Šwp˜_•¶E’˜‘
2021”N
5
Morinaga, K., Kusada, H., Watanabe, M., Tamaki, H; Complete genome sequence of Lactobacillus helveticus JCM 1004, an aminopeptidase-producing lactic acid bacterium.Microbiology Resource Announcements. 2021, in press
4
Otomo, S., Terada, A., Li, Y.-Y., Nishitoba, K., Takakai, F., Okano, K., Miyata, N., Masuda, S.;Long-term assessment of N2O emission factor in full-scale oxidation ditch reactor considering spatiotemporal distribution. Journal of Water and Environment Technology. 19 (3), 139-152 (2021).
3
Morinaga, K., Kusada, H., Watanabe, M., Tamaki, H; Complete genome sequence of Anaerostipes caccae strain L1-92T, a butyrate-producing bacterium isolated from human feces. Microbiology Resource Announcements. 2021, in press.
2
Sugawara, K., Fujibayashi, M., Okano, K., Enda, Y., Ichinoseki, S., Taniguchi, Y., Miyata, N.: Assimilation of cyanobacteria by the freshwater bivalve Nodularia douglasiae: insights from long-term laboratory and field feeding experiments, Journal of Water and Environment Technology, 2021, 19 (2), 74-84.
1
Tani, Y., Kakinuma, S., Chang, J., Tanaka, K., Miyata, N.: Preferential elimination of Ba2+ through irreversible biogenic manganese oxide sequestration. Minerals, 2021, 11(1), 53, DOI:10.3390/min11010053 https://www.mdpi.com/2075-163X/11/1/53
2020”N
11
Suzuki, R., Tani, Y., Naitou, H., Miyata, N., Tanaka, K.: Sequestration and oxidation of Cr(III) by fungal Mn oxides with Mn(II) oxidizing activity. Catalysts, 2020, 10, 44; DOI: 10.3390/catal10010044.
https://doi.org/10.3390/catal10010044
10
Okano, K., Shimizu, K., Saito, T., Maseda, H., Utsumi, M., Itayama, T., Sugiura, N.: Draft Genome Sequence of the Microcystin-Degrading Bacterium Novosphingobium sp. Strain MD-1, Microbiology Resource Announcements, 2020, 9 (12) e01413-19; DOI: 10.1128/MRA.01413-19.
https://mra.asm.org/content/9/12/e01413-19
9
Tojo, F., Kitayama, A., Miyata, N., Okano, K., Fukushima, J., Suzuki, R., Tani, Y.: Molecular cloning and heterologous expression of manganese(II)-oxidizing enzyme from Acremonium strictum strain KR21-2, Catalysts, 2020, 10(6), 686; DOI: 10.3390/catal10060686.
https://doi.org/10.3390/catal10060686
8
Fujibayashi, M., Takakai, F., Masuda, S., Okano, K., Miyata, N.: Effects of restoration of emergent macrophytes on the benthic environment of the littoral zone of a eutrophic lake, Ecological Engineering, 2020, 155, 105960; DOI: 10.1016/j.ecoleng.2020.105960.
https://www.sciencedirect.com/science/article/pii/S0925857420302482
7
Furuta, S., Ishikawa, K., Miyata, N.: 3.3.2 Recent changes in the profundal benthic microbes. In Lake Biwa: Interactions between Nature and People, 2nd ed (Kawanabe, H., Nishino, M., Maehata, M.), pp 361-364, Springer (2020). y’˜‘z
6
V“c^‹|C“¡—ÑŒbCÂX‘s‘¿C‰ª–ì–MGC‹{“c’¼KF”ª˜YŒÎ‚É‚¨‚¯‚郃JƒTƒM‚̃]ƒEƒ~ƒWƒ“ƒR‚ɑ΂·‚é•ßH‚Ì—L–³‚Æ‘I‘ð«‚Ì•]‰¿C“y–ØŠw‰ï˜_•¶WGiŠÂ‹«j, 76, 7, III_1-9 (2020).
5
Watanabe, M., Kojima, H., Fukui, M.: Labilibaculum antarcticum sp. nov., a novel facultative anaerobic, psychrotorelant bacterium isolated from marine sediment of Antarctica, Antonie van Leeuwenhoek, 113(3), 349-355, 2020.https://link.springer.com/article/10.1007/s10482-019-01345-w
4
Watanabe, M., Kojima, H., Fukui, M.: Aerosticca soli gen. nov., sp. nov., an aerobic gammaproteobacterium isolated from crude oil-contaminated soil, Archives of Microbiology, 202(5), 1069-1076, 2020.
https://doi.org/10.1007/s00203-020-01819-w
3
Watanabe, M., Higashioka, Y., Kojima, H., Fukui, M.: Proposal of Desulfosarcina ovata subsp. sediminis subsp. nov., a novel toluene-degrading sulfate-reducing bacterium isolated from tidal flat sediment of Tokyo Bay, Systematic and Applied Microbiology, 43(5), 126109-126109, 2020.
