Focus

• 新種のヤドカリ類を発見
• 書籍「山陰（島根県・鳥取県)の異尾甲殻類」および「島根県の汽水域の短尾甲殻類」が無料出版されました
• 「人新世」とは？齋藤文紀教授による地質時代の「人新世」の解説文が出版されました
• 「リザリアライダー現象」：甲殻類が単細胞動物プランクトンを子育てに利用する可能性を発見！
• 世界2例目となる被嚢穿孔性のゴカイ類を発見
• 尾原ダム管理支所で「ダム水質予測システム」説明会を開催しました
• 黄河は、いつ誕生したのか？
• 人新世における地球上の土砂循環のレビューが出版されました
• 仲村康秀特任助教が、日本プランクトン学会の2022年論文賞を受賞しました

令和4年度(2022)受理済論文　(査読付き)

1) Gugliotta, M., Saito, Y., Ta, T.K.O., Nguyen, V.L., Croix, A.L., Wang, Z., Tamura, T., Nakashima, R., Lieu, K.P., 2022. Late Holocene stratigraphic evolution and sedimentary facies of an active to abandoned tide-dominated distributary channel and its mouth bar. Sedimentology, 69, 1151–1178. (2022.04)

2) Nara, F.W., Watanabe, T., Matsunaka, T., Yamasaki, S., Tsuchiya, N., Seto, K., Yamada, K., Yasuda, Y., 2022. Late-Holocene salinity changes in Lake Ogawara, Pacific coast of northeast Japan, related to sea-level fall inferred from sedimentary geochemical signatures. Palaeogeography, Palaeoclimatology, Palaeoecology, 592, 110907. (2022.04)

3) Hori, K., Saito, Y., 2022. Classification, Architecture, and Evolution of Large-River Deltas. In: Gupta, A., ed., Large Rivers: Geomorphology and Management. 2nd ed., John-Wiley, Chapter 6, pp. 114–145. (2022.04) ISBN: 978-1-119-41260-1 (2022.04) ISBN: 978-1-119-41260-1.

4) Matsuzaki, Y., Inoue, T., 2022. Perturbation of Boundary Conditions to Create Appropriate Ensembles for Regional Data Assimilation in Coastal Estuary Modeling. Journal of Geophysical Research-Oceans, 127(4), e2021JC017911. (2022.04)

5) Qiaola, S., Nguyen, T.M.L., Ta, T.K.O., Nguyen, V.L., Gugliotta, M., Saito, Y., Kitagawa, H., Nakashima, R., Tamura, T., 2022. Luminescence dating of Holocene sediment cores from a wave-dominated and mountainous river delta in central Vietnam. Quaternary Geochronology, 70, 101277. (2022.05.)

6) Kuroda, J., Hagino, K., Usui, Y., Bown, P. R., Hsiung, K.-H., Sakai, S., Hackney, R., Saito, S., Murayama, M., Ando, T., Ohkouchi, N., 2022. Stratigraphy around the Cretaceous-Paleogene boundary in sediment cores from the Lord Howe Rise, Southwest Pacific. GSA Bulletin, 134, 1603–1613. (2022.05) 

7) Derot, J., Yajima, H., Nakamura, N., 2022. Enhanced understanding of physicochemical constraints on Corbicula japonica habitat in Lake Shinji assisted by machine learning. Ecological Informatics, 69, 101608. (2022.07)

8) Sogawa, S., Nakamura, Y., Nagai, S., Nishi, N., Hidaka, K., Shimizu, Y., Setou, T. 2022. DNA metabarcoding reveals vertical variation and hidden diversity of Alveolata and Rhizaria communities in the western North Pacific. Deep-Sea Research Part I, 183, 103765. (2022.05)

9) Wu, X., Wang, H., Saito, Y., Syvitski, J., Bi, N., Yang, Z., Xu, J., Guan, W., 2022. Boosting riverine sediment by artificial flood in the Yellow River and the implication for delta restoration. Marine Geology, 448, 106816. (2022.06)

