学術論文(査読付き)
Google Citations
==投稿中の論文==
Anneville et al. (submitted)
Armstrong et al. (submitted)
Nakamura et al. (submitted)
Meyer et al. (submitted)
Tsuchiya et al. (submitted)
BioTIME team (submitted)
NEW!
87. Dai B, Matsuzaki SS, Negishi JN, Xia Z, Alam MK, Jiang Z (2024) Native fish assemblages in natural lakes across Japan: endemism deterioration lasting centuries. Diversity and Distribution.
86. Kadoya T, Nilsson KA, Kelly J, Bartley TJ, Saterberg T, Guzzo MM, Esch E, Koide D, Matsuzaki SS, Terui A, Akasaka M, MacDougall AS (2024) Common processes drive metacommunity structure in freshwater fish. Global Ecology and Biogeography.
85. 北村立実, 久保雄広, 松崎慎一郎, 西浩司, 湯澤美由紀, 幸福智, 菊地心, 吉村奈緒子, 山野博哉, 福島武彦 (2024)ゾーントラベルコスト法を用いた霞ヶ浦のレクリエーション価値評価の試み. 保全生態学研究.
84. O'Brien DA, Deb S, Gal G, Thackeray SJ, Dutta PS, Matsuzaki SS, May L, Clements CF (2023) Early warning signals have limited applicability to empirical lake data. Nature Communications 14:7942.
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83. Cicala D, Haubrock PJ, Matsuzaki SS, Balzani P (2024) Seasonal variability in the isotopic niche of the invasive channel catfish Ictalurus punctatus in Japan. Hydrobiologia.851:1551-1563.
82. Jin L, Chen H, Matsuzaki SS, Shinohara R, Wilkinson DM, Yan J (2023) Tipping points of nitrogen use efficiency in freshwater phytoplankton along trophic state gradient. Water Research 245:120639.
81. Matsuzaki SS, Kohzu A, Watanabe M, Kondo IN, Tatsuta A (2023) Use of legacy nitrogen as a resource: unfertilized lotus fields contribute to water quality improvement and biodiversity conservation. Nature-based solutions 4:100080. PDF
80. Nava V, Aherne J, Alfonso MB, Antão-Geraldes AM, Attermeyer K, Bao R, Bartrons M, Berger SA, Biernaczyk M, Bissen R, Brookes J, Brown D, Cañedo-Argüelles M, Canle M, Capelli C, Carballeira R, Cereijo JL, Chandra S, Chawchai S, Christensen ST, Christoffersen KS, de Eyto E, Delgado J, Dornan TN, Doubek JP, Dusaucy J, Erina O, Ersoy Z, Feuchtmayr H, Frezzotti ML, Galafassi S, Gateuille D, Gonçalves V, Grossart HP, Hamilton DP, Harris T, Kangur K, Kankılıç GB, Kessler R, Kiel C, Krynak EM, Leiva-Presa A, Lepori F, Matias MG, Matsuzaki SS, McElarney Y, Messyasz B, Mitchell M, Mlambo MC, Motitsoe SN, Nandini S, Owens C, Özkundakci D, Pinnow S, Pociecha A, Raposeiro P, Rõõm EI, Rotta F, Sartirana D, Salmaso N, Sarma SSS, Scordo F, Sibomana C, Siewert D, Stepanowska K, Tavşanoğlu UN, Tereshina M, Thompson J, Tolotti M, Valois A, Verburg P, Welsh B, Wesolek B, Weyhenmeyer GA, Wu N, Zawisza E, Zink L, Leoni B (2023) Plastic debris in lakes and reservoirs worldwide. Nature 619, 317–322. 簡単な解説
79. Zhao Q, Van den Brink PJ, Xu C, Wang S, Clark AT, Karakoc C, Sugihara G, Widdicombe CE, Atkinson A, Matsuzaki SS, Shinohara R, He S, Wang YXZ, De Laender F (2023) Relationships of temperature and biodiversity with stability of natural aquatic food webs. Nature Communications 14:3507.
