研究業績

2022年10月現在

(1) 原著
1. Y. Tani, Y. Umezawa*, K. Chikama, A. Hemmi and M. Soma, Non-stoichiometric dissolution of lanthanum fluoride (LaF3) and its relevalence to a process of ion-selective charge separation at the soild/solution interface, Journal of Electroanalytical Chemistry 378, 205-213 (1994).

2. K. Iitaka, Y. Tani and Y. Umezawa*, Orthophosphate ion sensor based on a quartz crystal microbalance coated with insoluble orthophosphate salts, Analytica Chimica Acta 338, 77-87 (1997).

3. Y. Tani and Y. Umezawa*, Alkali metal ion-selective electrodes based on relevant alkali metal ion doped manganese oxides, Mikrochimca. Acta 129, 81-91 (1998).

4. Y. Tani, H. Eun and Y. Umezawa*, A cation selective electrodes based on copper(II) and nickel(II) hexacyanoferrates: dual response mechanisms, selective uptake or adsorption of analyte cations, Electrochimca Acta 43, 3431-3441 (1998).

5. Y. Tani, M. Soma, E.G. Harsanyi and Y. Umezawa*, Effect of dissolved oxygen on the response of Cu(II) ion-selective electrodes in metal buffer solutions, Analytica Chimica Acta 395, 53-63 (1999).

6. M. Soma*, I. Kamiya, Y. Tani, A. Tanaka and S. Hayashi, NMR of hectorite containing organotin cations intercalated by ion exchange. Clay for our future, H. Kodama, A. R. Mermut and J. K. Tarrace, eds., 483-488 (1999).

7. Y. Tani, K. Yoshii, N. Itoh, F. Nara, M. Soma, A. Tanaka, Y. Soma*, M. Yoneda, M. Hirota and Y. Shibata, Distribution of photosynthetic pigments and other biological compounds in the sediments from the southern basin of Lake Baikal. Russian Geology and Geophysics 42, 193-199 (2001); Geolgiya i Geofizika 42, 206-212 (2001)(in Russian).

8. Y. Soma, M. Soma*, Y. Tani, A. Tanaka and T. Kawai, Distribution of photosynthetic pigments in the surface sediments of Lake Baikal. Russian Geology and Geophysics 42, 200-207 (2001); Geolgiya i Geofizika 42, 213-219 (2001) (in Russian).

9. H. Sakai*, S. Nomura, S. Araki, K. Kashiwaya, Y. Tani, Y. Shibata, T. Kawai, V.A. Kravchinskii, J. Peck and J. King, Magnetic susceptibility of the surface sediments of Lake Baikal and Lake Biwa. Geolgiya i Geofizika 42, 339-347 (2001) (in Russian).

10. M. Kobayashi, A. Sawada, Y. Tani, M. Soma*, A. Tanaka, T. Honma, H. Seyama and B.K.G. Theng, Acid dissolution of olivines, feldspars and dunite. Water, Air, and Soil Pollution 130, 757-762 (2001).

11. Y. Tani, K. Kurihara, F. Nara, N. Itoh, M. Soma*, Y. Soma, A. Tanaka, M. Yoneda, M. Hirota and Y. Shibata, Temporal changes in the phytoplankton community of the southern basin of Lake Baikal over the last 24,000 years recorded by photosynthetic pigments in a sediment core. Organic Geochemistry 33, 1621-1634 (2002).

12. 谷 幸則, 梅澤喜夫*:固/液界面の選択的イオン認識によるイオンセンサー. 分析化学, 52, 491-503 (2003).

13. 谷 幸則*, 栗原孝太, 奈良郁子, 伊藤信靖, 相馬悠子, 相馬光之:堆積物中の光合成色素を指標とした後氷期バイカル湖内植物プランクトンの変遷. 地球号外 42, 88-94 (2003).

14. 相馬悠子*, 谷 幸則, 相馬光之, 田中 敦, 河合崇欣:堆積物中のクロロフィル誘導体steryl chlorin estersから推定するバイカル湖植物プランクトンの長期変動. 地球号外42, 137-142 (2003).

15. N. Itoh, Y. Tani, T. Nagatani and M. Soma*, Phototrophic activity and redox condition in Lake Hamana, Japan, indicated by sedimentary photosynthetic pigments and molybdenum over the last ~250 years. Journal of Paleolimnology 29, 403-422 (2003).

