REFERENCES
本項では主に日本のメイオファウナに関する文献情報などを掲載していく予定です。
2022.10.11更新
メイオファウナの入門書
メイオファウナ全般
伊藤立則(著) 砂のすきまの生きものたち―間隙生物学入門. 海鳴社(1985/02)
日本語で書かれた唯一の入門書(絶版). 出版から30年経った今でも勉強になる名著.
Olav Giere (著) Meiobenthology: The Microscopic Motile Fauna of Aquatic Sediments. Springer (第2版, 2008) [link]
英語で書かれたメイオファウナの教科書. Kindle版もあり.
Robert P. Higgins, Hjalmar Thiel (著) Introduction to the Study of Meiofauna. Smithsonian Institution Press (1988)
英語で書かれたメイオファウナの教科書(絶版). 各動物の紹介と図版は2より充実しています.
Botosaneanu L. (著) Stygofauna Mundi: A faunistic, distributional, and ecological synthesis of the world fauna inhabiting subterranean waters (including the Marine Interstitial) Leiden E. J. BRILL (1986)
英語で書かれた世界中の地下水生動物(海産間隙性種を含む)の種リストと分布.各動物の簡単な紹介とスケッチ付き.
分類群別
線形動物門 (主に海産)
Platt HM & Warwick RM (1983) Free-living Marine Nematodes. Part I. British Enoplids. Synopses of the British Fauna (New series). 28. Cambridge University Press, Cambridge, vii + 307 pp.(絶版,入手困難)
Platt HM & Warwick RM (1988) Free-living Marine Nematodes. Part II. British Chromadorids. Synopses of the British Fauna (New series). 38. E. J. Brill/Dr. W, Backhuys, Leiden, New York, København & Köln, vii + 502 pp.(絶版,入手困難)
Warwick RM, Platt HM & Somerfield PJ (1998) Free-living Marine Nematodes. Part III. Monhysterids. Synopses of the British Fauna (New series). 53. Field Studies Council, Shrewsbury, vii + 296 pp.(絶版,入手困難)
イギリスの海産線虫を網羅した3冊組のモノグラフ兼種同定ガイド.属レベルの絵合わせ式検索表(Part I, II は同内容,IIIは改訂版)が非常に便利で,海産線虫の半分以上の属がこの本だけで同定できる.線虫を扱う分類学者・生態学者は必携の書.入手困難だが大学図書館で借りられる.
Schmidt-Rhaesa A (編) (2014) Handbook of Zoology. Gastrotricha, Cycloneuralia, and Gnathifera. Volume 2. Nematoda. Walter de Gruyter, Berlin, xvi + 759 pp. (電子書籍あり)
海産に限らず寄生虫まで,かなりの数の科・属をカバーする最新の解説書.上記文献にない属も多数収録されているが,検索表は一部の分類群にしかない.文章を頼りに同定するのは難しいので,上記文献である程度まで絞り込んでから使うのがいい.なお,検索表と本文が矛盾していたり,他属との違いが明記されていない,図がその属の典型的な特徴をとらえていないなど,間違いや不備も少なからずある.
Eyualem-Abebe, Andrássy I & Traunspurger W (編) (2006) Freshwater Nematodes. Ecology and Taxonomy. CABI Publishing, Oxfordshire & Massachusetts, xx + 752 pp. (電子書籍あり)
淡水産線虫の科・属を網羅した解説書,属までの検索表あり.過去に淡水からの報告がない属は未収録のため海産線虫の同定には不十分だが,情報自体は詳しい.同じく上記文献の補助として使うのがいい.特にChromadorida目やDesmodorida目の検索表は便利.
野沢洽治 & 吉川信博 (1990) 水生線虫クロマドラ目 形態と検索. 恒星社厚生閣, 東京, 488 pp.(絶版,入手困難)
唯一の日本語で書かれた海産・淡水産線虫の同定ガイド.主要な3分類群(広義のクロマドラ類,モンヒステラ類,エノプルス類)の1つを網羅し,属レベルの同定が可能.現在は他の目に移されている属もかなりの数が含まれる.検索表ではないので,やはり単独で使うのは難しい.
線虫学実験法編集委員会 (編) (2003) 線虫学実験法. 日本線虫学会, つくば, x + 248 pp.(絶版,入手困難)
水久保隆之 & 二井一禎 (編) (2014) 線虫学実験. 京都大学学術出版会, 京都, xxii + 324 pp. (改訂版)
日本語で書かれた線虫学全般の入門書,線虫の標本作成・観察方法が特に参考になる.改定前はDNA実験の記述が乏しく,改定後は海産線虫の章が削除されてしまったため,どちらも一長一短.
Southey JF (Ed.) (1986) Laboratory Methods for Work with Plant and Soil Nematodes, 6th Edition. Her Majesty's Stationery Office, London, 202 pp.(絶版,入手困難)
Perry RN, Hunt DJ & Subbotin SA (2021) Techniques for Work with Plant and Soil Nematodes. CABI Publishing, Oxfordshire and Boston, 290 pp. (電子書籍あり)
陸産線虫の入門書.長く絶版だったがようやく後継書が出た.線虫の標本作成・観察方法の解説が詳しく,大部分は海産線虫にもそのまま応用できる.2021年版はDNA実験や電子顕微鏡の手法も詳しい.
Maggenti A (1981) General Nematology. Springer, New York, x + 372 pp. (電子書籍あり)
線虫学全般の解説書.線虫の同定に使う解剖学用語は,この本を調べれば大抵載っている.
線虫学用語委員会 (1977) 線虫学関連学術用語集. 日本線虫研究会, 東京, 118 pp.
線虫学用語の対訳表.現在では使われていない用語もあるのと植物寄生線虫に偏っている不便はあるが,解剖学用語の日本語訳が一通り載っている.購入には日本線虫学会へ直接問い合わせが必要(2022年現在も入手可能か未確認).
石橋信義 (編) (2003) 線虫の生物学. 東京大学出版会, 東京, ix + 290 pp.
線虫学全般の紹介.具体的な研究手法の本ではないが,線虫の一般論や海産線虫研究の総説が詳しい.
日本産メイオファウナに関する文献
分類群別
顎口動物門
伊藤 (1985) 砂のすきまの生きものたち―間隙生物学入門. 海鳴社, 東京. [p. 14「石狩浜ではまれに採集される」,データなし]
Minegishi H (1996) Finding of Gnathostomulida. Zoological Science. Supplement 13: 33. [講演要旨,論文未公表.日本産顎口動物の初報告] [link]
白山 (1997) 顎口動物. In: 奥谷, 武田 & 今福 (編). 日本動物大百科 7. 無脊椎動物. 平凡社, 東京, p.56. [日本産顎口動物の写真]
白山 (2000) 顎口動物門. In: 奥谷 (編). 千葉県の自然史 7. 千葉県の動物 2. 海の動物. 千葉県史料研究財団, 千葉, p. 181. [日本産顎口動物の写真]
柴田 & 八畑 (2015).日本未記録動物門顎頭動物門 Gnathostomulidaの発見. つくば生物ジャーナル 14: 7. [卒業研究要旨,出版物か不明,出版日不明] [link]
Achatz JG & Sterrer W (2015) New Austrognathiidae (Gnathostomulida: Conophoralia) from Hong Kong and Japan: microscopic anatomy, ultrastructure and evolutionary implications. Zootaxa 3955 (2): 267–282. doi: 10.11646/zootaxa.3955.2.5 [link]
輪形動物門
腹毛動物門
Chang CY, Kubota S & Shirayama Y (2002) New marine gastrotrichs of the family Thaumastodermatidae (Gastrotricha: Macrodasyida) from Shirahama, Japan. Proceedings of the Biological Society of Washington 115:769–781.
Kawamura T (1918) Japanese Freshwater Biology. Tokyo, Syoukabou, pp. 113-115.
Lee J & Chang CY (2011) Two new species of the genus Lepidodasys (Gastrotricha, Lepidodasyidae) from Tsushima Island, Japan. Journal of Natural History 45:855–867. doi: 10.1080/00222933.2010.536266 [link]
Saito I (1937) Neue und bekannte Gastrotrichen der Umgebung von Hiroshima (Japan). Journal of Science of the Hiroshima University. Ser. B.5:245–265.
Schwank P (1990) Gastrotricha. In: Schwoerbel J & Zwick P (eds) Süsswasserfauna von Mitteleuropa. Vol. 3 Gastrotricha und Nemertini. Gustav Fisher Verlag, Stuttgart, pp 1–252.
Sudzuki M (1971a) Die das Kapillarwasser des Lueckensystems bewohnenden Gastrotrichen Japans. I. Zoological Magazine 80: 256-257.
Suzuki M (1971b) The Gastrotricha of Japan which live in the capillary water of the interstitial systems: II. Bulletin of the Biogeographical Society of Japan 27: 37-41.
Sudzuki M (1976) Microscopical marine animals scarcely known from Japan. 1. Micro- & meio- faunae around Kasado Island in the Seto Inland Sea of Japan. Proceedings of the Japanese Society of Systematic Zoology12: 5–12 with 3 plates. [link]
Sudzuki M (1979) Some aspects of the haline interstitial biota from Ryukyu Shoto, subtropical chain islands, Southwest Japan. Sesoko Marine Science Laboratory Technical Report 6:37–49, plates I–IV.
Sudzuki M (1992) Seasonal and local occurrences of the Rotifera in southwestern Islands of Japan. With lists and notes on other microscopic leading animals. Proceedings of the Japanese Society of Systematic Zoology 46: 29-70.
Suzuki TG & Furuya H (2011) Two new species of Chaetonotus (Gastrotricha, Chaetonotida, Chaetonotidae) from Japan. Zootaxa 3011:27-37.
Suzuki TG, Maeda M & Furuya H (2013) Two new Japanese species of Gastrotricha (Chaetonotida, Chaetonotidae, Lepidodermella and Dichaeturidae, Dichaetura), with Comments on the Diversity of Gastrotrichs in Rice Paddies. Zootaxa 3691:229–239.
扁形動物門
紐形動物門
Kajihara H (2007) Ototyphlonemertes dolichobasis sp. nov. (Nemertea: Hoplonemertea: Monostilifera: Ototyphlonemertidae), a new species of interstitial nemertean from Japan. Species Diversity 12:57–66. [link]
柁原 (2017) 間隙性ヒモムシ類サザレヒモ (和名新称) の多様性研究 : 分子分類学が不可欠な, 柔らかい体を持つ生き物たち. 遺伝 : 生物の科学 71: 347–352.
軟体動物門
Kano Y, Kase T & Kubo H (2003) The unique interstitial habitat of a new neritiliid gastropod, Neritilia littoralis. Journal of the Marine Biological Association of the United Kingdom 83:835–840. doi: 10.1017/S0025315403007860h [link]
環形動物門
Izuka A (1903) On a new Polygordius from Misaki (P. ijimai n. sp.). Annotationes Zoologicae Japonenses 4: 137–139.
Uchida T (1933) On the occurrence of the archiannelid, Saccocirrus major Pierantoni in Japan. Proceedings of the Imperial Academy 9: 128–129.
Uchida T (1935) Eine neue Urannelidernart, Polygordius pacificus n. sp. Proceedings of the Imperial Academy 11: 119–120.
Uchida T & Okuda S (1943) A new species of Archiannelida, Trilobodrilus nipponicus n. sp. Journal of the Faculty of Science, Hokkaido Imperial University. Ser. 6, Zoology 8: 301–305.