78. Doi H, Matsuoka S, Matsuzaki SS, Nagano M, Sato H, Yamanaka H, Matsuhashi S, Yamamoto S, Minamoto T, Araki H, Ikeda K, Kato A, Kamei K, Maki N, Mitsuzuka T, Takahara T, Toki K, Ueda N, Watanabe T, Yamazoe K, Miya M (2023) Species traits and ecosystem characteristics affect species detection by eDNA metabarcoding in lake fish communities. Freshwater Biology 68:1346-1358. プレスリリース
77. Ishii Y, Nakagawa M, Matsuzaki SS, Jo J, Hayashi S (2023) Contrasting radiocesium transfer in the river and lake food webs: Importance of trophic level and food source. Journal of Environmental Radioactivity 263: 107184
76. Shinohara R, Matsuzaki SS, Watanabe M, Nakagawa M, Yoshida H, Kohzu A (2023) Heat waves can cause hypoxia in shallow lakes. Geophysical Research Letters 50: e2023GL102967. プレスリリース.
75. Kohzu A, Matsuzaki SS, Komuro S, Komatsu K, Takamura N, Nakagawa M, Imai A, and Fukushima T (2023) Identifying the true drivers of abrupt changes in ecosystem state with a focus on time lags: Extreme precipitation can determine water quality in shallow lakes. Science of The Total Environment 881: 163097.
74. Rogers T, Munch S, Matsuzaki SS, and Symons C (2023) Intermittent instability is widespread in plankton communities. Ecology Letters 26: 470-481.
73. Matsuzaki SS, Kohzu A, Tsuchiya K, Shinohara R, Nakagawa M, Fukumori K, Yamaguchi H, Kondo NI, and Kadoya T (2023) Water-level drawdowns can improve surface water quality and alleviate bottom hypoxia in shallow, eutrophic water bodies. Freshwater Biology 68:229-244. プレスリリース
72. O'Brien DA, Gal G, Thackeray SJ, Matsuzaki SS, and Clements CF (2023) Planktonic functional diversity changes in synchrony with lake ecosystem state. Global Change Biology 29:686-701.
71. Suzuki K, Matsuzaki SS, & Masuya H (2022) Decomposing predictability to identify dominant causal drivers in complex ecosystems. Proceedings of the National Academy of Sciences 119:e2204405119. プレスリリース
70. Shinohara R, Matsuzaki SS, Nakagawa M, Tsuchiya K, Kohzu A (2022) Does increased springtime solar radiation also increase primary production? Journal of Plankton Research. 44:496-506. プレスリリース
69. Sharma S, Filazzola A, Nguyen T, Imrit MA, Blagrave K, Bouffard D, Daly J, Feldman H, Felsine N, Franssen HJH, Granin N, Hecock R, L'Abee-Lund JH, Hopkins E, Howk N, Iacono M, Knoll LB, Korhonen J, Malmquist HJ, Marszelewski W, Matsuzaki SS, Miyabara Y, Miyasaka K, Mills A, Olson L, Peters TW, Richardson DC, Robertson DM, Rudstam L, Wain D, Waterfield H, Weyhenmeyer GA, Wiltse B, Yao H, Zhdanov A, and Magnuson JJ (2022) Long-term ice phenology records spanning up to 578 years for 78 lakes around the Northern Hemisphere. Scientific Data 9, 318.
68. Nakanishi K, Yokomizo H, Fukaya K, Kadoya T, Matsuzaki SS, Nishihiro J, Kohzu A, & Hayashi TI (2022) Inferring causal impacts of extreme water-level drawdowns on lake water clarity using long-term monitoring data. Science of The Total Environment 838:156088
67. Chang CC, Miki T, Ye H, Souissi S, Adrian R, Anneville O, Agasild H, Ban S, Be'eri-Shlevin Y, Chiang YR, Feuchtmayr H, Gal G, Ichise S, Kagami M, Kumagai M, Liu X, Matsuzaki SS, Manca M, Nõges P, Piscia R, Rogora M, Shiah FW, Thackeray S, Widdicombe C, Wu JT, Zohary T, and Hsieh CH (2022) Causal networks of phytoplankton diversity and biomass are modulated by environmental context. Nature Communications 13:1140.
