Science B
  5. 2024, Undergraduate Education, 3Term, Sedimentology and Paleontology II
  6. 2024, Undergraduate Education, First Semester, Special Study for Graduation
  7. 2024, Undergraduate Education, Second Semester, Special Study for Graduation
  8. 2024, Undergraduate Education, 3Term, Carbonate rocks and their formation proces
  9. 2024, Undergraduate Education, 2Term, Experiments in General Geology A
  10. 2024, Graduate Education (Master's Program) , 3Term, Survey of Earth and Planetary Systems Science
  11. 2024, Graduate Education (Master's Program) , 3Term, History of the Earth
  12. 2024, Graduate Education (Master's Program) , 3Term, Special Lecture on Earth and Planetary Systems Science B
  13. 2024, Graduate Education (Master's Program) , Year, Exercise for Globalization I
  14. 2024, Graduate Education (Master's Program) , Year, Exercise for Globalization II
  15. 2024, Graduate Education (Master's Program) , Year, Externship for Earth and Planetary Systems Science
  16. 2024, Graduate Education (Master's Program) , Year, Integrated Seminar on Earth and Planetary Systems Science
  17. 2024, Graduate Education (Master's Program) , First Semester, Midterm Exercise for Earth and Planetary Systems Science
  18. 2024, Graduate Education (Master's Program) , First Semester, Special Exercise for Earth and Planetary Systems Science A
  19. 2024, Graduate Education (Master's Program) , Second Semester, Special Exercise for Earth and Planetary Systems Science B
  20. 2024, Graduate Education (Master's Program) , Academic Year, Special Study for Earth and Planetary Systems Science
  21. 2024, Graduate Education (Doctoral Program) , Academic Year, Special Study for Earth and Planetary Systems Science