10) Takano, E., Nakamura, Y., Takahashi, K., 2022. Evaluation of acid-Lugol’s solution for preservation of Acantharia (Radiolaria). Thalassas, 38(2), 939–945. (2022.10)

11) Takata, H., Irino, T., Katsuki K., Woo, H.J., Lee, J.H., Lim, H.S., Ha, S., Khim, B.K., 2022. Benthic foraminifera in the Nakdong River Delta (southeast Korea) and their response to middle Holocene climatic change in the coastal environment of the East Asian margin. Journal of Asian Earth Sciences, 234, 105273. (2022.08)

12) Wang, X., Hu, G., Saito, Y., Ni, G., Hu, H., Yu, Z., Chen, J., Wang, M., Yuan, X., Wang, L., Hu, Z., Nie, J., Pan, B., 2022. Did the modern Yellow River form at the Mid-Pleistocene transition? Science Bulletin, 67, 1603–1610. (2022.08)

13) Ai, L., Han, Z., Wu, X., Liu, S., Bi, N., Saito, Y., Shi, X., Wang, H., 2022. How did the climate and human activities modulate the sedimentary evolution of the Central Yellow Sea Mud, China. Journal of Asian Earth Sciences, 235, 105299. (2022.09)

14) Patel, K., Padate, V., Osawa, M., Tiwari, S., Vachhrajani, K., Trivedi, J., 2022. An annotated checklist of anomuran species (Crustacea: Decapoda) of India. Zootaxa, 5157 (1), 1–100. (2022.06)

15) Irizuki, T., Takahashi, J., Seto, K., Ishiga, H., Fujihara, Y., Kawano, S., 2022, Response of bay ostracod assemblages to Late Holocene sea-level, centennial-scale climate, and human-induced factors in northeast Beppu Bay, Japan. Marine Micropaleotology, 174, 102002. (2022.06)

16) Abe, H., Hoshino, O., Yamada, K, Ogino, T., Kawaida, S., Sato-Okoshi, W., 2022. A novel symbiotic relationship between ascidian and a new tunic-boring Polychaete (Annelida: Spionidae: Polydora). Zootaxa, 5159 (1), 1–22. (2022.06)

17) Seto, K., Katsuki, K., Tsujimoto, A., Kitagawa, J., Yamada, K., 2022. Records of environmental and ecological changes related to excavation in varve sediment from Lake Hiruga in central Japan. Journal of Paleolimnolog, 68, 329–343.  (2022.10)

18) Osawa, M., Fujita, Y.,2022 Polyonyx haigae McNeil, 1968 (Crustacea: Decapoda: Anomura: Porcellanidae) from the Ryukyu Islands, southwestern Japan. Fauna Ryukyuana, 65, 41-51. (2022.09)

19) Hossain, H.M.Z., Kawahata, H., Sampei, Y., Feakins, S.J., Ratnayake, A.S., 2022. Organic matter and sedimentary accumulation rates in a transect of cores in the Bay of Bengal offshore Bangladesh and Andaman Sea offshore Myanmar. Marine and Petroleum Geology, 142, 105769. (2022.08)

20) Takahara, T., Fukui, K., Hiramatsu, D., Doi, H., Fujii, M., Minamoto, T., 2022. Development of primer-probe sets for environmental DNA-based monitoring of pond smelt Hypomesus nipponensis and Japanese icefish Salangichthys microdon. Landscape and Ecological Engineering,19(1), 11–19. (2023.01)

21) Ogata, S., Doi, H., Igawa, T., Komaki, S., Takahara, T., 2022.Environmental DNA methods for detecting two invasive alien species (American bullfrog and red swamp crayfish) in Japanese ponds. Ecological Research,37(6), 701–710. (2022.11)

