<査読付き論文>

1. Nakamura T, van Woesik R (2001) Water-flow rates and passive diffusion partially explain different survival of corals during 1998 bleaching event. Marine Ecology Progress Series, 212: 301-304

2. Nakamura T, Yamasaki H, van Woesik R (2003) Water flow facilitates recovery from bleaching in the coral Stylophora pistillata. Marine Ecology Progress Series, 256: 287-291

3. Takahashi S, Nakamura T, Sakamizu M, van Woesik R, Yamasaki H (2004) Repair machinery of symbiotic photosynthesis as the primary target of heat stress for reef-building corals. Plant and Cell Physiology, 45 (2): 251-255

4. Nakamura T, Yamasaki H (2005) Requirement of water-flow for sustainable growth of Pocilloporid corals during high temperature periods. Marine Pollution Bulletin, 50: 1115-1120 doi:10.1016/j.marpolbul.2005.06.025

5. Nakamura T, vanWoesik R, Yamasaki H (2005) Water flow reduces photoinhibition of photosynthesis in endosymbiotic algae of reef-building coral Acropora digitifera (Scleractinia, Anthozoa). Marine Ecology Progress Series, 301: 109-118

6. van Woesik R, Nakamura T, Yamasaki H, Sheppard C (2005) Comment on ‘Effects of geography, taxa, water flow, and temperature variation on coral bleaching intensity in Mauritius’ (McClanahan et al. 2005). Marine Ecology Progress Series, 305: 297-299

7. Nakamura T, Yamazaki SS, Sakai K, Yamasaki H, Furushima Y, Yamamoto H (2006) Acroporid corals growing over a methane-bubbling hydrothermal vent, Southern Ryukyu Archipelago. Coral Reefs, 25: 382 DOI 10.1007/s00338-006-0107-8

8. Nakamura T, Yamasaki H (2006) Morphological changes of Pocilloporid corals by water motion. Proceedings of 10th International Coral Reef Symposium, 872-875

9. Tambunan P, Baba S, Kuniyoshi A, Iwasaki H, Nakamura T, Yamasaki H, Oku H (2006) Isoprene emission from tropical trees in Okinawa Island, Japan. Chemosphere, 65: 2138-2144 doi:10.1016/j.chemosphere.2006.06.013

10. Nakamura T, Yamasaki H (2008) Flicker light effects on photosynthesis of symbiotic algae in the reef-building coral Acropora digitifera (Cnidaria: Anthozoa: Scleractinia). Pacific Science, 62: 341-350.

11. Suzuki A, Nakamura T,·Yamasaki H, Minoshima K, Kawahata H (2008) Influence of water flow on skeletal isotopic composition in the coral Pocillopora damicornis. Coral Reefs, 27:209–218 DOI 10.1007/s00338-007-0313-z

12. Yamazaki SS, Nakamura T, Yamasaki H (2008) Photoprotective role of endolithic algae colonized in coral skeleton for the host photosynthesis. In J.F. Allen, E. Gantt, J.H. Golbeck & B. Osmond (eds.), Photosynthesis. Energy from the Sun: 14th International Congress on Photosynthesis, 1395-1398

13. Lenihan HS, Adjeroud M, Kotchen MJ, Hench JL, Nakamura T (2008) How habitat structure helps regulate spatial variation in coral bleaching. Marine Ecology Progress Series 370: 127-141 doi: 10.3354/meps07622

14. Yuen YS, Yamazaki SS, Nakamura T, Tokuda G, Yamasaki H (2009) Effects of live rock on the reef-building coral Acropora digitifera cultured with high levels of nitrogenous compounds. Aquacultural Engineering 41:35-43. doi:10.1016/j.aquaeng.2009.06.004

15. Yamazaki SS, Nakamura T, Yuen YS, Yamasaki H (2009) Reef-building coral Goniastrea aspera harbor a novel filamentous cyanobacterium in their skeleton. Proceedings of 11th International Coral Reef Symposium 935-939

16. Yuen YS, Nakamura T, Yamazaki SS, Yamasaki H (2009) Long-term effect of inorganic nitrogen enrichiment on the reef-building corals Stylophora pistillata and Acropora spp.Proceedings of 11th International Coral Reef Symposium 265-268

17. Hossain KK, Nakamura T, Yamasaki H. (2011) Effect of Nitric Oxide on Leaf Non Photochemical Quenching of Fluorescence under Heat Stress Conditions. Russian Journal of Plant Physiology 58:629-633 DOI: 10.1134/S1021443711030046