Award of Education

  1. none

Research Activities

Academic Papers

  1. Composition and spatial distribution of microencrusters and microbial crusts in upper Jurassic-lowermost Cretaceous reef limestone (Torinosu Limestone, Southwest Japan), Facies, 20040301
  2. Depositional environment of the upper Jurassic-lower Cretaceous reef limestone in western Yamaguchi Prefecture, Southwest Japan, The Journal of the Geological Society of Japan, 20050101
  3. Strontium isotopic age of the Torinosu Limestone in Niyodo Village, Kochi Prefecture, SW Japan, The Journal of the Geological Society of Japan, 111, 610-623, 20051201
  4. Photosynthesis, respiration and exopolymer calcium-binding in biofilm calcification (Westerhofer and Deinschwanger Bach, Germany), Geomicrobiology Journal, 25, 83-94, 20050301
  5. Biosignetures in rocks and minerals, Sediment2006: 21th Meeting of Sedimentologists/4th Meeting of SEPM Central European Section, Short Course W3, 1-12, 2006
  6. Uppermost Jurassic limestone mounds and the recent tufa deposits in southern Shikoku Province, ISC 2006 Excursion guidebook B08, 1-13, 2006
  7. Biomineralization and microbialites - Frontiers in carbonate sedimentology, 17th International Sedimentological Congress, Short Course 2, 1-16, 2006
  8. Microbial mediation of stromatolite formation in karst-water creeks, Limnology and Oceanography, 53, 1159-1168, 20080601
  9. Microbial effects on biofilm calcification, ambient water chemistry and stable isotope records (Westerhofer Bach, Germany), Palaeogeography, Palaeoclimatology, Palaeoecology, 262, 91-106, 20080801
  10. In situ detection of bacteria in calcified biofilms using FISH and CARD-FISH, Journal of Microbiological Methods, 75, 103-108, 20080901
  11. Metabolic microenvironmental control by photosynthetic biofilms under changing macroenvironmental temperature and pH, Applied and Environmental Microbiology, 74, 6306-6312, 20081201
  12. Influence of microbial photosynthesis on tufa stromatolite formation and ambient water chemistry, SW Japan, GEOCHIMICA ET COSMOCHIMICA ACTA, 74(18), 5289-5304, 20100915
  13. Tufa-forming biofilms of German karstwater creeks: Microorganisms, exopolymers, hydrochemistry and calcification, Geological Society, London, Special Publications, 336, 83-118, 20100501
  14. Photosynthesis-induced stromatolite formation in the freshwater creeks, Lecture Notes in Earth Sciences, 131, 135-140, 20110201
  15. Microbial processes forming daily lamination in an aragonite travertine, Nagano-yu hot spring, southwest Japan, Geomicrobiology Journal, 28, 135-148, 20110701
  16. The evolution of animal multicellularity stimulated by dissolved organic carbon in early Ediacaran ocean: DOXAM hypothesis, Island Arc, 20, 280-293, 20110801
  17. IODP Expedition 329: South Pacific Gyre Microbiology, UK IODP Newsletter, 36, 7-11, 2011
  18. Chemical conditions favoring photosynthesis-induced CaCO3 precipitation and implications for microbial carbonate formation in the ancient ocean, GEOCHIMICA ET COSMOCHIMICA ACTA, 77, 157-174, 20120115
  19. Textural transition in an aragonite travertine formed under various flow conditions at Pancuran Pitu, Central Java, Indonesia, Sedimentary Geology, 265-266, 20120501
  20. Bacteriogenic Fe(III) (Oxyhydr)oxides Characterized by Synchrotron Microprobe Coupled with Spatially Resolved Phylogenetic Analysis, ENVIRONMENTAL SCIENCE & TECHNOLOGY, 46(6), 3304-3311, 20120320
  21. Geochemistry of basalts from IODP site U1365: Implications for magmatism and mantle source signatures of the mid-Cretaceous Osbourn Trough, Lithos, 144-145, 73-87, 20120501
  22. South Pacific Gyre: Subseafloor life and habitability in the South Pacific Gyre, IODP Preliminary Report, 329, 20111001
  23. South Pacific Gyre Subseafloor Life, The Proceedings of the Integrated Ocean Drilling Program, 329, 20111201
  24. Processes Forming Daily Lamination in a Microbe-Rich Travertine Under Low Flow Condition at the Nagano-yu Hot Spring, Southwestern Japan, GEOMICROBIOLOGY JOURNAL, 30(10), 910-927, 20131126
  25. Arsenic attenuation in geothermal streamwater coupled with biogenic arsenic(III) oxidation, APPLIED GEOCHEMISTRY, 35, 154-160, 201308