Yamanishi R (1973) A new species of Saccocirrus (Archiannelida) in Japan. Publications of the Seto Marine Biological Laboratory 21: 73–76.
Yamanishi R (1976) Interstitial polychaetes of Japan I. Three new pisionid worms from western Japan. Publications of the Seto Marine Biological Laboratory 23: 371–385.
山西 (1983) 日本産の間隙生多毛類(予報). ベントス研究会誌 24: 41–48
Kajihara H, Ikoma M, Yamasaki H & Hiruta SF (2015) Trilobodrilus itoi sp. nov., with a re-description of T. nipponicus (Annelida: Dinophilidae) and a molecular phylogeny of the genus. Zoological Science 32: 405–417. doi: 10.2108/zs140251 [link]
Jimi N, Fujimoto S & Imura S (2020) A new interstitial genus and species of Acrocirridae from Okinawa-jima Island, Japan. Zoosymposia 19: 164–172. doi: 10.11646/zoosymposia.19.1.17 [link]
Jimi N, Minokawa T, Miura T & Kajihara H (2020) Meiobenthic Polychaete Dinophilus sp. cf. gyrociliatus (Annelida: Dinophilidae) from Japan with SEM Observation and DNA Barcodes. Species Diversity 25: 213-218. doi: 10.12782/SPECDIV.25.213 [link]
Jimi N, Fujimoto S, Takehara M & Imura S (2021) Black spicules from a new interstitial opheliid polychaete Thoracophelia minuta sp. nov. (Annelida: Opheliidae). Scientific Reports 11: 1557. doi: 10.1038/s41598-020-80702-6 [link]
緩歩動物門 (海産)
森川 (1951) 海棲クマムシの採集. 採集と飼育 13:170–172.
Sudzuki M (1979) Some aspects of the haline interstitial biota from Ryukyu Shoto, subtropical chain islands, Southwest Japan. Sesoko Marine Science Laboratory Technical Report 6:37–49, plates I–IV.
Tsurusaki N (1980) A new species of marine interstitial tardigrada of the genus Hypsibius from Hokkaido, Northern Japan. Annotationes Zoologicae Japonenses 53:280–284.
Hiruta S (1985) A new species of marine interstitial Tardigrada of the genus Stygarctus Schulz from Hokkaido, Japan. Special Publication of the Mukaishima Marine Biological Station, 245, 127–129.
Noda H (1985) Description of a new subspecies of Angursa biscupis Pollock (Heterotardigrada, Halechiniscidae) from Tanabe Bay, Japan. Publications of the Seto Marine Biological Laboratory 30:269–276.
Noda H (1987) A new species of marine Tardigrada of the genus Florarctus (Heterotardigrada, Halechiniscidae) from Japan. Publications of the Seto Marine Biological Laboratory 32:323–328.
Noda H (1989) The first occurrence of coronarctid tardigrade from the shallow water. Zoological Science 6:1220.
Noda H (1993) Stygarctid tardigrade showing neoteny from Kuroshima Island, Ryukyu Archipelago. Zoological Science 10(Suppl):175.
Noda H (1994a) Tardigrades from sand beaches in Okinawa. Proceeding of Japanese Society of Systemaitc Zoology 51:79 [for got Japanese title!]
Noda H (1994b) Two renaudarctids (Arthrotardigrada) from Ryukyu Archipelago, Japan. In: Abstracts of the 6th International Symposium on Tardigrada, Selwyn College, Cambridge, 22–26 August 1994. [Unpublished conference abstract]
Noda H (1994c) An undescribed Anisonyches sp. (Tardigrada) with a large basal spur on the external claw from Ryukyu Islands. Zoological Science 11(Suppl):33.
Noda H (1998) Two halechiniscid tardigrades from Japan and a similarity in marine tardigrade fauna between Japan and the Mediterranean. Zoological Science 15(Suppl):37.
虻川 (2010) 北海道沿岸域の海産クマムシ4種. うみうし通信 69:8–9.
鈴木 (2010) 日本沿岸に生息する緩歩動物 -島原湾のクマムシ-. うみうし通信 67:2–3
Jørgensen A, Faurby S, Hansen JG, Møbjerg N & Kristensen RM (2010). Molecular phylogeny of Arthrotardigrada (Tardigrada). Molecular Phylogenetics and Evolution 54: 1006–1015. doi: 10.1016/j.ympev.2009.10.006 [link] [日本から数種報告]
Fujimoto S & Miyazaki K (2013) Neostygarctus lovedeluxe n. sp. from the Miyako Islands, Japan: The first record of Neostygarctidae (Heterotardigrada: Arthrotardigrada) from the Pacific. Zoological Science 30: 414-419. doi: 10.2108/zsj.30.414 [link]
Fujimoto S, Miyazaki K & Suzuki AC (2013) A new marine tardigrade, Tanarctus diplocerus (Arthrotardigrada: Halechiniscidae) from Japan. Journal of the Marine Biological Association of the United Kingdom 93:955-961. doi: 10.1017/S0025315412000689 [link]
Fujimoto S (2014) A new Stygarctus (Arthrotardigrada: Stygarctidae) from Japan, with entangled seminal receptacle ducts. Zootaxa 3784:187-195. doi: 10.11646/zootaxa.3784.2.8 [link]
Suzuki AC & Kristensen RM (2014) Spermatozoa in the reproductive system of a hermaphroditic marine tardigrade, Orzeliscus belopus (Tardigrada: Arthrotardigrada). Zoologischer Anzeiger 253:497–511. doi: 10.1016/j.jcz.2014.07.003 [link]
Fujimoto S (2015a) Halechiniscidae (Heterotardigrada, Arthrotardigrada) of Oura Bay, Okinawajima, Ryukyu Islands, with descriptions of three new species. ZooKeys, 483:149-166. doi: 10.3897/zookeys.483.8936 [link]
Fujimoto S (2015b) Quisarctus yasumurai gen. et sp. nov. (Arthrotardigrada: Halechiniscidae) from a submarine cave, off Iejima, Ryukyu Islands, Japan. Zootaxa. 3948:145-150. doi: 10.11646/zootaxa.3948.1.10 [link]
節足動物門
Acari
Abé H (1997) Halacarid mites of the genus Actacarus (Acari: Halacaridae) from Hokkaido, northren Japan. Species Diversity 2:31–42.
Karasawa S & Aoki J (2005) Oribatid mites (Arachnida: Acari: Oribatida) from the marine littoral of the Ryukyu Archipelago, Southwestern Japan. Species Diversity 10: 209–223.
Matsumoto N, Kajihara H & Mawatari SF (2005) Hygrobates (Hygrobates) capillus sp. nov. (Arachnida: Acari: Hydrachnidia: Hygrobatidae) from South-central Honshu, Japan, with records of two allied species. Species Diversity 10: 27–36.
Abé H (2010) Redescription of the first Japanese halacarid mite, Halacarus spongiphilus (Arachnida: Acari: Halacaridae). Species Diversity 15:109–117.
Harpacticoida
Mori T (1938) Tigriopus japonicus, a new species of neritic Copepoda. Zoological Magazine 50: 294–295.
Itô T (1968) Descriptions and records of marine harpacticoid copepods from Hokkaido I. Journal of the Faculty of Science, Hokkaido University. Series 6, Zoology 16: 369–381.
Itô T (1969) Descriptions and records of marine harpacticoid copepods from Hokkaido, II. Journal of the Faculty of Science, Hokkaido University. Series 6, Zoology 17: 58–77.
Itô T (1970a) Descriptions and records of marine harpacticoid copepods from Hokkaido, III. Annotationes Zoologicae Japonenses 43: 211–218.
Itô T (1970b) The biology of a harpacticoid copepod, Tigriopus japonicus Mori. Journal of the Faculty of Science, Hokkaido University. Series 6, Zoology 17: 474–500.
Itô T (1971a) A new species of the genus Cletopsyllus from Sagami Bay (Harpacticoida). Annotationes Zoologicae Japonenses 44: 117–124.
Itô T (1971b) The biology of a harpacticoid copepod, Harpacticus uniremis Kröyer. Journal of the Faculty of Science, Hokkaido University. Series 6, Zoology 18: 235–255.
伊藤 (1971) ハルパクチクス類 (撓脚類) の研究 (採集と分類). 生物教材 7: 1–20.
Itô T (1972a) Descriptions and records of marine harpacticoid copepods from Hokkaido, IV. Journal of the Faculty of Science, Hokkaido University. Series 6, Zoology 18: 305–336.
Itô T (1972b) On the fifth copepodid stage of a harpacticoid copepod of the genus Cletopsyllus from Sagami Bay. Journal of the Faculty of Science, Hokkaido University. Series 6, Zoology 18: 406–410.
Itô T (1973a) Three species of marine harpacticoid copepods from Amakusa, Kyushu. Journal of the Faculty of Science, Hokkaido University. Series 6, Zoology 18: 516–531.
Itô T (1973b) Ventral nerve cord of Tigriopus jaoonicus Mori (Copepoda, Harpacticoida). Annotationes Zoologicae Japonenses 46: 45–48.
Itô T (1974b) Descriptions and records of marine harpacticoid copepods from Hokkaido, V. Journal of the Faculty of Science, Hokkaido University. Series 6, Zoology 19: 546–640.
Itô T (1976a) Morphology of the copepodid stages of Zaus robustus Itô and Paratigriopus hoshidei Itô from Japan, with reference to some biological observations (Harpacticoida: Harpacticidae). Journal of the Faculty of Science, Hokkaido University. Series 6, Zoology 20: 211–229.
Itô T (1976b) Descriptions and Records of Marine Harpacticoid Copepods from Hokkaido, VI. Journal of the Faculty of Science, Hokkaido University. Series 6, Zoology 20: 448–567.
Itô T (1977) New species of marine harpacticoid copepods of the genera Harpacticella and Tigriopus from the Bonin Islands, with reference to the morphology of copepodid stages. Journal of the Faculty of Science, Hokkaido University. Series 6, Zoology 21: 61–91.
Itô T & Kikuchi Y (1977) On the Occurrence of Harpacticella paradoxa (Brehm) in Japan; a fresh-water harpacticoid copepod originally described from a chinese lake. Annotationes Zoologicae Japonenses 50: 40–56.
Kito K (1977) Phytal animals in the Sargassum confusum region in Oshoro Bay, Hokkaido: phenology of harpacticoid copepods. Journal of the Faculty of Science, Hokkaido University. Series 6, Zoology 20(4): 691–696.
Itô T (1978a) A new species of marine interstitial harpacticoid copepod of the genus Arenopontia from the Bonin Islands, southern Japan. Annotationes Zoologicae Japonenses 51: 47–55.
Itô T (1979a) A new species of marine harpacticoid copepod of the genus Zausodes from the Bonin Islands. Journal of the Faculty of Science, Hokkaido University. Series 6, Zoology 21: 373–382.
Itô T (1979b) Descriptions and records of marine harpacticoid copepods from Hokkaido, VII. Journal of the Faculty of Science, Hokkaido University. Series 6, Zoology 22: 42–68.
Itô T (1980b) Two species of the genus Longipedia Claus from Japan, with reference to the taxonomic status of L. weberi previously reported from Amakusa, southern Japan (Copepoda: Harpacticoida). Journal of Natural History 14: 17–32.