16. Y. Tani*, N. Miyata, K. Iwahori, M. Soma, S. Tokuda, H. Seyama and B.K.G. Theng, Biogeochemistry of manganese oxide coatings on pebble surfaces in the Kikukawa River System, Shizuoka, Japan. Applied Geochemistry 18(10), 1541-1554 (2003).

17. N. Itoh, Y. Tani and M. Soma*, Sedimentary photosynthetic pigments of algae and phototrophic bacteria in Lake Hamana, Japan: temporal changes of anoxia in its five basins. Limnology 4(3), 139-148 (2003).

18. N. Miyata*, Y. Tani, K. Iwahori and M. Soma Enzymatic formation of manganese oxides by an Acremonium-like Hyphomycete fungus, strain KR21-2. FEMS Microbiology Ecology 47(1), 101-109 (2004).

19. Y. Tani*, M. Ohashi, N. Miyata, H. Seyama, K. Iwahori and M. Soma, Sorption of Co(II), Ni(II) and Zn(II) ions on biogenic manganese oxide produced by a Mn-oxidizing fungus, strain KR21-2. The Journal of Environmental Science and Health, Part A 39(10), 2641-2660 (2004).

20. Y. Tani*, N. Miyata, M. Ohashi, T, Ohnuki, H. Seyama, K. Iwahori and M. Soma, Interaction of inorganic arsenic with biogenic manganese oxide produced by a Mn-oxidizing fungus, strain KR21-2. Environmental Science and Technology 38(24), 6618-6624 (2004).

21. T. Sakai, K. Minoura*, M. Soma, Y. Tani, A. Tanaka, F. Nara, N. Itoh, and T. Kawai, Influence of climate fluctuation on clay formation in the Baikal drainage basin. Journal of Paleolimnology 33(1), 105-121 (2005).

22. Y. Soma*, N. Itoh, Y. Tani and M. Soma, Sterol composition of steryl chlorin esters (SCEs) formed through grazing of algae by freshwater crustaceans and its relevance to the composition of sedimentary SCEs. Limnology 6(1), 45-51 (2005).

23. F. Nara, Y. Tani, Y. Soma, M. Soma*, H. Naraoka, T. Watanabe, K. Horiuchi, T. Kawai, T. Oda and T. Nakanura, Response of phytoplankton productivity to climate change recorded by sedimentary photosynthetic pigments and other biological indicators in Lake Hovsgol (Mongolia) for the last 23,000 years. Quaternary International 136(1), 71-81 (2005).

24. S. Hashimoto*, Y. Akatsuka, R. Kurihara, S. Matsuoka, M. Nakatsukuri, Y. Kurokawa, Y. Tani and S. Kawai, Evaluation of the Ishikawa cell line bioassey for the detection of estrogenic substances from sediment extracts. Environmental Toxicology and Chemistry 24(7), 1587-1593 (2005).

25. N. Miyata*, K. Maruo, Y. Tani, H. Tsuno, H. Seyama, M. Soma, and K. Iwahori, Production of Biogenic Manganese Oxides by Anamorphic Ascomycete Fungi Isolated from Streambed Pebbles, Geomicrobiology Journal 23, 63-73 (2006).

26. N. Miyata*, Y. Tani, K. Maruo, H. Tsuno, M. Sakata, and K. Iwahori, Manganese(IV) oxide production by Acremonium sp. Strain KR21-2 and extracellular Mn(II) oxidasa activity. Applied and Environmental Microbiology 72(10), 6467-6473 (2006).

27. 坂田昌弘*, 谷 幸則, 宮田直幸, 岩堀恵祐:佐鳴湖底泥からの窒素・リン・COD負荷の実態. 水環境学会誌 29(12), 789-795 (2006)

28. Y. Soma, Y. Tani, M. Soma, H. Mitake, R. Kurihara, S, Hashimoto, T. Watanabe, and T. Nakamura, Sedimentary steryl chlorine esters (SCEs) and other photosynthetic pigments as indicators of paleolimnological change over the last 28,000 years from the Buguldeika Saddle of Lake Baikal. Journal of Paleolimnology 37, 163-175 (2007).

29. N. Itoh, Y. Tani, Y. Soma and M. Soma, Accumulation of sedimentary photosynthetic pigments characterized by pyropheophytin a and steryl chlorine seters (SCEs) in a shallow eutrophic coastal lake (Lake Hamana, Japan). Estuarine, Coastal and Self Science 71, 283-300 (2007).

30. K. Tanaka, F. Akagawa, K. Yamamoto, Y. Tani, I. Kawabe and T. Kawai: Rare earth element geochemistry of Lake Baikal sediment: Its implication for geochemical response to climate change during the Last Glacial/Interglacial Transition. Quaternary Science Review 26, 1362-1368 (2007).

