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写真 宮島利宏
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担当専攻: 理学系研究科生物科学専攻
所属部局: 大気海洋研究所・地球海洋システム研究系
専門分野: 水圏生物地球化学/生態系生態学
所在地: 〒277-8564 千葉県柏市柏の葉 5-1-5 東京大学大気海洋研究所 472号室
連絡先: 080-7068-8021(研究室)/ 080-3248-6127(携帯電話)
     FAX: 04-7136-6085(研究室直通)
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今年度の調査・行事日程 オヒルギ

夏眠中カタツムリ

  • 7月12〜16日:JpGU-AGU Joint Meeting 2020(オンライン)
  • (以下未定)

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原著論文
※ 7つの領域に分類して、発表年代の新しい順に掲載してあります。
※ 論文の別刷をご希望の方は メール でご請求下さい。ResearchGate から入手可能な論文もあります。
※ ★のついた論文は私自身が執筆したものです。
海草藻場・マングローブ
  1. Miyajima T, Hamaguchi M (2018) Carbon sequestration in sediment as an ecosystem function of seagrass meadows. In: Kuwae T, Hori M (eds.), Blue Carbon in Shallow Coastal Ecosystems, Springer Nature Singapore, p.33-71
  2. Miyajima T, Hori M, Hamaguchi M, Shimabukuro H, Adachi H, Yamano H, Nakaoka M (2015) Geographic variability in organic carbon stock and accumulation rate in sediments of East and Southeast Asian seagrass meadows. Global Biogeochemical Cycles 29: 397-415
  3. Tanaka Y, Go GA, Watanabe A, Miyajima T, Nakaoka M, Uy WH, Nadaoka K, Watanabe S, Fortes MD (2014) 17-year change in species composition of mixed seagrass beds around Santiago Island, Bolinao, the northwestern Philippines. Marine Pollution Bulletin 88: 81-85
  4. Miyajima T, Tsuboi Y, Tanaka Y, Koike I (2009) Export of inorganic carbon from two Southeast-Asian mangrove forests to adjacent estuaries as estimated by the stable isotope composition of dissolved inorganic carbon. Journal of Geophysical Research - Biogeosciences 114, G01024, doi:10.1029/2008JG000861
  5. Tanaka Y, Miyajima T, Yamada K, Hori M, Hasegawa N, Umezawa Y, Koike I (2008) Specific growth rate as a determinant of carbon isotope composition of a temperate seagrass Zostera marina. Aquatic Botany 89: 331-336
  6. Nakamura Y, Horinouchi M, Shibuno T, Tanaka Y, Miyajima T, Koike I, Kurokura H, Sano M (2008) Evidence of ontogenetic migration from mangroves to coral reefs by black tail snapper Lutjanus fulvus: a stable isotope approach. Marine Ecology Progress Series 355: 257-266
  7. Miyajima T, Suzumura M, Umezawa Y, Koike I (2001) Microbiological nitrogen transformation in carbonate sediments of a coral-reef lagoon and associated seagrass beds. Marine Ecology Progress Series 217: 273-286
  8. Miyajima T, Koike I, Yamano H, Iizumi H (1998) Accumulation and transport of seagrass-derived organic matter in the sediment of coral reef flat of Green Island, Great Barrier Reef. Marine Ecology Progress Series 175: 251-259
サンゴ礁の研究
  1. ★ Fujii T, Tanaka Y, Maki K, Saotome N, Morimoto N, Watanabe A, Miyajima T (2020) Organic carbon and nitrogen isoscapes of reef corals and algal symbionts: Relative influences of environmental gradients and heterotrophy. Microorganisms 8: art1221
  2. Wyatt ASJ, Leichter JJ, Toth LT, Miyajima T, Aronson RB, Nagata T (2019) Heat accumulation on coral reefs mitigated by internal waves. Nature Geoscience 13: 28-34
  3. Nakamura T, Nadaoka K, Watanabe A, Yamamoto T, Miyajima T, Blanco AC (2017) Reef-scale modeling of coral calcification responses to ocean acidification and sea-level rise. Coral Reefs 37: 37-53
