堀之内 正博 (准教授) Masahiro Horinouchi, Ph.D.

学位

博士(農学)

 

専門分野

魚類生態学

 

現在の主な研究課題

・海草藻場造成デザインに関する研究

 (Seagrass-habitat restoration design)

・海草藻場(アマモ場など),マングローブ汽水域,ヨシ帯などに生息する魚類の生態

 (Ecology of fishes in coastal habitats including seagrass habitats, mangrove areas, reedgrass beds and sand/mud substrata)

・生息場所の変化・改変が魚類群集の構造に及ぼす影響

 (Influences of changes in habitat characteristics on fish assemblage structures)

・様々なハビタット間のかかわり.魚類は様々なハビタットをどのように利用しているか?

 (Interconnections of various habitat types –How do fishes utilize a variety of habitats?)

・海草藻場,マングローブ汽水域,ヨシ帯などに生息する魚類の保全生態

 (Conservation ecology of fishes in coastal habitats including seagrass beds, mangrove areas and reedgrass beds)

 

主な調査地

 タイ国トラン県シカオ(Sikao, Trang, Thailand)、中海・宍道湖、静岡県浜名湖

 

所属学会

 日本水産学会、日本魚類学会

 

研究キーワード

 魚類、生態、保全、環境修復、生物多様性、海草藻場、マングローブ域、ヨシ帯、海草藻場造成

 

研究業績

1.論文

1-1.査読有

36. Sato M, Horinouchi M, Fujita M, Sano M (in press) Responses of fish assemblage structures to annual and perennial lifecycles of seagrass Zostera marina in Lake Hamana, central Japan. Ichthyological Research

 

35. Horinouchi M, Tongnunui P, Furumitsu K, Kon K, Nakamura Y, Kanou K, Yamaguchi A, Seto K, Okamoto K, Sano M (2016) Effects of habitat change from a bare sand/mud area to a short seagrass Halophila ovalis bed on fish assemblage structure: a case study in an intertidal bay in Trang, southern Thailand. Ichthyological Research 63:391–404

 

34. Nanjo K, Kohno H, Nakamura Y, Horinouchi M, Sano M (2014) Effects of mangrove structure on fish distribution patterns and predation risks.Journal of Experimental Marine Biology and Ecology, 461: 216–225

 

33. Nanjo K, Kohno H, Nakamura Y, Horinouchi M, Sano M (2014) Differences in fish assemblage structure between vegetated and unvegetated microhabitats in relation to food abundance patterns in a mangrove creek. Fisheries Science 80: 21–41

 

32. 横尾俊博・桑原正樹・田中智美・堀之内正博・荒西太士(2013)宍道湖産ワカサギにおける野外集団と放流種苗の遺伝的差異.水産増殖61:407–409

 

31. Horinouchi M, Mizuno N, Jo Y, FujitaM, Suzuki Y, Aranishi F Sano M (2013) Habitat preference rather than predation risk determines the distribution patterns of filefish Rudarius ercodes in and around seagrass habitats. Marine Ecology Progress Series 488: 255–266

 

30. 古満啓介・山口陽介・Tongnunui Prasert・堀之内正博・山口敦子(2012)アンダマン海および長崎県黒島沖から得られたウシエイDasyatis cf. ushiei.板鰓類研究会報 48:1–5

 

29. Horinouchi M, Tongnunui P, Furumitsu K, Nakamura Y, Kanou K, Yamaguchi A, Okamoto K, Sano M (2012) Food habits of small fishes in seagrass habitats in Trang, southern Thailand. Fisheries Science 78:577–587

 

28. Nanjo K, Nakamura Y, Horinouchi M, Kohno H, Sano M (2011) Predation risks for juvenile fishes in a mangrove estuary: a comparison of vegetated and unvegetated microhabitats by tethering experiments. Journal of Experimental Marine Biology and Ecology 405:53–58

 

27. Kurata K, Horinouchi M, Dettman D L (2011) Spatial differences in stable isotope signatures of crustaceans in brackish lake systems, western Japan. In Akira Asakura et al. (eds.), New frontiers in crustacean biology, Crustaceana Monographs Series, Brill, The Netherlands, 341–354

 

26. 南條楠土・加納光樹・堀之内正博・佐野光彦(2010)西表島浦内川のマングローブ域における澪の魚類群集構造と環境特性.東海大学海洋研究所報告第31号: 31–41

 

25. Horinouchi M, Tongnunui P, Nanjo K, Nakamura Y, Sano M, Ogawa H (2009) Differences in fish assemblage structures between fragmented and continuous seagrass beds in Trang, southern Thailand. Fisheries Science 75:1409–1416

 

24. Nakamura Y, Horinouchi M, Sano M, Shibuno T (2009) The effects of distance from coral reefs on seagrass nursery use by 5 emperor fishes at the southern Ryukyu Islands, Japan. Fisheries Science 75:1401–1408