31. N. Miyata, D. Sugiyama, Y. Tani, H. Tsuno, H. Seyama, M. Sakata and K. Iwahori, Production of biogenic manganese oxides by repeated-batch cultures of laboratory microcosms. Journal of Bioscience and Bioengineering 103(5), 432-439 (2007).

32. M. Terasaki, H. Fukazawa, Y. Tani and M. Makino, Organic pollutants in paper-recycling process water discharge area: First detection and emission in aquatic environment. Environmental Pollution 151, 53-59 (2008).

33. H. Seyama, Y. Tani, N. Miyata, M. Soma and K. Iwahori, Characterization of pebble surfaces coated with biogenic manganese oxides by SIMS, XPS and SEM. Applied Surface Science 255, 1509-1511 (2008).

34. M. Sakata, Y. Tani and T. Takagi, Wet and dry deposition fluxes of trace elements in Tokyo Bay. Atmospheric Environment 42, 5913-5922(2008).

35. G.I. Matsumoto, H. Suzuki, M. Sato, M. Makishita, Y. Tani, Y. Hase, N. Takamatsu, T. Takemura, and T. Kawai, Paleoenvironmental record of Lake Hovsgol (Mongolia) in northeast Eurasia. Verhandlung Internationale Vereinigung Limnologie 30, 318-322 (2008).

36. Y. Ibuki, Y. Tani and T. Toyooka, UVB-exposed chlorinated bisphenol A generates phosphorylated H2AX in human skin cells. Chemical Research in Toxicology 21, 1770-1776 (2008).

37. Y. Tani*, G.I. Matsumoto, M. Soma, Y. Soma, S. Hashimoto, and T. Kawai, Photosynthetic pigments in sediment core HDP-04 from Lake Hovsgol, Mongolia, and their implication for changes in algal productivity and lake environment for the last 1 Ma, Quaternary International 205, 74-83(2009): DOI: http://dx.doi.org/10.1016/j.quaint.2009.02.007.

38. Y. Tani*, F. Nara, Y. Soma, M. Soma, N. Itoh, G.I. Matsumoto, A. Tanaka, and T. Kawai, Phytoplankton assemblage in the Plio-Pleistocene record of Lake Baikal as indicated by sedimentary steryl chlorin esters, Quaternary International 205, 126-136 (2009): DOI: http://dx.doi.org/10.1016/j.quaint.2009.02.004.

39. M. Sakata, M. Natsumi, Y. Tani, Isotopic evidence of boron in precipitation originating from coal burning in Asian continent, Geochemical Journal, 44, 113-123 (2010).

40. M. K. Kurihara, M. Kimura, Y. Iwamoto, Y. Narita, A. Ooki, Y.-J. Eum, A. Tsuda, K. Suzuki, Y. Tani, Y. Yokouchi, M. Uematsu, S. Hashimoto, Distributions of short-lived iodocarbons and biogenic trace gases in the open ocean and atmosphere in the western North Pacific, Marine Chemistry 118, 156-170 (2010).

41. G.I. Matsumoto, Y. Tani, K. Seto, T. Tazawa, M. Yamamuro, T. Watanabe, T. Nakamura, T. Takemura, S. Imura and H. Kanda, Holocene paleolimnological changes in Lake Skallen O-ike of the Syowa Station area in Antarctica estimated from organic components in a sediment core (Sk4C-02). Journal of Paleolimnology, 44, 677-693 (2010). DOI: http://dx.doi.org/10.1007/s10933-010-9448-y.

42. K. Tanaka, Y. Tani, Y. Takahashi, M. Tanimizu, Y. Suzuki, N. Kozai, T. Ohnuki, A specific Ce oxidation process during sorption of rare earth elements on biogenic Mn oxide produced by Acremonium sp. strain KR21-2. Geochimica et Cosmochimica Acta 74, 5463-5477 (2010). DOI: http://dx.doi.org/10.1016/j.gca.2010.07.010

43. S. Grangeon, B. Lanson, N. Miyata, Y. Tani and A. Manceau, Structure of nanocrystalline phyllomanganates produced by freshwater fungi, American Mineralogist 95, 1608-1616 (2010).

44. 唐沢宏樹, 木村匡恵, 和久田千晴, 栗原路子, 辻野兼範, 谷 幸則, 橋本伸哉: パージ・アンド・トラップーガスクロマトグラフィー/質量分析法による揮発性有機ハロゲン化合物の同時分析法の検討と汽水・海水試料への適用, 分析化学 59(12) 1149-1154 (2010).

