論文 総説
原著論文 (引用回数)
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Sayco SLG, Pomares AA, Cabaitain PC, Kurihara H (2024) Reproductive consequences of thermal stress-induced bleaching in the giant clam Tridacna crocea. Marine Environmental Research 193, 106280 (2023 Nov) https://doi.org/10.1016/j.marenvres.2023.106280
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Listiawati V, Kurihara H (2023) Brown seaweed Nemacystus decipiens intensifies the effects of ocean acidification on coral Montipora digitata. Marine Environmental Research 191, 106150 (2023 Aug) https://doi.org/10.1016/j.marenvres.2023.106150
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Sayco SLG, Cabaitain PC, Kurihara H (2023) Bleaching reduces reproduction in the giant clam Tridacna gigs. Mar Ecol Prog Ser 706:47-56
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Reimer JD, Agostini S, GolbuuY, Harvet BP, Izumiyama M, Jamodiong EA, Kawai E, Kayanne H, Kurihara H, Ravasi T, Wada S, Rodolfo-Metaipa R (2023) High abundances of zooxanthellate zoantharians (Palythoa and Zoanthus) at multiple natural analogues: potential model anthozoan? Coral reefs 42: 707-715
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木田新一郎・栗原晴子・大林由美子・川合美千代・近藤能子・西岡純(2021)海洋学の10年展望2021:沿岸域 海の研究 30, 5, 87-104
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土井威志・安中さやか・高橋一生・渡辺路生・東塚知利・栗原晴子(2021)海洋学の10年展望2021:熱帯域 海の研究 30, 5, 105-130
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Listiawati V, Kurihara H (2021) Ocean warming and acidification modify top-down and bottom-up control in a tropical seagrass ecosystem. Sci Rep. 11:13605
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Kurihara H, Watanabe A, Tsugi A, Mimura I., Hongo C, Kawai T, Reimer JD, Kimoto K, Gouezo M, Golbuu Y (2021) Potential local adaptation of corals at acidified and warmed Nikko Bay, Palau. Sci Rep. 11:11192
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Yamamoto-Kawai M, Ito S, Kurihara H, Kanda J (2021) Ocean acidification state in the highly eutrophic Tokyo Bay, Japan: Controls on seasonal and interannual variability. Front Mar Sci. 8: 642041
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Machida RJ, Kurihara H, Nakajima R, Sakamaki T, Lin Y-Y, Furusawa K (2021) Comparative analysis of zooplankton diversities estimated from complement DNA and genomic DNA amplicons, metatranscriptomics, and morphological identifications. ICES J Marine Sci. 78: 3428-3443
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Reimer JD, Kurihara H, Ravasi T, Ide Y, Izumiyama M, Hayanne H (2021) Unexpected high abundance of aragonite-forming Nanipora (octocorallia; Helioporacea) at an acidified volcanic reef in southern Japan. Marine Biodiversity 51, 19
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Kurihara H (2020) Potential impacts and management of ocean acidification on Japanese marine fisheries and aquaculture. Bull Japan Fish Edu Ageo 50, 55-66.
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Kurihara H, Suhara Y, Mimura I, Golbuu Y (2020) Potential acclimatization and adaptative responses of adult and trans-generational coral larvae from a naturally acidified habitat. Front Mar Sci 7, 581160
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栗原晴子 (2020) サンゴ礁生態系への酸性化影響. 総説日本女性科学者の会学術誌 20: 41-50
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Yamamoto S, Kayanne H, Fujita N, Kurihara H, Harii S, Hemmi A, Dickson AG (2020) Development of an automated transportable system to measure the total alkalinity of seawater. Talanta 221: 121666
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Gouezo M, Doropoulos C, Fabrocius K, Olsudong D, Nestor V, Kurihara H, Golbuu Y, Harrison P (2020) Multispecific coral spawning events and extended breeding periods on an equatorial reef. Coral Reefs 39:1107-1123
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Soliman T, Fernandez-Silva I, Kise H, Kurihara H, Reimer JD (2019) Population differentiation across small distances in a coral reef-associated vermitid (Ceraesignum maximum) in Palau. Coral Reefs 38: 1159-1172
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Boyd P. W., Collins S., Dupont S., Fabricius K., Gattuso J.-P., Havenhand J., Hutchins D. A., McGraw C. M., Riebesell U., Vichi M., Biswas H., Ciotti A., Dillingham P., Gao K., Gehlen M., Hurd C. L., Kurihara H., Navarro J., Nilsson G. E., Passow U. & Pörtner H.-O. (2019) SCOR WG149 Handbook to support the SCOR Best Practice Guide for ‘Multiple Drivers’ Marine Research. 44 p. Hobart: University of Tasmania.