 

23. 横尾俊博・堀之内正博・荒西太士(2009)宍道湖および中海において春季に灯火トラップで採集された仔稚魚 Laguna16:47–52

 

22. Horinouchi M, Mizuno N, Jo Y, Fujita M, Sano M, Suzuki Y (2009) Seagrass habitat complexity does not always decrease foraging efficiencies of piscivorous fishes. Marine Ecology Progress Series 377:43–49

 

21. Horinouchi M (2009) Horizontal gradient in fish assemblage structures in and around a seagrass habitat: some implications for seagrass habitat conservation. Ichthyological Research 56:109–125(2010年度日本魚類学会論文賞受賞)

 

20. Horinouchi M, Kume G, Yamaguchi A, Toda K, Kurata K (2008) Food habits of small fishes in a common reed Phragmites australis belt in Lake Shinji, Shimane, Japan. Ichthyological Research 55:207–217

 

19. Shibuno T, Nakamura Y, Horinouchi M, Sano M (2008) Habitat use patterns of fishes across the mangrove-seagrass-coral reef seascape at Ishigaki Island, southern Japan. Ichthyological Research 55:218–237

 

18. Horinouchi M (2008) Patterns of food and microhabitat resource use by two benthic gobiid fishes. Environmental Biology of Fishes 82:187–194

 

17. Nakamura Y, Horinouchi M, Shibuno T, Tanaka Y, Miyajima T, Koike, I, Kurokura H, Sano M (2008) Evidence of ontogenetic migration from mangroves to coral reefs by black tail snapper Lutjanus fulvus: a stable isotope approach. Marine Ecology Progress Series 355: 257–266

 

16. 佐野光彦・中村洋平・渋野拓郎・堀之内正博(2008)熱帯地方の海草藻場やマングローブ水域は多くの魚類の成育場か 日本水産学会誌.74:93–96

 

15. Shinnaka T, Sano M, Ikejima K, Tongnunui P, Horinouchi M, Kurokura H (2007) Effects of mangrove deforestation on a fish assemblage at Pak Phanang Bay, southern Thailand. Fisheries Science 73:862–870(平成19年度日本水産学会論文賞受賞)

 

14. Horinouchi M (2007) Distribution patterns of benthic juvenile gobies in and around seagrass habitats: effectiveness of seagrass shelter against predators. Estuarine, Coastal and Shelf Science 72:657–664

 

13. Nakamura Y, Horinouchi M, Shibuno T, Kawasaki H, Sano M (2006) A comparison of seagrass-fish assemblage structures in open oceanic and coastal bay areas in the Ryukyu Islands, Japan. Proceedings of the 10th International Coral Reef Symposium:446–452

 

12. Horinouchi M (2005) A comparison of fish assemblages from seagrass beds and the adjacent bare substrata in Lake Hamana, central Japan. Laguna 12:69–72

 

11. 堀之内正博,中村洋平,佐野光彦,澁野拓郎(2005)沖縄県石西礁湖における海草藻場保全地域選定に関する研究:どの海草藻場を保全すれば魚類の種多様性が維持できるか Laguna12:63–67

 

10. Horinouchi M, Nakamura Y, Sano M (2005)  Comparative analysis of visual censuses using different width strip-transects for a fish assemblage in a seagrass bed. Estuarine, Coastal and Shelf Science 65 (2005):53–60

 

9. Nakamura Y, Horinouchi M, Sano M (2004)Influence of seagrass leaf density and height on recruitment of the cardinalfish Cheilodipterus quinquelineatus in tropical seagrass beds: an experimental study using artificial seagrass units. La mer 41:192–198

 

8. Nakamura Y, Horinouchi M, Nakai T, Sano M (2003) Food habits of fishes in a seagrass bed on a fringing coral reef at Iriomote Island, southern Japan. Ichthyological Research 50:15–22

 

7. Tongnunui P, Ikejima K, Yamane T, Horinouchi M, Medej T, Sano M, Kurokura H, Taniuchi T (2002) Fish fauna of the Sikao Creek mangrove estuary, Trang, Thailand. Fisheries Science 68:10–17

 

6. Horinouchi M, Sano M (2001) Effects of changes in seagrass shoot density and leaf height on the abundance of juveniles of Acentrogobius pflaumii in a Zostera marina bed. Ichthyological Research 48:179–185

 

5. Horinouchi M, Sano M (2000) Food habits of fishes in a Zostera marina bed at Aburatsubo, central Japan. Ichthyological Research 47:163–173

 

4. Horinouchi M, Sano M (1999) Effects of changes in seagrass shoot density and leaf height on abundances and distribution patterns of juveniles of three gobiid fishes in a Zostera marina bed. Marine Ecology Progress Series 183:87–94

 