https://www.sciencedirect.com/science/article/pii/S0723202020300643
2
Watanabe, M., Kojima, H., Fukui, M.: Aquipluma nitroreducens gen. nov. sp. nov., a novel facultatively anaerobic bacterium isolated from a freshwater lake. International Journal of Systematic and Evolutionary Microbiology, 70(12), 6408-6413, 2020.
https://www.microbiologyresearch.org/content/journal/ijsem/10.1099/ijsem.0.004551
1
Watanabe, M., Fukui, M., Galushko, A., Kuever, J.: In: Bergey's manual of Systematics of Archaea and Bacteria y’˜‘z
Desulfosarcina gen. nov. -Wiley Online Library
Desulfocucumaceae fam. nov. - Wiley Online Library
Desulfoplanes -Wiley Online Library
Desulfocucumis - Wiley Online Library
Desulfotruncus gen. nov. - Wiley Online Library@‘¼24•Ò
2019”N
11
›Œ´I‘¾˜NA“¡—ÑŒbA‰““cK¶Ar–Ø”ü•äA‰ª–ì–MGA‹{“c’¼KF•x‰h—{‰»ŒÎÀ‚Ì󂢉ˆŠÝˆæ‚É‚¨‚¯‚é—•‘”—Þ‚Ì“úŽü‰”’¼ˆÚ“®‚Ɖh—{‰–“®‘Ô‚ÌŠÖŒWC“ú–{…ˆ—¶•¨Šw‰ïŽCVol. 55Cpp. 49-57 (2019)
10
Xu, X., Li, W., Den, H., Fujibayashi, M., Nomura, M., Nishimura, O., Wang, G.: Approach deliberation for source identification of sedimentary organic matters via comparing freshwater lakes with multi-ecotypes. Science of the Total Environment, Vol. 649, 327-334 (2019)
9
Fujibayashi, M., Sakamaki, T., Nishimura, O.: Effect of sedimentary organic matter on species richness of deposit feeders in enclosed bay ecosystems: Insight from fatty acid nutritional indicators, Marine Environmental Research, Vol. 149, 1-6 (2019)
8
Fujibayashi, M., Ashino, M., Okano, K., Miyata, N.: Spatial and seasonal variability of sedimentary organic matter and its origin in an algal-blooming eutrophic lake. Ecological Indicator, 107, DOI: 10.1016/j.ecolind.2019.105557
7
Fukasawa, Y., Ando, Y., Oishi, Y., Matsukura, K., Okano, K., Song, Z., Sakuma, D.: Effects of forest dieback on wood decay, saproxylic communities, and spruce seedling regeneration on coarse woody debris. Fungal Ecology, 41, 198-208 (2019).
6
Fukasawa, Y., Ando, Y., Oishi, Y., Suzuki, S.N., Matsukura, K., Okano, K., Song, Z. Does typhoon disturbance in subalpine forest have long-lasting impacts on saproxylic fungi, bryophytes, and seedling regeneration on coarse woody debris? Forest Ecology and Management, 432, pp. 309-318 (2019).
5
Hao, L., Okano, K., Zhang, C., Zhang, Z., Lei, Z., Feng, C., Utsumi, M., Ihara, I., Maseda, H., Shimizu, K. Effects of levofloxacin exposure on sequencing batch reactor (SBR) behavior and microbial community changes. Science of the Total Environment, 672, pp. 227-238 (2019).
4
Fujibayashi, M., Miura, Y., Suganuma, R., Takahashi, S., Sakamaki, T., Miyata, N., Kazama, S.: Origin of carbon and essential fatty acids in higher trophic level fish in headwater stream food webs. Biomolecules, 9, 487, doi:10.3390/ biom9090487 (2019).
3
“¡—ÑŒbC’¿“c®rC‹{“c’¼KF”ª˜YŒÎ‚ɶ‘§‚·‚éƒVƒWƒ~—Þ‚ÌH‹G‚É‚¨‚¯‚é‚ë‰ß‘¬“x‚ÆŽ_‘fÁ”“xC“ú–{…ˆ—¶•¨Šw‰ïŽC55(3), 59-65 (2019).
2
‹g“c‹œC“¡—ÑŒbC“c’†mŽuC‰ª–ì–MGC‚“c–F”ŽC‹{“c’¼KF•x‰h—{ŒÎÀ‚É‚¨‚¯‚éŽá”NŒÂ‘Ì‚ª‚È‚¢ƒCƒVƒKƒCŒÂ‘ÌŒQ‚ÌĶŽYó‹µC“y–ØŠw‰ï˜_•¶W‚fiŠÂ‹«), 75, 7, III 264-273 (2019).
