GEEDS 高知大学研究拠点プロジェクト：掘削コア科学による地球環境システム変動研究拠点

1. Katsuki, K., Ikehara, M., Yokoyama, Y., Yamane, M., Khim, B-K., Holocene migration of oceanic front systems over the Conrad Rise in the Indian Sector of the Southern Ocean, Journal of Quaternary Science, 27, 203-210, DOI: 10.1002/jqw.1535. 2012. [IF: 2.308]
2. Kiyokawa, S., Ninomiya, T., Nagata, T., Oguri, K., Ito, T., Ikehara, M., and Yamaguchi, K.E., Effects of tides and weather on sedimentation of iron-oxyhydroxides in a shallow-marine hydrothermal environment at Nagahama Bay, Satsuma Iwo-Jima Island, Kagoshima, southwest Japan, Island Arc, 21, 1-13, 2012. [IF: 1.012]
3. Kiyokawa, S., Ito, T., Ikehara, M., Yamaguchi, K.E., Koge, S., and Sakamoto, R., Lateral variations in the lithology and organic chemistry of a black shale sequence on the Mesoarchean sea floor affected by hydrothermal processes: The Dixon Island Formation of the coastal Pilbara Terrane, Western Australia, Island Arc, 21, 118-147, 2012. [IF: 1.012]
4. Kiyokawa, S, Koge, S, Ito, T, Ikehara, M., Kitajima, F, Yamaguchi, KE and Suganuma, Y, Preliminary report on the Dixon Island – Cleaverville Drilling Project, Pilbara Craton, Western Australia, Geological Survey of Western Australia, Record 2012/14, 39p, 2012.
5. Rella, S.F., Tada, R., Nagashima, K., Ikehara, M., Itaki, T., Ohkushi, K., Sakamoto, T., Harada, N., Uchida, M., Abrupt changes of intermediate water properties on the northeastern slope of the Bering Sea during the last glacial and deglacial period, Paleoceanography, VOL. 27, PA3203, doi:10.1029/2011PA002205, 2012. [IF: 3.357]
6. Sagawa, T., Yokoyama, Y., Ikehara, M., Kuwae, M., Shoaling of the western equatorial Pacific thermocline during the last glacial maximum inferred from multispecies temperature reconstruction of planktonic foraminifera, Palaeogeography, Palaeoclimatology, Palaeoecology, 346-347, 120-129, 2012. [IF: 2.390]
7. Sato, M., Yamamoto, Y., Nishioka, T., Kodama, K., Mochizuki, N. and Tsunakawa, H., Pressure effect on low-temperature remanence of multidomain magnetite: Change in demagnetization temperature, Geophysical Research Letters, 39, L04305, doi:10.1029/2011GL050402, 2012. [IF:3.792 ]
8. Tanaka, H., Y. Hashimoto, and N. Morita, Palaeointensity determinations from historical and Holocene basalt lavas in Iceland, Geophysical Journal International, 189, 833-845, 2012. (doi: 10.1111/j.1365-246X.2012.05412.x) [IF: 2.420]
9. Yamazaki, T., and M. Ikehara, Origin of magnetic mineral concentration variation in the Southern Ocean, Paleoceanography, doi:10.1029/2011PA002271, 2012. [IF: 3.357]
10. Paterson G.A., Biggin A.J., Yamamoto Y., and Pan Y., Towards the robust selection of Thellier-type paleointensity data: The influence of experimental noise. Geochemistry Geophysics Geosystems, 13, Q05Z43, doi:10.1029/2012GC004046, 2012. [IF: 3.02]
