Institute for East China Sea Research Nagasaki University

Publications

Publication

1.Effects of ocean acidification on marine animals

・Wang, G., M. Yagi, R. Yin, W. Lu and A. Ishimatsu (2013) Effects of elevated seawater pCO2 on feed intake, oxygen consumption and morphology of Aristotle’s lantern in the sea urchin Anthocidaris crassispina (in press).
・Kawaguchi, S., A. Ishida, R. King, B. Raymond, N. Waller, A. Constable, S. Nicol, M. Wakita and A. Ishimatsu (2013) Risk maps for Antarctic krill under projected Southern Ocean acidification? Nature Climate Change doi:10.1038/nclimate1937
・Hayashi, M., T. Kikkawa and A. Ishimatsu (2013) Morphological changes in branchial mitochondria-rich cells of the teleost Paralichthys olivaceus as a potential index of CO2 impacts. Mar. Poll. Bull.
http://dx.doi.org/10.1016/j.marpolbul.2013.06.034
・Kita, J., T. Kikkawa, T. Asai and A. Ishimatsu (2013) Effects of elevated pCO2 on reproductive properties of the benthic copepod Tigriopus japonicus and gastropod Babylonia japonica. Mar. Poll. Bull.
http://dx.doi.org/10.1016/j.marpolbul.2013.06.026
・Kurihara, H., R. Yin, G. N. Nishihara, K. Soyano and A. Ishimatsu (2013) Effect of ocean acidification on gonad reproduction and physiology of the sea urchin Hemicentrotus pulcherrimus. Aquat. Biol. 18, 281-292.
・Dissanayake, A. and A. Ishimatsu (2011) Synergistic effects of elevated CO2 and temperature on the metabolic scope and activity in a shallow-water coastal decapod (Metapenaeus joyneri; Crustacea: Penaeidae). ICES J. Mar. Sci., 68: 1147-1154.
・Dissanayake, A. and A. Ishimatsu (2011) Osmoregulatory ability and salinity tolerance in several crustacean species of the East China Sea (Crustacea: Decapoda: Natantia). Plankton & Benthos Res. 6: 135-140.
・Kikkawa, T., Y. Minowa, Y. Nakamura, J. Kita and A. Ishimatsu (2010) Swimming inhibition by elevated pCO2 inephyrae of the scyphozoan jellyfish, Aurelia. Plankton. Benthos. Res., 5: 119-122.
・Ishimatsu, A. and A. Dissanayake (2010) Life threatened in acidic coastal waters. In: Coastal Environmental and Ecosystem Issues of the East China Sea, eds. A. Ishimatsu and H.-J. Lie, Terrapub, Tokyo, pp.283-303.
・Kawaguchi, S., H. Kurihara, R. King, L. Hale, T. Berli, J. P. Robinson, A. Ishida, M. Wakita, P. Virtue, S. Nicol and A. Ishimatsu (2010) Will krill fare well under Southern Ocean acidification?. Biol. Lett., 7: 288-291.
・Kurihara, H., R. Yin, K. Soyano and A. Ishimatsu (2010) Ocean acidification and warming synergistically impact reproduction, feeding and physiology of a sea urchin. (Submitted to Plos Biology).
・Kurihara, H. and A. Ishimatsu (2008) Effects of high CO2 seawater on the copepod (Acartia tsuensis) through all life stages and subsequent
generations. Mar. Poll. Bull., 56: 1086-1090.
・Kikkawa, T., Y. Watanabe, J. Kita and A. Ishimatsu (2008) Acute CO2 tolerance limits of juveniles of three marine invertebrates, Sepia lycidas, Sepioteuthis lessoniana, and Marsupenaeus japonicus. Plankton & Benthos Res., 3: 184-187.
・Kurihara, H., M. Matsui, H. Furukawa, M. Hayashi and A. Ishimatsu (2008) Long-term effects of predicted future seawater CO2 conditions on the survival and growth of the marine shrimp Palaemon pacificus. J. Exp. Mar. Biol. Ecol., 367: 41-46.