1
ÂX‘s‘¾C“¡—ÑŒbC‰ª–ì–MGC‚“c–F”ŽC‹{“c’¼KFŽ‰–bŽ_‘g¬‚ðŽw•W‚Æ‚µ‚½¬Œ^bŠk—ނ̃AƒIƒRŒ`¬—•‘”—ނɑ΂·‚é‰a—˜—p“Á«C“y–ØŠw‰ï˜_•¶W‚fiŠÂ‹«), 75, 7, III 367-374 (2019)
2018”N
8
Xia, D., Okano, K., Miura, Y., Okada, K., Watanabe, K., Ramaraj, R., Itayama, T.: The effect of magnesium hydroxide for the microbial community in the sediments of a eutrophic closed bay. International Journal of GEOMATE, 14(41) 143-150 (2018)
7
Araki, M., Okano, K., Ohta, S., Suzuki, E., Fujibayashi, M., Miyata, N.: Characteristics of harmful algal blooms during a low water temperature season in Lake Hachiro. Journal of Water and Environment Technology, 16(4), 175-183 (2018)
6
Miyata, N., Takahashi, A., Fujii, T., Hashimoto, H., Takada, J.: Biosynthesis of schwertmannite and goethite in a bioreactor with acidophilic Fe(II)-oxidizing betaproteobacterium strain GJ-E10. Minerals, 8, 98, (2018) doi: 10.3390/min8030098
5
r–Ø”ü•äA‰ª–ì–MGA“¡—ÑŒbA‹{“c’¼KFH“cŒ§”ª˜YŒÎ‚Å̎悵‚½’ꎿ‚©‚ç‚Ì—•‘”‰ñ‹A‚É‹y‚Ú‚·’ቷˆ—‚Æ”|—{‰·“x‚̉e‹¿A“ú–{…ˆ—¶•¨Šw‰ïŽA54App.55-63@i2018j
4
Fujibayashi, M., Tanaka, N., Hashido, S., Takasawa, A., Nishimura, O.: Nutritional quality of fish faeces is enhanced by highly unsaturated fatty acid-producing heterotrophic protozoa. Acta Oecologia, 89, pp21-26 (2018)
3
Fujibayashi, M., Okano, K., Takada, Y., Mizutani, H., Uchida, N., Nishimura, O., Miyata, N.: Transfer of cyanobacterial carbon to a higher trophic-level fish community in a eutrophic lake food web: fatty acid and stable isotope analyses. Oecologia, 188, pp. 901-912 (2018)
2
씨’B–îA“¡—ÑŒbA“’ã—m•½A¼‘ºCA⊪—²ŽjFŠC…’†—±ó—L‹@•¨‚̉»Šw‘g¬‚ÆŽ_‘fÁ”ï‚É‹y‚Ú‚·ƒJƒL—{Bê‚̉e‹¿A“y–ØŠw‰ï˜_•¶WGAVol. 74Ap. III_63-III_71 (2018)
1
‘匴ŒõŽiA“’ã—m•½A씨’B–îA“¡—ÑŒbA¼‘ºCA⊪—²ŽjFŽ‰–bŽ_‘g¬•ªÍ‚ð—˜—p‚µ‚½“à˜pˆêŽŸ¶ŽY‚̧ŒÀˆöŽq‚Ì•]‰¿A“y–ØŠw‰ï˜_•¶WGAVol. 74Ap. III_53-III_61 (2018)
2017”N
5
Zheng, H., Tani, Y., Naitou, H., Miyata, N., Tojo, F., and Seyama, H.:Sequestration of La3+ by fungal manganese oxides and the effect of Mn(II) oxidase activity, Journal of Environmental Chemical Engineering, 5, 735-743 (2017). i^‹Û‚ªŒ`¬‚·‚éƒ}ƒ“ƒKƒ“Ž_‰»•¨‚ƃ‰ƒ“ƒ^ƒ“‚Ì”½‰žj
4
Leon-Romero, M. A., Soto-Rios, P. C., Fujibayashi, M. and Nishimura, O.: Impact of NaCl solution pretreatment on plant growth and the uptake of multi-heavy metal by the model plant Arabidopsis thaliana, Water Air and Soil Pollution, 228 (2017).iƒVƒƒCƒkƒiƒYƒi‚̬’·‚Æ•¡”‚Ìd‹à‘®‹zŽû‚ɉ–‰»ƒiƒgƒŠƒEƒ€—n‰t‚É‚æ‚é‘Oˆ—‚ª—^‚¦‚é‰e‹¿j
3
Saito, R., Kaiho, K., Oba, M., Tong, J., Chen, Z-Q., Tian, L., Takahashi, S., Fujibayashi, M.: Tentative identification of diagenetic products of cyclic biphytanes in sedimentary rocks from the uppermost Permian and Lower Triassic, Organic Geochemistry, 111, pp. 144-153, 2017.
2
Itoh, M., Kojima, H., Ho, P. C., Chang, C. W., Chen, T. Y., Hsiao, S. S. Y., Kobayashi, Y., Fujibayashi, M., Kao, S. J., Hsieh, C., Fukui, M., Okuda, N., Shiah, F. K., Miki, T.: Integrating isotopic, microbial, and modeling approaches to understand methane dynamics in a frequently disturbed deep reservoir in Taiwan, Ecological Research, 32, pp.861-871, 2017
1
–쑺 @OCç—t ‚”VC“¡—Ñ ŒbC¼‘º CFƒnƒX‚Ì’·Šú•ª‰ðŽÀŒ±‚É‚æ‚é—±ó—L‹@•¨‚ÌŽc‘¶Š„‡‚Ì•]‰¿‹y‚ђꎿ‚Ö‚Ì‘ÍÏŒXŒüC“y–ØŠw‰ï˜_•¶WGA73, pp.III_241-III_246, 2017.