66. Maasri A, Jähnig SC, Adamescu M, Adrian R, Baigun C, Baird D, Batista-Morales A, Bonada N, Brown L, Cai Q, Campos-Silva J, Clausnitzer V, Contreras-MacBeath T, Cooke S, Datry T, Delacamara G, De Meester L, Dijkstra K-D, Do VT, Domisch S, Dudgeon D, Eros T, Freitag H, Freyhof J, Friedrich J, Friedrichs-Manthey M, Geist J, Gessner M, Goethals P, Gollock M, Gordon C, Grossart H-P, Gulemvuga G, Gutiérrez-Fonseca P, Haase P, Hering D, Hahn HJ, Hawkins C, He F, Heino J, Hermoso V, Hogan Z, Hoelker F, Jeschke J, Jiang M, Johnson R, Kalinkat G, Karimov B, Kasangaki A, Kimirei I, Kohlmann B, Kummerlen M, Kuiper J, Kupilas B, Langhans S, Lansdown R, Leese F, Magbanua F, Matsuzaki SS, Monaghan MT, Mumladze L, Muzon J, Mvogo Ndongo P, Nejstgaard J, Nikitina O, Ochs C, Odume ON, Opperman J, Patricio H, Pauls S, Raghavan R, Ramirez A, Rashni B, Ross-Gillespie V, Samways M, Schaefer R, Schmidt-Kloiber A, Seehausen O, Shah DN, Sharma S, Soininen J, Sommerwerk N, Stockwell J, Suhling F, Tachamo Shah RD, Tharme R, Thorp J, Tickner D, Tockner K, Tonkin J, Valle M, Vitule J, Volk M, Wang D, Wolter C & Worischka S (2022) A Global Agenda for Advancing Freshwater Biodiversity Research. Ecology Letters 25:255-263. プレスリリース
65. Fukaya K, Kondo N, Matsuzaki SS, Kadoya T (2022) Multispecies site occupancy modeling and study design for spatially replicated environmental DNA metabarcoding. Methods in Ecology and Evolution. 13:183-193.
64. Qiu Q, Liang Z, Xu Y, Matsuzaki SS, Komatsu K, Wagner T (2021) A statistical framework to track temporal dependence of chlorophyll?nutrient relationships with implications for lake eutrophication management.Journal of Hydrology. 603, part D, 127134.
63. Sharma S, Richardson DC, Woolway RI, Imrit MA, Bouffard D, Blagrave K, Daly J, Filazzola A, Granin N, Korhonen J, Magnuson J, Marszelewski W, Matsuzaki SS, Perry W, Robertson D, Rudstam L, Weyhenmeyer GA, Yao H (2021) Loss of ice cover, shifting phenology, and more extreme events in Northern Hemisphere lakes. Journal of Geophysical Research: Biogeosciences 126(10) e2021JG006348.
62. Jane SF, Hansen GJA, Kraemer BM, Leavitt PR, Mincer JL, North RL, Pilla RM, Stetler JT, Williamson CE, Woolway RI, Arvola L, Chandra S, DeGasperi CL, Diemer L, Dunalska J, Erina O, Flaim G, Grossart HP, Hambright KD, Hein C, Hejzlar J, Janus LL, Jenny JP, Jones JR, Knoll LB, Leoni B, Mackay E, Matsuzaki SS, McBride C, Müller-Navarra DC, Paterson AM, Pierson D, Rogora M, Rusak JA, Sadro S, Saulnier-Talbot E, Schmid M, Sommaruga R, Thiery W, Verburg P, Weathers KC, Weyhenmeyer GA, Yokota K, & Rose KC (2021) Widespread deoxygenation of temperate Lakes. Nature 594: 66-70. プレスリリース
61. Tsuchiya K, Kohzu A, Kuwahara VS, Matsuzaki SS, Denda M, Hirabayashi K (2021) Different regulation of planktonic and epilithic biofilm bacterial production in the middle reaches of a temperate river. Aquatic Microbial Ecology 87:47-60.
60. Doubek JP, Anneville O, Dur G, Lewandowska AM, Patil VP, Rusak JA, Salmaso N, Seltmann CT, Straile D, Urrutia-Cordero P, Venail P, Adrian R, Alfonso MB, DeGasperi CL, de Eyto E, Feuchtmayr H, Gaiser EE, Girdner SF, Graham JL, Grossart HP, Hejzlar J, Jacquet S, Kirillin G, Llames ME, Matsuzaki SS, Nodine ER, Piccolo CM, Pierson DC, Rimmer A, Rudstam LG, Sadro S, Swain HM, Thackeray SJ, Thiery W, Verburg P, Zohary T, Stockwell JD (2021) The extent and variability of storm-induced temperature changes in lakes measured with long-term and high-frequency data. Limnology and Oceanography 66:1979-1992.
59. Haubrock P, Balzani P, Matsuzaki SS, Tarkan AS, Kourantidou M, Haase P (2021) Spatio-temporal niche plasticity of a freshwater invader as a harbinger of impact variability. Science of the Total Environment 777: 145947.