Itô T & Takashio T (1980) Canthocamptus mirabilis Štěrba (Copepoda, Harpacticoida) from Hokkaido, northern Japan. Annotationes Zoologicae Japonenses 53: 210–219.
Itô T (1981) Descriptions and records of marine harpacticoid copepods from Hokkaido, VIII. Journal of the Faculty of Science, Hokkaido University. Series 6, Zoology 22: 422–450.
Itô T & Takashio T (1981) The larval development of Canthocamptus mirabilis Štĕrba (Copepoda, Harpacticoida), with reference to the bionomics. Journal of the Faculty of Science, Hokkaido University. Series 6, Zoology 22: 279–300.
Itô T (1985) A new subspecies of Longipedia andamanica Wells from the Pacific coast of Japan, with reference to the morphology of L. coronata Claus (Copepoda: Harpacticoida). Publications of the Seto Marine Biological Laboratory 30: 307–324.
Ishida T (1997) Bryocamptus yohteiensis, a new harpacticoid copepod (Crustacea) from Hokkaido, Japan. Species Diversity 2: 25–30.
Ishida T & Kikuchi Y (1999) Canthocamptus iaponicus (Crustacea: Copepoda: Harpacticoida), and three new species of the genus from Japan. Species Diversity 4: 339-352.
Ueda H & Nagai H (2005) Amphiascus kawamurai, a new harpacticoid copepod (Crustacea: Harpacticoida: Miraciidae) from Nori cultivation tanks in Japan, with a redescription of the closely related A. parvus. Species Diversity 10: 249–258.
Karanovic T & Abe Y (2010) First record of the harpacticoid genus Morariopsis (Crustacea: Copepoda: Canthocamptidae) in Japan, and its zoogeographic implications. Species Diversity 15: 185–208.
Song SJ, Dahms HU & Khim JS (2012) A review of Leptocaris including a description of L. ryukyuensis sp. nov. (Copepoda: Harpacticoida: Darcythompsoniidae). Journal of the Marine Biological Association of the United Kingdom 92:1073–1081. doi: 10.1017/S0025315411001949 [link]
Cyclopoida
Chang CY (2011) First record of the genus Cyclopinoides (Copepoda, Cyclopoida, Cyclopinidae) from the Pacific. Animal Cells and Systems 15:63–72. doi: 10.1080/19768354.2011.555132 [link]
Ueda H & Nagai H (2012) Two new species of Halicyclops (Crustacea: Copepoda: Cyclopidae) from Honshu with a key to the species of the genus in Japan. Species Diversity 17: 97–107.
Ostracoda
Nakao Y & Tsukagoshi A (2002) Brackish-water Ostracoda (Crustacea) from the Obitsu River estuary, central Japan. Species Diversity 7:67–115.
Smith RJ & Kamiya T (2003) Three brackish-water ostracods (Crustacea) from Ushimado, Okayama prefecture, Japan. Species Diversity 8: 79–91.
Smith RJ & Hiruta S (2004) A new species of Metacypris (Crustacea: Ostracoda: Cytheroidea: Limnocytheridae) from Hokkaido, Japan. Species Diversity 9: 37–46.
Higashi R & Tsukagoshi A (2008) Two new species of Microloxoconcha (Crustacea: Ostracoda: Podocopida) from Japan, with a redescription of the genus. Species Diversity 13: 157–173.
Watanabe S, Tsukagoshi A & Higashi R (2008) Taxonomy and ecology of two new interstitial cytheroid Ostracoda (Crustacea) from Shimoda, central Japan. Species Diversity 13: 53–71.
Smith RJ & Janz H (2009) Recent ostracods of the superfamilies Cytheroidea and Darwinuloidea (Crustacea) from Lake Biwa, a Japanese ancient lake. Species Diversity 14: 217–241.
Tanaka H, Tsukagoshi A & Hiruta S (2010) A new combination in the genus Parapolycope (Crustacea: Ostracoda: Myodocopa: Cladocopina), with the description of a new species from Japan. Species Diversity 15: 93–108.
Yamada S & Tanaka H (2011) First report of an interstitial Semicytherura (Crustacea: Ostracoda: Cytheruridae: Cytherurinae): a new species from central Japan. Species Diversity 16: 49–63.
Hiruta SF & Mawatari SF (2013) Ostracods (Crustacea) from Sarobetsu marsh, northern Hokkaido, Japan: taxonomy and phenology with description of Pseudocandona tenuirostris sp. nov. Species Diversity 18: 57–74.
Amphipoda
Shimomura M, Ohtsuka S & Tomikawa K (2006) Ingolfiella inermis n. sp., a new interstitial ingolfiellid amphipod from Okinawa, southern Japan (Peracarida, Amphipoda). Crustaceana 79:1097–1105. [link]
Isopoda
Nunomura N (1973) Description of Microcerberus kiiensis, n. sp.: primary record of the suborder Microcerberidea (Crustacea, Isopoda) in Japan. Publications of the Seto Marine Biological Laboratory 21: 87–93.
Itô T (1974a) A new species of marine interstitial isopod of the genus Microcerberus from Hokkaido. Journal of the Faculty of Science, Hokkaido University. Series 6, Zoology 19: 338–348.
Itô T (1975) A new species of marine interstitial isopod of the genus Microcerberus from the Bonin Islands. Annotationes Zoologicae Japonenses 48: 119–128.
Shimomura M (2005) Microjaera morii, a new interstitial isopod from Japan (Crustacea: Asellota: Janiridae). Bulletin of the Kitakyushu Museum of Natural History and Human History Series A 3: 115–120.
線形動物門 (海産)
<総説>
吉川 (1992) 日本産自由生活性海産線虫の研究概観. In: 中園 (編), 線虫研究の歩み. 日本線虫研究会20周年記念誌. 日本線虫研究会, つくば, pp. 64–68. [日本の海産線虫に関する文献目録]
鬼頭 (2000) 線虫類 Nematoda—海産. In: 山田 (編), 動物系統分類学. 追補版. 中山書店. 東京, pp. 142–147. [上記の補完]
嶋田 (2022) 線形動物門—近年に日本から記載された海産自活性15種. In: 京都大学フィールド科学教育研究センター瀬戸臨海実験所創立100周年記念出版編集委員会 (編), 海産無脊椎動物多様性学—100年の歴史とフロンティア. 京都大学出版会, 京都, pp. 108–119.
<記載分類>
(?) Steiner G (1921) Untersuchungen über den allgemeinen Bauplan des Nematodenkörpers. Zoologische Jahrbücher. Abteilung für Anatomie und Ontogenie der Tiere 43: 1–96, with 3 plates. [Enchelidium japanicum,形態学の論文中に簡単な記述のみ.産地情報がなく日本産か不明]
Steiner G & Hoeppli R (1926) Studies on the exoskeleton of some Japanese marine nemas. Archiv für Schiffs- und Tropen-Hygiene Pathologie und Therapie Exotischer Krankheiten 30: 547–576. [日本の海産自活性線虫であることが確実な最初の文献]
Tokioka T (1949) Droplets from the plankton net. Publications of The Seto Marine Biological Laboratory 1: 47–55. [link]
Allgén CA (1951) Papers from Dr. Th. Mortensen's Pacific Expedition 1914–16. LXXVI. Pacific freeliving marine nematodes. Videnskabelige Meddelelser fra Dansk naturhistorisk Forening i København 113: 263–411.
Wieser W (1955) A collection of marine nematodes from Japan. Publications of The Seto Marine Biological Laboratory 4: 159–181. [link]
Kito K (1976) Studies on the free-living marine nematodes from Hokkaido. I. Journal of the Faculty of Science, Hokkaido University. Series 6, Zoology 20: 568–578. [link]
Kito K (1977) Studies on the free-living marine nematodes from Hokkaido. II. Proceedings of the Japanese Society of Systematic Zoology 13: 17–23. [link]
Allen MW & Noffsinger EM (1978) A revision of the marine nematodes of the superfamily Draconematoidea Filipjev, 1918 (Nematoda: Draconematina). University of California Publications in Zoology 109: 1–133.
Kito K (1978a) Five species of marine nematodes of the genus Chromadora Bastian from Japan. Annotationes Zoologicae Japonenses 51: 164–178. [link]
Kito K (1978b) Studies on the free-living marine nematodes from Hokkaido. III. Journal of the Faculty of Science, Hokkaido University. Series 6, Zoology 21: 248–261. [link]
Yoshimura K (1980a) Free-living marine nematodes from Kii Peninsula. I. Publications of The Seto Marine Biological Laboratory 25: 39–49. [link]
Yoshimura K (1980b) Five species of the genus Eurystomina Filipjev, 1921. Publications of The Seto Marine Biological Laboratory 25: 373–387. [link]
Kito K (1981) Studies on the free-living marine nematodes from Hokkaido. IV. Journal of the Faculty of Science, Hokkaido University. Series 6, Zoology 22: 250–278. [link]
Yoshimura K (1982) Free-living marine nematodes from Kii Peninsula. II. Publications of The Seto Marine Biological Laboratory 27: 133–142. [link]
Aryuthaka C (1989a) Two new species of the genus Rhynchonema (Nematoda, Xyalidae) from Amakusa, South Japan. Hydrobiologia 171: 3–10. [link]
Aryuthaka C (1989b) Some free-living marine nematodes from a seagrass (Zostera marina) bed and the adjacent intertidal zone, Amakusa, South Japan. Publications from the Amakusa Biological Laboratory, Kyushu University 10: 1–15.