2016”N
13
”öú±•Û•vC‰Á“¡—C—Ñ‹I’jC‘º’†FŽiC‰ª–ì–MGC‹{“c’¼KF”ª˜YŒÎ‚É‚¨‚¯‚é’¾…A•¨‚ÌĶ‚É—^‚¦‚éŠÂ‹«—vˆö‚̉e‹¿CH“cŒ§—§‘åŠwƒEƒFƒuƒWƒƒ[ƒiƒ‹Ai’nˆævŒ£•”–åjC3C86-92i2016j
12
Fujibayashi, M., Tanaka, H., Nishimura, O.: Evaluation of food sources assimilated by unionid mussels using fatty acid trophic markers in Japanese freshwater ecosystems. Journal of Shellfish Research, 35, 251-255 (2016).iŽ‰–bŽ_ƒoƒCƒIƒ}[ƒJ[‚ð—p‚¢‚½‘“à‚Ì’W…¶‘ÔŒn‚ɶ‘§‚·‚éƒCƒVƒKƒC‰È“ñ–‡ŠL‚Ì“¯‰»‰aŒ¹‚ÌŒŸ“¢j
11
Fujibayashi, M., Sakamaki, T., Shin, W., Nishimura, O.: Food utilization of shell-attached algae contributes to the growth of host mud snail, Bellamya chinensis: Evidence from fatty acid biomarkers and carbon stable isotope analysis. Limnologica, 57, 66-72 (2016).iƒ}ƒ‹ƒ^ƒjƒV‚É‚æ‚éŠkã‚Ì•t’…«‘”—ނ̉a—˜—p‚ª¬’·‚ð‘£i‚·‚éFŽ‰–bŽ_ƒoƒCƒIƒ}[ƒJ[‚Æ’Y‘fˆÀ’蓯ˆÊ‘Ì”ä‚̉ðÍ‚©‚çj
10
Fujibayashi, M., Ogino, M., Nishimura, O.: Fractionation of stable carbon isotope ratio of essential fatty acids in zebrafish Danio rerio and mud snails Bellamya chinensis. Oecologia, 180, 589-600 (2016).iƒ}ƒ‹ƒ^ƒjƒV‚ƃ[ƒuƒ‰ƒtƒBƒbƒVƒ…‚É‚¨‚¯‚é•K{Ž‰–bŽ_‚Ì’Y‘fˆÀ’蓯ˆÊ‘Ì”ä‚Ì”ZkŒW”j
9
Shimizu, K., Utsumi, M., Okano, K., Itayama, T., Iwami, N., Maseda, H., Kinohira, H., Li, J., Inamori, Y., Zhang, Z., Sugiura, N.: Removal of Microcystis aeruginosa cells and microcystin-LR using ceramic carrier in a continuous flow bioreactor. Japanese Journal of Water Treatment Biology, 52(2), 35-43 (2016).
8
Zheng, H., Tani, Y., Naitou, H., Miyata, N., and Tojo, F.: Oxidative Ce3+ sequestration by fungal manganese oxides with an associated Mn(II) oxidase activity. Applied Geochemistry, 71, 110-122 (2016).i^‹Û‚ªŒ`¬‚·‚éƒ}ƒ“ƒKƒ“Ž_‰»•¨‚É‚æ‚éƒZƒŠƒEƒ€‚ÌŽ_‰»”½‰žj
7
Okano, K., Furuta, S., Ichise, S., and Miyata, N.: Whole genome sequences of two manganese(II)-oxidizing bacteria, Bosea sp. strain BIWAKO-01 and Alphaproteobacterium strain U9-1i, Genome Announcements, 4 (6), e01309-16 (2016). iƒ}ƒ“ƒKƒ“Ž_‰»×‹Û‚̃Qƒmƒ€”z—ñj
6
‹{“c’¼KF”pŠü•¨‚©‚ç‚Ì‹à‘®‰ñŽûEÄŽ‘Œ¹‰»‚Ì‚½‚߂̃oƒCƒIƒŠ[ƒ`ƒ“ƒO‹ZpCƒNƒŠ[ƒ“ƒeƒNƒmƒƒW[C26(5), 47-50 (2016).
5
¬“cCŽiC‹{“c’¼KF“c‘òŒÎ—¬ˆæ‚Ì…ŠÂ‹«‚Æ…Ž¿‰ü‘PC“ú–{…ŠÂ‹«Šw‰ïŽC39(A), 7, 242-245 (2016).