11. Guidry E.P., Richter C., Acton G.D., Channell J.E.T., Evans H.F., Ohneiser C., Yamamoto Y. and Yamazaki T., Oligocene–Miocene magnetostratigraphy of deep-sea sediments from the equatorial Pacific (IODP Site U1333) Geological Society, London, Special Publications, 373, doi:10.1144/SP373.7, 2012. [IFなし]
12. Palike H., Lyle M.W., Nishi H., Raffi I., Ridgwell A., Gamage K., Klaus A., Acton G., Anderson L., Backman J., Baldauf J., Beltran C., Bohaty S.M., Bown P., Busch W., Channell J.E.T., Chun C.O.J., Delaney M., Dewangan P., Jones T.D., Edgar K.M., Evans H., Fitch P., Foster G.L., Gussone N., Hasegawa H., Hathorne E.C., Hayashi H., Herrle J.O., Holbourn A., Hovan S., Hyeong K., Iijima K., Ito T., Kamikuri S., Kimoto K., Kuroda J., Leon-Rodriguez L., Malinverno A., Moore Jr T.C., Murphy B.H., Murphy D.P., Nakamura H., Ogane K., Ohneiser C., Richter C., Robinson R., Rohling E.J., Romero O., Sawada K., Scher H., Schneider L., Sluijs A., Takata H., Tian J., Tsujimoto A., Wade B.S., Westerhold T., Wilkens R., Williams T., Wilson P.A., Yamamoto Y., Yamamoto S., Yamazaki T., Zeebe R.E., A Cenozoic record of the equatorial Pacific carbonate compensation depth. Nature, 488, 609-614, 2012. [IF: 36.28]
13. Westerhold T., Rohl U., Wilkens R., Palike H., Lyle M., Dunkley Jones T., Bown P., Moore T., Kamikuri S., Acton G., Ohneiser C., Yamamoto Y., Richter C., Fitch P., Scher H., Liebrands D., and the Expeditions 320/321 scientists, Revised composite depth scales and integration of IODP Sites U1331-U1334 and ODP Sites 1218-1220. Proceedings of the Integraged Ocean Drilling Program, 320/321, doi:10.2204/iodp.proc.320321.201.， 2012. [IFなし]
14. Bart, P., and Iwai, M., The overdeepening hypothesis: How erosional modification of the marine-scape during the early Pliocene altered glacial dynamics on the Antarctic Peninsula's Pacific margin. Palaeogeography, Palaeoclimatology, Palaeoecology, 335-336，42-51, doi:10.1016/j.palaeo.2011.06.010, 2012. [IF:2.392]
15. Tauxe, L., Stickley, C.E., Sugisaki, S., Bijl, P.K., Bohaty, S., Brinkhuis, H., Escutia, C., Flores, J.A., Iwai, M., Jim´enez-Espejo, F., McKay, R., Passchier, S., Pross, J., Riesselman, C., Röhl, U., Sangiorgi, F., Welsh, K., Williams, T., Chronostratigraphic framework for the IODP Expedition 318 cores from the Wilkes Land Margin: Constraints for paleoceanographic reconstruction. Paleoceanogpraphy, 27, PA2214, doi:10.1029/2012PA002308, 2012. [IF:3.357]
16. Pross, J., Contreras, L., Bijl, P.K., Greenwood, D.R., Bohaty, S.M., Schouten, S., Bendle, J.A., Ro¨hl, U., Tauxe, L., Raine, J.I., Huck, C.E., van de Flierdt11, T., Jamieson, S.S.R., Stickley, C.E., van de Schootbrugge1, B., Escutia, C., Brinkhuis, H., and Integrated Ocean Drilling Program Expedition 318 Scientists (including Iwai, M.), Persistent near-tropical warmth on the Antarctic continent during the early Eocene epoch. Nature, 488, p.73–77, doi:10.1038/nature11300, 2012. [IF: 36.28]