Kito K & Hope WD (1999) Leptosomatides brevicaudatus n. sp. and a redescription of Leptosomatides marinae Platonova, 1967 (Enoplida: Leptosomatidae). Journal of Nematology 31: 460–474. [link]
Kito K & Nakamura T (2001) A new species of Chromadorina (Nematoda: Chromadoridae) discovered in a laboratory aquarium. Species Diversity 6: 111–116. [link]
Shimada D, Kajihara H & Mawatari SF (2009) Three new species of free-living marine nematodes (Nematoda: Enoplida) from northern Japan. Species Diversity 14: 137–150. [link]
Shimada D, Kakui K & Kajihara H (2012) A new species of deep-sea nematode, Micoletzkyia mawatarii sp. nov. (Nematoda: Enoplida: Phanodermatidae) from Northern Japan. Species Diversity 17: 221–226. [link]
Shimada D & Kajihara H (2014) Two new species of free-living marine nematodes of Adoncholaimus Filipjev, 1918 (Oncholaimida: Oncholaimidae: Adoncholaiminae) from Hokkaido, northern Japan, with a key to species and discussion of the genus. Nematology 16: 437–451. [link]
嶋田 (2014) 礼文島の海産自由生活性線虫類 (線形動物門,エノプルス目) [Free-living marine nematodes (Nematoda: Enoplida) from Rebun Island]. 利尻研究 [Rishiri Studies] 33: 67–71. [link]
Shimada D & Kakui K (2015) First record of the free-living marine nematode Deontostoma magnificum (Timm, 1951) Platonova, 1962 (Nematoda: Leptosomatidae) from Japan. Nematological Research 45: 13–18. [link]
Leduc D & Sinniger F (2017) Combining morphological and molecular data to classify Laxus sakihariiae sp. n., a new stilbonematine nematode (Nematoda: Desmodoridae) from the coast of Sesoko Island, Japan. Nematology 20: 81–95. [link]
Shimada D & Kakui K (2019) Two new and one known species of Phanodermatidae (Nematoda: Enoplida) from Sagami Bay, Japan. Zootaxa 4608(3): 484–500. [link]
Shimada D & Kakui K (2020) A new species of free-living marine nematode, Proplatycoma tsukubae sp. nov. (Enoplida: Leptosomatidae), from Japan. Species Diversity 25: 205–211. [link]
Shimada D & Kakui K [2021 (オンライン版), 2022 (印刷版)] Three free-living marine nematodes from Sagami Bay, Japan, with a description of Wiesoncholaimus jambio sp. nov. (Nematoda: Oncholaimidae). Zoological Science 39: 106–114. [オンライン版も命名規約の出版要件を満たす] [link]
Lee H, Lee H & Rho H (2021) Oncholaimus tripapillatus sp. nov., a new free-living marine nematode of the genus Oncholaimus Dujardin, 1845 (Nematoda: Enoplida: Oncholaimidae) from the subtidal sediment of Dokdo Island, East Sea, Korea, with a new record of O. qingdaoensis Zhang & Platt, 1983. Journal of Marine Science and Engineering 9: 1334. [link]
Leduc D [2021 (オンライン版), 2022 (印刷版)] Zalonema sesokoensis n. sp. (Nematoda: Desmodoridae), a new nematode species from subtidal sediments of Sesoko Island, Japan. Galaxea, Journal of Coral Reef Studies 24: 91–97. [オンライン版は命名規約の出版要件を満たさない] [link]
Shimada D, Komiya T & Yoshiga T [2021 (オンライン版), 2022 (印刷版)] A new species of free-living marine nematode, Diplolaimella ariakensis n. sp. (Nematoda: Monhysteridae), from the Ariake Sea, Japan. Nematology 24: 321–331. [オンライン版は命名規約の出版要件を満たさない] [link]
Shimada D, Kakui K & Fujita Y (2023) A new species of free-living marine nematode, Fotolaimus cavus sp. nov. (Nematoda, Oncholaimida, Oncholaimidae), isolated from a submarine anchialine cave in the Ryukyu Islands, southwestern Japan. Zoosystematics and Evolution 99: 519–533. [link]
<生物相調査>
(?) を,あ [丘浅次郎?] (1889) 相州三浦郡三崎町にて表面集めに取れたる動物の表. 動物学雑誌 1(11): 396–399. [プランクトンネット混獲, 海産自活性か不明.] [link]
(?) やつ [谷津直秀?] (1991) 浮流動物雑記. 動物学雑誌 13(152): 219–221. [プランクトンネット混獲, 海産自活性か不明] [link]
Sudzuki M (1976) Microscopical marine animals scarcely known from Japan. 1. Micro- & meio- faunae around Kasado Island in the Seto Inland Sea of Japan. Proceedings of the Japanese Society of Systematic Zoology12: 5–12 with 3 plates. [link]
Kito K (1987) Free-living marine nematodes from Sesoko Island and Bise Zaki, Okinawa: preliminary account. Galaxea. Publication of Sesoko Marine Science Center, the University of the Ryukyus 6: 69–73.
Shirayama Y & Ohta S (1990) Meiofauna in a cold-seep community off Hatsushima, Central Japan. Journal of the Oceanographical Society of Japan 46: 118–124. [link]
白山 (1992) 「しんかい2000」第541回潜航において,伊平屋海凹海域で採集されたメイオファウナについて [Studies of meiofauna collected from the Iheya Ridge during the Dive 541 of the "SHINKAI 2000"]. しんかいシンポジウム報告書 [Technical Report of Japan Marine Science and Technology Center. The 8th Symposium on Deep Sea Research Using the Submersible "SHINKAI 2000" System] 8: 287–290. [link]
白山 (2000) 線形動物門. In: 奥谷 (編). 千葉県の自然史 7. 千葉県の動物 2. 海の動物. 千葉県史料研究財団, 千葉, pp. 189–193.
橋本, 下出 & 菊池 (2006) 相模湾真鶴半島の海産自由生活性線虫類について [Free-living marine nematodes in the shallow area off Manazuru Peninsula in Sagami Bay, Japan]. 国立科学博物館専報 [Memoirs of the National Science Museum] 41: 209–215.
鬼頭 (2008a) 線形動物門双器綱について. In: 環境省自然環境局生物多様性センター (編), 第7回自然環境保全基礎調査 浅海域生態系調査 (藻場調査) 報告書. 環境省自然環境局生物多様性センター, 富士吉田, pp. 249–252. [link]
鬼頭 (2008b) 日本沿岸の藻場に生息する自活性線虫類とその分布 [Free-living marine nemtodes in algal and seagrass beds along the coast of Japan, with special reference to their distribution]. 札幌医科大学医学部人文自然科学紀要 [Journal of Liberal Arts and Sciences, Sapparo Medical University, School of Medicine] 49: 21–30.
<目録・図鑑>
飯塚 (1907) ぽんとねま (Pontonema marinum). 海産動物学. 博文館, 東京, p. 187. [序文に「引例ハ殆ンド總テ之ヲ本邦所産ノモノニ採リ」とあるので日本産と思われるが産地は不明] [link]
秋山 (1914) エノプルス Enoplus. 内外普通動物誌 無脊椎動物編. 興風社, 東京, p. 1052. [日本産か不明] [link]
福井 (1960) 海産自由生活線虫類に就いて [On free living marine nematodes]. 横浜市立大学論叢 (自然科学系列) [Bulletin of the Yokohama Municipal University Society (Natural Science)] 11: 168–176.
時岡 (1965) エウリストミナ Eurystomina omatum (EBERTH), クロマドラ・ヌヂカピタータ Chromadora nudicapitata BASTIAN, エウクロマドラ Euchromadora tokiokai WlESER, ケートゾーマ Chaetosoma sp. In: 岡田要 (編), 新日本動物図鑑 上. 北隆館, 東京, pp. 431–432.
時岡 & 鬼頭 (1979) エノプルス・アニソスピキュルス Enoplus anisospiculus NELSON, HOPPER et WIESER, エウリストミナ・オフタルモフォラ Eutystomina ophthalmophora (STEINER), にっぽんりゅうせんちゅう Draconema japonicum KITO, クロマドラ・ヌディカピタータ Chromadora nudicapitata BASTIAN, エウクロマドラ・トキオカイ Euchromadora tokiokai WIESER. In: 内田亨 (編). 新編日本動物図鑑. 北隆館, 東京, pp. 160–161.
稲葉 (1988) 線虫動物門 (円形動物門) Phylum Nematoda C. Vogt, 1851. (Nemathelminthes Gegenbaur, 1859). In: 稲葉 (編), 向島臨海実験所創立50周年記念出版. 増補改訂 瀬戸内海の生物相. II. 広島大学理学部付属向島臨海実験所, 広島, pp. 217–219.
吉村 (1992) 線形動物門. In: 西村三郎 (編), 原色検索日本海岸動物図鑑. 保育社, 東京, pp. 212–215.
向井 (2004) 厚岸湾・厚岸湖の生物相 Ver. 9 [Fauna and Flora in Akkeshi Bay and Akkeshi-ko Estuary. Ver. 9]. 北海道大学厚岸臨海実験所, 厚岸町, 42 pp.
<研究手法>
石黒 (2021) 線虫類の長期保管に向けた固定・保存液の検討. 株式会社日本海洋生物研究所年報 [Annual Report of Marine Biological Research Institute of Japan] 2021: 15–18.
石黒 (2022) 線虫類の長期保管に向けた固定・保存液の検討 (3か月, 6か月, 1年保管の結果). 株式会社日本海洋生物研究所年報 [Annual Report of Marine Biological Research Institute of Japan] 2022: 26–28.
<形態学>
Shirayama Y & Hope WD (1992) Cephalic tubercles, a new character useful for the taxonomy of Desmoscolecidae (Nematoda). Transactions of the American Microscopical Society 111: 211–222. [link]
<集団遺伝学>
白山, 伊谷, 村上 & Adrianov A (2002) 多様性の創出機構. 月刊海洋号外 [Kaiyo Monthly Special] 29: 46–52. [海産線虫Meyersia japonicaの集団遺伝解析の要約が含まれる]
<発生・生活史>
Kito K (1979) Note on the postembryotic development of Draconema japonicum Kito, 1976 (Nematoda; Draconematodae). Journal of the Faculty of Science, Hokkaido University. Sér. 6, Zoology 22(1): 88–98. [link]
辻野, 内田 & 玉井 (1997) 海産自由生活性線虫類 Microlaimus sp. (Chromadorida: Microlaimidae) の培養方法と生活史 [Life cycle of the free-living marine nematode, Microlaimus sp. (Chromadorida: Microlaimidae), cultured in the laboratory]. 日本ベントス研究会誌 [Benthos Research] 52: 9–14. [link]
辻野, 有馬 & 内田 (1998) 海産自由生活性線虫類 Prochromadorella sp. and Spiliphera sp. (Chromadorida: Chromadoridae) の培養条件下での生活史 [Life cycles of two free-living marine nematodes, Prochromadorella sp. and Spiliphera sp. (Chromadorida: Chromadoridae), cultured in the laboratory]. 日本ベントス研究会誌 [Benthos Research] 53: 89–93. [link]
<生態学総説>
鬼頭 (1984) 海産自由生活性線虫類の食性型と群集解析 [Feedingtypes of free-living marine nematodes and their distribution as a means of analyzing the nematode assemblages]. 日本ベントス研究会誌 [Benthos Research] 26: 23–30. [link]
白山 (1993) 深海産線虫の生態的特徴 [Ecological characteristics of deep-sea nematodes]. 日本線虫学会誌 [Japanese Journal of Nematology] 23: 116–122. [link]
白山 (1996) 線虫はなぜこのように多様化したか. 科学 66: 312–317.
白山 (2004) 海洋・干潟の線虫. In: 石橋 (編). 線虫の生物学 [Biology of Nematodes]. 東京大学出版会, 東京, pp. 75–83.
白山 (2005) 海産線虫の多様性 [Biodiversity of marine nematodes]. 日本線虫学会誌 [Japanese Journal of Nematology] 35: 91–92. [link] [講演要旨]
辻野 (2016) 干潟の線虫と漁場評価の取り組み [Free-living marine nematode in tidal flat and evaluation of fishing grounds]. 海洋と生物 [Aquabiology] 38: 650–656.
<生態学>
Kito K. (1982) Phytal marine nematode assemblage on Sargassum confusum Agardh, with reference to the structure and seasonal fluctuations. Journal of the Faculty of Science, Hokkaido University. Series 6, Zoology 23: 143–161. [link]
安永 (1983) 砂浜浅海域における底質環境とマクロベントスの分布に関する一考察 [A consideration of the bottom condition and the benthos fauna in the shallow water area of the sandy beach]. 水産工学研究所報告 [Bulletin of National Research Institute of Fisheries Engineering] 4: 1–41. [link]
Aryuthaka C (1985) Ecological studies on sediment meiofauna in a seagrass (Zostera marina) bed, with special reference to nematodes. 日本ベントス研究会誌 [Benthos Research] 28: 42–62. [link]
白山 (1986) 堆積物生態系におけるメイオベントスの役割. 東京大学海洋研究所大槌臨海研究センター報告 [Otsuchi Marine Research Center Report] 12: 111–113.