58. Zagarese HE, Gonzalez Sagrario MA, Wolf-Gladrow D, Noges P, Noges T, Kangur K, Matsuzaki SS, Kohzu A, Vanni MJ, Ozkundakci D, Echaniz SA, Vignatti A, Grosman F, Sanzano P, Van Dam B, & Knoll LB (2021) Patterns of CO2 concentration and inorganic carbon limitation of phytoplankton biomass in agriculturally eutrophic lakes. Water Research 190:116715.
57. Matsuzaki SS, Tanaka A, Kohzu A, Suzuki K, Komatsu K, Shinohara R, Nakagawa M, Nohara S, Ueno R, Satake K, and Hayashi S (2021) Seasonal dynamics of the activities of dissolved 137Cs and the 137Cs of fish in a shallow, hypereutrophic lake: Links to bottom-water oxygen concentrations. Science of the Total Environment 761: 143257.(プレスリリース)PDF
56. Matsuzaki SS, Lathrop RC, Carpenter SR, Walsh JR, Vander Zanden MJ, Gahler MR, and Stanley EH (2021) Climate and food web effects on the spring clear-water phase in two north-temperate eutrophic lakes. Limnology and Oceanography 66:30-46. PDF
55. 小松一弘, 中川惠, 土屋 健司, 高津文人, 篠原隆一郎, 松崎慎一郎(2020)霞ヶ浦における一次生産量に影響を及ぼす水質環境因子の解析. 土木学会論文集G(環境)76(7):III-11-III-17. 論文賞受賞
54. 小松一弘, 松崎慎一郎 (2020) 霞ヶ浦長期モニタリングにおけるCOVID-19 への対応. 水環境学会誌 43(12):427-428.
53. 松崎慎一郎・北村立実・西浩司・松本俊一・久保雄広・山野博哉・幸福智・菊地心・吉村奈緒子・福島武彦(2020)複数のアプローチを用いた霞ヶ浦の生態系サービス経済評価の試み:特集を企画するにあたって.応用生態工学会誌 23(1): 213-215
52. 北村立実・松崎慎一郎・西浩司・松本俊一・久保雄広・山野博哉・幸福智・菊地心・吉村奈緒子・福島武彦(2020)霞ヶ浦の生態系サービスの享受量の変遷及び代替法による経済評価.応用生態工学会誌 23(1): 217-234 (プレスリリース)
51. 幸福智・久保雄広・北村立実・松崎慎一郎・松本俊一・山野博哉・西浩司・菊地心・吉村奈緒子・福島武彦(2020)選択型実験を用いた霞ヶ浦の生態系サービスの経済価値評価.応用生態工学会誌 23(1): 235-243
50. 西浩司・久保雄広・北村立実・松崎慎一郎・松本俊一・山野博哉・幸福智・菊地心・吉村奈緒子・福島武彦(2020)ベスト・ワースト・スケーリングによる霞ヶ浦の生態系サービスの重要度評価.応用生態工学会誌 23(1): 245-256
49. 山野博哉・久保雄広・松崎慎一郎(2020)霞ヶ浦生態系サービスの経済評価の意義、課題、そして活用.応用生態工学会誌 23(1): 257-259
48. Chang CW, Ye H, Miki T, Deyle ER, Sami S, Anneville O, Adrian R, Chiang YR, Ichise S, Kumagai M, Matsuzaki SS, Shiah FK, Wu JT, Hsieh CH, Sugihara G (2020) Long‐term warming destabilizes aquatic ecosystems through weakening biodiversity‐mediated causal networks. Global Change Biology 26: 6413-6423.
47. Tsuchiya K, Komatsu K, Shinohara R, Imai A, Matsuzaki SS, Ueno R, Kuwahara VS, Kohzu A (2020) Variability of Benthic Methane-Derived Carbon along Seasonal, Biological and Sedimentary Gradients in a Polymictic Lake. Limnology and Oceanography.
46. Rogers Tl, Munch SB, Stewart SD, Palkovacs EP, Giron‐Nava A, Matsuzaki SS, Symons CC (2020) Trophic control changes with season and nutrient loading in lakes. Ecology Letters 23:1287-1297.
45. Kon T, Omori Y, Fukuta K, Wada H, Watanabe M, Chen Z, Iwasaki M, Mishina T, Matsuzaki SS, Yoshihara D, Arakawa J, Kawakami K, Toyoda A, Burgess SM, Noguchi H, & Furukawa T (2020) The Genetic Basis of Morphological Diversity in Domesticated Goldfish. Current Biology 30: 2260-2274.