・Ishimatsu, A., M. Hayashi and T. Kikkawa (2008) Fishes in high-CO2, acidified oceans. Mar. Ecol. Prog. Ser., 373: 295-302.
・Kurihara, H., T. Asai, S. Kato and A. Ishimatsu (2008) Effects of elevated pCO2 on the early development of the mussel Mytilus galloprovincialis. Aquat. Biol., 4: 225–233.
・喜田 潤・渡辺雄二・白山義久・吉川貴志・林 正裕・石松 惇(2007)海洋生物に及ぼすCO2海洋隔離の急性影響.月刊海洋, 39: 383-388.
・Kurihara, H., A. Ishimatsu and Y. Shirayama (2007) Effects of elevated seawater CO2 concentration on the meiofauna. Journal of Marine Science and Technology/National Taiwan Ocean University., 15: 17-22.
・Kurihara, H., S. Kato and A. Ishimatsu (2007) Effects of increased seawater pCO2 on the early development of the oyster Crassostrea gigas. Aquat. Biol., 1: 91-98.
・Kikkawa, T., T. Sato, J. Kita and A. Ishimatsu (2006) Acute toxicity of temporally varying seawater CO2 conditions on juveniles of Japanese sillago (Sillago japonica). Mar. Poll. Bull., 52: 621-625.
・Ishimatsu, A., M. Hayashi, K. S. Lee, T. Kikkawa and J. Kita (2005) Physiological effects on fishes in ahigh-CO2 world. J. Geophys. Res., 110: C09S09, doi:10.1029/2004JC002564.
・Hayashi, M., J. Kita, and A. Ishimatsu (2004) Acid-base responses to lethal aquatic hypercapnia in three marine fish. Mar. Biol., 144: 153-160.
・Kikkawa, T., J. Kita, and A. Ishimatsu (2004) Comparison of the lethal effect of CO2 and acidification on red sea bream (Pagrus major) during the early developmental stages. Mar. Poll. Bull., 48: 108-110.
・Ishimatsu, A., T. Kikkawa, M. Hayashi, K.-S. Lee, and J. Kita (2004) Effects of CO2 on marine fish: larvae and adults. J. Oceanogr., 60: 731-741.
・Hayashi, M., J. Kita and A. Ishimatsu (2004) Comparison of the acid-base responses to CO2 and acidificationin Japanese flounder (Paralichthys olivaceus). Mar. Poll. Bull., 49(11-12): 1062-1065.
・石松 惇・吉川 貴志・林 正裕・喜田 潤 (2003) 海水環境:高二酸化炭素の影響.日本海水学会誌, 57(4): 285-288.
・Hayashi, M., A. Ishimatsu abd J. Kita (2003) Acid-base responses to fatal levels of CO2 in three marine fishes. Mar. Biol., 144: 153-160.
・Lee, K. S., A. Ishimatsu (2003) Effects of lethal levels of environmental hypercapnia on cardiovascular and blood-gas status in yellowtail, Seriola quiqueradiata. Zool. Sci., 20: 417-422.
・Hayashi, M., A. Ishimatsu and J. Kita (2002) Acid-base regulation during environmental hypercapnis in marine fish. Proceedings of International Commemorative Symposium: 70th Anniversary of the Japanese Society of Fisheries Science, Yokohama, Oct 1-5, 2001, pp.635-636.
・Kikkawa, T., J. Kita and A. Ishimatsu (2002) Effects of CO2 on early development and growth of red sea bream (Pagrus major). Proceedings of International Commemorative Symposium: 70th Anniversary of the Japanese Society of Fisheries Science, Yokohama, Oct. 1-5, 2001, pp.637-638.
・Kita, J., A. Ishimatsu, T. Kikkawa and M. Hayashi (2002) Effects of CO2 on marine fish. Proceedings of the 6th International Conference on Greenhouse Gas Control Technologies, Kyoto, Oct. 1-4.
・喜田 潤・吉川貴志・石松 惇 (2001)魚類卵・仔稚へのCO2の影響. 海洋, 33: 797-801.
