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2025”N 2024”N 2023”N2022”N 2021”N@2020”N@2019”N@2018”N@2017”N@@2016”N@2015”N@2014”N@2013”N@2012-2009”N
2025”N
1
Masuda, S., Otomo, S., Hojo, T., Terada, A., Yamazaki, H., Kim, J., Li, Y.-Y., Takakai, F., Miyata, N.: Developing a simple activity test to estimate nitrous oxide production from sewage treatment, Journal of Bioscience and Bioengineering, 139 (6), 424-428 (2025).
https://doi.org/10.1016/j.jbiosc.2025.03.003.
2024”N
9
Tum, S., Katayama, T., Miyata, N., Watanabe, M., Hashimoto, Y., Nishikata, M., Yasutaka, T.: Geochemical insights and model optimisation for pilot-scale passive treatment of manganese and zinc in a legacy mine in Japan, Heliyon, 10 (22), e40363 (2024).
https://doi.org/10.1016/j.heliyon.2024.e40363
8
‘å—F•½, Š‹¼½, ŽÄ“cŒå, ‚ŠKŽjÍ, ‹{“c’¼K, ‘“cŽü•½F–³I’[…˜H”½‰ž‘…‚Ì—n‘¶‘ÔˆŸŽ_‰»’‚‘f˜A‘±ƒf[ƒ^‚ɑ΂·‚é‹Gß’²®–@‚Ì“K—pC…ŠÂ‹«Šw‰ïŽ, 47(5), 129-137 (2024).
7
Watanabe, M., Tum, S., Katayama, T., Gotore, O., Okano, K., Matsumoto, S., Yasutaka, T., Miyata, N.: Accelerated manganese(II) removal by in situ mine drainage treatment system without organic substrate amendment: metagenomic insights into chemolithoautotrophic manganese oxidation via extracellular electron transfer, Journal of Environmental Chemical Engineering, 12(5), 113314 (2024).
https:// doi.org/10.1016/j.jece.2024.113314.
6
Gotore, O., Watanabe, M., Okano, K., Miyata, N., Katayama, T., Yasutaka, T., Semoto, Y., Hamai, T.: Effects of batch and continuous-flow operation on biotreatment of Mn(II)-containing mine drainage, Journal of Environmental Sciences, 152, 401-415 (2025).
https://doi.org/10.1016/j.jes.2024.05.038.
5
Yashima, R., Terata, Y., Sakamoto, K., Watanabe, M., Takeshita, K.: Paraburkholderia largidicola sp. nov., a gut symbiont of the bordered plant bug Physopelta gutta. International Journal of Systematic and Evolutionary Microbiology, In Press.
4
Kawamoto, H., Watanabe, M., Mochimaru, H., Nakahara, N., Meng, XY., Sakamoto, S., Morinaga, K., Katayama, T., Yoshioka, H., Nomura, N., Tamaki, H.: Atrimonas thermophila gen. nov., sp. nov., a novel anaerobic thermophilic bacterium of the phylum Atribacterota isolated from deep subsurface gas field and proposal of Atrimonadaceae fam. nov. within the class Atribacteria in the phylum Atribacterota. Syst Appl Microbiol.47(4):126515. doi: 10.1016/j.syapm.2024.126515.(2024)
3
Liu, T., Kurogo, N., Kodato, M., Fujimoto, N., Itayama, T., Okano, K., Utsumi, M., Zhang, Z., Lei, Z., Yuan, T., Maseda, H., Sugiura, N. and Shimizu, K.: MlrA, an Essential Enzyme for Microcystins and Nodularin on First Step Biodegradation in Microcystin-Degrading Bacteria, Chemical Research Toxicology, 37, 212?215; DOI: 10.1021/acs.chemrestox.3c00341 (2024)
2
Tani, Y., Kumagai, H., Tamari, M., Umezawa, K., Gotore, O., Miyata, N.: Mineralization of Ni2+-bearing Mn oxide through simultaneous sequestration of Ni2+ and Mn2+ by enzymatically active fungal Mn oxides. Minerals, 14 (4), 330 (2024). https://doi.org/10.3390/min14040330.
1
Miyata, N., Suganuma, R., Sunouchi, K., Okano, K., Fuchida, S., Watanabe, M., Fujibayashi, M., Sato, Y., Tokoro, C.: Biological Mn(II) oxidation under organic substrate-limited conditions and its application in mine drainage remediation. Biochemical Engineering Journal, 203, 109187 (2024). https://doi.org/10.1016/j.bej.2023.109187.