22) Zhu, Y., Mizutani, K., Minami, K., Shirakawa, H., Kawauchi, Y., Shao, H., Tomiyasu, M., Iwahara, Y., Tamura, T., Ogawa, M., Miyashita, K., 2022. Target strength measurements of free-swimming sandeel species, Ammodytes spp., in a large indoor experimental aquarium. Journal of Marine Science and Engineering, 10, 966. (2022.07)

23) Henmi, Y., Itani, G., Osawa, M., Komai, T., 2022 A new species of the ghost shrimp genus Callianassa Leach, 1814 (Decapoda: Axiidea: Callianassidae) from Wakasa Bay, western Japan: the first representative of the genus from the Pacific region. Zootaxa. 5182(5), 465–478.  (2022.09)

24) Osawa, M., Nakajima, H., Hamamoto, K., 2022. A new infaunal species of the genus Enosteoides Johnson, 1970 (Crustacea: Decapoda: Anomura: Porcellanidae) from Okinawa, southwestern Japan. Zootaxa, 5182(6), 582–592.  (2022.09)

25) Sasaki, S., Irizuki, T., Seto, K., Suganuma, Y., 2022. Ostracoda and paleoenvironment of Holocene-raised beach sediment in Skarvsnes, East Antarctica. Paleontological Research, 26, 440–454.  (2022.10)

26) Tiwari, S., Padate, V., Cubelio, S.S., Osawa, M., 2022/23. Chirostyloid and galatheoid anomurans (Crustacea: Decapoda) from Indian waters, with descriptions of three new species. Journal of the Marine Biological Association of the United Kingdom. 102(6), 459–478. (2022.11) 

27) Wang, K., Nakamura, Y., Sasaki, J., Inoue, T., Higa, H., Suzuki, T., Hafeez, M.A., 2022. An effective process-based modeling approach for predicting hypoxia and blue tide in Tokyo Bay. Coastal Engineering Journal, 64, 458–476.  (2022.09)

28) Saito, N., Kayama, A., Nakamura, Y., 2022. First record of the maternal care behavior of a “rhizarian rider”: Phronimopsis spinifera Claus, 1879 (Amphipoda, Hyperiidea) in association with Aulosphaera sp. (Rhizaria, Cercozoa, Phaeodaria, Aulosphaeridae). Crustacean Research, 51, 111-113. (2022.12)

29) Wilder, B.T., Becker, A.T., Dettman, D.L., 2022. Marine subsidies produce cactus forests on desert islands. Scientific Reports, 12, 17110.  (2022.10)

30) Syvitski, J., Anthony, E., Saito, Y., Zăinescu, F., Day, J., Bhattacharya, J.P., Giosan, L., 2022. Large deltas, small deltas: Toward a more rigorous understanding of coastal marine deltas. Global and Planetary Change, 218, 103958.  (2022.11)

31) Hayashi, S., Masuki, S., Furuta, K., Doi, S., Kim, S.Y., Seike, Y., 2023. Phylogenetic analysis and characterization of odorous compound-producing actinomycetes in sediments in the Sanbe Reservoir, a drinking water reservoir in Japan. Current Microbiology.79, 334. (2022.11)

32) Kanna, N., Sugiyama, S., Ando, T., Wang, Y., Sakuragi, Y., Hazumi, T., Matsuno, K., Yamaguchi, A., Nishioka, J., Yamashita, Y. 2022. Meltwater discharge from marine‐terminating glaciers drives biogeochemical conditions in a Greenlandic fjord. Global Biogeochemical Cycles, 36, e2022GB007411. (2022.11)

33) Tiwari, S., Padate, V., Cubelio, S.S., Osawa, M., 2022. Squat lobsters of the genera Raymunida Macpherson & Machordom, 2000 and Munidopsis Whiteaves, 1874 (Decapoda: Anomura: Galatheoidea) from the Indian Exclusive Economic Zone, with descriptions of three new species. Journal of Natural History.v 56(41–44), 1819–1839. (2022.11)