44. Nakamura Y, Tsuji A, Makino W, Matsuzaki SS, Nagata N, Nakagawa M, and Takamura N (2020) Feeding ecology of a mysid species, Neomysis awatschensis in the Lake Kasumigaura: combining approach with microscopy, stable isotope analysis and DNA metabarcoding. Plankton and Benthos Research 15: 44-54.
43. Stockwell JD, Doubek JP, Adrian R, Anneville O, Carey CC, Carvalho L, De Senerpont Domis LN, Dur G, Frassl MA, Grossart HP, Ibelings BW, Lajeuness MJ, Lewandowska AM, Llames ME, Matsuzaki SS, Nodine ER, Nõges P, Patil VP, Pomati F, Rinke K, Rudstam LG, Rusak JA, Salmaso N, Seltmann CT, Straile D, Thackeray SJ, Thiery W, Urrutia-Cordero P, Venail P, Verburg P, Woolway RI, Zohary T, Andersen MR, Bhattacharya R, Hejzlar J, Janatian N, Kpodonu ATNK, Williamson TJ, and Wilson HL (2020) Storm Impacts on Phytoplankton Community Dynamics in Lakes. Global Change Biology 26: 2756-2784.
42.Dai B, Jiang X, Wang C, Matsuzaki SS, and Zhou L (2020) Abundance-based dissimilarity measurements reveal higher heterogeneity of fish communities in the lotic habitats of the Yangtze-Caizi transitional floodplain. Ecological Indicators 112: 106122.
41. Ishii Y, Matsuzaki SS, Hayashi S (2020) Different factors determine 137Cs concentration factors of freshwater fish and aquatic organisms in lake and river ecosystems. Journal of Environmental Radioactivity 213:106102. (プレスリリース)
40. Matsuzaki SS, Kohzu A, Kadoya T, Watanabe M, Osawa T, Fukaya K, Komatsu K, Kondo N, Yamaguchi H, Ando H, Shimotori K, Nakagawa M, Kizuka T, Yoshioka A, Sasai T, Saigusa N, Matsushita B, Takamura N (2019) Role of wetlands in mitigating the tradeoff between crop production and water quality in agricultural landscapes. Ecosphere 10(11):e02918 PDF (簡単な研究の紹介)
39. Cazelles K, Bartley T, Guzzo MM, Brice MH, MacDougall AS, Bennett JR, Esch EH, Kadoya T, Kelly J, Matsuzaki SS, Nilsson KA, and McCann KS (2019) Homogenization of freshwater lakes: recent compositional shifts in fish communities are explained by gamefish movement and not climate change. Global Change Biology 25:4222-4233.
38. Vitule JRS, Occhi TVT, Kang B, Matsuzaki SS, Bezerra LA, Vanessa LA, Daga VS, Faria L, Frehse FA, Walter F, Padial AA (2019) Intra-country introductions unraveling global hotspots of alien fish species. Biodiversity and Conservation 28:3037-3043.
37. Xu J, Molinos JG, Su G, Matsuzaki SS, Akasaka M, Zhang M, Heino J (in press) Cross‐taxon congruence of multiple diversity facets of freshwater assemblages is determined by large‐scale processes across China. Freshwater Biology 64:1492-1503.
36. Ye L, Chang CW, Matsuzaki SS, Takamura N, Widdicombe CE, Hsieh CH (2019) Functional diversity promotes phytoplankton resource use efficiency. Journal of Ecology 107:2353-2363.
35. Matsuzaki SS, Shinohara R, Uchida K, & Sasaki T. (2019) Catch diversification provides multiple benefits in inland fisheries. Journal of Applied Ecology 56:843-854. PDF
34. Tsuji H, Tanaka A, Komatsu K, Kohzu A, Matsuzaki SS, Hayashi S (2019) Vertical/spatial movement and accumulation of 137Cs in a shallow lake in the initial phase after the Fukushima Daiichi nuclear power plant accident. Applied Radiation and Isotopes 147:59-69.
33. Matsuzaki SS , Suzuki K, Kadoya T, Nakagawa M, & Takamura N. (2018) Bottom‐up linkages between primary production, zooplankton, and fish in a shallow, hypereutrophic lake. Ecology 99:2025-2036. PDF
32. 今藤夏子、松崎慎一郎(2018)霞ヶ浦における定置網と環境DNAを用いた魚類調査と種多様性の比較. 水環境学会誌 41: 137-140.