  4. Thibodeau B, Miyajima T, Tayasu I, Wyatt A, Watanabe A, Morimoto N, Yoshimizu C, Nagata T (2013) Heterogeneous dissolved organic nitrogen supply over a coral reef: First evidence from nitrogen stable isotope ratios. Coral Reefs 32: 1103-1110
  5. Watanabe A, Yamamoto T, Nadaoka K, Maeda Y, Miyajima T, Tanaka Y (2012) Spatio-temporal variations of CO2 flux in a fringing reef simulated with a newly developed carbonate system dynamics model. Coral Reefs 32: 239-254
  6. Tanaka Y, Ogawa H, Miyajima T (2011) Production and bacterial decomposition of dissolved organic matter in a fringing coral reef. Journal of Oceanography 67: 427-437
  7. Tanaka Y, Miyajima T, Watanabe A, Nadaoka K, Yamamoto T, Ogawa H (2011) Distribution of dissolved organic carbon and nitrogen in a coral reef. Coral Reefs 30: 533-541
  8. Tanaka Y, Ogawa H, Miyajima T (2011) Bacterial decomposition of coral mucus as evaluated by long-term and quantitative evaluation. Coral Reefs 30: 443-449
  9. Osawa Y, Fujita K, Umezawa Y, Kayanne H, Ide Y, Nagaoka T, Miyajima T, Yamano H (2010) Human impacts on large benthic foraminifers near a densely populated area of Majuro Atoll, Marshall Islands. Marine Pollution Bulletin 60: 1279-1287
  10. Tanaka Y, Ogawa H, Miyajima T (2010) Effects of nutrient enrichment on the release of dissolved organic carbon and nitrogen by the scleractinian coral Montipora digitata. Coral Reefs 29: 675-682
  11. Tanaka Y, Miyajima T, Umezawa Y, Hayashibara T, Ogawa H, Koike I (2009) Net release of dissolved organic matter by the scleractinian coral Acropora pulchra. Journal of Experimental Marine Biology and Ecology 377: 101-106
  12. Tanaka Y, Miyajima T, T, Ogawa H (2009) Bacterial degradability of dissolved organic carbon in coral mucus. Proceedings of the 11th International Coral Reef Symposium 945-949
  13. Umezawa Y, Miyajima T, Koike I (2008) Stable nitrogen isotope composition in sedimentary organic matter as a potential proxy of nitrogen sources for primary producers at a fringing coral reef. Journal of Oceanography 64: 899-909
  14. Tanaka Y, Miyajima T, Koike I, Hayashibara T, Ogawa H (2008) Production of dissolved and particulate organic matter by the reef-building corals Porites cylindrica and Acropora pulchra. Bulletin of Marine Science 82: 237-245
  15. Miyajima T, Tanaka Y, Koike I, Yamano H, Kayanne H (2007) Evaluation of spatial correlation between nutrient exchange rates and benthic biota in a reef-flat ecosystem by GIS-assisted flow-tracking. Journal of Oceanography 63: 643-659
  16. Umezawa Y, Miyajima T, Tanaka Y, Koike I (2007) Variation in internal δ15N and δ13C distributions and their bulk values in the brown macroalga Padina australis growing in subtropical oligotrophic waters. Journal of Phycology 43: 437-448
  17. Miyajima T, Hata H, Umezawa Y, Kayanne H, Koike I (2007) Distribution and partitioning of nitrogen and phosphorus in a fringing reef lagoon of Ishigaki Island, Northwestern Pacific. Marine Ecology Progress Series 341: 45-57
  18. Tanaka Y, Miyajima T, Koike I, Hayashibara T, Ogawa H (2007) Imbalanced coral growth between organic tissue and carbonate skeleton brought by nutrient enrichment. Limnology and Oceanography 52: 1139-1146
  19. Tanaka Y, Miyajima T, Koike I, Hayashibara T, Ogawa H (2006) Translocation and conservation of organic nitrogen within the coral-zooxanthella symbiotic system of Acropora pulchra, as demonstrated by dual isotope-labeling techniques. Journal of Experimental Marine Biology and Ecology 336: 110-119