  26. New method of observing in situ microbe-metal-mineral interaction by μ-XAFS-FISH technique, SPring-8 Research Frontiers, 2012, 102-103, 2013
  27. IODP Expedition 329: Life and habitability beneath the seafloor of the South Pacific Gyre, Scientific Drilling, 15, 4-10, 2013
  28. Geobiocal Project Annual Report 2, 1-115, 2014
  29. Geobiocal Project Annual Report 4, 1-73, 2015
  30. Presence of oxygen and aerobic communities from sea floor to basement in deep-sea sediments, NATURE GEOSCIENCE, 8(4), 299-304, 201504
  31. Geobiocal Project Final Report, 1-331, 2016
  32. Dense microbial community on a ferromanganese nodule from the ultra-oligotrophic South Pacific Gyre: Implications for biogeochemical cycles, EARTH AND PLANETARY SCIENCE LETTERS, 447, 10-20, 20160801
  33. Limited reduction of ferrihydrite encrusted by goethite in freshwater sediment, GEOBIOLOGY, 14(4), 374-389, 201607
  34. Cyanobacterial exopolymer properties differentiate microbial carbonate fabrics, SCIENTIFIC REPORTS, 7, 20170918
  35. Fe(II) oxidation processes at the surface of bacterially colonized iron deposits, CHEMICAL GEOLOGY, 476, 161-170, 20180105
  36. New ornithopod footprints from the Lower Cretaceous Kitadani Formation, Fukui, Japan: Ichnotaxonomical implications, CRETACEOUS RESEARCH, 84, 501-514, 201804
  37. Potential photosynthetic impact on phosphate stromatolite formation after the Marinoan glaciation: Paleoceanographic implications, Sedimentary Geology, 380, 65-82, 2019
  38. Significant contribution of subseafloor microparticles to the global manganese budget, NATURE COMMUNICATIONS, 10, 20190206
  39. Pulsed Terahertz Radiation for Sensitive Quantification of Carbonate Minerals, ACS OMEGA, 4(2), 2702-2707, 201902
  40. Relative influence of biotic and abiotic processes on travertine fabrics, Satono-yu hot spring, Japan, SEDIMENTOLOGY, 66(2), 459-479, 201902
  41. A diverse theropod footprint assemblage from the Lower Cretaceous Kitadani Formation, Tetori Group, central Japan, CRETACEOUS RESEARCH, 97, 16-33, 201905
  42. Depositional processes of microbially colonized manganese crusts, Sambe hot spring, Japan, GEOCHIMICA ET COSMOCHIMICA ACTA, 258, 1-18, 20190801
  43. Endolithic Microbial Habitats Hosted in Carbonate Nodules Currently Forming within Sediment at a High Methane Flux Site in the Sea of Japan, GEOSCIENCES, 9(11), 201911
  44. Millimeter-scale topsoil layer blocks arsenic migration in flooded paddy soil, GEOCHIMICA ET COSMOCHIMICA ACTA, 274, 211-227, 20200401
  45. Characteristics of CaCO3 nucleated around cyanobacteria: Implications for calcification process, GEOCHIMICA ET COSMOCHIMICA ACTA, 285, 55-69, 20200915
  46. Clue on ocean redox condition from trace element and rare earth element (REE) composition of iron formation and carbonate rocks from the late Paleoproterozoic Morar Formation, Gwalior Group, central India, JOURNAL OF MINERALOGICAL AND PETROLOGICAL SCIENCES, 115(2), 175-191, 202004
  47. Genesis and diagenesis of travertine, Futamata hot spring, Japan, SEDIMENTARY GEOLOGY, 405, 20200715
  48. Microscale evolution of reefal microbialites, SEPM Special Publications, 2021
  49. Abiotic and biotic processes controlling travertine deposition: Insights from eight hot springs in Japan, SEDIMENTOLOGY, 69(2), 592-623, 202202
  50. Microbial influences on tufa deposition in a tropical climate, SEDIMENTARY GEOLOGY, 427, 202201
  51. Relationship among paleosol types, depositional settings, and paleoclimates in Tetori group (Lower Cretaceous, central Japan), ISLAND ARC, 31(1), 202201
  52. Microbial influences on manganese deposit formation at Yunotaki Fall, Japan, ISLAND ARC, 31(1), 202201
  53. U-Pb zircon geochronology of a pyroclastic rock from the Parsoi Formation, Mahakoshal Group: Implications towards basin age and related tectonics in Central Indian Tectonic Zone, Geological Journal, 2022
  54. DECOMPOSITIONAL PROCESSES OF MICROBIAL CARBONATES IN LAGOA VERMELHA, BRAZIL, JOURNAL OF SEDIMENTARY RESEARCH, 93(3), 202-211, 202303
  55. Microbial traces found in microdolomite associated with seep-related shallow gas hydrate, FRONTIERS IN EARTH SCIENCE, 11, 20230505
  56. Formation processes of paper-thin raft and coated bubble: Calcium carbonate deposition at gas-water interface, SEDIMENTARY GEOLOGY, 456, 202310