45. K. Tanaka, Y. Tani, T. Ohnuki, Specific sorption behavior of actinoids on biogenic Mn oxide, Chemistry Letters, 40(8) , 806-807 (2011).

46. 谷 幸則*,森田陽光,坂田昌弘,大橋典男,槻木(加)玲美,後藤敏一:湖沼の堆積物から読み取る人間活動の影響:佐鳴湖を例にして,日本海水学会誌 65(5), 264-271(2011).

47. K. Kusunoki, M. Sakata, Y. Tani, Y. Seike, K. Ayukawa, Evaluating the contribution of long-range transport of heavy metals from the Asian Continent to their concentrations in sediment cores from Lake Shinji, western Japan. Water, Air and Soil Pollution 223, 1151-1160 (2012) DOI: http://dx.doi.org/ 10.1007/s11270-011-0932-4

48. J. Watanabe, Y. Tani*, N. Miyata, H. Seyama, S. Mitsunobu, H. Naitou, Concurrent sorption of As(V) and Mn(II) during biogenic manganese oxide formation. Chemical Geology 306-307, 123-128 (2012). DOI: http://dx.doi.org/10.1016/j.chemgeo.2012.03.004

49. K. Kusunoki, M. Sakata, Y. Tani, Y. Seike and K. Ayukawa, Analysis of historical trend of carotenoid concentrations in sediment cores from Lake Shinji, Japan. Geochemical Journal 46, 225-233 (2012).

50. N. K. Tsugeki, T. Agusa, S. Ueda, M. Kuwae, H. Oda, S. Tanabe, Y. Tani, K. Toyoda, W. Wang, J. Urabe, Eutrophication of mountain lakes in Japan due to increasing deposition of anthropogenically-produced dust. Ecological Research 27, 1041-1052 (2012).DOI: http://dx.doi.org/10.1007/s11284-012-0984-y

51. M. Kuwae, N. K Tsugeki, T. Agusa, K. Toyoda, Y. Tani, S. Ueda, S. Tanabe, J. Urabe, Sedimentary records of metal deposition in Japanese alpine lakes for the last 250 years: Recent enrichment of airborne Sb and In in East Asia. Science of the Total Environment 442, 189-197 (2013).

52. K. Shichi, H. Takahara Y. Hase, T. Watanabe, F. W. Nara, T. Nakamura, Y. Tani, T. Kawai, Vegetation response in the southern Lake Baikal region to abrupt climate events over the past 33 cal kyr. Palaeogeography, Palaeoclimatology, Palaeoecology 375, 70-82 (2013).

53. J. Watanabe, Y. Tani*, J. Chang, N. Miyata, H. Naitou, H. Seyama, As(III) oxidation kinetics of biogenic manganese oxides formed by Acremonium strictum strain KR21-2. Chemical Geology 347, 227-232 (2013). DOI: http://dx.doi.org/10.1016/j.chemgeo.2013.03.012

54. J. Chang, Y. Tani*, H. Naitou, N. Miyata, H. Seyama, Fungal Mn oxides supporting Mn(II) oxidase activity as effective Mn(II) sequestering materials. Environmental Technology 34, 2781-2787 (2013)

55. J. Chang, Y. Tani*, H. Naitou, N. Miyata, H. Seyama, K. Tanaka, Cobalt(II) sequestration on fungal biogenic manganese oxide enhanced by manganese(II) oxidase activity. Applied Geochemistry 37, 170-178 (2013). DOI: http://dx.doi.org/10.1016/j.apgeochem.2013.07.023

56. K. Iwahori, J. Watanabe, Y. Tani, H. Seyama, N. Miyata*, Removal of heavy metal cations by biogenic magnetite nanoparticles produced in Fe(III)-reducing microbial enrichment cultures. Journal of Biosience and Bioengineering 117(3), 333-335 (2014).

57. G.I. Matsumoto*, E. Honda, K. Seto, Y. Tani, T. Watanabe, S. Ohtani, K. Kashima, T. Nakamura and S. Imura: Holocene paleolimnological changes of Lake Oyako-ike in the Soya Kaigan of East Antarctica, Inland Waters 4, 105-112 (2014).

58. H. Naitou*, Y. Tani, S. Nishi, Verification of Drainage Sterilization System that Uses Low-Voltage Pulsed Electric Field in a Prawn Farm. Journal of Agricultural Science and Technology A4, 189-196 (2014).