・石松 惇・林 正裕・喜田 潤 (2001)魚類成体へのCO2の影響. 海洋, 33: 802-806.
・石松 惇・喜田 潤 (1999) CO2が魚類に与える影響について. 魚類学雑誌, 46: 1-13.

2.Ecophysiology of mudskippers

・Toba, A. and A. Ishimatsu (2013) Roles of air stored in burrows of the mudskipper, Boleophthalmus pectinirostris for adult respiration and embryonic development. J. Fish Biol. (in press).
・Itoki, N., T. Sakamoto, M. Hayashi, T. Takeda and A. Ishimatsu (2012) Morphological responses of mitochondria-rich cells to hypersaline environment in the Australian mudskipper, Periophthalmus minutus. Zool.
Sci. 29: 444-449.
・Ishimatsu, A. (2012) Evolution of cardiorespiratory system in air-breathing fishes. Aqua-BioScience Monograph. 5: 1-28.
・Lee, J.-A., J.-W. Kim, S.-Y. Oh, S.-K. Yi, I. Noh, A. Ishimatsu and W.-S. Kim (2012) Effect of low dissolved oxygen on the oxygen consumption rate and the rhythm of the mudskipper Scartelaos gigas (Pisces, Gobiidae). Fish. Sci. 78: 1013-1022.
・Takeda, T., M. Hayashi, A. Toba, K. Soyano and A. Ishimatsu (2011) Ecology of the Australian mudskipper Periophthalmus minutus, an amphibious fish inhabiting a mudflat in the highest intertidal zone. Austr. J. Zool. 59: 312-320.
・Gonzales, T. T., M. Katoh, M. A. Ghaffar and A. Ishimatsu (2011) Gross and fine anatomy of the respiratory asculature of the mudskipper, Periophthalmodon schlosseri (Gobiidae: Oxudercinae). Journal of Morphology., 272: 629-640.
・Ishimatsu, A. and T. T. Gonzales (2011) Mudskippers: front runners in the modern invasion of land. In: The Biology of Gobies, eds. R.A. Patzner, J.L. Van Tassell, M. Kovacic and B.G. Kapoor, Science Publisher, Enfield, pp.659-638.
・Ishimatsu, A. and J. B. Graham (2011) Roles of environmental cues for embryonic incubation and hatching in mudskippers. Int. Comp. Biol., 51: 38-48.
・Takita, T., H. Larson and A. Ishimatsu (2011) The natural history of mudskippers in northern Australia, with field identification characters. Beagle., 27: 189-204.
・Ishimatsu, A. (2011) Evolution of cardiorespiratory system in air-breathing fishes. Aqua-BioScience Monograph (Accepted on Oct. 3, 2011).
・Tang, W., A. Ishimatsu, C. Fu, W. Yin, G. Li, H. Chen, Q. Wu and B. Li (2010) Cryptic species and historical biogeography of eel govies (Gobioidei: Odontamblyopus) along the northwestern pacific coast. Zoolog. Sci., 27: 8-13.
・田北 徹・石松 惇(2009)「河口域に生きる特産ハゼ類」『干潟の海に生きる魚たち-有明海の豊かさと危機』(日本魚類学会自然保護委員会編). 東海大 学出 版会. pp.139-154.
・石松 惇(2009)「干潟に対する魚類の適応-海と陸のはざまに生きる-」海洋生命系のダイナミクスシリーズ第5巻『海と生命-「海の生命観」を求めて』. 東海 大学出版会. 201-217.
・Ishimatsu, A., T. Takeda, Y. Tsuhako, T. T. Gonzales and K. H. Khoo (2009) Direct evidence for aerial egg deposition in theburrows of the Malaysian mudskipper, Periophthalmodon schlosseri. Ichthyol.Res., 56: 417-420.
・Gonzales, T. T., M. Katoh and A. Ishimatsu (2008) Intertidal burrows of the air-breathing ell goby, Odontamblyopus lacepedii (Gobiidae: Amblyopinae). Ichthyol. Res., 55: 303-306.