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Kurihara H, Watanabe A (2019) Coral reef conservation at Republic of Palau under climate change. Journal of Japan Coral reef Society 21, 35-47
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Price NN, Muko S, Legendre L, Steneck R, van Oppen MJH, Albright R et al. (全19名中14番目)(2019) Global biogeography of coral recruitment: tropical decline and subtropical increase. Mar Ecol Prog Ser 621:1-17
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Kurihara H, Wouters J, N Yasuda (2019) Seasonal calcification of the coral Acropora digitifera from a sub-tropical marginal Okinawa reef under ocean acidification. Coral Reefs, 38: 443-454
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Lebrec M, Stefanski S, Gates R, Acar S, Golbuu Y, Claudel-Rusin A, Kurihara H et al. (2019) Ocean acidification impacts in select Pacific Basin coral reef ecosystems. Regional Studies in Marine Science 28, 100584
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Wee BH, Kurihara H, Reimer JD (2019) Reduced Symbiodiniaceae diversity in Palythoa tuberculosis at a heavily acidified coral reef. Coral Reefs, 38: 311-319
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Kurihara H, Ikeda N, Umezawa Y (2018) Diurnal and seasonal variation of particle and dissolved organic matter release by the coral Acropora tennuis. Peer J 6: e5728
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Kurihara H, Shikota T (2018) Impact of increased seawater pCO2 on the host and symbiotic algae of juvenile giant clam Tridacna crocea. Galaxea, Journal of Coral Reef Studies 20: 1-20
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Boyd PW, Collins S, Dupont S, Fabricius K, Gattuso J-P, Havenhand J, Hutchins DA, Riebeselll U, Rintoul MS, Uichi M, Bissau H, Ciotti A, Tao K, Gehlen M, Hurd CL, Kurihara H, McGRaw CM, Navarro JM, Nilsson GE, Passos U, Porter H-O (2018) Experimental strategies to assess the biological ramifications of multiple drivers of ocean global ocean – a review" Global Change Biology 24, 2239-2261
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Nakajima R, Haas A, Rohwer F, Sandin S, Kurihara H, Smith J, Silver C, Kelly E, Nakatomi N, Keely L (2018) Release of dissolved and particulate organic matter by the soft coral Lobophytum and subsequent microbial degradation. Journal of Experimental Marine Biology and Ecology, 504, 53-60
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Bergman JL, Harii S, Kurihara H, Edmunds PJ (2018) Behavior of brooded coral larvae in response to elevated pCO2. Frontier Marine Science, 5, 51
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Kurihara H, Takahashi A, Reyes-Bermudez A, Hidaka M (2018) Infraspecific variation in the response of the scleractinian coral Acropora digitifera to ocean acidification. Marine Biology 165: 38-49
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Hongo C, Kurihara H, Yimnang Golbuu (2018) Coral boulders on Melekeok reef in the Palau Islands: an indicators of wave activity associated with tropical cyclones. Marine Geology 399, 14-22
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Hongo C, Kurihara H, Yimnang Golbuu (2018) Projecting of wave height and water level on reef-lined coasts due to intensified tropical cyclones and sea level rise in Palau to 2100. Natural Hazards and Earth System Sciences 18, 669-686
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Nakajima, R., Tanaka, Y., Guillemette, R., Kurihara, H. (2017) Effects of coral-derived organic matter on the growth of bacterioplankton and heterotrophic nanoflagellates. Coral Reefs. 36, 1171-1179
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Nakajima, R., Yamazaki, H., Lewis, L.S., Khen, A., Smith, J.E., Nakatomi, N., Kurihara, H. (2017) Planktonic trophic structure in a coral reef ecosystem-Grazing versus microbial food webs and the production of mesozooplankton. Progress in Oceanography 156: 104-120
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Nakajima, R., Nakatomi, N., Kurihara, H., Fox, M., Smith, J. E., Okaji, K (2016) Crown-of-Thorns starfish larvae can feed on organic matter released from corals. Diversity 8, 18