4
Kaiho, K., Oshima, N., Adachi, K., Adachi, Y., Mizukami, T., Fujibayashi, M. and Saito, R.: Global climate change driven by soot at the K-Pg boundary as the cause of the mass extinction. Scientific Reports, 6, 28427 (2016). iK-Pg‹«ŠE‚Ŷ¬‚µ‚½‚·‚·‚É‚æ‚Á‚Ķ‚¶‚½‘S‹…‹K–Í‚Ì‹CŒó•Ï“®‚ª‘å—Êâ–Å‚ðˆø‚«‹N‚±‚µ‚½j
3
Li, W., Xu, X., Fujibayashi, M., Tanaka, N., Nishimura, O.: Response of microalgae to elevated CO2 and temperature: impact of climate change on freshwater ecosystems, Environmental Science and Pollution Research, 23, pp. 19847-19860 (2016). (“ñŽ_‰»’Y‘f‚Ɖ·“x㸂ɑ΂·‚é”÷ב”—ނ̃ŒƒXƒ|ƒ“ƒXF‹CŒó•Ï“®‚ª’W…¶‘ÔŒn‚É—^‚¦‚é‰e‹¿)
2
Ho, P-C., Okuda, N., Miki, T., Itoh, M., Shiah, F-K., Chang, C-W., Hsiao, S. S-Y., Kao, S-J., Fujibayashi, M., and Hsieh, C-H.: Summer profundal hypoxia rather than winter mixing determines the coupling of methanotrophic production and pelagic food web. Freshwater Biology, 61, pp. 1694-1706 (2016). i“~‹G‚ÌzŠÂ‚Å‚Í‚È‚‰Ä‹G‚Ì’áŽ_‘f‚ªƒƒ^ƒ“‰h—{‚̶ŽY‚ÆH•¨–Ô‚ðŒˆ’è‚·‚éj
1
“¡—ÑŒbA‹´ŒËxA“c’†LKA–쑺@OA¼‘ºCFŒ´¶“®•¨Cyclidium‚¨‚æ‚ÑGlaucoma‚É‚æ‚é•K{Ž‰–bŽ_‚̇¬A“y–ØŠw‰ï˜_•¶WGAVol. 72A pp.‡V_567-‡V_572 (2016).
2015”N
7
‰ª–ì–MGC—é–؉pŽ¡C‘¾“cžxC‹{“c’¼KC’JK‘¥C”öú±•Û•vFH“cŒ§”ª˜YŒÎ‚É‚¨‚¯‚é—•‘”“Ń~ƒNƒƒVƒXƒ`ƒ“‚Æ—L“Å—•‘”‚Ì‹Gß“I•Ï“®, “ú–{…ŠÂ‹«Šw‰ïŽ, 38, 23-30 (2015)
6
”öú±•Û•vC´…숮C‰ª–ì–MGC²“¡FC‹{“c’¼KFƒZƒXƒoƒjƒAAÍBGF…˜H‚É‚æ‚邵”Aˆ—…‚Ì’‚‘fCƒŠƒ“œ‹ŽC—p…‚Æ”p…, 57 (3), 202-210 (2015).
5
Fukushima, J., Tojo, F., Asano, R., Kobayashi, Y., Shimura, Y., Okano, K., Miyata, N.: Complete genome sequence of the unclassified iron-oxidizing, chemolithoautotrophic Burkholderiales bacterium GJ-E10 isolated from an acidic river. Genome Announcements, 3 (1), e01455-14 (2015).
iV‹KDŽ_«“SŽ_‰»×‹ÛGJ-E10Š”‚Ì‘SƒQƒmƒ€”z—ñŒˆ’èj
4
Furuta, S., Ikegaya, H., Hashimoto, H., Ichise, S., Kohno, T., Miyata, N., and Takada, J.: Formation of filamentous Mn oxide particles by the alphaproteobacterium Bosea sp. strain BIWAKO-01. Geomicrobiology Journal, 32, 666-676 (2015). i”ú”iŒÎ’ê‘w•”‚Ŷ¬‚·‚éƒ}ƒ“ƒKƒ“Ž_‰»•¨—±Žq‡€ƒƒ^ƒƒQƒjƒEƒ€—±Žqh‚̶¬‹@\|ƒƒ^ƒƒQƒjƒEƒ€—±Žq¶¬‹Û‚Ì”|—{ŒnŠm—§‚Æ‘B“Á«‚ɂ‚¢‚Äj
3
Okano, K., Miyata, N., Ozaki, Y.: Draft genome sequence of the non-toxic bloom-forming cyanobacterium Microcystis aeruginosa NIES-44. Genome Announcements, in press (2015).
iƒAƒIƒRŒ`¬—•‘”i–³“ÅŠ”j‚Ì‘SƒQƒmƒ€”z—ñŒˆ’èj
2
y’˜‘z‹{“c’¼KC“ŒžŠ‚Ó‚ä‚ÝC’JK‘¥FDŽ_«“SŽ_‰»‹Û‚ð—˜—p‚µ‚½”p“dŽqŠî”“™‚̃oƒCƒIƒŠ[ƒ`ƒ“ƒOCuƒoƒCƒIƒx[ƒXŽ‘Œ¹Šm•Ûí—ªi¬¼N—TŠÄCjCƒV[ƒGƒ€ƒV[o”ÅCp 1-8C2015.7.
1
y’˜‘z’JK‘¥Cí‰À”JD‹{“c’¼KFƒoƒCƒIƒ}ƒ“ƒKƒ“Ž_‰»•¨‚É‚æ‚é”p…“™‚©‚ç‚̃ŒƒAƒƒ^ƒ‹‰ñŽûCuƒoƒCƒIƒx[ƒXŽ‘Œ¹Šm•Ûí—ªi¬¼N—TŠÄCjCƒV[ƒGƒ€ƒV[o”ÅCp 74-81C2015.7.