・Gonzales, T. T., M. Katoh and A. Ishimatsu (2008) Respiratory vasculatures of the intertidal air-breathing eel goby, Odontamblyopus lacepedii (Gobiidae: Amblyopinae). Env. Biol. Fish., 82: 341-351.
・Ishimatsu, A., Y. Yoshida, N. Itoki, T. Takeda, H. J. Lee and J. B. Graham (2007) Mudskippers brood their eggs in air but submerge them for hatching. J. Exp. Biol., 210: 3946-3954.
・Etou, A., T. Takeda, Y. Yoshida and A. Ishimatsu (2007) Oxygen consumption during embryonic development of the mudskipper (Periophthalmus modestus): Implication for the aerial development in burrows. In: Fish Respiration and Environment, eds. M. N. Fernandes, F. T. Rantin, M. L. Glass and B. G. Kapoor, Science Publisher, Enfield, pp.83-91.
・Gonzales, T., M. Katoh and A. Ishimatsu (2006) Air breathing of aquatic burrow-dwelling eel goby, Odontamblyyopus lacepedii, (Gobiidae: Amblyopinae). J. Exp. Biol., 209: 1085-1092.
・竹垣 毅・藤井剛洋・石松 惇(2006)ムツゴロウ若齢個体の冬期生息環境と低温耐性.日本水産学会誌.72: 880-885.
・Tsuhako, Y., A. Ishimatsu, T. Takeda, Khoo K. H. and K. Tachihara (2003) The eggs and larvae of the giant mudskipper, Periophthalmodon schlosseri, collected from a mudflat in Penang, Malaysia. Ichthyol. Res., 50(2): 178-181.
・石松 惇・吉田 雄・糸岐 直子・鳥羽 敦史・竹田 達右 (2003)トビハゼ・ムツゴロウの卵保護と空気の利用.月刊海洋. 35: 222-226.
・Aguilar, N. M., A. Ishimatsu, K. Ogawa and Khoo K. H. (2000) Aerial ventilatory responses of the mudskipper, Periophthalmodon schlosseri, to altered aerial and aquatic respiratory gas concentrations. Comp. Biochem. Physiol., 127: 285-292.
・Ishimatsu, A., T. Takeda, T. Kanda, S. Oikawa and Khoo K. H. (2000) Burrow environment of mudskippers in Malaysia. J. Bioscience., 11 (1&2): 17-28.
・Takeda, T., A. Ishimatsu, S. Oikawa, T. Kanda, Y. Hishida and K. H. Khoo (1999) Mudskipper Periophthalmodon schlosseri can repay oxygen debts in air but not in water. J. Exp. Zool., 284 (3): 265-270.
・Ishimatsu, A., N. M. Aguilar, K. Ogawa, Y. Hishida, T. Takeda, S. Oikawa, T. Kanda and K. H. Khoo (1999) Arterial blood gas levels and cardiovasclar function during varying environmental conditions in a mudskipper, Periophthalmodon schlosseri. J. Exp. Biol., 202 (13): 1753-1762.
・Ishimatsu, A., Y. Hishida, T. Takita, T. Kanda, S. Oikawa, T. Takeda and K. H. Khoo (1998) Mudskippers store air in their burrows. Nature., 391: 237-238.
・Ishimatsu, A., K. H. Khoo and T. Takita (1998) Deposition of air in burrows of tropical mudskippers as an adaptation to the hypoxic mudflat environment. Science Progress., 81: 289-297.

3.Fish kill mechanisms by red-tide algae

・Lee, K. S., A. Ishimatsu and T. Oda (2004) Direct evidence for the reduction of water flow across the gills of Jack mackerel Trachurus japonicus by a harmful alga Chattonella marina. J. Fish. Sci. Tech., 7: 96-98.
・Kim, D., O. Kumamoto, K.-S. Lee, A. Kuroda, A. Fujii, A. Ishimatsu and T. Oda (2004) Deleterious effect of Chattonella marine on short-necked clam (Ruditapes philippinarum); possible involvement of reactive oxygen species. J. Plank. Res., 26: 967-971.