Publications such as books

  1. 2016, GEOBIOCAL Atlas, Brazil Publishing, 2016, Scholarly Book, Joint work, Bahniuk A., Shiraishi F., Asada J., Cury L., Franca A., 978-85-68419-09-0, 102
  2. 2018/10/27, Geomicrobiological Properties and Processes of Travertine, Springer Singapore, 2019, Scholarly Book, Joint work, English, Kano A., Okumura T., Takashima C., Shiraishi F., 978-981-13-1337-0, 176

Invited Lecture, Oral Presentation, Poster Presentation

  1. Photosynthesis-induced calcite precipitation recognized from freshwater stromatolite, Fumito Shiraishi, 2009/09/04, Without Invitation, Japanese, Okayama
  2. Biologically-induced mineralization observed by micro-electrodes, Shiraishi F., 2009/11/19, With Invitation, English, Fukuoka
  3. Calcite precipitation and stromatolite formation induced by photosynthetic bacteria, Fumito Shiraishi, JpGU 2010, 2010/05/23, Without Invitation, Japanese, Makuhari
  4. ストロマトライトの実験古生物学的研究, 白石史人, 日本地質学会西日本支部第160回例会, 2011, Without Invitation, Japanese
  5. Biogeochemistry: A new window to understand microbial carbonates, Shiraishi F., Short course at Petrobras, 2011/05/04, With Invitation, English, Petrobras, Rio de Janeiro
  6. Role(s) of oxygenic photosynthesis in Precambrian stromatolite formation, Fumito Shiraishi, JpGU 2011, 2011/05/23, Without Invitation, Japanese, Makuhari
  7. Biogeochemistry of laminated travertines in Central Java, Indonesia, Tomoyo Okumura, Chizuru Takashima, Fumito Shiraishi, Akmaluddine, Akihiro Kano, JpGU 2011, 2011/05/23, Without Invitation, Japanese, Makuhari
  8. Chemical conditions favoring photosynthesis-induced CaCO3 precipitation, Shiraishi F., ASLO Aquatic Sciences Meeting, 2012, Without Invitation, English
  9. Composition of carbonate chemical species in the Phanerozoic ocean estimated from fossil cyanobacteria, 2012, Without Invitation, Japanese
  10. Age and biological activity of the Neoproterozoic thrombolite in Bahia, central Brazil, Akihiro Kano, Seishiro Furuyama, Chizuru Takashima, Fumito Shiraishi, The 119th Annual Meeting of the Geological Society of Japan, 2012/09, Without Invitation, Japanese
  11. In situ characterization of microorganism-metal(loid)-mineral interaction by XAFS-FISH technique, Satoshi Mitsunobu, Fumito Shiraishi, 28th ANNUAL MEETING of JAPANESE SOCIETY for MICROBIAL ECOLOGY, 2012/09/20, Without Invitation, Japanese, Toyohashi
  12. ブラジル・バイーア州の新原生代スロンボライトと球体構造:最古の多細胞動物として想定されるイメージ, 狩野彰宏・古山精史朗・曽根知実・奥村知世・高島千鶴・白石史人, 日本地球惑星科学連合2013年大会, 2013, Without Invitation, Japanese, 幕張
  13. 微生物のヒ素酸化反応によって促進される堆積物へのヒ素固定-スペシエーションと機能遺伝子解析による新たなアプローチ, 光延聖・濱村奈津子・片岡剛文・白石史人・坂田昌弘, 2013年度日本地球化学会年会, 2013, Without Invitation, Japanese, つくば
  14. Fossil cyanobacteria as a potential pH proxy for Phanerozoic ocean, Shiraishi F., 2013, Without Invitation, English
  15. 三瓶温泉のマンガン沈殿物形成における微生物の役割, 千原亮二・白石史人, 日本地球惑星科学連合2013年大会, 2013, Without Invitation, Japanese, 幕張
  16. マイクロXAFS-FISH法による微生物-金属-鉱物相互作用の直接観察, 光延聖・白石史人, 日本地球惑星科学連合2013年大会, 2013, Without Invitation, Japanese, 幕張
  17. サリトレ層炭酸塩岩(新原生代、ブラジル)の指状構造と小球体:最古の動物のイメージ, 狩野彰宏・奥村知世・森大器・高島千鶴・白石史人, 日本古生物学会2013年年会, 2013, Without Invitation, Japanese