2014”N
6
”öú±•Û•vF”ª˜YŒÎ‚Ì…ŠÂ‹«‰ü‘P‚ð‚ß‚´‚µ‚½’¾…A•¨‚ÌĶ‚ƉۑèC”ª˜YŒÎ—¬ˆæŠÇ—Œ¤‹†C‘æ‚R†C27-36 (2014.3.)
5
”öú±•Û•vFˆù—¿…‰˜õ, p 245; ‰˜“D, p.259; …“c‚Ìò‰»”\, p 353; “y‚Ì•S‰ÈŽ–“T•ÒWˆÏˆõ‰ï•Ò,@“y‚Ì•S‰ÈŽ–“TCŠÛ‘Po”Å (2014.1)
4
Iwahori, K., Watanabe, J., Tani, Y., Seyama, H., and Miyata, N.: Removal of heavy metal cations by biogenic magnetite nanoparticles produced in Fe(III)-reducing microbial enrichment cultures. Journal of Bioscience and Bioengineering, 117 (3), 333-335 (2014).iƒoƒCƒIƒ}ƒOƒlƒ^ƒCƒg‚É‚æ‚éd‹à‘®ƒCƒIƒ“‚Ì‹z’…œ‹Žj
3
Inthorn, D., Tani, Y., Chang, J., Naitou, H., and Miyata, N.: Magnetically modified fungal Mn oxides with high sequestration efficiency for simultaneously removing multiple heavy metal ions from wastewater. Journal of Environmental Chemical Engineering, 2 (3), 1635-1641 (2014). (ƒoƒCƒI‚l‚ŽŽ_‰»•¨/ƒ}ƒOƒlƒ^ƒCƒg‚ð—p‚¢‚½”p…‚©‚ç‚Ìd‹à‘®œ‹Žj
2
Chang, J., Tani, Y., Naitou, H., Miyata, N., Tojo, F., and Seyama, H.: Zn(II) sequestration by fungal biogenic manganese oxide through enzymatic and abiotic processes. Chemical Geology, 383, 155-163 (2014).iy‘f‚ð•ÛŽ‚µ‚½ƒoƒCƒI‚l‚ŽŽ_‰»•¨‚É‚æ‚鈟‰”‚Ì‹z’…j
1
Chang, J., Tani, Y., Naitou, H., Miyata, N., and Seyama, H.: Sequestration of Cd(II) and Ni(II) ions on fungal manganese oxides associated with Mn(II) oxidase activity. Applied Geochemistry, 47, 198-208 (2014).iy‘f‚ð•ÛŽ‚µ‚½ƒoƒCƒI‚l‚ŽŽ_‰»•¨‚É‚æ‚éƒJƒhƒ~ƒEƒ€AƒjƒbƒPƒ‹‚Ì‹z’…j
2013”N
10
”öú±•Û•vC‰ª–ì–MGC‚“c‡C—Ñ‹I’jF”ª˜YŒÎ‚Ì…Ž¿‰ü‘P‚ð–ÚŽw‚µ‚½–„“yŽíŽq“™‚ð—p‚¢‚½’¾…A•¨‚ÌĶ‚ƉۑèC—p…‚Æ”p…, 55 (6), 459-467 (2013).
9
”öú±•Û•vC‹gìi‘¾˜YCŠÚ“cçtC—Ñ‹I’jF–„“yŽíŽq‚ð—p‚¢‚½’¾…A•¨Ä¶‚É‹y‚Ú‚·‘÷“x‚ÆŒõ—ÊŽq‚̉e‹¿CH“cŽ©‘RŽjŒ¤‹†C63, 1-6 (2013).
8
Watanabe, J., Tani, Y., Chang, J., Naitoh, H., Miyata, N., and Seyama, H.: As(III) oxidation kinetics of biogenic manganese oxides formed by Acremonium strictum strain KR21-2. Chemical Geology, 347, 227-232 (2013).iƒoƒCƒIƒ}ƒ“ƒKƒ“Ž_‰»•¨‚É‚æ‚éƒq‘f‚ÌŽ_‰»‚ɂ‚¢‚Äj
7
–Ø‘º—ÏNC‹´–{‰pŽ÷C‹{“c’¼KCm‰È—E‘¾C‘–ìŒ\OC’r“c–õŒPC’†¼^C“¡ˆä’B¶CIvo SafarikCMirka SafarikovaC‚“c F”÷¶•¨‚ªì‚éƒ}ƒ“ƒKƒ“Ž_‰»•¨‚̉Á”Mˆ—‚É‚æ‚錋»\‘¢‚Æ”÷×\‘¢‚̕ω»D•´‘Ì‚¨‚æ‚Ñ•²–––è‹àC60 (3): 92-99 (2013)
6
ƒ’˜‘„@’JK‘¥C‹{“c’¼KCí‰À”JFuMnŽ_‰»•¨Œ`¬”\‚ð—L‚·‚é”÷¶•¨‚É‚æ‚郌ƒAƒƒ^ƒ‹‚̉ñŽûvCƒŠƒTƒCƒNƒ‹ƒoƒCƒIƒeƒNƒmƒƒW[‚ÌÅ‘OüiA“c[”üŠÄCjCp 170-178CƒV[ƒGƒ€ƒV\o”ÅC2013”N5ŒŽ.