・Lee,K. S., A. Ishimatsu, H. Sakaguchi and T. Oda (2003) Cardiac output during exposure to Chattonella marina and environmental hypoxia in yellowtail Seriola quinqueradiata.Mar. Biol., 142: 391-397.
・Lee, K. S., J. Kita and A. Ishimatsu (2003) Effects of lethal levels of environmental hypercapnia on cardiovascular and blood-gas status in yellowtail, Seriola quinqueradiata. Zool. Sci., 20: 417-422.
・Kim, D., T. Okamoto, T. Oda, K. Tachibana, K.-S. Lee, A. Ishimatsu, Y. Matsuyama, T. Honjo and T. Muramatsu (2001) Possible involvement of the glycocalyx in the ichthyotoxicity of Chattonella marina (Raphidophycea): immunological approach using antiserum against cell surface structure of the flagellate. Mar. Biol., 139: 625-632.
・Kim, D., T. Oda, A. Ishimatsu and T. Muramatsu (2000) Galacturonic-acid-induced increase of superoxide production in red tide phytoplankton Chattonella marina and Heterosigma akashiwo. Biosci. Biotechnol. Biochem., 64: 911-914.
・Okamoto, T., D. Kim, T. Oda, K. Matsuoka, A. Ishimatsu and T. Muramatsu (2000) Concanavalin A-induced discharge of lycocalyx of Raphidophycean flagellates, Chattonella marina and Heterosigma akashiwo. Biosci. Biotechnol. Biochem., 64: 1767-1770.
・Kim, D., A. Nakamura, T. Okamoto, N. Komatsu, T. Oda, T. Iida, A. Ishimatsu and T. Muramatsu (2000) Mechanism of superoxide anion generation in the toxic red tide plankton Chattonella marina: possible involvement of NAD(P)H oxidase. Biochim. Biophys. Acta., 1524: 220-227.
・Hishida,Y., A. Ishimatsu and T. Oda (1999) Effect of environmental hyperoxia on respiration of yellowtail exposed to Chattonella marina. Fisheries Sci., 65: 84-90.
・Kim, D., A. Nakamura, T. Okamoto, N. Komatsu, T. Oda, A. Ishimatsu and T. Muramatsu (1999) Toxic potential of the raphidophyte Olisthodiscus luteus: mediation by reactive oxygen species. J. Plank. Res., 21 (6): 1017-1027.
・Kim, D., T. Oda, A. Ishimatsu and T. Muramatsu (1999) Isolation and characterization of a mutant strain of Chattonella marina with decreased production of superoxide anion. Biosci. Biotechnol. Biochem., 63: 1947-1952.
・石松 惇・小田達也(1998) シャットネラの活性酸素産生と魚類斃死. 月刊海洋. 30: 175-180.
・Hishida, Y., H. Katoh, T. Oda and A. Ishimatsu (1998) Comparison of physiological responses to exposure to Chattonella marina in yellowtail, red sea bream and Japanese flounder. Fisheries Sci., 64: 875-881.
・Fukuda, K., N. Hamaguchi, T. Oda, A. Ishimatsu, and T. Muramatsu (1998) Hemagglutinating activity of extracellular alkaline metalloendopeptidases from Vibrio sp. NUF-BPP1. Biosci. Biotechnol. Biochem., 62: 1157-1160.
・Oda, T., A. Nakamura, T. Okamoto, A. Ishimatsu, and T. Muramatsu (1998) Lectin-induced enhancement of superoxide anion production by red tide phytoplankton. Mar. Biol., 131: 383-390.
・Nakamura, A., T. Okamoto, N. Komatsu, S. Ooka, T. Oda, A. Ishimatsu and T. Muramatsu (1998) Fish mucus stimulates the generation of superoxide anion by Chattonella marina and Heterosigma akashiwo. Fisheries Sci., 64: 866-869.
・Hishida, Y., A. Ishimatsu and T. Oda (1997) Mucus blockade of lamellar water channels in yellowtail exposed to Chattonella marina. Fisheries Sci., 63: 315-316.