34) Tiwari, S., Padate, V., Cubelio, S.S., Osawa, M., 2022. Two new species of the genus Galathea Fabricius, 1793 (Crustacea: Decapoda: Anomura: Galatheidae) from the Andaman Sea, India. Zootaxa. 5219(2), 175–184. (2022.12)

35) Osawa, M., Fujita, Y., 2022. A new species of the genus Eutrichopagurus Komai, 2015 (Crustacea: Decapoda: Anomura: Paguridae) from a submarine cave in the Ryukyu Islands, southwestern Japan. Zootaxa.5214 (3), 440–450. (2022.12)

36) Zhao, X., Zhang, W., Wang, F., Vu, Q.L., Saito, Y., 2023. Late Holocene sediment provenance change in the Red River Delta: a magnetic study. Catena, 220, part A 106685. (2023.01)

37) Song, B., Li, Z., Mao, L., Saito, Y., Yang, X., Yang, S., 2023. Vegetation succession, climate change and cold events during 9.2–8.0 cal kyr BP in eastern China: High-resolution pollen evidence from the Yangtze delta plain area. Palaeogeography, Palaeoclimatology, Palaeoecology, 610, 111335. (2023.01)

38) Ishiwa, T., Tokuda, Y., Sasaki, S., Itaki, T., Suganuma Y., Katsuki, K., Ikehara M., 2022. Non-destructive analysis and lithological descriptions of sediment cores from Lake Nurume, Langhovde in Lützow-Holm Bay. Polar Data Journal, 6, 80–89. (2022.11)
 

39) Chicas, S.D., Valladarez, J.G, Omine, K., Sivasankar, V., Kim, S.Y., 2023. Spatiotemporal distribution, trend, forecast and influencing factors of transboundary and local air pollutants in Nagasaki Prefecture, Japan. Scientific Reports, 13, 851.（2023.01）

40) Cho, A., Kashima, K., Baranes, H., Ladlow, C., Katsuki, K., Woodruff, J.D., 2023. Fossil diatom assemblage changes due to paleoenvironment change, tsunami and typhoon in southern Japan. Island Arc, 32, e12476. (2023.01)

41) Gasca‑Pineda, J., Galindo‑Sánchez, C.E., Martinez, M.A., Jiménez‑Rosenberg, S.P.A., Hereu, C.M., Nakamura, Y., Herzka, S.Z., Compaire, J.C., Gomez‑Reyes, R., Robles‑Flores, J., Saavedra‑Flores, A., Arteaga, M.C., 2023. Community structure and diversity of five groups of zooplankton in the Perdido region of the Gulf of Mexico using DNA metabarcoding. Aquatic Ecology, 57, 149–164. (2023.03)

42) Inoue, T., Fujita, I., 2023. Application of drifted pumice stone as a sand-capping material. Water, 15, 942. (2023.03)

43) Ogata, S., Nishiwaki, A., Yamazoe, K., Sugai, K., Takahara, T., 2023. Discovery of unknown new ponds occupied by the endangered giant water bug Kirkaldyia deyrolli (Hemiptera: Heteroptera: Belostomatidae) by combining environmental DNA and capture surveys. Entomological Science, 26, e12540. (2023.03)

44) Yanay, N., Wang, Z., Dettman, D.L., Quade, J., Huntington, K.W., Schauer, A.J., Nelson, D.D., McManus, J.B., Thirumalai, K., Sakai, S., Morillo, A.R., Mallik, A., 2022. Rapid and precise measurement of carbonate clumped isotopes using laser spectroscopy. Science Advances, 8, eabq0611.  (2022.10)

45) 引野愛子・加藤季晋・管原庄吾・林 昌平・大谷修司・千賀有希子・神門利之・江川美千子・朴 紫暎・田中秀和・清家 泰，2022．ダム湖表水層におけるヒドロキシルアミンの生成起源. 陸水学雑誌，83, 131–140. (2022.04)

46) 渡辺正巳, 2022. 堆積物がもたらす年代の爪痕-微化石(花粉)分析からわかること．地質と調査，159, 9-12．(2022.06)