アユタカ & 菊池 (1988) アマモ葉上のメイオベントス群集, 特に自由生活線虫類を中心に (予報) [Phytal meiobenthos community on the eelgrass (Zostera marina L.) leaves, with reference to free-living nematodes (Preliminary report)]. 日本ベントス研究会誌 [Benthos Research] 33/34: 53–60. [link]
平川, 熊田 & 佐々木 (1988) 三河湾干潟域における自由生活線虫類の生産量推定 [Spring distribution of meiobenthos in the intertidal zone of Mikawa Bay]. 東海区水産研究所研究報告 [Bulletin of Tokai Regional Fisheries Research Laboratory] 125: 83–88. [link]
Shirayama Y (1991) Preliminary studies on the energy budget of a deep-sea nematode. La mer 29: 170–173. [link]
Shirayama Y (1992) Respiration rates of bathyal meiobenthos collected using a deep-sea submersible SHINKAI 2000. Deep Sea Research. A 39: 781–788. [link]
松本, 石橋 & 近藤 (1992) 有明海の河口域及び海岸域の線虫相とムツゴロウ生息地との関連 [Nematode fauna in estuarine and coastal sediment of the Ariake Sea with reference to the habitat of mudskipper, Beleophthalmus pectinirostris]. 浅海干潟総合実験施設研究紀要 [Bulletin of Research Institute on Shallow Sea and Tideland] 6: 19–26. [下記の再録だが出版日はこちらの方が早い]
松本, 石橋 & 近藤 (1992) 有明海の河口域及び海岸域の線虫相とムツゴロウ生息地との関連 [Nematode fauna in estuarine and coastal sediment of the Ariake Sea with reference to the habitat of mudskipper, Beleophthalmus pectinirostris]. 日本線虫研究会誌 [Japanese Journal of Nematology] 22: 37–42. [link]
金 & 白山 (1996) 大槌湾潮下帯の粗砂底に生息するメイオベントス群集の季節変動—特に線虫類を中心として [Seasonal fluctuation of meiobenthos inhabiting subtidal coarse sand in Otsuchi Bay, with special reference to free-living nematodes]. 日本ベントス学会誌 [Japanese Journal of Benthology] 51: 9–20. [link]
辻野 (1998) 広島湾の自由生活性線虫類の分布と底質環境 [Distribution of free-living nematodes in relation to bottom environments in Hiroshima Bay]. 南西海区水産研究所研究報告 [Bulletin of Nansei National Fisheries Research Institute] 31: 25–32. [link]
Kim D & Shirayama Y (2001) Respiration rates of free-living marine nematodes in the subtidal coarse-sand habitat of Otsuchi Bay, northeastern Honshu, Japan. Zoological Science 18: 969–973. [link]
辻野, 吉田 & 内田 (2002) 宮島干潟におけるメイオベントス動物群—特に線虫類の現存量について [The meiobenthic community on the tidal flat of Miyajima in Hiroshima Bay, with special reference to the biomass of free-living nematodes]. 水産総合研究センター研究報告 [Bulletin of Fisheries Research Agency] 4: 33–39. [link]
大嶋, 島崎 & 本城 (2005) 有機スズ化合物汚染のHot spotと海産生物への影響. 日本マリンエンジニアリング学会誌 [Journal of the Japan Institute of Marine Engineering]. 40: 32–34. [link]
伊藤, 大島, 磯部, Elnabris K, 島崎 & 本城 (2006) 海産自由生活性線虫Prochromadorella sp. 1の生涯試験を用いた銅,ビスフェノールAおよびノニルフェノールの毒性評価 [/ Toxicity evaluation of copper, bisphenol A and nonylphenol using life cycle of free-living marine nematode, Prochromadorella sp. 1.]. 環境毒性学会誌 [Japanese Journal of Environmental Toxicology] 9: 23–29. [link]
Yodnarasri S, Tada K & Montani S (2006) Temporal change of the environmental conditions of the sediment and abundance of the nematode community in the subtidal sediment near a river mouth with tidal flats. Plankton and Benthos Research 1: 109–116. [link]
寒川, 下出, 橋本 & 菊池 (2008) 相模湾真鶴港内におけるメイオベントスおよび自由生活性線虫類を用いた底質環境の評価法の有効性 [Potential use of meiobenthos and free-living nematodes for sediment quality assessmant in Manazuru port, Sagami Bay, Japan]. 日本ベントス学会誌 [Japanese Journal of Benthology] 63: 11–22. [link]
Yodnarasri S, Montani S, Tada K, Shibanuma S & Yamada T (2008) Is there any seasonal variation in marine nematodes within the sediments of the intertidal zone? Marine Pollution Bulletin 57: 149–154. [link]
平田, 鋤崎, 鈴木, 荒田 & 中村 (2013) 海産生物に対するメタンの急性毒性評価 [Acute toxicity of methane on marine organisms]. 海洋理工学会誌 [Journal of Advance Marine Science and Technology Society] 19: 5–13. [link]
Setoguchi Y, Nomaki H, Kitahashi T, Watanabe H, Inoue K, Ogawa NO & Shimanaga M (2014) Nematode community composition in hydrothermal vent and adjacent non-vent fields around Myojin Knoll, a seamount on the Izu-Ogasawara Arc in the western North Pacific Ocean. Marine Biology 161: 1775–1785. [link]
辻野, 三好 & 内田 (2014) 18S rRNA 遺伝子による広島湾潮間帯における海産自由生活性線虫類の遺伝的解析 [Sequence analysis of marine nematodes based on 18S rRNA gene in intertidal sediments of Hiroshima, Seto Inland Sea]. 日本水産学会誌 [Nippon Suisan Gakkaishi] 80: 16–20. [link]
梅本 & 木村 (2016) 三重県田中川干潟における自由生活性線虫類の組成と分布 [Taxonomic composition and distribution of free-living nematodes on the Tanakagawa tidal flat, Mie Prefecture]. 日本ベントス学会誌 [Japanese Journal of Benthology] 70: 65–74. [link]
辻野, 内田, 手塚, 高田 & 阿部 (2017) アサリ漁場廿日市市前潟に生息する海産自由生活性線虫類の分布とサイズ組成 [Spatial distribution and size composition of free-living marine nematodes on the Mae tidal flat, Hatsukaichi, Hiroshima Bay]. 日本ベントス学会誌 [Japanese Journal of Benthology] 72: 1–11. [link]
梅本 & 木村 (2017) 三重県田中川干潟における自由生活性線虫類Terschellingia longicaudataの個体群動態と底土環境 [Population dynamics of a free-living nematode Terschellingia longicaudata in relation to sedimental environment on the Tanakagawa tidal flat, Mie Prefecture, Japan]. 日本ベントス学会誌 [Japanese Journal of Benthology] 72: 39–47. [link]
Nguyen QDT, Ueda R, Mori F, Kang T, Kim D, Shimanaga M & Wada M (2018) Response of nematode community structure to hypoxia in an enclosed coastal sea, Omura Bay, for three consecutive years. Plankton and Benthos Research 13: 59–65. [link]
辻野 & 重田 (2019) 被覆網によるアサリ現存量の増加が線虫類群集へ及ぼす影響 [Influence of Asari clam (Ruditapes philippinarum) abundance increase caused by cover-net on the nematode assemblages on a tidal flat]. 日本ベントス学会誌 [Japanese Journal of Benthology] 74: 25–34. [link]
辻野, 内田, 手塚 & 高田 (2020) 全国のアサリ漁場干潟における線虫類の現存量と形態的特徴 [Biomass and morphological features of free-living marine nematodes in the Manila clam Ruditapes philippinarum fishery tidal flats, throughout Japan]. 日本水産学会誌 [Nippon Suisan Gakkaishi] 86: 184–195. [link]
辻野 (2022) 中津干潟と横浜海の公園における海産自由生活性線虫類の時空間的分布 [Spatiotemporal distribution of free-living marine nematodes in the tidal flats of Nakatsu and Yokohama Umino-Koen]. 日本ベントス学会誌 [Japanese Journal of Benthology] 77: 10–19. [link]
辻野, 内田, 手塚 & 高田 (2022) 全国のアサリ漁場干潟における線虫類の科組成の特徴 [Characteristics of the composition of free-living marine nematode families on tidal flat of Manila clam Ruditapes philippinarum fishery grounds in Japan]. 日本水産学会誌 [Nippon Suisan Gakkaishi] 88: 284–293. [link]
胴甲動物門
Kristensen RM & Shirayama Y (1988) Pliciloricus hadalis (Pliciloricidae) a new loriciferan species collected from the Izu-Ogasawara Trench, Western Pacific. Zoological Science 5: 875–881.
Yamasaki H, Fujimoto S & Miyazaki K (2015) Phylogenetic position of Loricifera inferred from nearly complete 18S and 28S rRNA gene sequences. Zoological Letters 1: 18. doi: 10.1186/s40851-015-0017-0 [日本からRugiloricus sp.を報告] [link]
Fujimoto S, Yamasaki H, Kimura T, Ohtsuka S & Kristensen RM (2020) A new genus and species of Loricifera (Nanaloricida: Pliciloricidae) from the deep waters of Japan. Marine Biodiversity 50:103.doi: 10.1007/s12526-020-01130-3 [link]
動吻動物門
石川 (1928) Echinoderes興居島に産す. 動物学雑誌 40: 62. [link]
Abe Y (1930) Das Vorkommen von Echinoderes in den japanischen Gewässern. Journal of science of the Hiroshima University Ser. B-1 Zoology 1: 39–44.
阿部 (1930) 興居島のEchinoderesの學名に就いて. 動物学雑誌 42: 369–370. [講演要旨] [link]
日本動物研究學會 (1934) キョクヒチュウ (棘皮蟲). 新集全動物図鑑, 泰明堂, p. 734.
Kawamura T (1947) Kinorhyncha. In: Uchida S (ed) Illustrated encyclopedia of the fauna of Japan. Hokuryukan, Tokyo, p. 1419.
Tokioka T (1949) Notes on Echinoderes found in Japan. Publications of the Seto Marine Biological Laboratory 1:67–69. [link]
Sudzuki M (1976) Microscopical marine animals scarcely known from Japan, 1: micro- & meio-faunae around Kasado Island in the Seto Inland Sea of Japan. Proceedings of the Japanese Society of Systematic Zoology 12: 5–12. [link]
Higgins RP & Shirayama Y (1990) Dracoderidae, a new family of the cyclorhagid Kinorhyncha from the Inland Sea of Japan. Zoological Science 7: 939–946.
蛭田 & 堀 (1998) オホーツク海岸の海産間隙動物について. 釧路論集: 北海道教育大学釧路分校研究報告 30: 51-62.
Adrianov AV & Malakhov VV (1999) Kinorhyncha. In Adrianov AV & Malakhov VV (eds.), Cephalorhyncha of the World Ocean. pp. 82–305, KMK Scientific Press, Moscow.
山田, 蛭田 & 堀 (2001) 北海道東部太平洋岸キナシベツ海岸の海産間隙動物について. 環境教育研究 4: 33-41.
Murakami C, Adrianov AV & Shirayama Y (2001) Taxonomic study of Kinorhyncha in Japan 1. Pycnophyes tubuliferus Adrianov, 1989 (Kinorhyncha: Homalorhagida) from Japan. Publications of the Seto Marine Biological Laboratory 39: 113–127. [link]
Adrianov AV, Murakami C & Shirayama Y (2002a) Taxonomic study of the Kinorhyncha in Japan. 2. Condyloderes setoensis, a new species (Kinorhyncha: Cyclorhagida) from Tanabe Bay (Honshu)―first representative of the genus in the Pacific Ocean. Proceedings of the Biological Society of Washington 115: 205–216.