・Ishimatsu, A., H. Maruta, T. Oda and M. Ozaki (1997) A comparison of physiological responses in yellowtail to fatal environmental hypoxia and exposure to Chattonella marina. Fisheries Sci., 63: 557-562.
・Oda, T., A. Nakamura, M. Shikayama, I. Kawano, A. Ishimatsu and T. Muramatsu (1997) Generation of reactive oxygen species by Raphidophycean phytoplankton. Biosci. Biotechnol. Biochem., 61: 1658-1662.
・Ishimatsu, A., M. Sameshima, A. Tamura and T. Oda (1996) Histological analysis of the mechanisms of Chattonella-induced hypoxemia in yellowtail. Fisheries Sci. 62: 50-58.
・Ishimatsu, A., T. Oda, M. Yoshida and M. Ozaki (1996) Oxygen radicals are probably involved in the mortality of yellowtail by Chattonella marina. Fisheries Sci., 62: 836-837.
・Kawano, I., T. Oda, A. Ishimatsu, and T. Muramatsu (1996) Inhibitory effect of the iron chelator Desferrioxamine (Desferol) on the generation of activated oxygen species by Chattonella marina. Mar. Biol., 126(4): 765-772.
・Oda, T., J. Moritomi, I. Kawano, S. Hamaguchi, A. Ishimatsu and T. Muramatsu (1995) Catalase- and superoxide dismutase-induced morphological changes and growth inhibition in the red tide phytoplankton Chattonella marina. Biosci. Biotechnol. Biochem., 59: 2044-2048.
・石松 惇・小田達也(1994) 赤潮プランクトン-シャットネラによる活性酸素の産生と毒性発現機構:魚の窒息死といかに関わっているか.化学と生物. 32: 352-354.
・Oda, T., A. Ishimatsu, S. Takeshita and T. Muramatsu (1994) Hydrogen peroxide production by the red-tide flagellate hattonella marina. Biosci. Biotechnol. Biochem., 58: 957-958.
・Oda, T., A. Ishimatsu, M. Shimada, S. Takeshita and T. Muramatsu (1992) Oxygen-radical-mediated toxic effexts of red tide flagellate Chattonella marina on Vibrio alginolyticus. Mar. Biol., 112: 505-509.
・Oda, T., T. Akaike, K. Sato, A. Ishimatsu, S. Takeshita, T. Muramatsu and H. Maeda (1992) Hydroxyl radical generation by red tide algae. Arch. Biochem. Biophys., 294: 38-43.
・Tsuchiyama, T., A. Ishimatsu, T. Oda, S. Uchida and M. Ozaki (1992) Effect of Chattonella exposure on plasma catecholamine levels in the yellowtail. Nippon Suisan Gakkaishi., 58: 207-211.
・Ishimatsu, A., T. Tsuchiyama, M. Yoshida, M. Sameshima, M. Pawluk and T. Oda (1991) Effect of Chattonella exposure on acid-base status of the yellowtail. Nippon Suisan Gakkaishi., 57: 2115-2120.
・Ishimatsu, A., H. Maruta, T. Tsuchiyama and M. Ozaki (1990) Respiratory, ionoregulatory and cardiovascular respones of the yellowtail Seriola quinqueradiata to exposure to the red tide plankton Chattonella. Nippon Suisan Gakkaishi., 56: 189-199.

4.Others

Respiratory and circulatory physiology

・石松 惇(2005)「2.魚の解剖と生理、2.1呼吸・循環・血液系」魚の科学辞典(谷内ほか編)、朝倉書店、東京、70-79.
・石松 惇(2004)「水産動物の生理機能、呼吸、血液・循環」水産海洋ハンドブック(竹内ほか編)、生物研究社、東京、92-96.
・Kakizawa, S., A. Ishimatsu, T. Takeda, T. Kaneko & T. Hirano (1997) Possible involvement of somatolactin in the regulation of plasma bicarbonate for the compensation of acidosis in rainbow trout. J. Exp. Biol., 200: 2675-2683.
・Hicks, J. W., A. Ishimatsu, S. Molloi, A. Erskin & N. Heisler (1996) The mechanism of cardiac shunting in reptiles: A new synthesis. J. Exp. Biol., 199: 1435-1446.