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Golbuu, Y., Gouezo, M., Kurihara, H., Rehm, L., Wolanski, E. (2016) Long-term isolation and local adaptation in Palau’s Nikko Bay help corals thrive in acidic waters. Coral Reefs, 35, 909-918
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Tanaka, K., Holocomb, M., Takahashi, A., Kurihara, H., Asami, R., Shinjo, R., Sowa, K., Rankenburg, K., Watanabe, T., McCulloch, M. (2015) Response of Acropora digitifera to ocean acidification: constraints from δ11B, Sr, Mg and Ba comopositions of aragonitic skeletons cultured under variable seawater pH. Coral Reefs, 34, 1139-1149
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Baria M.V.B.B, Kurihara, H. Harii, S. (2015) Tolerancce to elevated tempearture and ocean acidification of the larvae of solitary corals Fugia funites (Linn. 1758) and Lithophyllon (Fungia) repanda (Dana 1846) Zoological Science, accepted
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Schutter, M., Nozawa, Y. Kurihara, H. (2015) The effect of elevated CO2 and increased temperature on in Vitro fertilization success and initial embryonic development of single male:female crosses of broad spawning corals at mid- and high-latitude locations. Journal of Marine Science Engineering 3, 216-239
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Edmund, P.J., Steneck, R., Albright, A., Carpenter, R.C., Chui, A.P.Y., Fan, T.-Y., Harii, S., Kitano, H., Kurihara, H., Legendre, L., Mitarai, S., Muko, S., Nozawa, Y., Padilla-Gamino, J. Price, N.N., Sakai, S., Suzuki, G., van Oppen, M.J.H., Yarid, A., Gates, R.D. (2014) Geographic variation in long-term trajectories of change in coral recruitment: a global-to-local perspective. Marine and Freshwater Research 66, 609-622
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Aze T, Barry J, Bellerby RGJ, Brander L, Byrne M et al. (2014) An updated synthesis of impacts of ocean acidification on marine biodiversity. CBD Technical Series 75, 99pp, ISBN:92-9225-527-4
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Kurihara H, Yin R, Nishihara G, Soyano K, Ishimatsu A (2013) Effects of ocean acidification on growth, gonad development and physiology of the sea urchin Hemicentrotus pulcherrimus. Aquatic Biology, 18, 281-292 (11)
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Inoue S. Kayanne H, Yamamoto S, Kurihara H (2013) Spatial community shift from hard coral to soft corals in volcanically acidified water. Nature Climate Change. 3, 683-687 (28)
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Halsdband C, Kurihara H (2013) Potential acidification impacts in zooplankton in CCS leakage scenarios. Marine Pollution Bulletin 73, 495-503 (7)
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Takahashi A, Kurihara H (2012) Ocean acidification does not affect calcification or productivity of the tropical coral Acropora digitifera under semi-natural conditions. Coral Reefs 32, 305-314 (16)
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Kurihara H, Takano Y, Kurokawa D, Akasaka K (2012) Ocean acidification reduces biomineralization-related gene expression in the sea urchin, Hemicentrotus pulcherrimus. Marine Biology 159, 2819-2826
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Nakamura M, Morita M, Kurihara H, Mitarai S (2011) Expression of hsp70 and hsf1 in the reef coral Acropora digitifera under prospective acidified conditions over the next several decades. Biology Open1, 75-81 (7)
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Kawaguchi S, Kurihara H, King R, Hale L, Berli T, Robinson J, Ishida A, Wakita M, Virtue P, Nicole S, Ishimatsu A (2010) Will krill fare well under Southern Ocean acidification? Biology Letters. doi:10.1098/rsbl.2010.0777 (50)
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Ishimatsu A, Kurihara H (2010) Effects of CO2-induced ocean environmental changes on marine life: implications for aquaculture. Proceedings of Asean-Seafedec 36-44