47) 長岡祥平・黒田充樹・南 憲吏・沖津二朗・白川北斗・大杉奉功・東 信行・上田健太・朱 姸卉・中森 陸・佐藤信彦・宮下和士, 2022. 成層化したダム湖におけるウグイ（Pseudaspius hakonensis）の生息場と環境要因との関係の解明．Laguna (汽水域研究), 29,  99–113. (2022. 6)

48) 北村立実・鮎川和泰・増永英治・小室俊輔・大内孝雄・湯澤美由紀・浅岡大輝・三上育英・清家泰・福島武彦，2022. 自動昇降装置を用いた夏季における北浦の水温成層と貧酸素水塊の形成・消失およびリン溶出過程の検討．水環境学会誌，45(3), 135–143. （2022.05）

49) 前之園唯史・成瀬貫・大澤正幸, 2022. 奄美大島産標本に基づくケウデヤドリカニダマシ（新称） （十脚目： 異尾下目： カニダマシ科）の北限記録. Nature of Kagoshima, 49, 45–48. (2022.06)

50) 川原範子・入月俊明・会下和宏・瀬戸浩二・齋藤文紀・香月興太・田中智久・David L. Dettman：島根大学松江キャンパスにおける完新世の古環境—第22次発掘調査研究報告—．Laguna (汽水域研究), 29, 115–132. (2022. 09).

51) 矢島 啓・吉岡有美, 2022．連結系汽水湖宍道湖・中海の塩分環境に及ぼす風況の影響．土木学会論文集B1（水工学）, 78(2), I_1051-I_1056. (2022.11)

52) 吉田圭介・足立真綾・矢島 啓・山下泰司・安達 森・藤井 陽, 2022．旭川感潮域におけるアユ産卵場面積の拡大を目的とした砂州の横断掘削とその効果の検証．土木学会論文集B1（水工学）, 78(2) I_1111-I_1116. (2022.11)

53) 古里栄一・鮎川和泰・渋谷翔平・清家泰, 2022. 水面に衝突する高密度気泡噴流の拡がり半径．土木学会論文集B1（水工学），78(2), I_1033-I_1038. (2022.11)

54) 渡辺正巳・平石 充, 2023. 江戸時代以降の江島埋め立て史．Laguna (汽水域研究), 30, 1—10. (2023.03)

著書・報告書など

1) 仲村康秀, 2023. 4章 4-3 フェオダリア類．古生物学の百科事典、132-133、丸善出版 (2023.01)

2) 仲村康秀・鈴木紀毅・高橋聡, 2023. 8章 8-30 海洋一次生産の制限要因．古生物学の百科事典、388-389、丸善出版 (2023.01)

3) 齋藤文紀, 2023. 3章 3-23 人新世．古生物学の百科事典、106-107、丸善出版 (2023.01)

4) 齋藤文紀,2022．沿岸域の堆積環境と完新世の海水準変動への応答．加藤碵一・脇田浩二・斎藤眞・高木哲一・水野清秀・宮崎一博(編)，日本列島地質総覧―地史・地質環境・資源・災害―，朝倉書店, pp. 30-38. (2022.06.01)

5) 大澤正幸, 2-95. トゲエビ亜綱 Hoplocarida. 節足動物の事典, 朝倉書店 (掲載準備中)

6) 齋藤文紀, 2022. 書評「フィールドマニュアル 図説 堆積構造の世界」．第四紀研究, 61(3), 108–110. (2022.09)

7) 齋藤文紀, 2022. 地質年代区分の国際基準（GSSP）と人新世．学術の動向、2022(11)．78-81.（2022.11）

8) 南 憲吏, 2022. 3章3節 重要水産資源マナマコ―持続的な利用に向けて―．山下 洋・益田玲爾・甲斐嘉晃・鈴木啓太・邉見由美・高橋宏司(編)，里海フィールド科学―京都の海に学ぶ人と自然のつながり―，京都大学学術出版会（印刷中2022年10月予定）