  20. Tanaka Y, Miyajima T, Umezawa Y, Fukuda H, Koike I, Ogawa H, Hayashibara T (2004): Effects of nitrate enrichment on release of dissolved organic carbon and nitrogen from zooxanthellate coral, Acropora pulchra and Porites cylindrica. Proceedings of the 10th International Coral Reef Symposium p.925-931
  21. Umezawa Y, Miyajima T, Kayanne H, Koike I (2002) Significance of groundwater nitrogen discharge into coral reefs at Ishigaki Island, southwest of Japan. Coral Reefs 21:346-356
  22. Umezawa Y, Miyajima T, Yamamuro M, Kayanne H, Koike I (2002) Fine-scale mapping of land-derived nitrogen in coral reefs by δ15N in macroalgae. Limnology and Oceanography 47: 1405-1416
  23. Suzumura M, Miyajima T, Hata H, Umezawa Y, Kayanne H, Koike I (2002) Cycling of phosphorus maintains the production of microphytobenthic communities in carbonate sediments of a coral reef. Limnology and Oceanography 47: 771-781
  24. Yamano H, Miyajima T, Koike I (2000) Importance of foraminifera for the formation and maintenance of a coral sand cay: Green Island, Australia. Coral Reefs 19: 51-58
堆積物と土壌の生物地球化学
  1. Hamaguchi M, Shimabukuro H, Hori M, Yoshida G, Terada T, Miyajima T (2018) Quantitative real-time polymerase chain reaction (PCR) and droplet digital PCR duplex assays for detecting Zostera marina DNA in coastal sediments. Limnology and Oceanography: Methods 16: 253-264
  2. Miyajima T, Hori M, Hamaguchi M, Shimabukuro H, Yoshida G (2017) Geophysical constraints for organic carbon sequestration capacity of Zostera marina seagrass meadows and surrounding habitats. Limnology and Oceanography 62: 954-972
  3. Miyajima T (2015) Abiotic versus biotic immobilization of inorganic nitrogen in sediment as a potential pathway of nitrogen sequestration from coastal marine ecosystems. Geochemical Journal 49: 453-468
  4. Kohzu A, Imai A, Miyajima T, Fukushima T, Matsushige K, Komatsu K, Kawasaki N, Miura S, Sato T (2011) Direct evidence for nitrogen isotope discrimination during sedimentation and early diagenesis in Lake Kasumigaura, Japan. Organic Geochemistry 42:173-183
  5. Adachi H, Yamano H, Miyajima T, Nakaoka M (2010) A simple and robust method for coring unconsolidated sediment in shallow water. Journal of Oceanography 66: 865-872
  6. Miyajima T, Ogawa H, Koike I (2001) Alkali-extractable polysaccharides in marine sediments: Abundance, molecular size distribution, and monosaccharide composition. Geochimica et Cosmochimica Acta 65: 1455-1466
  7. Miyajima T, Wada E, Hanba YT, Vijarnsorn P (1997) Anaerobic mineralization of indigenous organic matters and methanogenesis in tropical wetland soils. Geochimica et Cosmochimica Acta 61: 3739-3751
  8. Miyajima T (1994) Mud-water fluxes of inorganic nitrogen and manganese in the pelagic region of Lake Biwa: Seasonal dynamics and impact on the hypolimnetic metabolism. Archiv für Hydrobiologie 130: 303-324 [PDF]
沿岸海洋生態系一般
  1. Lagarde F, Richard M, Derolez V, Bec B, Pete R, Hori J, Bayne C, Mortreux S, Correia-Martins A, Tremblay R, Hamaguchi M, Shoji J, Makino M, Sato M, Nakaoka M, Miyajima T, Pouvreau S, Hori M (2020) Integrated ecosystem management for exploited coastal ecosystem dynamics under oligotrophication and climate changes. In: Evolution of Marine Coastal Ecosystems under the Pressure of Global Changes, pp. 253-268. Springer, Cham.