17. Yamamoto Y., Data report: temporal variation in natural remanent magnetization observed for Pacific plate basement rocks: compilation from legacy data and new paleomagnetism and rock magnetism data from seafloor basalts cored during Expedition 320/321. Proceedings of the Integrated Ocean Drilling Program, 320/321, doi:10.2204/iodp.proc.320321.213.2013, 2013. [IFなし]
18. Channell J.E.T., Ohneiser C., Yamamoto Y., Kesler M., Oligocene-Miocene magnetic stratigraphy carried by biogenic magnetite at Sites U1334 and U1335 (equatorial Pacific Ocean), Geochemistry Geophysics Geosystems, 14, doi:10.1029/2012GC004429. 2013. [IF: 3.021]
19. Yamazaki T., Yamamoto Y., Acton G., Guidry E.P., Richter C., Rock-magnetic artifacts on long-term 1 relative paleointensity changes in sediments, Geochemistry Geophysics Geosystems, 14, doi:10.1029/2012GC004546. 2013. [IF: 3.021]
20. Kuwae, M., Yamamoto, M., Ikehara, K., Irino, T., Takemura, K., Sagawa, T., Sakamoto, T., Ikehara, M., and Takeoka, H., Stratigraphy and wiggle-matching-based age model of late Holocene marine sediments in Beppu Bay, southwest Japan, Journal of Asian Earth Sciences, in press. [IF: 2.152]
21. 吉岡　薫，廣瀬孝太郎，入月俊明，河野重範，野村律夫，後燈明あすみ，岩井雅夫，兵庫県播磨灘北部沿岸域における過去数百年間の珪藻群集と海洋環境の変化，第四紀研究，51, 103-117, 2012.
22. 吉岡薫，廣瀬孝太郎，入月俊明，河野重範，野村律夫，後燈明あすみ，岩井雅夫，2012，兵庫県播磨灘北部沿岸域における過去数百年間の珪藻群集と海洋環境の変化．第四紀研究，51, 103-117,2012.

■地震発生帯物質循環研究グループ

1. Sano, S., Skelton, P., Watarai, M., Iba, Y., Kondo, Y., Sato, Y., First record of early Barremian Caprinid rudist from Japan - implications for the palaeobiogeography of the Caprinidae (Bivalvia), Palaeontology, 55, 843-851, 2012. [IF: 1.570]
2. Iba, Y. Sano, S. Mutterlose. J. Kondo, Y., Belemnites originated in the Triassic-A new look at an old group. Geology, 40, 911-914, doi:10.1130/33402.1, 2012. [IF: 3.612]
3. Matsuyama H, Minami H, Kasahara H, Kato Y, Murayama M., Yumoto I., Pseudoalteromonas arabiensis sp. nov., a novel marine polysaccharide-producing bacterium. Int J Syst Evol Microbiol. 2012 doi: 10.1099/ijs.0.043604-0
4. Naruse, H., Arai, K., Matsumoto, D., Takahashi, H. Yamashita, S., Tanaka, G., Murayama, M., Sedimentary features observed in the tsunami deposits at Rikuzentakata City, Sedimentary Geology, 282, 199–215, doi.org/10.1016/j.sedgeo.2012.08.012, 2012. [IF: 1.537]
5. Hashimoto, Y., Eida, M., Kirikawa, T., Iida, R., Takagi, M., Furuya, N., Nikaizo, A, Kikuchi, T. and Yoshimitsu, T., Large amount of fluid migration around shallow seismogenic depth preserved in tectonic mélange: Yokonami mélange, the Cretaceous Shimanto Belt, Kochi, Southwest Japan, Island arc, 21, 53-64, 2012. [IF: 1.012]
6. 山岡勇太・山田悠人・近藤康生，2012．高知県の鮮新統穴内層産二枚貝チョウセンハマグリの酸素同位体比．高知大学学術研究報告（電子版），印刷中
7. 橋本善孝, 紀州白亜系四万十帯美山層のメランジュ変形構造と温度圧力履歴, 地質学雑誌補遺, 118, doi: 10.5575/geosoc.2012, 2012.
8. 道林克禎，森下知晃，村山雅史，西弘嗣，尾鼻浩一郎，鈴木庸平，高澤栄一，山田康広，横山祐典，スコットランド南東部シッカー岬とハットンの不整合，地質学雑誌，第118号, IX-X，2012.

