総説等

  1. 鈴木 剛,仲山 慶,前川文彦,Nguyen Minh Tue,木村栄輝,道中智恵子,松神秀徳,橋本俊次.2018.臭素系ダイオキシン類の毒性評価と排出実態調査—現状と今後の展開—.廃棄物資源循環学会誌,29,470–481.
  2. 仲山 慶.2011.合成ステロイド剤の環境影響に対する懸念.ファルマシア,47,1166–1167.
  3. Nakayama K, Oshima Y. 2008. Adverse effects of tributyltin on reproduction of Japanese medaka, Oryzias latipes. Coastal Marine Science, 32, 67–76.
    http://doi.org/10.15083/00040716
  4. 仲山 慶2006.トキシコゲノミクスによるPOPs等有害化学物質の生体影響評価.環境毒性学会誌,981-86.
    https://doi.org/10.11403/jset.9.81
  5. 大嶋雄治,井上 英,島崎洋平,仲山 慶,本城凡夫.2003.沿岸域におけるトリブチルスズ汚染の現状と魚介類への影響.海洋と生物,第25巻,第1号,11-14.
  6. 大嶋雄治,Kukuh Nirmala,横田佳子,島崎洋平,井上 英,仲山 慶,今田信良,本城凡夫,小林邦男.1999.トリブチルスズ(TBT)の魚類血液への蓄積とTBT-PCB複合汚染による産卵・ふ化への影響.日本海水学会誌,第53巻,第4号,224-228.
  7. 平松和昭,仲山 慶,大嶋雄治,四ヶ所四男美,本城凡夫.2002.メダカの行動解析によるバイオモニタリングの試み.応用水文15, 88-95.

著書

  1. Oshima Y, Nakayama K, Hano T, Kim S-G, Shimasaki Y, Kang I-J, Honjo T. 2009. Toxic interactions between tributyltin and polychlorinated biphenyls in aquatic organisms. In Arai T, Harino H, Ohji M & Langston WJ (Eds.), Ecotoxicology of Antifouling Biocides, Springer Japan, Tokyo, Japan, 195–206.
  2. Murakami Y, Nakayama K, Kitamura S-I, Iwata H, Tanabe S. 2008. Interdisciplinary Studies on Environmental Chemistry Vol. 1: Biological Responses to Chemical Pollutants, TERRAPUB, Tokyo, Japan.
  3. 大嶋雄治,仲山 慶Kang I-J,島崎洋平,本城凡夫.20064.7.生態リスク評価と行動影響評価 化学物質の生態リスク評価と規制—農薬編—(畠山成久 編),アイピーシー,東京,167-172.
  4. 大嶋雄治,姜 益俊,島崎洋平,仲山 慶,羽野健志,本城凡夫.2004III.脊椎動物.7.メダカ 水産学シリーズ:生物による微量人工化学物質のモニタリング(竹内一郎・田辺信介・日野明徳 編),恒星社厚生閣,東京,94-104.
  5. Lee RF, Steinert SA, Nakayama K, Oshima Y. 1999. Use of DNA strand damage (comet assay) and embryo development defects to assess contaminant exposure in Blue crab (Callinectes sapidus) embryos. In Hensel DS, Black MC & Harrass S (Eds.), Environmental Toxicology and Risk Assessment, vol 8, ASTM STP 1364 (pp. 341–349). West Conshohocken, PA: American Society of Testing and Materials.