18. Iguchi A, Ozaki S, Nakamura T, Inoue M, Tanaka Y, Suzuki A, Kawahata H, Sakai K. (2012) Effects of acidified seawater on coral calcification and symbiotic algae on the massive coral Porites australiensis. Marine Environmental Research 73: 32-36 DOI:10.1016/j.marenvres.2011.10.008

19. Inoue M, Shinmen K, Kawahata H, Nakamura T, Tanaka Y, Kato A, Shinzato C, Iguchi A, Kan H, Suzuki A, Sakai K (2012) Estimate of calcification responses to thermal and freshening stresses based on culture experiments with symbiotic and aposymbiotic primary polyps of a coral, Acropora digitifera. Global and Planetary Change. 92–93: 1–7 doi:10.1016/j.gloplacha.2012.05.001

20. van Woesik R, Irikawa A, Anzai R, Nakamura T (2012) Effects of coral-colony morphologies on mass transfer and susceptibility to thermal stress. Coral Reefs. 31: 633–639 DOI:10.1016/j.marenvres.2011.10.008

21. Nakamura T, Yamasaki H (2013) Differential influence of water-flow on photoinhibition of photosynthesis in endosymbiotic algae among shallow-inhabiting scleractinian corals. Proceedings of 2nd Asia Pacific Coral Reef Symposium. Galaxea, Journal of Coral Reef Studies, 15S, 160-165

22. Baird A, Nakamura T, Yamasaki H (2013) Evolution of thermal thresholds: can corals adapt to projected rates of change in sea surface temperatures. Proceedings of 2nd Asia Pacific Coral Reef Symposium. Galaxea, Journal of Coral Reef Studies, 15S, 366-372

23. Yuen YS, Yamazaki SS, Baird A, Nakamura T, Yamasaki H (2013) Sulfate-reducing bacteria in the skeleton of the massive coral Goniastrea aspera from the Great Barrier Reef,  Proceedings of 2nd Asia Pacific Coral Reef Symposium. Galaxea, Journal of Coral Reef Studies, 15S,  154-159

24. Hayashi E, Suzuki A, Nakamura T, Iwase A, Ishimura T, Iguchi A, Sakai K, Okai T, Inoue M, Araoka D, Murayama S, Kawahata H (2013) Growth-rate influences on coral climate proxies tested by a multiple colony culture experiment. Earth and Planetary Science Letters 362: 198–206  http://dx.doi.org/10.1016/j.epsl.2012.11.046

25. Tanaka Y, Iguchi A, Inoue M, Mori C, Sakai K, Suzuki A, Kawahata H, Nakamura T (2013) Microscopic observation of symbiotic and aposymbiotic juvenile corals in nutrient-enriched seawater. Marine Pollution Bulletin. 68: 93-98 http://dx.doi.org/10.1016/j.marpolbul.2012.12.017

26. Ohki S, Irie T, Inoue M, Shinmen K, Kawahata H, Nakamura T, Kato A, Nojiri Y, Suzuki A, Sakai K, van Woesik R (2013) Symbiosis increases coral tolerance to ocean acidification. Biogeosciences Discussions. 10: 7013–7030 doi:10.5194/bg-10-6807-2013

27. Tanaka Y, Inoue M, Nakamura T, Suzuki A, Sakai K  (2014) Loss of zooxanthellae in a coral under high seawater temperature and nutrient enrichment. Journal of Experimental Marine Biology and Ecology. 457: 220-225 http://dx.doi.org/10.1016/j.jembe.2014.04.019

28. Tanaka Y, Iguchi A, Nishida K, Inoue M, Nakamura T, Suzuki A,  Sakai K  (2014) Nutrient availability affects the response of juvenile corals and the endosymbionts to ocean acidification. Limnol. Oceanogr.,. 59: 1468-1476.  doi:10.4319/lo.2014.59.5.1468

29. Nishida K, Ishikawa K, Iguchi A, Tanaka Y, Sato M, Ishimura T, Inoue M, Nakamura T, Sakai K, Suzuki A  (2014) Skeletal oxygen and carbon isotope compositions of Acropora coral primary polyps experimentally cultured at different temperatures. Geochem. Geophys. Geosyst., 15:2840-2849, doi:10.1002/2014GC005322.