  18. Neoproterozoic thrombolite and spherical structures from Brazil: An image of the oldest multicellular animal, Kano A., Okumura T., Shiraishi F., Takashima C., Matsuda N., The International Biogeoscience Conference 2013, 2013, Without Invitation, English, Nagoya
  19. Spatial Changes of Bacterial Community and Mineral Species along Chemical Gradient in Iron-rich Sediment, Kikuchi S., Makita H., Shiraishi F., Takahashi Y., The 21st International Symposium on Environmental Biogeochemistry, 2013, Without Invitation, English, Wuhan
  20. Controlling factors on depositional fabrics of stromatolite and thrombolite, Yuhsaku HANZAWA, OKUMURA, Tomoyo, SHIRAISHI Fumito, JpGU 2013, 2013/05/19, Without Invitation, Japanese, Makuhari
  21. Microbial fossils and Earth history, Shiraishi F., SEGEPAR seminor, UFPR, 2013/10, With Invitation, English, LAMIR, UFPR, Curitiba, Brazil
  22. Evolution of life and Earth environment elucidated from microbial mineralization, Shiraishi F, Hiroshima International Symposium on Future Science (Hi-SFs) 2014, 2014, With Invitation, English
  23. トゥファ堆積物から推定される微生物岩組織の規制要因, 半澤勇作・奥村知世・白石史人, 日本地球惑星科学連合2014年大会, 2014, Without Invitation, Japanese, 横浜
  24. 微生物鉱物化における細胞外高分子の役割:島根県木部谷温泉の例, 中村有希・白石史人, 日本地球惑星科学連合2014年大会, 2014, Without Invitation, Japanese, 横浜
  25. 微生物活動により生じた水酸化鉄の堆積後に起こる鉄および炭素の循環, 菊池早希子・牧田寛子・白石史人・今野祐多・高井研・高橋嘉夫, 日本地球惑星科学連合2014年大会, 2014, Without Invitation, Japanese, 横浜
  26. 微生物生成水酸化鉄の堆積物中で起きる鉄および炭素の生物地球化学的循環, 菊池早希子・牧田寛子・今野祐多・白石史人・高井研・高橋嘉夫, 2014年度日本地球化学会第61回年会, 2014, Without Invitation, Japanese, 富山
  27. Study of microbial deposits by using advanced techniques, Fumito Shiraishi, 68th Chidanken meeting, 2014/08/23, With Invitation, Japanese, Saga
  28. 超貧栄養海域のマンガン団塊表面に密集する微生物群集, 白石史人・光延聖・諸野祐樹・鈴木勝彦・稲垣史生, 日本地球惑星科学連合2015年大会, 2015, Without Invitation, Japanese, 幕張
  29. 温泉成マンガン沈殿物形成における微生物の役割, 白石史人・千原亮二, 日本地球惑星科学連合2015年大会, 2015, Without Invitation, Japanese, 幕張
  30. 鉄微小電極測定法の確立とBIF類似沈殿物への適用, 中尾鴻兵・白石史人, 日本地球惑星科学連合2015年大会, 2015, Without Invitation, Japanese, 幕張
  31. Proton Management of Foraminiferal Calcification, Toyofuku T., De Nooijer, L., Fujita K., Shiraishi F., Reichart G., Kitazato H., 日本地球惑星科学連合2015年大会, 2015, Without Invitation, Japanese, 幕張
  32. Millimeter soil layer barriers off arsenic elution in paddy field: “Soil physiological study” by μXAFS and microelectrodetechniques, Toda M., Mitsunobu S., Sakata M., Shiraishi F., 13th International conference on the biogeochemistry of trace elements, 2015, Without Invitation, English, Fukuoka
  33. ミリメートルスケールの土壌表面で起きるヒ素濃集現象:高い空間分解能を有する放射光X線顕微鏡と微小電極法による土壌生理学的研究, 戸田美沙・光延聖・坂田昌弘・白石史人, 2015年度日本土壌肥料学会, 2015, Without Invitation, Japanese, 京都
  34. 二次鉱物の被膜による微生物生成水酸化鉄の生物利用性の低下, 菊池早希子・牧田寛子・白石史人・今野祐多・高橋嘉夫, 2015年度日本地球化学会年会, 2015, Without Invitation, Japanese
  35. Ornithopods Footprints from the Kitadani Formation, Tetori Group, Katsuyama City, Fukui, Tsukiji Y., Azuma Y., Shiraishi F., The 2nd International Symposium on Asian Dinosaurs, 2015, Without Invitation, English, Thailand
  36. 福井県勝山市における第4次恐竜発掘調査で産出した足跡化石群, 築地祐太・東洋一・白石史人, 日本古生物学会第165回例会, 2016, Without Invitation, Japanese
  37. Dense microbial community on a ferromanganese nodule from the ultra-oligotrophic South Pacific Gyre: Implications for biogeochemical cycles, Shiraishi F., Mitsunobu S., Suzuki K., Hoshino T., Morono Y., Inagaki F., International Workshop on Manganese Minerals, 2016, Without Invitation, English, Kochi