31. Shinohara R, Ouellette L, Nowell P, Parsons, CT, Matsuzaki SS, & Voroney PR (2018) The composition of particulate phosphorus: a case study of the Grand River, Canada. Journal of Great Lakes Research 44:527-534.
30. MacDougall AS, Harvey E, McCune JL, Nilsson KA, Bennett J, Firn J, Bartley T,Grace JB, Kelly J, Tunney TD, McMeans B, Matsuzaki SS, Kadoya T, Esch E, Cazelles K, Lester N, & McCann KS (2018) Context-dependent interactions and the regulation of species richness in freshwater fish. Nature Communications 9: 973.
29. Nakaoka M, Sudo K, Namba M, Shibata H, Nakamura F, Ishikawa S, Makino M, Yamano H, Matsuzaki SS, Yamakita T, Yu X, Hou X, Li X, Brodie J, Kanemoto K, Moran D, & Verones F (2018) TSUNAGARI: A new interdisciplinary and transdisciplinary study toward conservation and sustainable use of biodiversity and ecosystem services. Ecological Research 33: 35-49.
28. 馬渕浩司、松崎慎一郎(2017)日本の自然水域のコイ:在来コイの現状と導入コイの脅威. 魚類学雑誌 64:213-218
27. 向井貴彦、Abinash Padhi、臼杵崇広、山本大輔、加納光樹、萩原富司、榎本昌宏、松崎慎一郎(2016)日本における特定外来生物チャネルキャットフィッシュのミトコンドリアDNAハプロタイプの分布. 魚類学雜誌63: 81-87
26. Matsuzaki SS, Sasaki T & Akasaka M (2016) Invasion of exotic piscivores causes losses of functional diversity and functionally unique species in Japanese lakes. Freshwater Biology 61: 1128-1142. PDF
25.松崎慎一郎、西廣 淳、山ノ内崇志、森明寛、蛯名政仁、榎本昌宏、福田照美、福井利憲、福本一彦、後藤裕康、萩原彩華、長谷川裕弥、五十嵐聖貴、井上栄壮、神谷宏、金子有 子、小日向寿夫、紺野香織、松村俊幸、三上英敏、森山充、永田貴丸、中川圭太、大内孝雄、尾辻裕一、小山信、榊原靖、佐藤晋一、佐藤利幸、清水美登里、清水稔、勢村均、下中邦俊、戸井田伸一、吉澤一家、湯田達也、渡部正弘、中川惠、高村典子(2016)純淡水魚と水生植物を指標とした湖沼の生物多様性広域評価の試み. 保全生態学研究 21:155-165
24. 佐竹潔、上野隆平、松崎慎一郎、田中敦、高津文人、中川惠、野原精一(2016)福島原発事故から 2 年後の霞ヶ浦におけるユスリカ幼虫の放射性セシウム 137(137Cs)の濃度と移行状況. 陸水学雑誌 77: 137-143
23. Matsuzaki SS, Kumagai NH, & Hayashi TI (2016) Need for systematic statistical tools for decision-making in radioactively contaminated areas. Environmental Science & Technology 50: 1075-1076. PDF
22. Su G, Xu J, Akasaka M, Molinos JG & Matsuzaki SS (2015) Human impacts on functional and taxonomic homogenization of plateau fish assemblages in Yunnan, China. Global Ecology and Conservation 4:470-478. PDF
21. Terui A, Miyazaki Y, Yoshioka A, Matsuzaki SS (2015) A cryptic Allee effect: spatial contexts mask an existing fitness-density relationship. Royal Society Open Science 2: 150034. PDF
20. Matsuzaki SS, Kadoya T (2015) Trends and stability of inland fishery resources in Japanese lakes: introduction of exotic piscivores as a driver. Ecological Applications 25:1420-1432. PDF
(*The both authors contributed equally to this paper.)