Adrianov AV, Murakami C & Shirayama Y (2002b) Taxonomic study of the Kinorhyncha in Japan. 3. Echinoderes sensibils n. sp. (Kinorhyncha: Cyclorhagida) from Tanabe Bay. Zoological Science 19: 463–473. [link]
Adrianov AV, Murakami C & Shirayama Y (2002c) Echinoderes aureus n. sp. (Kinorhyncha: Cyclorhagida) from Tanabe Bay (Honsyu Island), Japan, with a key to the genus Echinoderes. Species Diversity 7: 47–66. [link]
村上 (2003) 動吻動物に関する研究-日本における新分布域の報告-. 日本海洋生物研究所年報: 43–50.
村上 (2005) 日本近海産動吻動物とその和名について.タクサ: 日本動物分類学会誌 19: 34–41. [link]
Sørensen MV, Herranz M, Rho HS, Min WG, Yamasaki H, Sánchez N & Pardos F (2012) On the genus Dracoderes Higgins & Shirayama, 1990 (Kinorhyncha: Cyclorhagida) with a redescription of its type species, D. abei, and a description of a new species from Spain. Marine Biology Research 8: 210–232. doi: 10.1080/17451000.2011.615328 [link]
Yamasaki H & Kajihara H (2012) A new brackish-water species of Echinoderes (Kinorhyncha: Cyclorhagida) from the Seto Inland Sea, Japan. Species Diversity 17: 109–118. [link]
Yamasaki H, Kajihara H & Mawatari SF (2012) First report of kinorhynchs from Hokkaido, Japan, including a new species of Pycnophyes (Pycnophyidae: Homalorhagida). Zootaxa 3425: 23–41. [link]
Yamasaki H, Hiruta SF & Kajihara H (2013) Molecular phylogeny of kinorhynchs. Molecular Phylogenetics and Evolution 67: 303–310. doi: 10.1016/j.ympev.2013.02.016 [link]
Yamasaki H & Fujimoto S (2014) Two new species in the Echinoderes coulli group (Echinoderidae, Cyclorhagida, Kinorhyncha) from the Ryukyu Islands, Japan. Zookeys 382: 27–52. doi: 10.3897/zookeys.382.6761 [link]
Yamasaki H, Hiruta SF, Kajihara H, Dick MH (2014) Two kinorhynch species (Cyclorhagida, Echinoderidae, Echinoderes) show different distribution patterns across Tsugaru Strait, Northern Japan. Zoological Science 31: 421–429. doi: 10.2108/zs140011 [link]
Hirose E & Yamasaki H (2015) Fine structure of the integumentary cuticles and alimentary tissues of pycnophyid kinorhynchs Pycnophyes oshoroensis and Kinorhynchus yushini (Kinorhyncha, Homalorhagida). Zoological Science 32: 389–395. doi: 10.2108/zs150021 [link]
Nakano H, Kakui K, Kajihara H, Shimomura M, Jimi N, Tomioka S, Tanaka H, Yamasaki H, Tanaka M, Izumi T, Okanishi M, Yamada Y, Shinagawa H, Sato T, Tsuchiya Y, Omori A, Sekifuji M & Kohtsuka H (2015) JAMBIO Coastal Organism Joint Surveys reveals undiscovered biodiversity around Sagami Bay. Regional Studies in Marine Science 2: 77-81. doi: 10.1016/j.rsma.2015.05.003 [link]
Sørensen MV, Dal Zotto M, Rho HS, Herranz M, Sánchez N, Pardos F & Yamasaki H (2015) Phylogeny of Kinorhyncha based on morphology and two molecular loci. PLoS ONE 10: e0133440. doi: 10.1371/journal.pone.0133440 [link]
Yamasaki H (2015) Two new species of Dracoderes (Kinorhyncha: Dracoderidae) from the Ryukyu Islands, Japan, with a molecular phylogeny of the genus. Zootaxa 3980: 359–378. doi: 10.11646/zootaxa.3980.3.2 [link]
山崎 (2015) 日本の動吻動物.うみうし通信 89: 1–2.
Ishii D, Yamasaki H, Uozumi R & Hirose E (2016) Does the kinorhynch have a hydrophobic body surface? Measurement of the wettability of a meiobenthic metazoan. Royal Society Open Science 3: 160512. doi: 10.1098/rsos.160512 [link]
Sánchez N, Yamasaki H (2016) Two new Pycnophyidae species (Kinorhyncha: Allomalorhagida) from Japan lacking ventral tubes in males. Zoologischer Anzeiger 265: 80–89. doi: 10.1016/j.jcz.2016.04.001 [link]
Sánchez N, Yamasaki H, Pardos F, Sørensen MV & Martínez A (2016) Morphology disentangles the systematics of a ubiquitous but elusive meiofaunal group (Kinorhyncha: Pycnophyidae). Cladistics 32: 479–505. doi:10.1111/cla.12143 [link]
Yamasaki H (2016) Ryuguderes iejimaensis, a new genus and species of Campyloderidae (Xenosomata: Cyclorhagida: Kinorhyncha) from a submarine cave in the Ryukyu Islands, Japan. Zoologischer Anzeiger 265: 69-79. doi: 10.1016/j.jcz.2016.02.003 [link]
山崎 (2016) 日本周辺海域における動吻動物の分類と系統. タクサ: 日本動物分類学会誌 41: 11–22. [link]
Yamasaki H (2017) Diversity of Kinorhyncha in Japan and phylogenetic relationships of the phylum. In Motokawa, M. and Kajihara, H. (eds.), Species Diversity of Animals in Japan. Springer Verlag. Berlin. pp. 543–563. doi: 10.1007/978-4-431-56432-4_21 [link]
Uozumi R, Yamasaki H, Hirose E (2018) Mangrove forests may serve as stable environments for the meiobenthic Echinoderes komatsui (Kinorhyncha: Cyclorhagida): distribution patterns and population dynamics in a subtropical estuary. Marine Biology Research. doi: 10.1080/17451000.2017.1408916 [link]
Yamasaki H, Fujimoto S, Tanaka H (2020) Three new meiobenthic species from a submarine cave in Japan: Echinoderes gama, E. kajiharai and E. uozumii (Kinorhyncha: Cyclorhagida). Journal of the Marine Biological Association of the United Kingdom 100: 537-558. doi: 10.1017/S0025315420000429 [link]
鰓曳動物門
Schmidt-Rhaesa A, Panpeng S, Yamasaki H (2017) Two new species of Tubiluchus (Priapulida) from Japan. Zoologischer Anzeiger 267: 155-167. doi: 10.1016/j.jcz.2017.03.004 [link]
生態学編
Mukai H (1971) The phytal animals on the thalli of Sargassum serratifolium in the Sargassum region, with reference to their seasonal fluctuations. Marine Biology 8: 170–182. [link]
Sudzuki M (1971) Some laboratory approaches to the succession of the haline interstitial communities. Proceedings of the Japanese Society of Systematic Zoology 7: 13–17. [link]
Kito K (1975) Preliminary report on the phytal animals in the Sargassum confusum region in Oshoro Bay, Hokkaido. Journal of the Faculty of Science, Hokkaido University. Series 6, Zoology 20(1): 141–158. [link]
Sudzuki M (1976) Microscopical marine animals scarcely known from Japan. 1. Micro- & meio- faunae around Kasado Island in the Seto Inland Sea of Japan. Proceedings of the Japanese Society of Systematic Zoology12: 5–12 with 3 plates. [link]
右田 & 岡 (1977) 干潟の生物相 I. 有明海干潟のベントス相. 採集と飼育 [Collecting and Breeding] 39(2): 58–63.
Ito T (1978b) Meiobenthos of a shallow-water sandy bottom in Ishikari Bay, Hokkaido: a general account. Journal of the Faculty of Science, Hokkaido University. Sér. 6, Zoology 21(3): 287–294. [link]
Sudzuki M (1979) Some aspects of the haline interstitial biota from Ryukyu Shotō, Subtropical Chain Islands, Southwest Japan. University of the Ryukyus Sesoko Marine Science Laboratory Technical Report 6: 37–50 with 4 plates.
伊藤 (1984) 石狩浜の間隙動物の研究 (予報). 日本ベントス研究会誌 26: 1–14. [link]
川合, 芳倉 & 小田 (1984) 大阪市南港周辺海域の生物相. 全国公害研会誌 [Journal of Environmental Laboratories Association] 9: 39–44. [link]
酒井 (1984) 浅海砂泥底におけるメイオベントスの定量的研究. 瀬戸内海中, 西部のメイオベントス現存量について. 日本ベントス研究会誌 27: 14–21. [link]
酒井 (1985) 周防灘におけるメイオベントスの生態学的研究. 南西海区水産研究所研究報告 19: 53–85. [link]
平川 & 熊田 (1986) 1985年春季の三河湾干潟域におけるメイオベントスの分布性状. 東海区水産研究所研究報告 119. 57–64. [link]
白山 (1987) 初島南東沖シロウリガイ群集内のメイオベントスの生態について. 海洋科学技術センター試験研究報告「しんかい2000」研究シンポジウム 3: 69–73.
会沢 (1988) 大海湾干潟域におけるメイオベントスの動態. In: 農林水産省農林水産技術会議事務局 (編). 潮間帯周辺海域における浄化機能と生物生産に関する研究. 農林水産省農林水産技術会議事務局, 東京, pp. 106–110.
田中 & 堀越 (1988) 高エネルギー海岸の地域生態系自然地理的ユニットとしての小湊内浦湾におけるメイオベントス群集とその分布(予報) [Meiobenthic communities and their distribution in a physiographic unit of the regional ecosystem in the high energy coast, a preliminary report on a case study carried out in Uchiura, Bay, Kominato, Chiba Prefecture]. 千葉大学理学部海洋生物環境解析施設年報 [Annual Report of Institute of Marine Ecosystem] 8: 15–21.
Shirayama Y & Horikoshi M (1989) Comparison of the benthic size structure between sublittoral, upper-slope and deep-sea areas of the Western Pacific. Internationale Revue der gesamten Hydrobiologie 74: 1–13. [link]
神山, 板岡, 東海, 阪地 & 会沢 (1992) 沿岸域の底質環境によるマコガレイ幼稚魚の生息場の評価 [Estimation of suitable environment for nursery ground of juvenile marbled flounder, Pleuronestes yokohamae in coastal water]. 南西海区水産研究所研究報告 [Bulletin of Nansei National Fisheries Research Institute] 25: 11–20. [link]
Sudzuki M (1992) Seasonal and local occurrences of the Rotifera in southwestern islands of Japan. With lists and notes on other microscopic leading animals. 動物分類学会誌 46: 29–70. [link]
Abé H (1993) Meiofauna of a sandy beach on Karo, Tottori (Japan). Proceedings of Hokkaido Tokai University. Science and Engineering 6: 15–19
板岡 & 玉井 (1993) 広島湾におけるメイオベントスの群集構造と富栄養化. 日本ベントス学会誌 45: 19–28. [link]
澤本 (1993) 西表島ウダラ川マングローブ域のメイオベントスに関する予察的研究. [Some observations of meiobenthic animals in a mangrove swamp in Udara-gawa, Iriomote Island, Rhykyu Islands]. 東海大学海洋研究所研究報告 [Bulletin of Institute of Oceanic Research and Development, Tokai University] 14: 99–103.