5
Chang, J., Tani, Y., Naitoh, H., Miyata, N., and Seyama, H.: Fungal Mn oxides supporting Mn(II) oxidase activity as effective Mn(II)@sequestering materials. Environmental Technology, 34 (19), 2785-2791 (2013).
4
Chang, J., Tani, Y., Naitou, H., Miyata, N., Seyama, H., and Tanaka, K.: Cobalt(II) sequestration on fungal biogenic manganese oxide enhanced by manganese(II) oxidase activity. Applied Geochemistry, 37, 170-178 (2013)
3
”öú±•Û•vF”_k’n‚É‚¨‚¯‚鉺…‰˜“DƒRƒ“ƒ|ƒXƒg‚ÌzŠÂ—˜—p‚ƉۑèAĶ‚Æ—˜—pA37(140)A13-15 (2013)
2
‚“c‡A‰ª–ì–MGA”öè•Û•vFH“cŒ§‘劃‘ºŽYƒCƒgƒNƒYƒ‚Zannnichellia palustris L.‚̶‘ԂƶŠˆŽjA…‘Œ¤‹†‰ïŽA 99†A1-14 (2013)
1
”öè•Û•vAŠÚ“cçtA‰ª–ì–MGA—Ñ‹I’jAX“cO•FA‚“c‡F”ª˜YŒÎiH“cŒ§j—¬ˆæ‚É‚¨‚¯‚é“yëƒV[ƒhƒoƒ“ƒN‚Ì’²¸‚Æ’¾…A•¨‚ÌöÝ“I”‰è”\A…‘Œ¤‹†‰ïŽA 99†A31-37 (2013)
2012-2009”N
19
Nishina, Y., Hashimoto, H., Kimura, N., Miyata, N., Fujii, T., Ohtani, B., and Takada, J.: Biogenic manganese oxide: effective new catalyst for direct bromination of hydrocarbons. RSC Advances, 2 (16), 6420-6423 (2012). (ƒoƒCƒIƒ}ƒ“ƒKƒ“Ž_‰»•¨‚ÌG”}—˜—pj
18
Shimizu, K., Maseda, H., Okano, K., Kurashima, T., Kawauchi, Y., Xue, Q., Utsumi, M., Zhang, Z., Sugiura, N.: Enzymatic pathway for biodegrading microcystin LR in Sphingopyxis sp. C-1. Journal of Bioscience and Bioengineering, in press (2012). (׋ۂɂæ‚éƒAƒIƒR“Ń~ƒNƒƒLƒXƒ`ƒ“‚Ìy‘f•ª‰ðŒo˜H‚ɂ‚¢‚Äj
17
Watanabe, J., Tani, Y., Miyata, N., Seyama, Mitsunobu, S., Naitou, H.: Concurrent sorption of As(V) and Mn(II) during biogenic manganese oxide formation. Chemical Geology,306-307, 123-128 (2012).iƒoƒCƒIƒ}ƒ“ƒKƒ“Ž_‰»•¨‚É‚æ‚éƒq‘f‚Ì‹z’…‚ɂ‚¢‚Äj
16
Nakamoto, T., Okano, K., Kaul, C.S., and Utsumi, M.: Phylogenetic analysis of microcystin biosynthesis gene-mcyF from Microcystis, Japanese Journal of Water Treatment Biology, 47 (1), 29-36 (2011).iƒAƒIƒR“Ń~ƒNƒƒLƒXƒ`ƒ“‚̶‡¬ˆâ“`Žq‚̉ðÍ)
15
Shimizu, K., Maseda, H., Okano, K., Itayama, T., Kawauchi, Y., Chen, R., Utsumi, M., Zhang, Z., and Sugiura, N.FHow microcystin-degrading bacteria express microcystin degradation activity. Lakes & Reservoirs: Research & Management, 16(3), 169-178 (2011)iƒAƒIƒR“Ń~ƒNƒƒLƒXƒ`ƒ“‚Ì”÷¶•¨•ª‰ð‚ɂ‚¢‚Äj
14
”öú±•Û•vF‘æ1Í1.ƒoƒCƒIƒWƒIƒtƒBƒ‹ƒ^[‚É‚æ‚鶊ˆ”r…‚Ì‚“xˆ—CA•¨‹@”\‚̃|ƒeƒ“ƒVƒƒƒ‹‚ðŠˆ‚©‚µ‚½ŠÂ‹«•Û‘SEò‰»‹Zp|’n‹…‚ð‹~‚¤’´ŠÂ‹«“K‡EŽ©‘R’²˜aŒ^ƒVƒXƒeƒ€Cpp 1-9, ƒV[ƒGƒ€ƒV\o”ÅC2011.10.i’˜‘j
13
—Ñ‹I’jC”öú±•Û•vCŽðˆä•s“ñ•FF…¶A•¨AÍò‰»Ž{Ý‚É‚¨‚¯‚é…¶“®•¨‚Ìò‰»‚ɉʂ½‚·–ðŠ„C“ú–{…ˆ—¶•¨Šw‰ïŽC47(3): 119-129 (2011).