  38. シアノバクテリアの細胞外高分子がストロマトライト・スロンボライト形成を規制する, 白石史人・半澤勇作・奥村知世・狩野彰宏, 日本地球惑星科学連合2016年大会, 2016, Without Invitation, Japanese, 幕張
  39. Reconstruction of foraminiferal calcification process by effective use of restricted data, 山本美希・豊福高志・白石史人・de Nooijer Lennart・阪口秀, 日本地球惑星科学連合2016年大会, 2016, Without Invitation, Japanese, 幕張
  40. 福井県勝山市に分布する手取層群北谷層より産出したイグアノドン類足跡化石, 築地祐太・東洋一・白石史人, 日本古生物学会2016年年会, 2016, Without Invitation, Japanese, 福井
  41. Elucidation of life and Earth history from microbial deposits, Shiraishi F., 第2回日英先端科学(UK-Japan FoS)シンポジウム, 2016, Without Invitation, English, Chicheley, UK
  42. Microbialites (formation process, classification and history), Shiraishi F., Course in Chemical / Microbial Carbonate Sedimentology, 2016/03/01, With Invitation, English, LAMIR, UFPR, Curitiba
  43. Carbonate, iron and manganese mineralization, Shiraishi F., Course in Chemical / Microbial Carbonate Sedimentology, 2016/03/02, With Invitation, English, LAMIR, UFPR, Curitiba
  44. Carbonate sedimentology of microbialite, Fumito Shiraishi, Annual meeting of the sedimentological society of Japan, 2016/03/06, With Invitation, Japanese, 日本堆積学会, Fukuoka
  45. ミリメートルスケールの土壌表面で起きるヒ素濃集現象, 光延聖・富永悠吏伽・白石史人, 日本地球化学会第64回年会, 2017, Without Invitation, Japanese, 東京
  46. マリノアン氷河期後に見られるリン酸塩ストロマトライトの成因, 白石史人,大西咲,早坂康隆,高島千鶴,奥村知世,狩野彰宏, 日本地質学会第124年学術大会, 2017, Without Invitation, Japanese, 松山
  47. トラバーチン組織における生物的・非生物的過程の相対的影響, 白石史人,江野友樹,中村有希,半澤勇作,朝田二郎,Anelize Manuela Bahniuk, 日本地質学会第124年学術大会, 2017, Without Invitation, Japanese, 松山
  48. New Ornithopod Footprints From The Lower Cretaceous Kitadani Formation, Fukui, Japan: Ichnotaxonomical Implications, Tsukiji Y., Azuma Y., Shiraishi F., Shibata M., Proceedings and Field Giodebook for The Fifth International Symposium of International Geoscience Programme IGCP Project 608, 2017, Without Invitation, English, Jeju, Korea
  49. 微生物と鉱物 —マンガン団塊からカンブリア爆発まで—, Shiraishi F., 第7回広島大学・海洋研究開発機構合同シンポジウム, 2017, Without Invitation, Japanese, 東広島
  50. Earth history elucidated from microbialites, Fumito Shiraishi, 2017/10/15, With Invitation, Japanese, Okayama
  51. 富山県上市・立山地域の手取層群中にみられる土壌性ノジュールの特徴, 黒島健介・白石史人, 日本地質学会西日本支部第169回例会, 2018, Without Invitation, Japanese, 東広島
  52. メタンハイドレート胚胎域で形成される炭酸塩ノジュールの研究, 谷川雄亮・白石史人, 日本地質学会西日本支部第169回例会, 2018, Without Invitation, Japanese, 東広島
  53. 温泉成マンガン酸化物の形成機構解明, 松村宥也・白石史人, 日本地質学会西日本支部第169回例会, 2018, Without Invitation, Japanese, 東広島
  54. 北海道二股温泉に発達するトラバーチンの形成・続成過程, 森川朝世・白石史人, 日本地質学会西日本支部第169回例会, 2018, Without Invitation, Japanese, 東広島
  55. シアノバクテリアの石灰化における細胞外高分子の役割, 尾森武尊・白石史人・富岡尚敬・甕聡子・高橋嘉夫, 日本地質学会西日本支部第169回例会, 2018, Without Invitation, Japanese, 東広島
  56. New ornithopod footprints from the Lower Cretaceous Kitadani Formation, Fukui, Japan: Ichnotaxonomical implications, Tsukiji Y., Azuma Y., Shiraishi F., 日本地質学会西日本支部第169回例会, 2018, Without Invitation, Japanese, 東広島
  57. マリノアン氷河期後に見られるリン酸塩ストロマトライトの成因, 白石史人・大西咲・早坂康隆・高島千鶴・奥村知世・狩野彰宏, 日本地質学会西日本支部第169回例会, 2018, Without Invitation, Japanese, 東広島
  58. 微生物が生息するマンガン酸化物表面におけるMn(II)酸化過程, 白石史人・松村宥也・千原亮二・奥村知世・板井啓明・柏原輝彦・狩野彰宏・高橋嘉夫, 日本地球惑星科学連合2018年大会, 2018, Without Invitation, Japanese, 幕張
  59. シアノバクテリアの石灰化における細胞外高分子の役割, 尾森武尊・富岡尚敬・甕聡子・高橋嘉夫・白石史人, 日本地球惑星科学連合2018年大会, 2018, Without Invitation, Japanese, 幕張