  2. Zhao L, Shirai K, Murakami-Sugihara N, Higuchi T, Sakamoto TT, Miyajima T, Tanaka K (2019) Retrospective monitoring of salinity in coastal waters with mussel shells. Science of the Total Environment 671: 666-675
  3. Yamamoto T, Malingin MACL, Pepino MM, Yoshikai M, Campos W, Miyajima T, Watanabe A, Tanaka Y, Morimoto N, Ramos R, Pagkalinawan H, Nadaoka K (2018) Assessment of coastal turbidity improvement potential by terrigenous sediment load reduction and its implications on seagrass inhabitable area in Banate Bay, central Philippines. Science of the Total Environment 656: 1386-1400
  4. Kubota K, Shirai K, Higuchi T, Miyajima T (2018) Oxygen and hydrogen isotope characteristics of seawater in Otsuchi Bay and meteoric water of inflowing rivers. Coastal Marine Science 41: 1-6
  5. Morimoto N, Umezawa Y, San Diego-McGlone, ML, Watanabe A, Siringan FP, Tanaka Y, Regino GL, Miyajima T (2017) Spatial dietary shift in bivalves from embayment with river discharge and mariculture activities to outer seagrass beds in northwestern Philippines. Marine Biology 164: article 84.
  6. Ferrera CM, Watanabe A, Miyajima T, San Diego-McGlone ML, Morimoto N, Umezawa Y, Herrera E, Tsuchiya T, Yoshikai M, Nadaoka K (2016) Phosphorus as a driver of nitrogen limitation and sustained eutrophic conditions in Bolinao and Anda, Philippines, a mariculture-impacted tropical coastal area. Marine Pollution Bulletin 105:237-248
  7. Watai M, Nakamura Y, Honda K, Bolisay KO, Miyajima T, Nakaoka M, Fortes MD (2015) Diet, growth, and abundance of two seagrass bed fishes along a pollution gradient caused by milkfish farming in Bolinao, northwestern Philippines. Fisheries Science 81: 43-51
  8. Takayanagi H, Asami R, Abe O, Kitagawa H, Miyajima T, Iryu Y (2012) Carbon- and oxygen-isotope compositions of a deep-water modern brachiopod Campagea japonica collected off Aguni-jima, Central Ryukyu Islands, southwestern Japan. Geochemical Journal 46: 77-87
  9. Sugimoto R, Kasai A, Miyajima T, Fujita K (2010) Modeling phytoplankton production in Ise Bay, Japan: use of nitrogen isotopes to identify dissolved inorganic nitrogen sources. Estuarine, Coastal and Shelf Science 86: 450-466
  10. Sugimoto R, Kasai A, Miyajima T, Fujita K (2009) Controlling factors of seasonal variation in the nitrogen isotope ratio of nitrate in a eutrophic coastal environment. Estuarine, Coastal and Shelf Science 85: 231-240
  11. Sugimoto R, Kasai A, Miyajima T, Fujita K (2009) Transport of oceanic nitrate from the continental shelf to the coastal basin in relation to the path of the Kuroshio. Continental Shelf Research 29: 1678-1688
  12. Sugimoto R, Kasai A, Miyajima T, Fujita K (2009) Nitrogen isotope ratios of nitrate as a clue to the origin of nitrogen on the Pacific coast of Japan. Continental Shelf Research 29: 1303-1309
  13. Sugimoto R, Kasai A, Miyajima T, Fujita K (2008) Nitrogen isotopic discrimination by water column nitrification in a shallow coastal environment. Journal of Oceanography 64: 39-48
  14. ★ Sato T, Miyajima T, Ogawa H, Umezawa Y, Koike I (2006) Temporal variability of stable carbon and nitrogen isotopic composition of size-fractionated particulate organic matter in the hypertrophic Sumida River Estuary of Tokyo Bay, Japan. Estuarine, Coastal and Shelf Science 68: 245-258
  15. Yamasaki A, Fukuda H, Fukuda R, Miyajima T, Nagata T, Ogawa H, Koike I (1998) Submicron particles in northwest Pacific coastal environments: Abundance, size distribution, and biological origins. Limnology and Oceanography 43: 536-542