3. Horinouchi M, Sano M, Taniuchi T, Shimizu M (1999) Effects of changes in leaf height and shoot density on the abundance of two fishes, Rudarius ercodes and Acentrogobius pflaumii in a Zostera bed. Ichthyological Research 46:49–56

 

2. Horinouchi M, Sano M, Taniuchi T, Shimizu M (1998) Food and microhabitat resource use by Rudarius ercodes and Ditrema temmincki coexisting in a Zostera bed at Aburatsubo, central Japan. Fisheries Science 64:563–568

 

1. Horinouchi M, Sano M, Taniuchi T, Shimizu M (1996) Stomach contents of the tetraodontid fish, Takifugu pardalis, in Zostera beds at Aburatsubo, central Japan. Ichthyological Research 43:455–458

 

1-2.査読無

1. 堀之内正博(2005)アマモ場の構造は稚魚の個体密度や分布パターンにどのような影響をおよぼすか.海洋と生物 159号27巻(4):350–355

 

1-3.総説(査読有)

1. Horinouchi M (2007) Review of the effects of within-patch scale structural complexity on seagrass fishes. Journal of Experimental Marine Biology and Ecology 350:111–129 2007年11月

 

2.著書

5. 堀之内正博・横尾俊博(2015)中海・宍道湖沿岸域の魚類.島根大学斐伊川百科編集委員会編「フィールドで学ぶ斐伊川百科」今井書店、p.138–147(著書)2015年3月

 

4. 堀之内正博(2011)「アマモ場における稚魚の分布パターン-本当に安全な場所なのか?」、「“スジハゼ”の分布パターンの決定要因は?」河野博監,加納光樹・横尾俊博編「東京湾の魚類」平凡社、p.165, 275(著書)2011年12月

 

3. 堀之内正博(2011)アマモ場-シェルター機能の再検討-.小路淳・堀正和・山下洋編「浅海域の生態系サービス-海の恵みと持続的利用」恒星社厚生閣、p.53–66 (著書)2011年3月

 

2. 堀之内正博(2003)アマモ場における調査法.竹内均編「地球環境調査計測事典 第3巻 沿岸域編」フジテクノシステム,東京.pp.723–732. (著書)

 

1. Fish Team of the Trang Project (Prasert, P., Horinouchi, M.(5番目),他6名.), 2002. Illustrated fish fauna of a mangrove estuary at Sikao, southwestern Thailand. Trang Project for Biodiversity and Ecological Significance of Mangrove Estuaries in Southeast Asia, Rajamangala Institute of Technology and the University of Tokyo. 60pp.

 

3.報告書

3. 澁野拓郎,佐野光彦,大葉英雄,堀之内正博,木村匡,藤岡義三,高田宜武,阿部寧,橋本和正,中村洋平,下池和幸 (2007) F-5 サンゴ礁生物多様性保全地域の選定に関する研究(1)保全すべき生物多様性の探索. 環境省地球環境研究総合推進費終了研究成果報告書 サンゴ礁生物多様性保全地域の選定に関する研究 平成15年度〜平成17年度: 9–48

 

2. 澁野拓郎,佐野光彦,大葉英雄,堀之内正博,木村匡,藤岡義三,高田宜武,阿部寧,橋本和正,中村洋平,下池和幸 (2006)  F-5 サンゴ礁生物多様性保全地域の選定に関する研究(1)保全すべき生物多様性の探索. 環境省地球環境研究総合推進費 平成16年度研究成果―中間成果報告集― : 213–234

 

1. 澁野拓郎,佐野光彦,大葉英雄,堀之内正博,木村匡,藤岡義三,高田宜武,阿部寧,橋本和正,中村洋平,下池和幸 (2005) F-5 サンゴ礁生物多様性保全地域の選定に関する研究(1)保全すべき生物多様性の探索. 環境省地球環境研究総合推進費 平成15年度研究成果―中間成果報告集― : 243–261

 

4.社会貢献

4-1. 学会での活動

 ・Marine Ecology Progress Series 誌 (Inter-Research Science Center, Oldendorf/Luhe, Germany) Review Editor: 2007年6月〜現在

 ・日本魚類学会編集委員: 2007年12月〜現在

 

4-2. 学外の委員会

 ・島根県立宍道湖自然館管理業務評価委員: 2011年4月〜現在

 

5.賞罰

 ・平成19年度日本水産学会論文賞受賞(2008年3月29日)

Shinnaka T, Sano M, Ikejima K, Tongnunui P, Horinouchi M, Kurokura H (2007) Effects of mangrove deforestation on a fish assemblage at Pak Phanang Bay, southern Thailand. Fisheries Science 73:862–870

 ・2010年度日本魚類学会論文賞受賞(2010年9月24日)

Horinouchi M (2009) Horizontal gradient in fish assemblage structures in and around a seagrass habitat: some implications for seagrass habitat conservation. Ichthyological Research 56:109–125