  60. 南太平洋環流域の堆積物に含まれるマンガン鉱物塊の鉱物学的・地球化学的特徴について, 浦本豪一郎・諸野祐樹・富岡尚敬・若木重行・中田亮一・和穎朗太・上杉健太朗・竹内晃久・星野真人・鈴木芳生・光延聖・白石史人・菅大暉・武市泰男・高橋嘉夫・稲垣史生, 日本地球惑星科学連合2018年大会, 2018, Without Invitation, Japanese, 幕張
  61. 琉球列島の完新統サンゴ礁堆積物コア中に発見された礁性微生物被殻における微生物の痕跡, 小谷野将・知念正昭・白石史人・藤田和彦, 日本地球惑星科学連合2018年大会, 2018, Without Invitation, Japanese, 幕張
  62. 北海道二股温泉に発達するトラバーチンの分布と特徴, 白石史人・森川朝世, 日本地質学会第125年学術大会, 2018, Without Invitation, Japanese, つくば
  63. 富山県上市・立山地域の手取層群中にみられる古土壌と土壌性ノジュールの特徴, 黒島健介・白石史人, 日本地質学会第125年学術大会, 2018, Without Invitation, Japanese, つくば
  64. The present is the key to the past —the uniformitarianism—, Shiraishi F., 1st HiPeR International Symposium, 2018, Without Invitation, Japanese, Higashihiroshima
  65. Biogeochemistry from India―future prospectus―, Shiraishi F., 2nd HiPeR International Symposium, 2019, Without Invitation, English, Kolkata
  66. Life-water-mineral interactions―outcomes since 2017―, Shiraishi F., 4th HiPeR International Symposium, 2019, Without Invitation, English, Higashihiroshima
  67. Biogeochemistry from India ―future prospectus―, Shiraishi F., JSPS-DST Japan-India Forum for Advanced Study, 2019, Without Invitation, English, Nagoya
  68. Fe(II) oxidation processes at the surface of bacterially colonized iron deposits, 白石史人・中尾鴻兵・高島千鶴・狩野彰宏・板井啓明, 日本地球惑星科学連合2019年大会, 2019, With Invitation, English, 幕張
  69. シアノバクテリア表面における炭酸カルシウム形成過程, 白石史人・尾森武尊・富岡尚敬・甕聡子・菅大暉・高橋嘉夫, 日本地球惑星科学連合2019年大会, 2019, Without Invitation, Japanese, 幕張
  70. Life-water-mineral interactions and their products, 白石史人, 日本地球惑星科学連合2019年大会, 2019, With Invitation, English, 幕張
  71. 後期トニア紀のマグネサイトから想定される全球凍結前の海水組成, 宮崎彩・狩野彰宏・白石史人, 日本地球惑星科学連合2019年大会, 2019, Without Invitation, Japanese, 幕張
  72. 酸化的な遠洋性堆積物中に存在する大量の微小マンガン粒について, 浦本豪一郎・諸野祐樹・富岡尚敬・若木重行・中田亮一・和穎朗太・上杉健太朗・竹内晃久・星野真人・鈴木芳生・光延聖・白石史人・菅大暉・武市泰男・高橋嘉夫・稲垣史生, 日本地球惑星科学連合2019年大会, 2019, Without Invitation, Japanese, 幕張
  73. 酸化的な遠洋性堆積物中に存在する大量の微小マンガン粒について(IODP Exp. 329), 浦本豪一郎・諸野祐樹・富岡尚敬・若木重行・中田亮一・和穎朗太・上杉健太朗・竹内晃久・星野真人・鈴木芳生・光延聖・白石史人・菅大暉・武市泰男・高橋嘉夫・稲垣史生, 日本地球惑星科学連合2019年大会, 2019, Without Invitation, Japanese, 幕張
  74. Microbial influences on tufa and travertine fabrics, Shiraishi F., Bahniuk A.M., Asada J., 16th International Meeting of Carbonate Sedimentologists BATHURST MEETING, 2019, Without Invitation, English, Palma de Mallorca
  75. 野外における微小電極測定の実際, 白石史人, 日本微生物生態学会第33回大会, 2019, With Invitation, Japanese, 山梨
  76. 鉄に富む淡水堆積物中での嫌気的メタン酸化, 柳川勝紀・菊池早希子・白石史人・狩野彰宏, 日本微生物生態学会第33回大会, 2019, Without Invitation, Japanese
  77. 微細構造観察と地球化学分析に基づく琉球列島中部完新統コア中に発見された礁性微生物皮殻の形成過程, 小谷野将・藤田和彦・知念正昭・白石史人, 日本地質学会第126年学術大会, 2019, Without Invitation, Japanese
  78. 微生物岩組織における細胞外高分子の重要性, 白石史人, 日本地質学会第126年学術大会, 2019, Without Invitation, Japanese
  79. STXMの微生物―鉱物界面への適用例, 白石史人, 第3回水惑星学全体会議, 2019, With Invitation, Japanese
  80. トゥファ・トラバーチン組織 における微生物の影響, 白石史人, 令和元年度石油技術協会探鉱技術委員会炭酸塩岩分科会, 2019, With Invitation, Japanese
  81. Iron-Mediated Anaerobic Oxidation of Methane in Freshwater Ferruginous Sediments, Yanagawa K., Kikuchi S., Shiraishi F., Kano A., AGU Fall Meeting 2019, 2019, Without Invitation, English
  82. Earth and life histories elucidated from microbial deposits, Shiraishi F., 6th HiPeR International Symposium, 2023, With Invitation, English