59. J. Chang, Y. Tani*, H. Naitou, N. Miyata, H. Seyama, Zn(II) sequestration by fungal biogenic manganese oxide through enzymatic and abiotic processes. Chemical Geology 383, 155-163 (2014). DOI: http://dx.doi.org/10.1016/j.chemgeo.2014.06.002

60. J. Chang, Y. Tani*, H. Naitou, N. Miyata, H. Seyama, Sequestration of Cd(II) and Ni(II) on fungal manganese oxides associated with Mn(II) oxidase activity. Applied Geochemistry 47, 198-208 (2014). DOI: http://dx.doi.org/10.1016/j.apgeochem.2014.06.007

61. D. Inthorn, Y. Tani*, J. Chang, H. Naitou, N. Miyata, Magnetically modified fungal Mn oxides with high sequestration efficiency for simultaneously removing multiple heavy metal ions from wastewater. Journal of Environmental Chemical Engineering 2, 1635-1641 (2014) DOI: http://dx.doi.org/10.1016/j.jece.2014.06.008

62. 内藤博敬、谷 幸則、西 真吾: ベトナムでのクルマエビ科養殖に用いる海水のオゾン処理効果, 日本医療・環境オゾン研究, 21, 83-87 (2014)

63. 岡野邦宏, 鈴木英治, 太田 栞, 宮田直幸, 谷 幸則, 尾﨑保夫: 秋田県八郎湖における藍藻毒ミクロシスチンと有毒藍藻の季節的変動, 日本水環境学会誌38(1), 23-30(2015).

64. H. Naitou, Y. Tani, K. Hiyoshi-Arai: Verification of the efficacy of ozonated water in preventing food poisoning from cucumbers. Bulletin of Japan Research Society for the Medical & Hygienic Use of Ozone. 22(4), 97-104 (2015).

65. Q. Yu,, T. Ohnuki, K. Tanaka, N. Kozai, S. Yamasaki, F. Sakamoto, Y. Tani: Fungas-promoted transformation of lanhtanides during the biooxidation of divalent manganese. Geochimica et Cosmochimica Acta 174, 1-12 (2016).

66. H. Zheng, Y. Tani*, H. Naitou, N. Miyata, F. Tojo: Oxidative Ce3+ sequestration on fungal manganese oxides with an associated Mn(II) oxidase activity. Applied Geochemistry 71, 110-122 (2016).

67. 内藤博敬, 谷 幸則: メンブランフィルター法を応用したオゾン水細菌評価法の検討, 医療・環境オゾン研究, 23, 127-131 (2016).
68. H. Zheng, Y. Tani*, H. Naitou, N. Miyata, F. Tojo, H. Seyama: Sequestration of La3+ by fungal manganese oxides and the effect of Mn(II) oxidase activity. Journal of Environmental Chemical Engineering 5, 735-743 (2017).

69. N.K. Tsugeki, M. Kuwae, Y. Tani, X. Guo., K. Omori, H. Takeoka, Temporal variations of phytoplankton abundance over the past 150 years in the western Seto Inland Sea, Japan. Journal of Oceanography 73, 309–320 (2017).

70. 内藤博敬, 戸敷浩介, 劉 庭秀, Erdenedalai Baatar, 谷 幸則, Buyantogtokh Choijilsuren, Javzandolgor Tserendorj, Bolorchuluun Shukhe: モンゴル国Ulan Bator市周辺の遊牧家畜に対する鉛汚染調査, 環境科学会誌 30, 274‒281(2017).

71. N. Katsuta, G. I. Matsumoto, Y. Tani, E. Tani, T. Murakami, S. Kawakami, T. Nakamura, M. Takano, E. Matsumoto, O. Abe, M. Morimoto, T. Okuda, S. K. Krivonogov, T. Kawai: A higher moisture level in the early Holocene in northern Mongolia as evidenced from sediment records of Lake Hovsgol and Lake Erhel. Quaternary International 455, 70-81 (2017). http://dx.doi.org/10.1016/j.quaint.2017.06.032

72. 内藤博敬, 谷 幸則, 上條章雄, 城井康弘, 辻 むつみ: スプレー型オゾン水生成装置の除菌効果評価法の検討, 医療・環境オゾン研究, 24, 114-122 (2017)

73. R. Grandbois, C. Yeager, Y. Tani, C. Xu, S. Zhang, M. Beaver, K. Schwehr, D. Kaplan, P. Santschi, Biogenic manganese oxides facilitate iodide oxidation at pH ≤ 5, Geomicrobiology Journal, 35, 167-173 (2018). http://dx.doi.org/10.1080/01490451.2017.1338795

74. N. Katsuta, H. Ikeda, K. Shibata, Y. Kokubu, T. Murakami, Y. Tani, M. Takano, H. Seyama, T. Nakamura, A. Tanaka, S. Naito, S. Ochiai, Koji Shichi, S. Kawakami, T. Kawai: Hydrological and climate changes in southeast Siberia over the last 33 kyr , Global and Planetary Change 164, 11-26 (2018).