2023”N
3
Sato, P. M., Matsuo, A., Otsuka, K., Takano, T. K., Maki, M., Okano, K., Suyama, S., Ito-Inaba, Y: Potential contribution of floral thermogenesis to cold adaptation, distribution pattern, and population structure of thermogenic and non/slightly thermogenic Symplocarpus species, Ecology and Evolution, 2023;13:e10319; DOI:10.1002/ece3.10319.
2
Fujibayashi, M., Nitta, M., Aomori, S., Sakamaki, T., Okano, K., Sugiyama, H., Miyata, N.: Exploring the use of fish as indicators of eicosapentaenoic and docosahexaenoic supply in lake ecosystems. Oecologia (2023). https://doi.org/10.1007/s00442-023-05433-7
1
Furuta, S., Ikegaya, H., Fujibayashi, M., Hashimoto, H., Suzuki, S., Okano, K., Ichise, S., Miyata, N.: Effects of algal extracellular polysaccharides on the formation of filamentous manganese oxide particles in the near-bottom layer of Lake Biwa. Microorganisms, 11(7), 1814 (2023). https://doi.org/10.3390/microorganisms11071814
2022”N
12
Koto, Y., Kawahara, H., Kurata, K., Yoshikiyo, K., Hashiguchi, A., Okano, K., Sugiura, N., Shimizu, K., Shimizu, H.: Microcystin-LR incorporated into colonic cells through probenecid-sensitive transporters leads to upregulated MCP-1 expression induced by JNK activation, Toxicology Reports, 9, 937-944; DOI:10.1016/j.toxrep.2022.04.019
11
Qintong Li, Q., Hasezawa, R., Saito, R., Okano, K., Shimizu, K., Utsumi. M: Abundance and Diversity of Nitrifying Microorganisms in Marine Recirculating Aquaculture Systems, Water, 14, 2744; DOI: 10.3390/w14172744.
10
Sasaki, T., Ishii, I. N., Makishima, D., Sutou, R., Goto, A., Kawai, Y., Taniguchi, H., Okano, K., Matsuo, A., Lochner, A., Cesarz, S., Suyama, Y., Hikosaka, K., Eisenhauer, N.: Plant and microbial community composition jointly determine moorland multifunctionality, Journal of Ecology, 110(10), 2507-5221; DOI: 10.1111/1365-2745.13969.
9
–ØŒû—ÏC‹g“c^CÖ“¡NŽ÷C‰ª–ì–MGC¼ì—T”VCûü‹´”VC‹{“c’¼KFH“cŒ§”ª˜YŒÎ—¬ˆæ‚É‚¨‚¯‚éZ“§ˆÚs«ŽE’ŽÜ‚Æ‘ãŽÓ•¨‚Ì”Z“xƒŒƒxƒ‹‚Æ…•½•ª•zC…ŠÂ‹«Šw‰ïŽC45, 6, 257-270 (2022)
8
Masuda, S., Takakai, F., Okano, K., Takeda, S., Pham, D. D., Miyata, N., Watanabe, T.: Evaluation of dissolved greenhouse gas profiles in paddy fields irrigated with treated sewage effluent, Journal of Water and Environment Technology, 20 (2), 59-69 (2022). https://doi.org/10.2965/jwet.21-147.
7
Tani, Y., Wu, T., Shirakura, T., Umezawa, K., Miyata, N.: Sequestration of oxyanions of V(V), Mo(VI), and W(VI) enhanced through enzymatic formation of fungal manganese oxides, Minerals, 2022, 12(11), 1368; https://doi.org/10.3390/min12111368
6
Watanabe, M, Takahashi, A., Kojima, H., Miyata, N., Fukui, M. Desulfofustis limnaeus sp. nov., a freshwater sulfate-reducing bacterium isolated from marsh soil. Archives of Microbiology. In Press.
5
Watanabe, M, Takahashi, A., Kojima, H., Fukui, M.. Desulfoluna limicola sp. nov., a sulfate-reducing bacterium isolated from sediment of a brackish lake. Archives of Microbiology. In Press.
4
Kojima, H, Watanabe, M., Miyata, N., Fukui, M; Sulfuricystis multivorans gen. nov., sp. nov. and Sulfuricystis thermophila sp. nov., facultatively autotropic sulfur-oxidizing bacteria isolated from a hot spring, and emended description of the genus Rugosibacter. Arch Microbiol. 2022 Sep 2;204(9):595.
doi: 10.1007/s00203-022-03186-0.
3
Sugawara, K., Sasaki, Y., Okano, K., Watanabe, M., Miyata, N.: Application of eDNA for monitoring freshwater bivalve Nodularia nipponensis and its glochidium larvae. Environmental DNA. In Press.