Patented

  1. none

External Funds

Acceptance Results of Competitive Funds

  1. 2009, 2011
  2. 2012, 2012
  3. 2013, 2015
  4. 2013, 2015
  5. 2013, 2015
  6. 2013, 2016
  7. 2016, 2018
  8. 2016, 2017
  9. 2018, 2021
  10. KAKENHI(Grant-in-Aid for Challenging Research (Exploratory)), 2018, 2019
  11. 2019, 2022
  12. 2020, 2022
  13. 2021, 2023
  14. KAKENHI(Grant-in-Aid for Challenging Research (Exploratory)), 2021, 2023
  15. 2023, 2026
  16. 2023, 2025

Social Activities

History as Committee Members

  1. 広島大学総合博物館企画委員, 2011, 2013
  2. Sedimentary Geology, Editorial Board, 2022, Elsevier

Organizing Academic Conferences, etc.

  1. JpGU 2011, 2011/05, 2011/05
  2. JpGU 2012, 2012/05, 2012/05
  3. JpGU 2013, 2013/04, 2013/05
  4. JpGU 2014, 2014/05, 2014/05
  5. Carbonate colloquium 2015, organizer, 2015/03, 2015/03
  6. 2015/05, 2015/05
  7. JpGU 2016, 2016/, 2016/
  8. 7th Hiroshima University-JAMSTEC symposium, organizer, 2017/12, 2017/12
  9. 2018/
  10. 2019/
  11. 2022/, 2022/
  12. 2023/
  13. 2023/
  14. 2023/
  15. 2024/

Other Social Contributions

  1. 平成24年度広島県科学セミナー, 2012, Lecturer, High school students
  2. 平成24年度石油技術協会探鉱技術委員会炭酸塩岩分科会, 2012, Lecturer
  3. 日本・アジア青少年サイエンス交流事業(さくらサイエンスプラン), 2015, Lecturer
  4. 令和元年度広島県高等学校教育研究会理科部会地学部研修会, 2019, Lecturer
  5. 令和元年度石油技術協会探鉱技術委員会炭酸塩岩分科会, 2019, Lecturer
  6. 令和元年度理学部・理学研究科・統合生命科学研究科公開「中学生・高校生科学シンポジウム」, 2019, Commentator

History as Peer Reviews of Academic Papers

  1. 2009, Journal of Geology, reviewer
  2. 2010, Clay Science, reviewer
  3. 2011, Water Research, reviewer
  4. 2011, FEMS Microbiology Ecology, reviewer
  5. 2013, BGD, reviewer
  6. 2014, Chikyu Kagaku, reviewer
  7. 2014, Geobiology, reviewer
  8. 2015, Geobiology, reviewer
  9. 2016, The Journal of the Geological Society of Japan, reviewer
  10. 2017, Ocean Science Journal, reviewer
  11. 2017, The Journal of the Geological Society of Japan, reviewer
  12. 2017, ISME Journal, reviewer
  13. 2017, Scientific Reports, reviewer
  14. 2017, Environmental Chemistry, reviewer
  15. 2017, Marine Chemistry, reviewer
  16. 2018, Journal of Earth System Science, reviewer
  17. 2018, Sedimentology, reviewer
  18. 2018, Microbes and Environments, reviewer
  19. 2018, ACS Earth and Space Chemistry, reviewer
  20. 2018, Marine Chemistry, reviewer
  21. 2018, Sedimentary Geology, reviewer
  22. 2018, Minerals, reviewer
  23. 2019, Earth and Planetary Science Letters, reviewer
  24. 2019, Geochimica et Cosmochimica Acta, reviewer
  25. 2019, The Journal of the Geological Society of Japan, reviewer
  26. 2020, Sedimentary Geology, reviewer
  27. 2020, Island Arc, reviewer
  28. 2020, The Depositional Record, reviewer
  29. 2020, biomolecules, reviewer
  30. 2020, Frontiers in Microbiology, reviewer
  31. 2020, The Depositional Record, reviewer
  32. 2020, The Depositional Record, reviewer
  33. 2021, Chemical Geology, reviewer
  34. 2021, Journal of the Speleological Society of Japan, reviewer
  35. 2021, Island Arc, reviewer
  36. 2021, SEPM Special Publications
  37. 2022, Facies, reviewer, 1
  38. 2022, Geochimica et Cosmochimica Acta, reviewer, 1
  39. 2022, Sedimentary Geology, reviewer, 1
  40. 2022, Island Arc
  41. 2022, Sedimentary Geology
  42. 2024, Sedimentary Geology
  43. 2024, Journal of African Earth Sciences, reviewer, 1