・Ishimatsu, A., J. W. Hicks & N. Heisler (1996) Analysis of cardiac shunting in the turtle Trachemys (Pseudemys) scripta: Application of the three outflow vessel model. J. Exp. Biol., 199: 2667-2677.
・El-Zibdeh, M. K., K. Tachihara, Y. Tsukashima, M. Tagawa & A. Ishimatsu (1996) Effect of triiodothyronine injection of broodstock fish on seed production in cultured seawater fish. Suisanzoshoku., 44(4): 487-496.
・Ishimatsu, A., G. K. Iwama and N. Heisler (1995) Physiological roles of the secondary circulatory system in fish. In: Advances in Comparative and Environmental Physiology, Vol. 21 Mechanisms of Systemic Regulation, ed. N. Heisler, Springer-Verlag, Berlin Heidelberg, pp. 215-236.
・Iwama, G. K. and A. Ishimatsu (1994) Cannulation of blood vessels. In: Techniques in Fish Immunology Vol. 3, eds.J. S. Stolen, T. C. Fletcher, A. F. Rowley, J. T. Zelikoff, S. L. Kaattari and S. A. Smith, SOS Publications, Fair Haven, pp. 1-16.
・Iwama, G. K., A. Ishimatsu & N. Heisler (1993) Site of acid-base relevant ion transfer in the gills of rainbow trout (Oncorhynchus mykiss) exposed to environmental hypercapnia. Fish Physiol. Biochem., 12: 269-280.
・Ishimatsu, A. and Y. Itazawa (1993) Anatomy and Physiology of the cardio-respiratory system in an air-breathing fish, Channa argus. In: Advances in Fish Research Vol. 1, ed. B. R. Singh, Narendra Publishing House, Delhi, pp. 55-70.
・板沢靖男・石松 惇(1993) 真骨魚カムルチーの空気呼吸と複式循環. Jpn. J. Electrocardiol., 13 Suppl. 1: 103-109.
・Ishimatsu, A., G. K. Iwama, T. B. Bentley and N. Heisler (1992) Contribution of the secondary circulatory system to acid-base regulation during hypercapnia in rainbow trout (Oncorhynchus mykiss). J. Exp. Biol., 170: 43-56.
・石松 惇 (1991) 血液と循環:酸塩基平衡と鰓循環、魚類生理学(板沢・羽生編) 恒星社厚生閣、東京, 35-65.
・White, F. N., J. W. Hicks and A. Ishimatsu (1989) Relationship between respiratory state and intracardiac shunts in turtles. Am. J. Physiol., 256: R240-R247.
・Ishimatsu, A., J. W. Hicks and N. Heisler (1988) Analysis of intracardiac shunting in the lizard, Varanus niloticus: A new model based on blood oxygen levels and microsphere distribution. Respir. Physiol., 71: 83-100.
・Ishimatsu, A., G. K. Iwama and N. Heisler (1988) In vivo analysis of partitioning of cardiac output between systemic and central venous sinus circuits in rainbow trout: A new approach using chronic cannulation of the branchial vein. J. Exp. Biol., 137: 75-88.
・Hicks, J. W., A. Ishimatsu and N. Heisler (1987) Oxygen and carbon dioxide transport characteristics of the blood of the Nile monitor lizard (Varanus niloticus). J. Exp. Biol., 130: 27-38.
・Andresen, J. H., A. Ishimatsu, K. Johansen and M. L. Glass (1987) An angiocardiographic analysis of the central circulation in the air-breathing teleost Channa argus. Acta Zool. (Stockh.) 68: 165-171.
・Ishimatsu, A., K. Johansen and S. Nilsson (1986) Autonomic nervous control of the circulatory system in the air-breathing fish Channa argus. Comp. Biochem. Physiol., 84C: 55-60.
・Glass, M. L., A. Ishimatsu and K. Johansen (1986) Responses of aerial ventilation to hypoxia and hypercapnia in Channa argus, an air-breathing fish. J. Comp. Physiol., 156B: 425-430.