30. Iguchi A, Kumagai NH, Nakamura T, Suzuki A, Sakai K, Nojiri Y (2014) Responses of calcification of massive and encrusting corals to past, present, and near-future ocean carbon dioxide concentrations. Mar Pollut Bull 89:348–355

31. Kavousi J, Reimer JD, Tanaka Y, Nakamura T (2015) Colony-specific investigations reveal highly variable responses among individual corals to ocean acidification and warming. Mar.Environ. Res. 109: 9-20. doi: 10.1016/j.marenvres.2015.05.004

32. Yuyama I, Nakamura T, Higuchi T, Hidaka M (2016) Different Stress Tolerances of Juveniles of the Coral Acropora tenuis Associated with Clades C1 and D Symbiodinium. Zoological Studies. 55:19 doi: doi:10.6620/ZS.2016.55-19

33. Kavousi J,  Tanaka Y, Nishida K,  Suzuki A, Nojiri Y, Nakamura T (2016) Colony-specific calcification and mortality under ocean acidification in the branching coral Montipora digitata. Mar.Environ. Res. 119: 161-165. doi: .1016/j.marenvres.2016.05.025

34. Kavousi J, Parkinson JE, Nakamura T (2016) Combined ocean acidification and low temperature stressors cause coral mortality. Coral Reefs. 35 (3):  903-907. doi: 10.1007/s00338-016-1459-3

35.Ohno Y, Fujita K, Toyofuku T, Nakamaura T (2016) Cytological Observations of the Large Symbiotic Foraminifer Amphisorus kudakajimensis Using Calcein Acetoxymethyl Ester. PLoS ONE 11(11): e0165844. doi:10.1371/journal.pone.0165844

36.Ohno Y, Iguchi A, Shinzato C, Inoue M, Suzuki A, Sakai K, Nakamura T (2017) An aposymbiotic primary coral polyp counteracts acidification by active pH regulation. Scientific Reports. 7: 40324. doi:10.1038/srep40324

37.Ohno Y, Iguchi A, Shinzato C, Gushi M, Inoue M, Suzuki A, Sakai K, Nakamura T (2017) Calcification process dynamics in coral primary polyps as observed using a calcein incubation method. Biochemistry and Biophysics Reports. 9: 289-294. doi.org/10.1016/j.bbrep.2017.01.006

38.Bell T, Nishida K, Ishikawa K, Suzuki A, Nakamura T, Sakai K, Ohno Y, Iguchi A, Yokoyama Y. (2017) Temperature-controlled culture experiments with primary polyps of coral Acropora digitifera: Calcification rate variations and skeletal Sr/Ca, Mg/Ca, and Na/Ca ratios. Palaeogeography, Palaeoclimatology, Palaeoecology. 484: 129-135.

39. Nakamura T,  Iguchi A, Sakai K, Suzuki A, Nojiri Y. (2017) Effects of acidified seawater on calcification, photosynthetic efficiencies and the recovery processes from strong light exposure in coral Stylophora pistillata. Marine Ecology. 38, e12444. DOI: 10.1111/maec.12444 .

40. Ikeuchi E, Ohono Y, Iguchi A, Nakamura T (2017) Non-bleached colonies of massive Porites may attract fishes for selective grazing during mass bleaching events. Peer J .  DOI: 10.7717/peerj.3470

41. Sekizawa A, Uechi H, Iguchi A, Nakamura T,Kumagai N, Suzuki A, Sakai K, Nojiri Y (2017) Intraspecific variations in responses to ocean acidification in two branching coral species. Marine Pollution Bulletin. 122: 282-287.  http://dx.doi.org/10.1016/j.marpolbul.2017.06.061

42. Nakamura T. (2017) Mass coral bleaching event in Sekisei lagoon observed in the summer of 2016. Journal of the Japanese Coral Reef Society 19: 29-40

43. 池内 絵里、井口 亮、中村 崇 (2018) 塊状ハマサンゴ群体の非白化部位に集中した魚類によるかじり取り痕. 沖縄生物学会誌 56: 53-56

44. Inoue M, Nakamura T, Tanaka Y, Suzuki A, Yokoyama Y, Kawahata H, Sakai K, Gussone N. (2018)  A simple role of coral-algal symbiosis in coral calcification based on multiple geochemical tracers. Geochimica et Cosmochimica Acta 235: 76–88

45. Iijima M, Yasumoto K, Yasumoto J, Yasumoto-Hirose M, Kuniya N, Takeuchi R, Nozaki M, Nanba N, Nakamura T, Jimbo M, Watabe S. (2019) Phosphate Enrichment Hampers Development of Juvenile Acropora digitifera Coral by Inhibiting Skeleton Formation. Mar Biotechnol. 21: 291-300. doi: 10.1007/s10126-019-09880-3.