2
Takahashi, A., Watanabe, M., Kojima, H., Fukui, M..: Pseudodesulfovibrio sediminis sp. nov., a mesophilic and neutrophilic sulfate-reducing bacterium isolated from sediment of a brackish lake. Archives of Microbiology. In Press.
1
Aoshima, M., Tani, Y., Fujita, R., Tanaka, K., Miyata, N., Umezawa, K.:Simultaneous sequestration of Co2+ and Mn2+ by fungal manganese oxide through asbolane formation, Minerals, 12, 358 (2022).https://doi.org/10.3390/min12030358
2021”N
14
¼”ö•à, ‰ª–ì–MG: ‚¸“xŽŸ¢‘ãDNA•ªÍ‚É‚æ‚é•iŽíEŒÂ‘ÌEŽY’nEŽí‚ÌŽ¯•Ê‹Zp, ‰»ŠwH‹Æ, 72(12), 829-833 (2021)
13
‘å—F•½CŽÄ“cŒåC—›‹Ê—FC‚ŠKŽjÍC‹{“c’¼KC‘“cŽü•½FŠha•û–@‚ÌÅ“K‰»‚É‚æ‚é–³I’[…˜H”½‰ž‘…‚É‚¨‚¯‚éN2O”ro—}§í—ª\ŽÀˆ—ê‚ł̘A‘±‘ª’è‚ÆŽÀØŽŽŒ±C“y–ØŠw‰ï˜_•¶WG, 77 (7), III-71-82 (2021).
12
Sunouchi, K., Watanabe, M., Okano, K., Masaki, Y., Sakoda, M., Miyata, N.: Removal of Mn(II) and Zn(II) ions from synthetic mine drainage using a laboratory-scale Mn(II)-oxidizing bioreactor, Japanese Journal of Water Treatment Biology
https://www.jstage.jst.go.jp/article/jswtb/58/1/58_25/_article/-char/ja(2021)
11
Watanabe, M., Kojima, H., Okano, K., Fukui, M; Mariniplasma anaerobium gen. nov., sp. nov., a novel anaerobic marine mollicute, and proposal of three novel genera to reclassify members of Acholeplasma clusters II-IV. International Journal of Systematic and Evolutionary Microbiology, 2021, In Press.
10
Qian, Y., Okano, K., Kodato, M., Arai, M., Yanagiya, T., Li, Q., Amano, C., Ruike, K., Itayama, T., Iwami, N., Utsumi, M., Lei, Z., Zhang, Z., Sugiura, N., Shimizu, K. Dynamics of the prokaryotic and eukaryotic microbial community during a cyanobacterial bloom. Bioscience, biotechnology, and biochemistry zbab179,https://doi.org/10.1093/bbb/zbab179 (2021)
9
Suyama, Y., Hirota, S.K., Matsuo, A., Tsunamoto, Y., Mitsuyuki, C., Shimura, A., Okano, K. Complementary combination of multiplex high-throughput DNA sequencing for molecular phylogeny. Ecological Research. 2021;1?11. https://doi.org/10.1111/1440-1703.12270 (2021)
8
Sakata, Y., Shirahama, N., Uechi, A., Okano, K. Variability in deer diet and plant vulnerability to browsing among forests with different establishment years of sika deer. PeerJ 9 e12165 (2021)
7
Fukasawa, Y., Matsukura, K., Ando, Y., Suzuki, S.N., Okano, K., Song, Z., Aizawa, M.,Sakuma, D. Relative importance of climate, vegetation, and spatial factors in the community and functional composition of wood-inhabiting fungi in discontinuously distributed subalpine spruce forests. Canadian Journal of Forest Research 51(7) 1029-1038 (2021)
6
Fukasawa, Y., Matsukura, K., Stephan, J.G., Kobayashi, M., Suzuki, S.N., Kominami, Y., Takagi, M., Tanaka, N., Takemoto, S., Kinuura, H., Okano, K., Song, Z., Jomura, M., Kadowaki, K., Yamashita, S., Ushio, M. Patterns of community composition and diversity in latent fungi of living Quercus serrata trunks across a range of oak wilt prevalence and climate variables in Japan. Fungal Ecology https://doi.org/10.1016/j.funeco.2021.101095 (2021)
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, 10(33) e0064121.
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, 2021, 19 (3), 139-152.
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, 10(16).
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
11
‰ª–ì–MG:”ª˜YŠƒŽc‘¶ŒÎ‚̉˜‘÷󋵂Ƃ»‚̶Šˆ”r…‘Îô‚ÉŠÖ‚·‚éŠî‘b“IŒ¤‹†, ’{ŽY‚ÌŒ¤‹†, 67(7), 747-750 (2013)
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
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