12
Miyata, N., Tani, Y.: Chapter 1. Microbial manganese(II) oxidation: a potential tool for treatment of metal-contaminated waters, In Handbook of Metal Biotechnology: Applications for Environmental Conservation and Sustainability, pp 1-10, Pan Stanford Publishing, 2011.11.iƒ}ƒ“ƒKƒ“Ž_‰»‹Û‚Ì‹à‘®ŠÜ—L”r…ˆ—‚ւ̉ž—p‚ɂ‚¢‚Äji’˜‘j
11
”öú±•Û•vF‘æ2ÍE7 —L—pA•¨‚ð—p‚¢‚½¶Šˆ”r…‚Ì‚“xˆ—\àhÞ‚ÆA•¨‚Ì‘g‚݇‚킹‚ªˆ—…Ž¿‚É‹y‚Ú‚·‰e‹¿C …ò‰»‹Zp‚ÌÅV“®ŒüCpp 151-163, ƒV[ƒGƒ€ƒV\o”ÅC2011.6.i’˜‘j
10
Sawayama, M., Suzuki, T., Hashimoto, H., Kasai, T., Furutani, M., Miyata, N., Kunoh, H., and Takada, J.: Isolation of a Leptothrix strain, OUMS1, from ocherous deposits in groundwater. Current Microbiology, 63: 173-180 (2011).i“SŽ_‰»×‹ÛLeptothrix‚Ì•ª—£‚Æ“Á’¥•t‚¯j
9
Abe, K., Kato, K., Ozaki, Y.: Vegetation-based wastewater treatment technologies for rural areas in Japan, JARQ, 44(3)F231-242 (2010).iAÍ‚ð—˜—p‚µ‚½”_‘º’nˆæ‚Ì”r…ˆ—jiƒŒƒrƒ…[˜_•¶j
8
•ŸŽmŒ[mCš ¼ÂC‰ª–ì–MGC‹{“c’¼KC”öú±•Û•vF ’¾…A•¨ƒzƒUƒLƒmƒtƒTƒ‚‚ÌAÍ‹y‚ÑŠ ‚èŽæ‚肪“®A•¨ƒvƒ‰ƒ“ƒNƒgƒ““®‘Ô‚É‹y‚Ú‚·‰e‹¿C—p…‚Æ”p…, 52 (8), 631-639 (2010).
7
—Ñ‹I’jA‹{“c’¼KA”öè•Û•vFH“c‚Ì…“c‚ÉŒ©‚ç‚ê‚郃€ƒV—ÞCH“cŽ©‘RŽjŒ¤‹†CNo.57: 16-19 (2010).
6
Nakamoto, T., Okano, K., Kaul, C.S., Utsumi, M.FPhylogenetic Analysis of microcystin Biosynthesis Gene-mcyF from Microcystis. Japanese Journal of Water treatment Biology, 47(1): 29-36 (2011).i—•‘”“Ŷ¬ˆâ“`Žq‚ÌŒn“‰ðÍ)
5
Grangeon, S., Lanson, B., Miyata, N., Tani, Y., and Manceau, A.: Structure of nanocrystalline phyllomanganates produced by freshwater fungi. American Mineralogist, 95: 1608-1616 (2010).i^‹Û‚ªŒ`¬‚·‚éƒ}ƒ“ƒKƒ“Ž_‰»•¨‚̃iƒmŒ‹»\‘¢j
4
”öè•Û•vCˆ¢•”ŒOF—L—pA•¨‚ð—p‚¢‚½¶Šˆ”r…“™‚Ì‚“xˆ—\ƒoƒCƒIƒWƒIƒtƒBƒ‹ƒ^[‚Ì“K—pCBIOINDUSTRY, 26 (11): 28-37 (2009).
3
‚“c‡C‰Ž“cŠîC”öè•Û•vFŠ±‘ñ‚³‚ꂽ”ª˜YŠƒ‚Ì…‘‚̈⑶“I¶ˆç’n‚ɂ‚¢‚ÄC…‘Œ¤‹†‰ïŽC92: 13-21 (2009).
2
Ohko, Y., Nagao, Y., Okano, K., Sugiura, N., Fukuda, A., Yang, Y., Negishi, N., Takeuchi, M., Hanad, S.: Prevention of Phormidium tenue biofilm formation by TiO2 photocatalysis. Microbes and Environments, 24(3): 241-245 (2009).iŽ_‰»ƒ`ƒ^ƒ“G”}‚É‚æ‚é—•‘”ƒoƒCƒIƒtƒBƒ‹ƒ€¶¬‚Ì—}§j
1
Okano, K., Shimizu, K., Kawauchi, Y., Maseda, H., Utsumi, M., Zhang, Z., Neilan, B. A., Sugiura, N.: Characteristics of a microcystin-degrading bacterium under alkaline environmental conditions. Journal of Toxicology,DOI 10.1155/2009/954291 (2009)i—•‘”“Å•ª‰ð׋ۂ̉ðÍj