46. Kavousi J, Denis V, Sharp V, Reimer JD, Nakamura T, Parkinson JE. (2020) Unique combinations of coral host and algal symbiont genotypes reflect intraspecific variation in heat stress responses among colonies of the reef-building coral, Montipora digitata. Marine Biology (2020) 167:23. https://doi.org/10.1007/s00227-019-3632-z

47. Chihara S, Nakamura T, Hirose E (2020) Seasonality and Longevity of the Functional Chloroplasts Retained by the Sacoglossan Sea Slug Plakobranchus ocellatus van Hasselt, 1824 Inhabiting A Subtropical Back Reef Off Okinawa-jima Island, Japan. Zoological Studies 59: 59-65  doi:10.6620/ZS.2020.59-65 

48. Iijima M, Yasumoto J, Iguchi A, Koiso K, Ushigome S, Nakajima N, Kunieda Y, Nakamura T, Sakai K, Yasumoto-Hirose M, Mori-Yasumoto K, Mizusawa N, Amano H, Suzuki A, Jimbo M, Watabe S, Yasumoto K (2021) Phosphate bound to calcareous sediments hampers skeletal development of juvenile coral. R. Soc. Open Sci. 8: 201214. https://doi.org/10.1098/rsos.201214

49. Gibu K, Ikeuchi E, Bell T, Nakamura T, Yoshioka Y, Suzuki A, Iguchi A (2022) Calcification rates of a massive and a branching coral species were unrelated to diversity of endosymbiotic dinoflagellates. Molecular Biology Reports.  https://doi.org/10.1007/s11033-022-07702-9

50. Prasetia R, Sinniger F, Nakamura T, Harii S(2022) Limited acclimation of early life stages of the coral Seriatopora hystrix from mesophotic depth to shallow reefs. Scientific Reports. 12:12836.  https://doi.org/10.1038/s41598-022-16024-6

51. Yamamoto T, Nakamura T, Toda M (2022) Verification of Natural Marking for Individual Identification Using a Duplex Marking Approach in Ijima’s Sea Snakes, Emydocephalus ijimae (Reptilia: Elapidae). Zoological Studies 61:75.  doi:10.6620/ZS.2022.61-75

52. Hazraty-Kari S, Tavakoli-Kolour P, Kitanobo S, Nakamura T, Morita M (2022) Adaptations by the coral Acropora tenuis confer resilience to future thermal stress. Communications Biology 5:1371 https://doi.org/10.1038/s42003-022-04309-5

53. Hazraty-Kari S, Morita M, Tavakoli-Kolour P, Nakamura T, Harii S (2023) Reactions of juvenile coral to three years of consecutive thermal stress. Science of the Total Environment 863: 161227  http://dx.doi.org/10.1016/j.scitotenv.2022.161227

54. Afzal MS, Takeuchi K, Iguchi A, Sakai K, Dirgantara D, Nakamura T (2023) An assessment of Ryukyu Archipelago’s coral communities over a wide latitudinal range. Deep–Sea Research II 208: 105270 https://doi.org/10.1016/j.dsr2.2023.105270

55. Gomez R, Tabalanza T, Toyama K, Herwening LK,Azuma‑Malsol M, Fujiwara M, Yin X, Nakamura T (2023) Fish mortality following sudden cold snap in Okinawa‑jima Island, Japan. Ichthyological Research. https://doi.org/10.1007/s10228-023-00914-4

56. Afzal MS, Ikeda K, Ueno M, Nakamura T (2023) Dynamics of Coral Reef Communities in the Sekisei Lagoon, Japan, Following the Severe Mass Bleaching Event of 2016. In Takeuchi I, Yamashiro H(eds.), Coral Reefs of Eastern Asia under Anthropogenic Impacts, Coral Reefs of the World 17, https://doi.org/10.1007/978-3-031-27560-9_3. 37-52

57. Dirgantara D, Afzal MS, Nakamura T (2023) Distinct patterns of coral lesion composition from national/quasi-national marine parks of Kerama and Yoron Islands, Ryukyu Archipelago, Deep-Sea Research Part II, doi: https://doi.org/10.1016/j.dsr2.2023.105309.