同位体比分析・利用技術
  1. Ferrera CM. Miyajima T, Watanabe A, Umezawa Y, Morimoto N, San Diego-McGlone, ML, Nadaoka K (2015) Variation in oxygen isotope ratio of dissolved orthophosphate induced by uptake process in natural coral holobionts. Coral Reefs 35: 655-668
  2. Takayanagi H, Asami R, Otake T, Abe O, Miyajima T, Kitagawa H, Iryu Y (2015) Quantitative analysis of intraspecific variations in the carbon and oxygen isotope compositions of the modern cool-temperate brachiopod Terebratulina crossei. Geochimica et Cosmochimica Acta 170: 301-320
  3. Maki K, Ohkouchi N, Chikaraishi Y, Fukuda H, Miyajima T, Nagata T (2014) Influence of nitrogen substrates and substrate C:N ratios on the nitrogen isotopic composition of amino acids from the marine bacterium Vibrio harveyi. Geochimica et Cosmochimica Acta 140: 521-530
  4. Takayanagi H, Asami R, Abe O, Miyajima T, Kitagawa H, Sasaki K, Iryu Y (2013) Intraspecific variations in carbon- and oxygen-isotope compositions of a brachiopod Basiliola lucida collected off Okinawa-jima, southwestern Japan. Geochim Cosmochim Acta 115: 115-136
  5. Miyajima T, Tanaka Y, Koike I (2005) Determining 15N enrichment of dissolved organic nitrogen in environmental waters by gas chromatography/negative-ion chemical ionization mass spectrometry. Limnology and Oceanography: Methods 3: 164-173
  6. Miyajima T, Yamada Y, Hanba YT, Yoshii K, Koitabashi T, Wada E (1995) Determining the stable isotope ratio of total dissolved inorganic carbon in lake water by use of the GC/C/IRMS. Limnology and Oceanography 40: 994-1000
淡水系の生物地球化学
  1. Maki K, Kim C, Yoshimizu C, Tayasu I, Miyajima T, Nagata T (2010) Autochthonous origin of semi-labile dissolved organic carbon in a large monomictic lake (Lake Biwa): Carbon stable isotopic evidence. Limnology 11: 143-153
  2. Miyajima T, Yoshimizu C, Tsuboi Y, Tanaka Y, Tayasu I, Nagata T, Koike I (2009) Longitudinal distribution of nitrate δ15N and δ18O in two contrasting tropical rivers: Implications for instream nitrogen cycling. Biogeochemistry 95: 243-260
  3. Kohzu A, Miyajima T, Tayasu I, Yoshimizu C, Hyodo F, Matsui K, Nakano T, Wada E, Fujita N, Nagata T (2008) Use of stable nitrogen isotope signatures of riparian macrophytes as an indicator of anthropogenic N inputs to river ecosystems. Environmental Science and Technology 42: 7837-7841
  4. Miyajima T, Yamada Y, Nakajima T, Wada E, Koitabashi T, Hanba YT, Yoshii K (1997) Distribution of greenhouse gases, nitrite, and δ13C of dissolved inorganic carbon in Lake Biwa: Implication for hypolimnetic metabolism. Biogeochemistry 36: 205-221
  5. Miyajima T, Nakano S, Nakanishi M (1995) Planktonic diatoms in pelagic silicate cycle in Lake Biwa. Japanese Journal of Limnology 56: 211-220
  6. Miyajima T, Nakanishi M, Nakano S, Tezuka Y (1994) An autumnal bloom of the diatom Melosira granulata in a shallow eutrophic lake: physical and chemical constraints on its population dynamics. Archiv für Hydrobiologie 130: 143-162 [PDF]
  7. Hirayama A, Nakanishi M, Miyajima T, Nakano S (1993) Light environment and photosynthesis in the south basin of Lake Biwa. Verhandlungen - Internationale Vereinigung für Theoretische und Angewandte Limnologie 25: 811-816
  8. Miyajima T (1992) Production of Metallogenium-like particles by heterotrophic manganese-oxidizing bacteria collected from a lake. Archives of Microbiology 158: 100-106