東, 西ノ首 & 合田 (1994) 水無川河口周辺海域における底生動物の分布. In: 長崎大学生涯学習教育センター運営委員会 (編). 長崎大学公開講座叢書 6. 雲仙・普賢岳火山災害にいどむ—長崎大学からの提言. 長崎大学, 長崎, pp. 141–153. [link]
大島, 畑, 蔵本, 堀口 & 中田 (1994) 干潟の環境特性調査と生態系数値モデル化への方法. 海岸工学論文集 41: 1131–1135. [link]
Shirayama Y & Kojima K (1994) Abundance of deep-sea meiobenthos off Sanriku, Northeastern Japan. Journal of Oceanography 50: 109–117. [link]
倉田 (1995) 平成5年度瀬戸内海浅海域浄化機能基本調査. 瀬戸内海 [Scientific Forum of the Seto Inland Sea] 4: 76–83. [link]
峯岸 (1995) 小湊海岸の間隙水性動物群の量的調査 (予報). 千葉大学理学部海洋生態系研究センター年報 15: 8–9.
Shirayama Y & Fukushima T (1995) Comparisons of deep-sea sediments and overlying water collected using multiple corer and box corer. Journal of Oceanography 51: 75–82. [link]
森脇 (1996) 大阪湾の底質環境とメイオベントスの分布 [Sediment conditions and meiobenthos community in Osaka Bay, Japan]. 資源と素材 [Journal of the Mining and Materials Processing Institute of Japan] 112: 1021–1025. [link]
辻野 & 玉井 (1996) 大阪湾の底質環境とメイオベントスの分布. 南西海区水産研究所研究報告 29: 87–100. [link]
Shirayama Y & Fukushima T (1997) Responses of a meiobenthos community to rapid resedimentation. In: Metal Mining Agency of Japan (ed.), Proceedings of International Symposium on Environmental Studies for Deep-Sea Mining. Metal Mining Agency of Japan, Tokyo, pp. 187–196. [link]
畑, 大島 & 中田 (1997) 底生生態系モデルを用いた海岸生態系の物質循環の評価 [Evaluation of near-shore benthic nitrogen cycle using benthic ecosystem model]. 海洋理工学会誌 [Journal of Advance Marine Science and Technology Society] 3: 31–50. [link]
神山, 玉井 & 辻野 (1997) 海底堆積物からの栄養塩再生産過程に及ぼす底質・溶存酸素条件 [Effects of sediment conditions and dissolved oxygen concentration of bottom seawater on nutrient regeneration processes from marine sediment]. 南西海区水産研究所研究報告 [Bulletin of Nansei National Fisheries Research Institute] 30: 209–218. [link]
蛭田 & 堀 (1998) オホーツク海岸の海産間隙動物について. 釧路論集: 北海道教育大学釧路分校研究報告 30: 51–62.
峯岸 (1998) 小湊海岸の間隙水性動物群の量的調査—Sea-water ice 法による. 千葉大学海洋バイオシステム研究センター年報 18: 20–21.
鈴木, 青山, 甲斐 & 今尾 (1998) 底層の貧酸素化が内湾浅海底性生物群集の変化に及ぼす影響 [Effect of dissolved oxygen deficiency on a shallow benthic community in an embaymen]. 海の研究 [Oceanography in Japan] 7: 223–236. [link]
鈴木, 青山 & 甲斐 (1998) 三河湾における貧酸素化によるアサリ (Ruditapes phillippinarum) の死亡率の定式化 [The formulation of the mortality of Japanese iittleneck clam (Ruditapes phillippinarum) caused by a deficiency of dissolved oxygen in Mikawa Bay]. 海洋理工学会誌 [Journal of Advance Marine Science and Technology Society] 4: 35–40. [link]
鈴木, 青山, 甲斐 & 畑 (1998) 貧酸素化の進行による底生生物群集構造の変化が底泥-海水間の窒素収支に与える影響—底生生態系モデルによる解析 [The effect of change in the benthic community, due to the development of dissolved oxygen deficiency, on the nitrogen budget between the sediment and overlying water]. 海洋理工学会誌 [Journal of Advance Marine Science and Technology Society] 4: 65–80. [link]
堀 & 蛭田 (1999) 釧路市近郊叉飯時海岸の海産間隙動物について. 釧路論集: 北海道教育大学釧路分校研究報告 31: 77–91.
菊池 & 小菅 (1999) 相模湾真鶴半島尻掛海岸におけるメイオベントスの分布生態. Actinia 12: 135–146. [link]
Shimanaga M & Shirayama Y (2000) Response of benthic organisms to seasonal change of organic matter deposition in the bathyal Sagami Bay, central Japan. Oceanologica Acta 23: 91–107. [link]
堀 & 蛭田 (2000) 道南 (知内, 白神) の海産間隙動物について. 釧路論集: 北海道教育大学釧路分校研究報告 32: 75–87.
峯岸 (2000) 伊豆半島爪木崎海岸の間隙性動物群の量的調査—海水氷法による. 桜文論叢 50: 67–77.
辻野, 有馬, 神山 & 内田 (2000) 呉湾のマクロベントス・メイオベントスと底質環境. 瀬戸内海区水産研究所研究報告 2: 49–56. [link]
矢持 (2000) 海洋構造物が生態系に及ぼす影響を評価するための試み—生物生産構造から見た関西国際空港島地先海域. 瀬戸内海 [Scientific Forum of the Seto Inland Sea] 24: 46–57. [link]
矢持, 米田, 古澤, 大塚 & 二宮 (2000) 関西国際空港島地先海域の生物生産構造. 海岸工学論文集 47: 1191–1195. [link]
Shirayama Y & Fukushima T (2001) The responses of deep-sea benthic organisms to experimental removal of the surface sediment. In: Chung, J.S. (ed.), Proceedings of the Fourth (2001) ISOPE Ocean Mining Symposium, Szczecin, Poland, September 23–27, 2001. The International Society of Offshore and Polar Engineers, Cupertino, California, pp. 77–81.
前田 & 福所 (2001) マングローブ汽水域における魚介類生産過程の解明 [The studies on production of fish in magrove estuary water]. 農林水産技術研究ジャーナル [Research Journal of Food and Agriculture] 24(12): 26–32. [link]
山田, 蛭田 & 堀 (2001) 北海道東部太平洋岸キナシベツ海岸の海産間隙動物について. 環境教育研究 4: 33–41.
細川 (2002) 人工干潟・海浜の造成の可能性 [Possibility of ecosystem remediation by constructed flats]. 沿岸海洋研究 [Bulletin on Coastal Oceanography] 39: 107–115. [link]
今尾, 鈴木, 浮田 & 高倍 (2003) 底生動物の出現動向から見た人工干潟の効果評価 [Evaluation of an artificial tidal flat with a benthic community focus]. 水産工学 [Fisheries Engineering] 40: 29–38. [link]
東 (2003) 諌早湾干拓事業と「有明海異変」—再生への提言. 陸水学雑誌 64: 209–217 [link]
蛭田 (2003) 北海道南部江差町砂浜の海産間隙動物について. 釧路論集: 北海道教育大学釧路分校研究報告 34: 63–69.
矢持, 平井 & 藤原 (2003) 富栄養浅海域における生態系の創出. 人工干潟現地実験場での生物と窒素収支の変遷. 海岸工学論文集 [Proceedings of Coastal Engineering] 50: 1246–1250. [link]
本田, 石田, 家田, 武田, 山口 & 鈴木 (2004) 有明海の泥質干潟・浅海域での窒素循環の定量化—泥質干潟域の浮遊系-底生系結合生態系モデルの開発 [Evaluation of Nitrogen Cycle in Tidal Flat Area in Ariake Bay—Development of a Pelagic-Benthic Coupled Ecosystem Model for a Tidal Mud Flat Area]. 海洋理工学会誌 [Journal of Advance Marine Science and Technology Society] 11: 21–33. [link]
矢持, 藤原, 和田, 平井, 濱田, 金子, 杉野, 重松 & 小池 (2004) 都市に隣接する自然干潟 (和歌川河口干潟) の生物生産と窒素収支. 海岸工学論文集 51: 1021–1025. [link]
Ishida H, Watanabe Y, Fukuhara T, Kaneko S, Furusawa K & Shirayama Y (2005) In situ enclosure experiment using a benthic chamber system to assess the effect of high concentration of CO2 on deep-sea benthic communities. Journal of Oceanography 61: 835–843. [link]
鶴谷, 中川, 木曽 & 古川 (2005) 鉄鋼スラグの干潟材料への適用性に関する水槽実験. 海岸工学論文集 52: 986–990. [link]
安岡, 畑, 芳川, 中野, 白谷 & 中田 (2005a) 有明海の泥質干潟・浅海域での窒素循環の定量化—泥質干潟域の浮遊系-底生系結合生態系モデルの開発 [Evaluation of Nitrogen Cycle in Tidal Flat Area in Ariake Bay—Development of a Pelagic-Benthic Coupled Ecosystem Model for a Tidal Mud Flat Area]. 海洋理工学会誌 [Journal of Advance Marine Science and Technology Society] 11: 21–33. [link]
安岡, 畑, 芳川, 中野, 白谷 & 中田 (2005b) 有明海泥質干潟・浅海域における底泥窒素循環の特性—塩田川・鹿島川河口域における現地調査及び室内試験結果 [Characteristics of nitrogen cycle on a muddy tidal flat and shallow water area of Ariake Bay—Results of field study and laboratory experiments for Shiota River & Kashima River estuary]. 海洋理工学会誌 [Journal of Advance Marine Science and Technology Society] 11: 59–66. [link]
矢持, 柳川, 平井 & 藤原 (2005) 生態系の変動を考慮した順応的管理—物質収支からみて [Adaptive management in relation to the succession of ecosystems—from the viewpoint of material budget]. 海洋開発論文集 [Proceedings of Civil Engineering in the Ocean] 21: 77–82. [link]
岡田 & 古川 (2006) テラス型干潟におけるタイドプールのベントス生息に対する役割 [Role of tidepool on terrace-type tidal flat as benthos habiatat]. 海洋開発論文集 [Proceedings of Civil Engineering in the Ocean] 22: 661–666. [link]
石田, 渡辺 & 白山 (2008) ベンチックチャンバーによる深海ベントス群集へのCO2影響 [Effects of high C02 concentration on deep-sea benthic communities using a benthic chamber system]. 海洋理工学会誌 [Journal of Advance Marine Science and Technology Society] 14: 73–80. [link]
辻野 (2008) 燧灘および備後灘におけるベントスによる底質環境評価. 日本水産学会誌 74: 1043–1051. [link]