紀要等

  1. Mizukawa H, Takahashi S, Nakayama K, Sudo A, Tanabe S. Contamination and accumulation feature of organotin compounds in common cormorants (Phalacrocorax carbo) from Lake Biwa, Japan. In Obayashi Y, Isobe T, Subramanian A, Suzuki S & Tanabe S (Eds), Interdisciplinary Studies on Environmental Chemistry Vol. 2: Environmental Research in Asia for Establishing a Scientist’s Network, TERRAPUB, Tokyo, Japan, 153–161.
  2. Song J-Y, Nakayama K, Murakami Y, Kitamura S-I. Immune gene expression levels correlate with the phenotype of Japanese flounder exposed to heavy oil. In Murakami Y, Nakayama K, Kitamura, SI, Iwata H & Tanabe S (Eds), Interdisciplinary Studies on Environmental Chemistry Vol. 1: Biological Responses to Chemical Pollutants, TERRAPUB, Tokyo, Japan, 111–122.
  3. Nakayama K, Iwata H, Tao L, Kannan K, Imoto M, Kim E-Y, Tashiro K, Tanabe S. Application of microarray technology to toxicity evaluation in wild common cormorants contaminated with persistent organic pollutants. In Murakami Y, Nakayama K, Kitamura, SI, Iwata H & Tanabe S (Eds), Interdisciplinary Studies on Environmental Chemistry Vol. 1: Biological Responses to Chemical Pollutants, TERRAPUB, Tokyo, Japan, 163–170.
  4. Nokame H, Kitamura S-I, Nakayama K, Matsuoka S, Sakaguchi H, Murakami Y. Effects of heavy oil on the developing Japanese flounder Paralichthys olivaceus. In Murakami Y, Nakayama K, Kitamura, SI, Iwata H & Tanabe S (Eds), Interdisciplinary Studies on Environmental Chemistry Vol. 1: Biological Responses to Chemical Pollutants, TERRAPUB, Tokyo, Japan, 171–178.
  5. Hirakawa S, Imaeda D, Nakayama K, Kim E-Y, Kunisue T, Tanabe S, Petrov EA, Batoev VB, Iwata H. Effects of dioxins and related compounds in the liver of wild Baikal seals: an implication from a toxicogenomic approach. In Murakami Y, Nakayama K, Kitamura, SI, Iwata H & Tanabe S (Eds), Interdisciplinary Studies on Environmental Chemistry Vol. 1: Biological Responses to Chemical Pollutants, TERRAPUB, Tokyo, Japan, 197–205.
  6. Hirakawa S, Imaeda D, Nakayama K, Kim E-Y, Kunisue T, Tanabe S, Petrov EA, Batoev VB, Iwata H. Gene expression profile in the liver of Baikal seals (Pusa sibirica): association with dioxins and related compounds. Organohalogen Compounds, 69, 1741–1744.
  7. Nakayama K, Iwata H, Tao L, Kannan K, Imoto M, Kim E-Y, Tashiro K, Tanabe S. Assessment of mixture toxicities of perfluorinated compounds and dioxins by gene expression profiling in wild cormorants. Proceedings of the International Symposium 2006 on Pioneering Studies of Young Scientists on Chemical Pollution and Environmental Changes, pp. 101–104. November 17–19, 2006, Matsuyama, Japan.
  8. Nakayama K, Iwata H, Kim E-Y, Tashiro K, Tanabe S. Monitoring of gene expression profiles related to chemical contamination in common cormorant (Phalacrocorax carbo) liver with an oligo array. In Proceedings of COE 1st International Symposium on Environmental Behavior and Ecological Impacts of Persistent Toxic Substances, pp. 218–222. March 18–19, 2004, Matsuyama, Japan.
  9. Iwata H, Kim E-Y, Nakayama K, Tanabe S, Yamagata A, Oofusa K. Effects of PCDDs/DFs/Co-PCB on hepatic protein expression profile in common cormorant population. In Proceedings of COE 1st International Symposium on Environmental Behavior and Ecological Impacts of Persistent Toxic Substances, pp. 223–227. March 18–19, 2004, Matsuyama, Japan.
  10. Oshima Y, Shimasaki Y, Inoue S, Nakayama K, Honjo T. Effect of tributyltin on reproduction of bivalves and fish. In Proceedings in International Symposium on Antifouling Paints and Marine Environment, pp. 124–132. January 27–30, 2004, Tokyo, Japan.
  11. Oshima Y, Koyama J, Nakayama K, Shimasaki Y, Inoue S, Inoue Y, Honjo T. Monitoring of dispersed oil pollution by P4501A1 activity in fish. In Proceedings of the Second International Work Shop on Bioassay of the Marine Environment in Northwest Pacific Region. March 15–16, 2003, Toyama, Japan.