58. Tavakoli-Kolour P, Sinniger F, Morita M, Hazraty-Kari S, Nakamura T, Harii S (2023) Plasticity of shallow reef corals across a depth gradient. Marine Pollution Bulletin 197: 115792, https://doi.org/10.1016/j.marpolbul.2023.115792

59. Dirgantara D, Afzal MS, Nakamura T (2024) Current status of coral disease prevalence at Karimunjawa Island: correlation between land zonation and lesion occurrence. Disease of Aquatic Organizms 157: 1–17, https://doi.org/10.3354/dao03767

60. Sakata S, Inoue M, Tanaka Y, Nakamura T, Sakai K, Ikehara M and Suzuki A (2024) Assessment of chemical compositions in coral skeletons (Acropora digitifera and Porites australiensis) as temperature proxies. Front. Mar. Sci. 11:1329924. doi: 10.3389/fmars.2024.1329924

61. Jamodiong EA, Tabalanza TD, Azuma‑Malsol MA, Manzano GG, Hakim AA, Nakamura T, Reimer JD (2024) Spawn release of a Sclerophytum soft coral species in Okinawa Island, Japan. Marine Biodiversity 54:24 https://doi.org/10.1007/s12526-024-01417-9 11:1329924. doi: 10.3389/fmars.2024.1329924

62. Eri Ikeuchi, Akira Iguchi, Takashi Nakamura, Hironobu Fukami (2024) Seasonal variation of grazing scars on massive Porites corals in Sekisei Lagoon, Okinawa, Japan, Galaxea, Journal of Coral Reef Studies 26: 3-8





 <査読付き総説>

1.  Nakamura T (2010) Review: Importance of water-flow on the physiological responses of reef-building corals.  Galaxea, JCRS 12:1-14 →https://www.jstage.jst.go.jp/article/galaxea/12/1/12_1_1/_pdf

2.  諏訪僚太, 中村崇, 井口亮, 中村雅子, 守田昌哉, 加藤亜記, 藤田和彦, 井上麻夕里. 酒井一彦, 鈴木淳, 小池勲夫, 白山義久, 野尻幸宏, (2010) 海洋酸性化がサンゴ礁域の石灰化生物に及ぼす影響、海の研究, 19: 21-40.

3.中村崇, (2012) 造礁サンゴにおける温度ストレスの生理学的影響と生態学的影響、海の研究, 21: 131-144.

4.  樋口富彦,湯山育子,中村崇,(2014)総説 造礁性サンゴ類のストレスと防御機能 ―生理・遺伝子・生態の視点から―,日本サンゴ礁学会誌 第16:1-18.


<査読無し論文・総説>

1.中村 ・神木 隆行・山崎 秀雄 (分担執筆), 2003

「地球温暖化 温暖化の影響と対策 海洋生態系への影響 -サンゴ礁生態系を中心として-, 大政謙次,原沢英夫(編集), 生物の科学 「遺伝」別冊17, 裳華房, pp128136

 

2.中村 ・山崎 征太郎・神木 隆行・山崎 秀雄(分担執筆), 2006

「第10章 サンゴのストレス応答の多様性」, 第2部 生物多様性を生む機構の解明を目指して, 「美ら島の自然史-サンゴ礁島嶼系の生物多様性」 琉球大学21世紀COEプログラム編, 東海大学出版, pp.132-146.

 

3.中村 ・野島 哲・山崎 秀雄 (分担執筆), 2008

「造礁サンゴの環境応答と骨格成長」, 月刊地球特集号「バイオミネラリゼーションと石灰化 - 遺伝子から地球環境まで -, 川幡穂高 編, 海洋出版, pp.18-24.


4. Satoh T, Iguchi A, Okaji K, Nakamura T (2012) Materials for the Study of Reef-building Corals. Reports by Dr. Siro KAWAGUTI during his stay in the Palao (Palau) Tropical Biological Station in 1936-1940. English Translation and Edition by S. Kawaguti Working Group of the Japanese Coral Reef Society (JCRS) Galaxea, JCRS 14S: pp. 66


5. 中村 崇 (2015) 暑いとサンゴも夏バテする?~褐虫藻との共生によるメリットとデメリット~, 「第1章 サンゴ礁の今・昔・みらい」, 「琉球列島の自然講座 サンゴ礁・島の生き物たち・自然環境」, 琉球大学理学部「琉球列島の自然講座」編集委員会編, ボーダーインク, pp.30-38.