■海底資源研究グループ

1. Nakamura, K., Watanabe, H., Miyazaki, J., Takai, K., Kawagucci, S., Noguchi, T., Nemoto, S., Watsuji, T., Matsuzaki, T., Shibuya, T., Okamura, K., Mochizuki, M., Orihashi, Y., Ura, Tamaki., Asada, A., Marie, D., Koonjul, M., Singh, M., Beedessee, G., Bhikajee, M., Tamaki, K., Discovery of New Hydrothermal Activity and Chemosynthetic Fauna on the Central Indian Ridge at 18°–20°S. PLoS ONE, 7(3), e32965. Public Library of Science. Retrieved from http://dx.doi.org/10.1371/journal.pone.0032965, 2012. [IF: 4.092]
2. Kawagucci, S., Yoshida, Y.T., Noguchi, T., Honda, M.C., Uchida, H., Ishibashi, H., Nakagawa, F., Tsunogai, U., Okamura, K., Takaki, Y., Nunoura, T., Miyazaki, J., Hirai, M., Lin, W., Kitazato, H., Takai, K., Disturbance of deep-sea environments induced by the M9.0 Tohoku Earthquake. Scientific Reports, 2(270). doi:10.1038/srep00270, 2012.
3. Noguchi, T., Tanikawa, W., Hirose, T., Lin, W., Kawagucci, S., Takashima, T., Honda, M.C., Takai, K., Kitazato, H., & Okamura, K., Dynamic process of turbidity generation triggered by the 2011 Tohoku-Oki earthquake, Geochemistry Geophysics Geosystems 13(11), 1-7, doi:10.1029/2012GC004360, 2012. [IF: 3.021]
4. Sato, M., Yamamoto, Y., Nishioka, T., Kodama, K., Mochizuki, N. and Tsunakawa, H., Pressure effect on the low-temperature remanences of multidomain magnetite: Change in the Verwey transition temperature due to high pressure. Geophysical Research Letters, 39, doi:10.1029/2011GL05040220112, 2012. [IF: 3.79]
5. Abrajevitch, A., Zyabrev, S., Didenko, A. N. and Kodama, K., Paleomagnetism of the West Sakhalin Basin: Evidence for northward displacement during the Cretaceous. Geophysical Journal International, 190, 1449-1454, 2012. [IF:2.42]
6. Fitriani, D., Safiuddin, L. O., Kodama, K. and Bijaksana, S., Method in estimating mass-specific magnetic susceptibility of strongly magnetic or low quantity substances. Latinmag Letters, 2, 1-17, 2012.
7. Noguchi, T., Hatta, M., Yamanaka, T., Okamura, K., Fast Measurement of Dissolved Inorganic Carbon Concentration for Small Volume Interstitial Water by Acid Extraction and Nondispersive Infrared Gas Analysis, Analytical Sciences, 29, 9-13, 2013. [IF: 1.255]
8. Provin, C., Fukuba, T., Okamura, K., Fujii, T., An Integrated Microfluidic System for Manganese Anomaly Detection Based on Chemiluminescence: Description and Practical Use to Discover Hydrothermal Plumes Near the Okinawa Trough, IEEE Journal of Oceanic Engineering, 38, 178-185, 2013.
9. Hojo, M., Ohta, S., Ayabe, K., Okamura, K., Kobiro, K., Chen, Z., Coordination ability of alkali metal or alkaline earth metal ions with aromatic dicarboxylate, sulfonate, or disulfonate ions in acetonitrile. Journal of Molecular Liquids, 177, 145–155, 2013. [IF: 1.580]
10. Kodama, K., Application of broadband alternating current magnetic susceptibility to the characterization of magnetic nanoparticles in natural materials. Journal of Geophysical Research, 118, 10.1029/2012JB009502, 2013. [IF: 3.02]
11. Abrajevitch, A., Hori, R.S. and Kodama, K., Rock magnetic record of the Triassic-Jurassic transition in pelagic bedded chert of the Inuyama section, Japan, Geology, 2013 (in press). [IF: 3.612]