  9. Miyajima T (1992) Reductive dissolution of manganese coupled to mineralization in lake water/sediment microcosms. Memoirs of Faculty of Science of Kyoto University Series B 15: 15-27 [PDF]
  10. Miyajima T (1992) Biological manganese oxidation in a lake: II. A thermodynamic consideration of the habitat utilization of Metallogenium sp. Archiv für Hydrobiologie 124: 411-426 [PDF]
  11. Miyajima T (1992) Biological manganese oxidation in a lake: I. Occurrence and distribution of Metallogenium sp. and its kinetic properties. Archiv für Hydrobiologie 124: 317-335 [PDF]
  12. Miyajima T (1992) Recycling of nitrogen and phosphorus from the particulate organic matter associated with the proliferation of bacteria and microflagellates. Japanese Journal of Limnology 53: 133-138
  13. Miyajima T (1992) Decomposition activity and nutrient regeneration rates in the hypolimnion of the north basin of Lake Biwa. Japanese Journal of Limnology 53: 65-73
陸域生態系の研究
  1. Sano Y, Onda S, Kagoshima T, Miyajima T, Takahata N, Shibata T, Nakagawa C, Onoue T, Kim NK, Lee H, Kusakabe M, Pinti DL (2020) Groundwater oxygen anomaly related to the 2016 Kumamoto earthquake in Southwest Japan. Proceedings of the Japan Academy, Series B 96: 322-334
  2. Onda S, Sano Y, Takahata N, Kagoshima T, Miyajima T, Shibata T, Pinti DL, Lan T, Kim NK, Kusakabe M, Nishio Y (2018) Groundwater oxygen isotope anomaly before the M6.6 Tottori earthquake in Southwest Japan. Scientific Reports 8: 4800
  3. Kohzu A, Miyajima T, Tateishi T, Watanabe T, Takahashi M, Wada E (2007) Dynamics of 15N natural abundance in wood decomposing fungi and their ecophysiological implications. Isotopes in Environmental and Health Studies 43: 83-94
  4. Kohzu A, Miyajima T, Tateishi T, Watanabe T, Takahashi M, Wada E (2005) Dynamics of 13C natural abundance in wood decomposing fungi and their ecophysiological implications. Soil Biology and Biochemistry 37: 1598-1607
  5. Yoshioka T, Ueda S, Miyajima T, Wada E, Yoshida N, Sugimoto A, Vijarnsorn P, Boonprakub S (2002) Biogeochemical properties of a tropical swamp forest ecosystem in southern Thailand. Limnology 3: 51-59
  6. Ueda S, Go, CU, Yoshioka T, Yoshida N, Wada E, Miyajima T, Sugimoto A, Boontanon N, Vijarnsorn P, Boonprakub S (2000) Dynamics of dissolved O2, CO2, CH4, and N2O in a tropical coastal swamp in southern Thailand. Biogeochemistry 49: 191-215
  7. Miyajima T, Wada E (1999) Sulfate-induced isotopic variation in biogenic methane from tropical swamp without anaerobic methane oxidation. Hydrobiologia 382: 113-118

その他の報文
   ※ 2001年以降。「総説」欄に既出の業績は省略。
  1. 宮島利宏・浜口昌巳 (2017) 堆積物における長期炭素貯留のしくみと役割. In: 堀正和・桑江朝比呂(編著)『ブルーカーボン──浅海におけるCO2隔離・貯留とその活用』, 地人書館, pp.93-122.
  2. 国立天文台:編集 (2017) 『環境年表(平成29-30年)』(分担執筆).丸善
  3. 西田由布子・佐々修司・宮島利宏・青木優和・小松輝久 (2015) 流れ藻生物群集の食物網.月刊『海洋』47: 231-235
  4. Yamano H, Hata H, Miyajima T, Nozaki K, Kato K, Negishi A, Tamura M, Kayanne H (2014) Water circulation in a fringing reef and implications for coral distribution and resilience. In: Nakano S, Yahara T, Nakashizuka T (eds.) The biodiversity observation network in the Asia-Pacific region: Integrative observations and assessments of Asian biodiversity. Springer, pp.275-293.
  5. 日本分析化学会:編集 (2012) 『分析化学便覧(改訂六版)』(分担執筆:p.332〜338「窒素・リン」).丸善
  6. 今村陽一郎・小関祥子・宮島利宏・風呂田利夫・小島茂明 (2011) 多摩川河口干潟に優占する十脚甲殻類3種の生息場所による食性の変化.日本ベントス学会誌 66: 40-47.