・Ishimatsu, A. and Y. Itazawa (1983) Blood oxygen levels and acid-base status following air exposure in an air-breathing fish, Channa argus: The role of air ventilation. Comp. Biochem. Physiol., 74A: 787-793.
・Ishimatsu, A. and Y. Itazawa (1983) Difference in blood oxygen levels in the outflow vessels of the heart of an air-breathing fish, Channa argus: Do separate blood streams exist in a teleostean heart?. J. Comp. Physiol., 149B: 435-440.
・Ishimatsu, A. and Y. Itazawa (1981) Ventilation of the air-breathing organ in the snakehead Channa argus. Japan. J. Ichthyol., 28: 276-282.
・Itazawa, Y. and A. Ishimatsu (1981) Gas exchange in an air-breathing fish, the snakehead Channa argus, in normoxic and hypoxic water and in air. Bull. Japan. Soc. Sci. Fish., 47: 829-834.
・Ishimatsu, A., Y. Itazawa and T. Takeda (1979) On the circulatory systems of the snakeheads Channa maculata and C. argus with reference to bimodal breathing. Japan. J. Ichthyol., 26: 167-180.

Miscellaneous

・Yagi, M., T. Kanda, T. Takeda., A. Ishimatsu and S.Oikawa (2010) Ontogeneticphase shifts in metabolism: links to development and anti-predator adaptation. Proc. R. Soc. B., 277: 2793-2801.
・松田正彦・品川 明・日向野純也・藤井昭彦・平野慶二・石松 惇(2008) 低塩分がアサリの生残および血リンパ浸透圧に与える影響。水産増殖. 56: 127-136.
・Ishimatsu, A., M. Hayashi, M. Nakane and M. Sameshima (2007) Pathophysiolgoy of cultured tiger puffer suffering from the myxosporean emaciation disease. Fish Pathol., 42: 211-217.
・Lee, K.S., A. Ishimatsu and J. K. Jeon (2005) Cardiorespiratory regulations in the Japanese Amberjack (Seriola quinqueradiata) exposed to acute hypoxia. J. Korean Fish. Soc., 38(2): 106-111.
・Lee, H. C., K. Soyano, A. Ishimatsu, M. Nagae, S. Kohra, Y. Ishibashi, K. Arizono and Y. Takao (2004) Bisphenol A and nonylphenol bioconcentration in spotted halibut Verasper variegatus. Fish. Sci. 70: 192-194.
・Ikuta, K., T. Yada, S. Kitamura, F. Ito, M. Yamaguchi, T. Nishimura, T. Kaneko, M. Nagae, A. Ishimatsu and M. Iwata (2000). Recent studies on the effects of acidification on fish in Japan. Global Environmental Research., 4: 79-87.
・Tachihara, K., M. K. El-Zibdeh, A. Ishimatsu, and M. Tagawa (1997) Improved seed production of goldstriped amberjak Seriola lalandi under hatchery conditions by injection of triiodothyronine (T3) to broodstock fish. J. World Aquaculture Soc., 28: 34-44.
・El-Zibdeh, M. K., K. Tachihara, Y. Tsukashima, M. Tagawa and A. Ishimatsu (1996) Effect of triiodothyronine injection of broodstock fish on seed production in cultured seawater fish. Suisanzoshoku., 44(4): 487-496.
・Tachihara, K., M. K. El-Zibdeh and A. Ishimatsu (1996) Effect of triidothyronine (T3) injection on seed production survival rate of goldstriped amberjack (Seriola lalandi). In: Survival strategies in early life stages of marine resources, eds. Y. Watanabe, Y. Yamashita and Y. Oozeki, A. A. Balkema, Rotterdam, pp. 39-48.
・Menendez, M. S. and A. Ishimatsu (1993) Pesticide toxicity in the larvae of Japanese flounder, Paralichthys olivaceus. Bull. Fac. Fish. Nagasaki Univ., 74/75: 31-36.
・小山次朗・黒島良介・石松 惇(1992) 汚染物質毒性評価のための指標海産魚選定.水環境学会誌. 15: 804-813.

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