プレスリリースを行いました―共同通信・毎日新聞・朝日新聞・読売新聞・日本経済新聞・茨城新聞等に取り上げていただきました
19. Xu J, Su G, Xiong Y, Akasaka M, Garcia Molinos J, Matsuzaki SS, Zhang M (2015) Complimentary analysis of metacommunity nestedness and diversity partitioning highlights the need for a holistic conservation strategy for highland lake fish assemblages. Global Ecology and Conservation 3: 288-296. PDF
18. 松崎慎一郎、佐竹潔、田中敦、上野隆平、中川惠、野原精一(2015)福島原発事故後の霞ヶ浦における淡水巻貝・二枚貝の放射性セシウム137(137Cs)の濃度推移,濃縮係数および生態学的半減期. 陸水学雑誌 76:25-34
17. Terui A, Miyazaki Y, Yoshioka A, Kaifu K, Matsuzaki SS, Washitani I (2014) Asymmetric dispersal structures a riverine metapopulation of the freshwater pearl mussel Margaritifera laevis. Ecology and Evolution 4: 3004-3014. PDF
16. Aiba M, Katabuchi M, Takafumi H, Matsuzaki SS, Sasaki T, Hiura T (2013) Robustness of trait distribution metrics for community assembly studies under the uncertainties of assembly processes. Ecology 94: 2873-2885
15. Matsuzaki SS, Sasaki T & Akasaka M (2013) Consequences of the introduction of exotic and translocated species and future extirpations on the functional diversity of freshwater fish assemblages. Global Ecology and Biogeography 22: 1071-1082. PDF
14 .Matsuzaki SS, von Wehrden H, Moller AP & Takamura N (2012) Fukushima disaster indirectly threatens lake ecosystems. Frontiers in Ecology & the Environment 10(9): 464. PDF
13. 荒山和則、松崎慎一郎、増子勝男、萩原富司、諸澤崇裕、加納光樹、渡辺勝敏(2012)霞ヶ浦における外来種コウライギギ(ナマズ目ギギ科)の採集記録と定着のおそれ. 魚類学雑誌 59:141-146
12. Matsuzaki SS, Sakamoto M, Kawabe K & Takamura N (2012) A laboratory study of the effects of shelter availability and invasive crayfish on the growth of native stream fish. Freshwater Biology 57: 874-882. PDF
11. Terui A, Matsuzaki SS, Kodama K, Tada M & Washitani I (2011) Factors affecting the local occurrence of the near-threatened bitterling (Tanakia lanceolata) in agricultural canal networks: strong attachment to its potential host mussels. Hydrobiologia 675: 19-28
10. 松崎慎一郎、児玉晃治、照井 慧、武島弘彦、佐藤専寿、富永 修、前田英章、多田雅充、鷲谷いづみ、吉田丈人(2011)モニタリングデータと生態的特性から探る福井県三方湖流域の純淡水魚類相の変化とその要因. 保全生態学研究 16(2):205-212. PDF
9. 照井慧、宮崎佑介、松崎慎一郎、鷲谷いづみ(2011)朱太川水系におけるカワシンジュガイ個体群の現況と局所密度に影響する要因. 保全生態学研究 16:149-157
8. Matsuzaki SS, Takamura N, Arayama K, Tominaga A, Iwasaki J & Washitani I (2011) Potential impacts of non-native channel catfish on commercially important species in a Japanese lake, as inferred from long-term monitoring data. Aquatic Conservation: Marine and Freshwater Ecosystems 21: 348-357. PDF
7. Matsuzaki SS, Terui A, Kodama K, Tada M, Yoshida T & Washitani I (2011) Influence of connectivity, habitat quality and invasive species on egg and larval distributions and local abundance of crucian carp in Japanese agricultural landscapes. Biological Conservation 144: 2081-2087. PDF
6. 宮崎佑介、松崎慎一郎、角谷拓、関崎悠一郎、鷲谷いづみ(2010)岩手県一関市のため池群においてコイが水草に与えていた影響. 保全生態学研究 15: 291-295
5. 松崎慎一郎、児玉晃治、武島弘彦、照井慧、増井増一、吉田丈人、鷲谷いづみ(2010)ラムサール条約登録湿地三方湖におけるブルーギルの侵入・定着. 魚類学雑誌 57: 87-89
4. Matsuzaki SS, Mabuchi K, Takamura N, Hicks BJ, Nishida M & Washitani I (2010) Stable isotope and molecular analyses indicate that hybridization with non-native domesticated common carp influence habitat use of native carp. OIKOS 119: 964-971. PDF
3. Matsuzaki SS, Mabuchi K, Takamura N, Nishida M & Washitani I (2009) Behavioural and morphological differences between feral and domesticated strains of common carp. Journal of Fish Biology 75: 1206-1220. PDF
2. Matsuzaki SS, Usio N, Takamura N & Washitani I (2009) Contrasting impacts of invasive engineers on freshwater ecosystems: an experiment and meta-analysis. Oecologia 158: 673-686. PDF
1. Matsuzaki SS, Usio N, Takamura N & Washitani I(2007) Effects of common carp on nutrient dynamics and littoral community composition: roles of excretion and bioturbation. Fundamental and Applied Limnology(旧誌名:Archiv fur Hydrobiologie)168 : 27-38. PDF
著書
NEW!