辻野, 有馬, 神山 & 内田 (2008) 広島湾におけるマクロベントス・メイオベントス現存量・生産量の推定. 日本ベントス学会誌 63: 35–41. [link]
本田, 石田, 武田, 鈴木 & 高倍 (2009) 干潟メソコスムを利用した地盤高の違いによる底生生物群集の応答に関する研究 [Study of the responses of benthic communities to differences in altitude using a tidal flat mesocosm system]. 海洋理工学会誌 [Journal of Advance Marine Science and Technology Society] 15: 103–113. [link]
北橋, 嶋永, 井上 & 渡部 (2010) 熱水噴出域のメイオファウナの定量的研究におけるサンプラーバイアスについて: 内径の異なる2種類のハンドコアラーによる堆積物の比較. JAMSTEC Report of Research and Development 10: 33–39. [link]
本田, 青山, 和久, 向井 & 石田 (2011) 人工干潟域の基盤材料としてのダム堆積砂の適性評価. 愛知県水産試験場研究報告 16: 9–19. [link]
金子, 橋口, 宮向, 今尾, 和久, 石田 & 鈴木 (2011) 浚渫窪地における底質の極度の悪化と底生生物群集の動態 - 三河湾の事例. 水環境学会誌 34: 47–55. [link]
辻野 & 内田 (2011) 堆積アオサが表層性のメイオベントスに及ぼす影響. 日本ベントス学会誌 65: 90–97. [link]
谷本 & 新井 (2011) 人手と藻場の生物多様性. 沿岸海洋研究 48: 117–123 [link]
Abe H, Nakai S, Takashiro H & Yoshihara K (2012) Influence of Seagrass Vegetation of Zostera marina on Sediment Meiofauna in the Middle of Tanoura Bay, Shizuoka Prefecture. Aquaculture Science 60: 147–149. [link]
椿, 武田, 森井 & 橋本 (2012) 長崎南西方大陸斜面域に生息するソコダラ科魚類ネズミヒゲの食性. 日本ベントス学会誌 67: 9–14. [link] [魚類の胃内容物としてメイオベントスを報告]
本田 & 青山 (2013) 人工干潟の造成基質としての瓦破砕材の適性評価. 海洋理工学会誌 19: 29–35. [link]
増田, 御園生, 田中, 森本, 矢北 & 滝川 (2013) 八代海における底質および底生生物分布特性の現況把握. 土木学会論文集. B3 (海洋開発) 69: 886–891. [link]
佐藤 & 蛭田 (2014) 北海道東部白糠町コイトイ海岸の海産間隙動物について. 釧路論集: 北海道教育大学釧路分校研究報告 46: 187–194. [link]
駒井, 米林, 勝見, 入月, 辻本 & 岡崎 (2015) 炭素・窒素安定同位体比とメイオベントス相から見た瀬戸内海の底質環境の変遷. 水環境学会誌 38: 39–47. [link]
Kitahashi T, Watanabe H, Ikehara K, Jenkins RG, Kojima S & Shimanaga M (2015) Deep-sea meiofauna off the Pacific coast of Tohoku and other trench slopes around Japan: a comparative study before and after the 2011 off the Pacific coast of Tohoku Earthquake. Journal of Oceanography 72: 129–139. [link]
Uejima Y, Nomaki H, Senokuchi R, Setoguchi Y, Kitahashim T, Watanabe HK & Shimanaga M (2017) Meiofaunal communities in hydrothermal vent and proximate non-vent habitats around neighboring seamounts on the Izu-Ogasawara Arc, western North Pacific Ocean. Marine Biology 164: 183. [link]
木村, 木村, 自見, 倉持 藤田, 駒井, 吉田, 田中, 岡西, 小川, 小林, 小玉, 齋藤, 清野, 片平, 中野, 吉川, 上野, 田中, 大矢, 前川, 中村, 奥村 & 田中 (2019) 紀伊水道南方海域および熊野灘の深海底生動物相 [Benthic deep-sea fauna in south of the Kii Strait and the Sea of Kumano, Japan]. 三重大学大学院生物資源学研究科紀要 [Bulletin of the Graduate School of Bioresources Mie University] 45: 11–50. [link]
木村, 木村, 角井, 波々伯部, 倉持, 藤田, 小川, 小林, 自見, 岡西, 山口, 広瀬, 吉川, 福地, 下村, 柏尾, 上野, 藤原, 成瀬, 櫛田, 喜瀬, 前川, 中村, 奥村 & 田中 (2019) 紀伊水道南方海域および熊野灘の深海底生動物相 (第2報) [Benthic deep-sea fauna in south of the Kii Strait and the Sea of Kumano, Japan. Second report]. 三重大学フィールド研究・技術年報 [Annals of Field Research and Technology Mie University] 17: 1–29.
阿部, 松政, 木下, 鈴木 & 金谷 (2020a) 宮古湾津軽石川河口干潟における2018年干潟ベントス調査の報告 (東北地方太平洋沿岸地域生態系監視調査の補足調査). [A survey report on intertidal macrobenthis species in Tsugaruishi river estuary, Miyako Bay in 2018 (a suppelemental survey of the Ecosystems Monitoring Survey of the Pacific Coastal Areas of the Tohoku Region)]. みちのくベントス 4: 12–21. [link]
阿部, 松政, 木下, 鈴木 & 金谷 (2020b) 小田湾友浦における2018年干潟ベントス調査の報告 (東北地方太平洋沿岸地域生態系監視調査の補足調査) [A survey report on intertidal macrobenthis species in Otomo-ura, Hirota Bay in 2018 (a suppelemental survey of the Ecosystems Monitoring Survey of the Pacific Coastal Areas of the Tohoku Region)]. みちのくベントス 4: 22–31. [link]
土屋, 青木, 植松, 鳥羽, 山口 & 岡本 (2020) 東京湾の砂質干潟において外来性二枚貝ホンビノスガイMercenaria mercenaria の生物攪拌が底質およびベントス群集に与える影響. 日本水産学会誌 87: 11–22. [link]
総説
伊藤 (1970) 石狩に於けるinterstitial faunaの調査. ベントス研究会連絡誌 1: 21–23. [link]
伊藤 (1973) 間隙生動物. 動物と自然 3(9): 10–13.
布村 (1973) 砂のすきまの動物たち. Nature Study (大阪市立自然史博物館) 19: 110–112, 129–130, 139–142.
元田 (1976) メイオベントス. In: 元田 (編). 海洋科学基礎講座 5. 海藻・ベントス. 東京大学出版会, 東京. pp. 271–286.
白山 (1983) 深海堆積物断面内におけるメイオベントスの生態. 日本生態学会関東地区会会報 32: 7–8 [link]
白山 (1989) 西部太平洋における深海産メイオベントスの生態 [Ecology of deep-sea meiobenthos in the Western Pacific]. 日本海洋学会誌 [Journal of the Oceanographical Society of Japan] 45(1): 83–93. [link]
白山 (1991) 深海のメイオベントス. 生物の科学. 遺伝. 45(12): 28–32.
白山 (1995) 生物多様性を深海底に見る. 科学 65: 766–774.
白山 (1996) 未知の動物の宝庫: メイオファウナ. タクサ: 日本動物分類学会誌 1: 3–9. [link]
白山 & 金 (1998) メイオベントスの分布と生産. In: 平野 (編). 沿岸の環境圏. フジ・テクノシステムズ, 東京, pp. 254–263.
蛭田 & 堀 (2000) 砂浜に棲む微小な動物たち. 間隙動物. 環境教育研究 3: 141–151.
鬼頭 (2000) 海浜域のメイオベントス. 月刊海洋 32: 665–670.
白山 (2002) 深海底の生物学—メイオベントスを中心として. 化学と生物 40: 725–729.
白山 & 小島 (2002a) 沿岸ベントス. 海の研究 11: 68–69.
白山 & 小島 (2002b) 深海ベントス. 海の研究 11: 69–71.
山室 (2003) 閉鎖性沿岸域の生態系と物質循環 (3). メイオベントスの量, サイズと塩分との関係. 海洋と生物 [Aquabiology] 25: 27–33.
白山 (2009a) 地球上に生物は何種類いるのだろうか. 線虫類を例にして. 自然と科学の情報誌ミルシル. 8: 22–25.
白山 (2009b) 海洋生物の多様性. 環境情報科学 38(2): 8–13.
嶋永 (2011) 深海の小さな生き物たち—深海性メイオベントスの生態 [Ecology of deep-sea small benthic animals (meiobenthos)]. 生物科学 [Biological Science] 62: 133–142.
白山 & 赤坂 (2015) 深海の星空の可能性. In: 白山 & 赤坂 (編), 海の底深くを探る. フィールド科学の入口. 玉川大学出版部, 東京, pp. 5–63.
山崎 (2017) メイオベントスの多様性と進化―小さな世界に広がる大きな多様性. 生物の科学. 遺伝. 71: 332–338.
山崎 (2021) 砂の隙間に暮らす動物たち―多様性の宝庫, メイオベントス [Meiobenthos―wonderful microscopic animals between the grains of sand]. うみうし通信 111: 2–4. [link]
採集・観察法
Bieri R & Tokioka T (1968) Dragonet II, an opening-closing quantitative trawl for the study of microvertical destribution of Zooplankton and the meio-epibenthos. Publication of the Seto Marine Biological Laboratory 15: 373–390. [link]
布施 (1970) 砂泥底エピベントスの採集法について. ベントス研究会連絡誌 [Benthos Research] 1: 48–50. [link]
伊藤 (1971) ハルパクチクス類 (撓脚類) の研究 (採集と分類). 生物教材 7: 1–20. [link]
秋山 (1979) 干潟生物調査法. 動物と自然 9(5): 32–36.
山西 (1979) かきまぜ法によるメイオベントス抽出の効率. 日本ベントス研究会連絡誌 17/18: 52–58. [link]
伊藤 (1980) 同一定量サンプルによる間隙動物の抽出と砂の要因分析 (孔隙量・含水量・粒度組成) の試み. ベントス研究会連絡誌 19/20: 88–94. [link]
峯岸 (1988) 間隙動物の分離について. 日本女子大学附属高等学校研究紀要 10: 1–4.
白山 (1993) 海産線虫類研究に用いられる, 便利でユニークな研究機材について. 日本線虫学会ニュース 2: 7–8. [link]
白山, 加来 & Higgins RP (1993) HS-スライドを利用したメイオファウナの表裏両面からの顕微鏡観察. 日本ベントス学会誌 44: 41–44. [裏表両面から観察できるスライド] [link]
Abé H, Kito,K, Aryuthaka C & Tamura H (1993) Use of a photographic slide mount for nematode preparations. Nematologica 39: 135–137. [HS-スライドと同時期に発表された類似手法] [link]
福島 (1993) メイオベントスの研究法 [Methods in meiobenthos study]. 株式会社日本海洋生物研究所年報 [Annual Report of Marine Biological Research Institute of Japan] 1993: 21–25.
鬼頭 (2003) 沿岸域のベントス調査. メイオベントス. In: 竹内 (編). 地球環境調査計測事典 3. 沿岸域編. フジ・テクノシステムズ, 東京, pp. 574–586.
Kitahashi T, Watanabe HK, Tsuchiya M, Yamamoto H & Yahamoto H (2018) A new method for acquiring images of meiobenthic images using the FlowCAM. MethodsX 5: 1330–1335. [link]
山崎, 藤本 & 田中 (2019) 海産メイオベントス(小型底生動物)の採集および抽出方法. タクサ: 日本動物分類学会誌 46: 40–53. [link]
山本 (2019) 海底鉱物資源開発に関わる環境調査と影響評価の現状と展開 [Environmental survey and assessment for deep-sea mining]. 資源地質 [Journal of the Society of Resource Geology] 69: 79–95. [link]
後藤, 福原, 近藤, 高島, 古島 & 山本 (2020) 環境影響評価の現場観測: 海底資源開発に向けて [Deep-sea observation for environmental impact assessment : for the development of marine mineral resources]. 物理探査. [Geophysical Exploration]73: 64–73. [link]