<書籍など>

1. 中村 崇・山城秀之 編著 (2020)「サンゴの白化ー砂漠化する海とそのメカニズムー」成山堂書店

 村崇・髙橋俊一(2020)なぜサンゴは白化するのか? pp. 64-91. 

 〇中村崇・池田香菜(2020)サンゴ礁と人間社会の関り方 pp. 128-153.


2. Status and Trends of East Asian Coral Reefs: 1983–2019. Northeast Asia, Japan, Global Coral Reef Monitoring Network, East Asia Region., 

   2022年03月, Tadashi Kimura, Takashi Nakamura, Masato Kiyomoto, Tomoki Sunobe, Kaoru Sugihara, Keiichi Nomura, Isao Hirabayashi, Fumihito Iwase, Takuma Mezaki, Shinichi Dewa, Naoko Dewa, Satoshi Nojima, Hikaru Tomikawa, Minaho Fukagawa, Takeshi Matsumoto, Katsuki Oki, Tomofumi Nagata, Kenji Iwao, Kenji Kajiwara, Go Shimada, Hisashi Matsumoto, Minoru Yoshida, Mitsuhiro Ueno, Shin Inaba, Tetsuro Sasaki, Hiroyuki Yokochi, KIMURA Tadashi, CHOU L. M., HUANG D., TUN Karenne, GOH E., 学術書, 96-104


<その他>

1. Coral assemblages of Cape Maeda and Aka Island: the establishment of permanent monitoring Sites, 2000 環境庁生物多様性センター 海域自然環境保全基礎調査 重要沿岸域生物調査 サンゴ群集生物調査報告書 長田 智史、篠原 綾、山川 栄治、部奈 千晶、中村 崇、安西 亮、Francis Freire, 野島 基、城間 メリア、Marina Papina, 末藤 正樹、岩瀬 晃啓、Robert vanWoesik

 

2. サンゴ種別の飼育条件(光・水質・水流)の解明(白化防止技術の開発)平成17年度 沖縄産学官共同研究推進事業 「地下浸透海水を利用した低コストサンゴ生産による環境保全技術の開発及び、生態系リサイクル養殖システムによる高商品価値の水産物養殖技術の開発」成果報告書 20063月 亜熱帯総合研究所 p.121

 

3. 中村 2006 「サンゴにおける水流環境の重要性」 マリンアクアリスト42: 73-77

 

4. 翻訳2008 ゾエ・リチャード、ベティ・ウィリス、カードゥン・ウォーレス「サンゴ同定トレーニングマニュアル」 沖縄リーフチェック研究会 共訳(ハナヤサイサンゴ科の翻訳) 校正担当 p.47

 

5. 中村 崇 2009「サンゴ白化に及ぼす流れの影響に注目する」 国際サンゴ礁研究・モニタリングセンター ニュースレター Lagoon 122-5


6. Nakamura T (2017) What are Corals? In: Paradise of Nature~Understanding the wonders of Nature. eds. Rengill G, Kitalong A, Tsuchiya M, Palau International Coral Reef Center, Koror, Republic of Palau, pp. 170-176


7. Nakamura T (2017) Coral Bleaching In: Paradise of Nature~Understanding the wonders of Nature. eds. Rengill G, Kitalong A, Tsuchiya M, Palau International Coral Reef Center, Koror, Republic of Palau, pp. 213-216


8. 中村 崇、James Davis Reimer、新城竜一、中村 衛、田中厚子、Hin Boo Wee (2019) テーマセッション報告 琉球大学高度統合型熱帯海洋科学技術イノベーション創出研究拠点形成事業(ORCHIDS)プロジェクトにおける海洋科学研究の取組み. 日本サンゴ礁学会誌 第21巻,1-12


9. Eakin, C. M., Devotta, D., Heron, S., Connolly, S., Liu, G., Geiger, E., Cour, J. D. L., Gomez, A., Skirving, W., Baird, A., Cantin, N., Couch, C., Donner, S., Gilmour, J., Gonzalez-Rivero, M., Gudka, M., Harrison, H., Hodgson, G., Hoegh-Guldberg, O., …Nakamura, T.,....Manzello, D. (2022). The 2014-17 Global Coral Bleaching Event: The Most Severe and Widespread Coral Reef Destruction., Research Square Platform LLC. https://doi.org/10.21203/rs.3.rs-1555992/v1