  7. 日本分析化学会:編集 (2011) 『環境分析ガイドブック』(分担執筆).丸善
  8. 田中泰章・宮島利宏・小川浩史・林原毅・小池勲夫 (2009) 栄養塩負荷に対する石灰化応答機構の解明.月刊『地球』号外 59: 34-38
  9. 日本科学者会議:編集 (2008) 『環境事典』(分担執筆).旬報社
  10. 永田俊・宮島利宏:編集 (2008) 『流域環境評価と安定同位体』京都大学学術出版会 [PDF: 第1章 / 4章1節 / 4章2節 / 4章4節 / 5章2節 / 文献]
  11. 古田世子・吉田美紀・岡本高弘・若林徹哉・一瀬諭・青木茂・河野哲郎・宮島利宏 (2007) 琵琶湖水から採取培養したマンガン酸化微生物 Metallogenium の発育形態について.陸水学雑誌 68: 433-441
  12. 鷲田伸明:編集 (2007) 『実験化学講座20-2巻 環境化学』(分担執筆:p.282〜287「富栄養化項目」).丸善
  13. 一瀬諭・若林徹哉・岡本高弘・藤原直樹・井上健・加賀爪敏明・宮島利宏 (2006) 琵琶湖深層部における微生物由来マンガン酸化物構造体 Metallogenium sp. の発生.用水と廃水 48: 439-447
  14. 日本陸水学会:編集 (2006) 『陸水の事典』(分担執筆).講談社サイエンティフィク
  15. 岡本高弘・井上健・藤原直樹・一瀬諭、内藤幹滋・青木佳代・土肥誠・加賀爪敏明・辻元宏・宮島利宏 (2003) 琵琶湖北湖深層水中における鉄・マンガンの挙動について− Metallogenium sp. との関連.滋賀県立衛生環境センター所報 38: 95-99
  16. 一瀬諭・若林徹哉・岡本高弘・藤原直樹・井上健・加賀爪敏明・宮島利宏 (2003) 琵琶湖北湖深層部における微生物由来マンガン酸化物構造体 Metallogenium sp. の大量発生について(2002年).滋賀県立衛生環境センター所報 38: 100-105
  17. 池田穣・茅根創・野崎健・宮島利宏 (2003) 水中における有機物分解による二酸化炭素発生の抑制方法.特許公開 2003-117547
  18. Umezawa Y, Fujikawa Y, Hata H, Miyajima T, Kayanne H, Koike I (2001) Nitrogen cycle at water-column and sediment in the barrier reef lagoon of Palau Island. 地球惑星科学関連学会2001年合同大会予稿集
  19. 梅澤有・宮島利宏・山室真澄・茅根創・小池勲夫 (2001) 熱帯・亜熱帯沿岸域における陸源窒素影響域の解析−底生大型藻類のδ15Nの利用. 月刊海洋 33: 472-476
経歴・その他の情報
▶ アウトリーチ
  • M. D. Fortes & K. Nadaoka (eds.), Coastal Ecosystem Conservation and Adaptive Management (CECAM) Approach Guidebook, 241p, published by JICA-JST SATREPS on Feb 2015 ── 共同執筆 (PDF available from CECAM Web site)
  • CECAM Project promotion video (外部リンク)
  • SATREPS の2014年 National Conference & Workshop で展示した啓蒙用ポスター [PDF]
  • 柏キャンパス一般公開で展示しているポスター [PDF] と海洋酸性化リーフレット [PDF]
  • サンゴ白化問題アウトリーチ用ポスター [PDF]
▶ 学会活動等
▶ 経歴
 ── 機関名、個人の職位はその当時のものです。
  • 1965年9月8日 千葉県船橋市生
  • 1984年4月〜88年3月 京都大学理学部
  • 1988年4月〜93年3月 京都大学大学院理学研究科(指導教官:手塚泰彦 教授)
  • 1993年3月 博士(理学)(動物学)
  • 1993年4月〜95年3月 日本学術振興会特別研究員(受入教官:和田英太郎 教授)
  • 1995年4〜7月 京都大学研修員(同)
  • 1995年7月〜98年11月 東京大学特任研究員(受入教官:小池勲夫 教授)
  • 1998年11月 現職
グリーンイグアナ

──海洋生物ではないかも?

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Toshihiro Miyajima, Atmosphere and Ocean Research Institute, The University of Tokyo
Last modified: 17 September 2020