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Ackley L, Kelvin W, Kurihara H, Vengatesen T (2009) The relationship between CO2 driven acidification and larval metamorphosis of the barnacle Balanus amphitrite. Journal of Experimental Marine Biology and Ecology
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Kurihara, H. (2008) Effects of CO2-driven ocean acidification on the early developmental stages of invertebrates. Marine Ecology Progress Series, 373, p.275-284.(322)
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Kurihara, H., Asai T., Kato, S., Ishimatsu, A. (2008) Impacts, Impacts of elevated pCO2 on the early development of the mussel Mytilus galloprovincialis. Aquatic Biology, 4, p. 225-233. (101)
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Kurihara, H., Matsui, M., Furukawa, H., Hayashi, M. and Ishimatsu, A. (2008) Long- term effects of predicted future seawater CO2 conditions on the survival and growth of the marine shrimp Palaemon pacificus. Journal of Experimental Biology and Ecology, 367, p. 41-46. (71)
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Kurihara, H. and Ishimatsu, A. (2008) Effects of elevated CO2 on the life cycle of copepod Acartia tsuensis. Marine Pollution Bulletin, 56, p1086-1090. (96)
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Kurihara, H., Katoh, S. and Ishimatsu, A. (2007) The impacts of acidification on the early development of oyster Crassostrea gigas. Aquatic Biology 1, p91-98. (179)
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Kurihara, H., Asai, T., Kato, S. and Ishimatsu, A. (2007) Seawater chemistry change and marine calcifiers. Proceedings of the 6th International Workshop on the Oceanography and Fisheries Science of the East China Sea, p88-92
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Kurihara, H., Ishimatsu, A. and Shirayama, Y. (2007) Effects of elevated atmospheric CO2 concentration on the meiofauna. Journal of Marine Science Technology 15, p17-22. (15)
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Kurihara H. and Ishimatsu, A. (2005) Effects of increased CO2 concentration on the marine organisms. Proceedings of the 5th International Workshop on the oceanography and fishery science of the East China Sea, p139-143
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Kurihara, H. and Shonan, A. (2005): Developmental potential of small micromeres in sea urchin embryos. Zoological Science, Zoological Science 22, p845-852 (7)
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Kurihara, H. and Shirayama, Y. (2004): Effects of increased atmospheric CO2 on sea urchin early development. Marine Ecology Progress Series 274, p161-169. (231)
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Kurihara, H., Shimode, S., Shirayama, Y. (2004): Effects of raised CO2 concentration on the egg production rate and early development of two marine copepods (Acartia steueri and Acartia erythraea). Marine Pollution Bulletin 49, p721-727 (107)
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Kurihara, H., Shimode, S., Shirayama, Y. (2004): Sub-lethal effects of elevated planktonic copepods and sea urchins. Journal of Oceanography 60 (4), p 743-750 (139)
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Kurihara, H. and Shirayama, Y. (2004): Effects of increased atmospheric CO2 and decreased pH on sea urchin embryos and gametes. Proceedings of 11th International Echinoderm Conference, Echinoderms: München, Heinzeller & Nebelsick (ed), p31-36
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Kurihara, H., Kita, J., Ishimatsu, A. and Shirayama, Y. (2004): Research on the marine ecosystem in a High-CO2 world. Proceedings of Long-term variations in the coastal environments and ecosystems, p139-143
レポート、著書 その他
水山克 栗原晴子 (2019) 日本サンゴ礁学会における今後の教育/普及啓発活動についてー自然史学会連合・体験教室【沖縄からサンゴ礁がやってきた!」を実施してー 日本サンゴ礁学会誌20, 53-60
梅澤有 栗原晴子 (2019) 広報/社会連携に関する活動の今後の展望 日本サンゴ礁学会誌20, 99-104
Kurihara H and Hongo C Paradise of Nature (Understanding the world of Palau)
栗原晴子 (2017) 4章 海洋酸性化 海の温暖化、海洋学会
琉球列島の自然講座
Impacts of Ocean Acidification on Marine Biodiversity (CBD report)
AMAP Assessment 2013: Arctic Ocean Acidification
栗原晴子(2013) ベントスII (棘皮動物、甲殻類など)に対する海洋酸性化影響 海洋と生物207: 332-337
栗原晴子(2013)海洋酸性が海洋生態系に及ぼす影響 海洋と生物207: 356-365