75. Q. Yu, K. Tanaka, N. Kozai, F. Sakamoto, Y. Tani, T. Ohnuk: Adsorption of Cs onto biogenic birnessite: effects of layer structure, ionic strength, and competition cations. ACS Earth and Space Chemistry 2、797-810 (2018).

76. N. Katsuta, M. Takano, N. Sano, Y. Tani, S Ochiai, S. Naito, T. Murakami, M. Niwa, S. Kawakami: Quantitative -XRF scanning spectroscopy of wet sediment based on the X-ray absorption and emission theories: its application to freshwater lake sedimentary sequences. Sedimentology 66(6), 2490-2510 (2019). doi.org/10.1111/sed.12603

77. 齋藤未菜美, 内藤博敬, 野木菜々子, 谷 幸則:  乾燥シイタケの水戻しにオゾン水を用いた場合の除菌および食感への効果, 医療・環境オゾン研究, 26, 165-171 (2019).

78. R. Suzuki, Y. Tani*, H. Naitou, N. Miyata, K. Tanaka: Sequestration and oxidation of Cr(III) by fungal Mn oxides with Mn(II) oxidizing activity. Catalysts 10(1), 44(15 pages), (2020). doi:10.3390/catal1001004479.

79. F. Tojo, A. Kitayama, N. Miyata, K. Okano, J. Fukushima, R. Suzuki, Y. Tani: Molecular cloning and heterologous expression of manganese(II)-oxidizing enzyme from Acremonium strictum strain KR21-2 Catalysts 10, 686 (2020). (14 pages) doi:10.3390/catal1006068680.

80. Y. Tani*, S. Kakinuma, J. Chang, K. Tanaka, and N. Miyata: Preferential elimination of Ba2+ through irreversible biogenic oxide sequestration. Minerals 11, 53 (2021)(14 pages) doi:10.3390/min11010053.

81. K. Tanaka, Y. Tani, N. Kozai, T. Ohnuki: Sorption of Pu(IV) on biogenic Mn oxide and complexation of Pu(IV) with organic ligands secreted by fungal cells, Journal of Radioanalytical and Nuclear Chemistry 331, 1109-1114 (2022), http://doi.org/10.1007/s10967-021-08178-w

82. C. Wu, K. Tanaka, Y. Tani, X. Bi, Jinling, Liu, Q. Yu: Effect of particle size on the colonization of biofilms and thepotential of biofilm-covered microplastics as metal carriers. Science of the Total Environment 821, 153265 (9 pages) (2022). http://doi.org/10.1016/j.scitotenv.2022.153265

83. M. Kuwae, N. Tsugeki, B. P. Finney, Y. Tani, M. Kiyoto, M. Kusaka, T. Sagawa, Y. Nakamura, H. Ohnishi, N. Okuda, T. Ohta, M. Ikehara, J. Onodera, H. Kuroda, T. Irino, Late Holocene centennial to millennial-scale variability in lower trophic level productivity off southern Hokkaido, Japan and its response to dissolved iron-replete Coastal Oyashio dynamics, Quaternary Research 1-16 (2022) http://doi.org/10.1017/qua.2021.71

84. M. Aoshima, Y. Tani*, R. Fujita, K. Tanaka, N. Miyata, K. Umezawa, Simultaneous sequestration of Co2+ and Mn2+ by fungal manganese oxide through asbolane formation. Minerals 12, 358 (16 pages) (2022). https://doi.org/10.3390/min1203035

85. Y. Tani*, T. Wu, T. Shirakura, K. Umezawa, N. Miyata, Sequestration of oxyanions of V(V), Mo(VI), and W(VI) enhanced through enzymatic formation of fungal manganese oxides. Minerals 12(11), 1368 (14 pages) (2022). https://doi.org/10.3390/min12111368.

86. M. Kuwae, B.P. Finney, Z. Shi, A. Sakaguchi, N. Tsugeki, T. Omori, T. Agusa, Y. Suzuki, Y. Yokoyama, H. Hinata, Y. Hatada, J. Inoue, K. Matsuoka, M. Shimada, H. Takahara, S. Takahashi, D. Ueno, A. Amano, J. Tsutsumi, M. Yamamoto, K. Takemura, K. Yamada, K. Ikehara, T. Haraguchi, S. Tims, M. Froehlich, L. Keith Fifield, T. Aze, K. Sasa, T. Takahashi, M. Matsumura, Y. Tani, P.R. Leavitt, H. Doi, T. Irino, K. Moriya, A. Hayashida, K. Hirose, H. Suzuki, and Y. Saito, The Beppu Bay, Japan, as a candidate Global Boundaries Stratotype Section and Point for the Anthropocene series. The Anthropocene Review, 10(1), 49-86 (2023). https://doi.org/10.1177/20530196221135077

87. H. Hinata, M. Kuwae, N. Tsugeki, I. Masumoto, Y. Tani, Y. Hatada, H. Kawamata, A. Mase, K. Kasamo, K. Sukenaga, Y. Suzuki, A 75-year history of microplastic fragment accumulation rates in a semi-enclosed hypoxic basin, Science of the Total Environment 854, 158751 (16 pages) (2023) https://doi.org/10.1016/j.scitotenv.2022.158751

88. S. Yamamoto, M. Kuwae, N. Tsugeki, Y. Tani, Implication of atmospheric nutrient inputs and warming effects for the ecosystem of Lake Yamanaka, Japan, revealed by sedimentary analysis. Hydrobiologia 850, 1487-1501 (2023). https://doi.org/10.1007/s10750-022-05071-9

89. Y. Tani*, H. Kumagai, M. Tamari, K. Umezawa, G. Gotore, N. Miyata: Mineralization of Ni2+-bearing Mn oxide through simultaneous sequestration of Ni2+ and Mn2+ by enzymatically active fungal Mn oxides. Minerals, 14, 330 (15 pages) (2024). https://doi.org/10.3390/min14040330


(2) プロシーディング
1. N. Miyata, Y. Tani, D. Sygiyama, M. Sakata and K. Iwahori, Removal of dissolved metal ions bu biogenic manganese oxides produced by enrichment cultures of manganese-oxidizing bacteria. Joint Research on Environmental Science and Technology for the Earth. Annual Report of FY 2006. The Core Uviversity Program between JSPS and VAST. (M. Ike and P.H. Viet, eds), pp389-393. (2006).

2. Y. Tani, N. Miyata, M. Sakata, K. Iwahori, and H. Seyama, Sorption of various anions on biogenic Mn oxides produced by a Mn-oxidizing fungus KR21-2, 18th International Symposium on Environmental Biogeochemistry, Conference Proceedings F-23, Taupo, New Zealand, November 2007.

3. N. Miyata, T. Kasai, N. Ohashi, Y. Tani, M. Sakata, and K. Iwahori, Microbial Manganese(II) oxidation in laboratory microcosms, 18th International Symposium on Environmental Biogeochemistry, Conference Proceedings F-19, Taupo, New Zealand, November 2007.

(3) 総説
1. 梅澤喜夫, 菅原正雄, 遠田浩司, 矢嶋摂子, 佐藤 準, 八木謙一, 谷 幸則, 西沢精一:イオンセンサ. Chemical Sensors 9, 44-52 (1993).

2. 梅澤喜夫, 菅原正雄, 遠田浩司, Phillipe Buhlmann, 谷 幸則, 西沢精一, 雨宮 成, 伊藤貴志, 木村晋朗:イオンセンサ. Chemical Sensors 10, 46-60 (1994).

3. 相馬光之, 谷 幸則: 底質、土壌中の汚染物質の挙動と粘土. 粘土科学 39, 130-136 (2000).

4. Y. Tani and Y. Umezawa, Ion-selective adsorption/desorption processes at inorganic materials/solution interfaces as a novel mode for ion sensing, Analytical Letters 37 (5), 845-869 (2004). DOI: 10.1081/AL-120030283

5. 宮田直幸、谷 幸則: 微生物によるマンガン酸化物形成機構と有害金属類処理への応用、水環境学会誌28 (2), 12-16 (2005).

6. Y. Tani and Y. Umezawa, Ion-selective electrodes, Sensor Letters 3(2), 99-107 (2005). DOI: 10.1166/sl.2005.021

7. N. Miyata, Y. Tani, M. Sakata, and K. Iwahori, Microbial Manganese oxide formation and interaction with toxic metal ions, Journal of Bioscience and Bioengineering 104(1), 1-8 (2007).

8. 谷 幸則, 常 佳寧, 渡邉淳一, 宮田直幸: バイオ合成マンガン酸化物による微量元素の処理と回収、用水と廃水 56, 32-40 (2014).

9. 谷 幸則, 常 佳寧, 宮田直幸: 微生物によるマンガン酸化物の形成を利用したレアメタルの回収法、バイオインダストリー 31, 34-40 (2014).

10. 谷 幸則, 宮田直幸: Mn(II)酵素活性バイオマンガン酸化物によるレアメタル回収, 環境技術, 48(6), 314-317, (2019).

11. 宮田直幸, 谷 幸則: 微生物によるマンガン酸化物の生成:微生物―金属相互作用と環境技術への応用 マンガン酸化菌研究における4つの課題, 化学と生物, 58(10), 562-570 (2020).

(4) 著書(執筆分担)
1. 谷 幸則:固体膜電極, 最新の分離・精製・検出法~原理から応用まで~(梅澤喜夫、澤田嗣郎、中村洋 監修)pp400-407, エヌ・ティー・エス (1997).

2. 谷 幸則:固体膜イオン選択性電極, 界面ハンドブック(岩澤康裕、梅澤喜夫、澤田嗣郎、辻井薫 監修)pp496-503, エヌ・ティー・エス (2001).

3. M. Soma, Y. Soma, Y. Tani, N. Itoh, K. Kurihara, F. Nara, A. Tanaka, T. Kawai, Residual photosynthetic pigments in the sediment of Lake Baikal as indicators of phytoplankton history, In Long Continental Records from Lake Baikal, K. Kashiwaya (ed.), pp137-160, Springer-Verlag (2003).

4. 谷 幸則, 相馬光之:底質分析, 先端の分析法 理工学からナノ・バイオまで (梅澤喜夫、澤田嗣郎、寺部 茂 監修) pp855-860, エヌ・ティー・エス (2004).

5. 谷 幸則, 宮田直幸:マンガン酸化菌を利用した微量元素処理・回収, メタルバイオロジー による環境保全と資源回収 -新元素戦略の新しいキーテクノロジーー(吉田和哉 名誉監修、植田充美、池道彦 監修), pp44-49, シーエムシー出版(2009)(ISBN978-4-7813-0117-4).

6. N. Miyata, Y. Tani, Microbial manganese(II) oxidation: A potential tool for treatment of metal-contaminated waters, In Handbook of Metal Biotechnology: Applications for Environmental Conservation and Sustainability, M. Ike, M. Yamashita, S. Soda (eds.) Chapter 1, p1-10, Pan Stanford Publishing Pte. Ltd.(2012).

7. 谷 幸則, 宮田直幸, 常 佳寧:Mn酸化物形成能を有する微生物によるレアメタルの回収, リサイクルバイオテクノロジーの最前線 (植田充美 監修), pp170-178, シーエムシー出版(2013)(ISBN978-4-7813-0800-5).

8. 谷 幸則, 宮田直幸: 微生物によるマンガン酸化物の形成とレアメタル回収への応用, 地球を救うメタルバイオテクノロジー (山下光雄, 清 和成 編), pp.55-62, 成山堂書店 (2014).

9. 宮田直幸, 東條ふゆみ, 谷 幸則;好酸性鉄酸化菌を利用した廃電子基板等のバイオリーチング, バイオベース資源確保戦略 ―都市鉱山・海底鉱山に眠る貴金属・レアメタル等の分離・回収技術― (小西康裕 監修), pp1-8, シーエムシー出版(2015)(ISBN978-4-7813-1075-6).

10. 谷 幸則, 常 佳寧, 宮田直幸;バイオマンガン酸化物による廃水等からのレアメタル回収, バイオベース資源確保戦略 ―都市鉱山・海底鉱山に眠る貴金属・レアメタル等の分離・回収技術― (小西康裕 監修), pp74-82, シーエムシー出版(2015)(ISBN978-4-7813-1075-6).

11. 谷 幸則: 食料と環境問題, Visual栄養学テキストシリーズ 食べ物と健康I 食品学総論 食品の成分と機能, 津田謹輔, 伏木 亨, 本田佳子(監修), p12-16, 中山書店 (2017).

12. 谷 幸則; 宍道湖および神西湖における光合成色素分析による植物プランクトン組成, 豊かな内水面水産資源の復活にためにー宍道湖からの提言, 山室真澄(編著), p13-24, 生物研究社 (2020).