5. 松崎慎一郎(2021)生物多様性.水環境学会編集「水環境の事典(分担執筆)」(朝倉書店)
4. Katano, Hakoyama & Matsuzaki SS(2015)Japanese inland fisheries and aquaculture -Freshwater Fisheries Ecology (John F. Craig eds), pp231-240, Wiley-Blackwell
3. 松崎慎一郎(2013):湖沼におけるコイの水質や生物群集に与える生態的影響(日本魚類学会自然保護委員会編(向井貴彦・鬼倉徳雄・淀 太我・瀬能 宏)「見えない脅威"国内外来魚"ーどう守る地域の生物多様性」、分担執筆),東海大学出版会
2.Katano, O and Matsuzaki, SS(2012): Biodiversity of freshwater fishes in Japan in relation to inland fisheries - The Biodiversity Observation Network in Asia-Pacific Region: Towards Further Development of Monitoring (eds Nakano S, Yahara T and Nakashizuka T), Springer, Tokyo.pp431-444
1.松崎慎一郎(2010)安定同位体を用いた食物網構造と栄養段階の評価法.In「保全生態学の技法:ウェットランドの生物多様性評価」(鷲谷いづみ・宮下直・西廣淳・角谷拓(編))東京大学出版会,東京.
その他(査読なし、解説記事等)
NEW!
14. Blunden, J., T. Boyer, and E. Bartow-Gillies, Eds., 2023: “State of the Climate in 2022”. Bull. Amer. Meteor. Soc., 104 (9), Si–S501 https://doi.org/10.1175/2023BAMSStateoftheClimate.1.
13. 松崎慎一郎(2024)国際ワークショップで体験した5つの驚きと学び. 陸水学雑誌 85:35:-37.
12. 松崎慎一郎(2024)自然資本としての湖の価値と生態系サービスの持続的利用. 化学物質と環境 183:10-12.
11. 鈴木健大、松崎慎一郎、桝屋啓志(2024)EcohNetによる複雑な生態系の因果ネットワーク推定と動態予測. アグリバイオ 8(1):15-21.
10. 松崎慎一郎(2022)気候変動影響の監視を目指した湖沼高頻度自動観測の開始. 国立環境研究所ニュース 41巻5号
9. Chang KH, Nagata T, Ha JY, Takahashi H, Matsuzaki SS, Sakuma M, and Sakamoto M (2022) Takayuki Hanazato (1957-2021) in memoriam. Limnology 23:403-413.
8. 松崎慎一郎(2022)追悼 花里孝幸先生―ミジンコ先生から教わったこと. 陸水学雑誌 83(2): 99-101.
7. 松崎慎一郎(2019)アメリカ滞在記:冬は山小屋にこもる. 国立環境研究所ニュース 38巻
6. 松崎慎一郎(2016)霞ヶ浦魚類モニタリングの紹介~継続がデータの価値を高める~. 国立環境研究所ニュース 35巻
5. Kondo N., Nakagawa M., Matsuzaki SS, Ueno R., Takamura K., Ito H (2016) DNA barcoding, Environmental DNA and an ongoing attempt of detecting biodiversity in Lake Kasumigaura. Journal of Integrated Field Science, 13, 21-29.
4. 松崎慎一郎(2016)2015年度JaLTER All Scientist Meeting (ASM)の報告. 京都大学生態学研究センターニュース NO.131, 6.
3. 松崎慎一郎、三枝信子(2015)生物や生態系の変化をデータから読み解く~JaLTER全科学者会議2015の報告~. -地球環境研究センターニュー―ス26号Vol.8
2. 武島弘彦、松崎慎一郎(2013)DNA分析からみえてきた三方湖フナの固有性 -ナチュラリスト23(2):4
1. 松崎慎一郎(2010)放流コイ、実は大陸産だった!沈水植物を減らし、生態系も変化 -自然保護、No. 514:pp.25
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25.日本テレビ「真相報道バンキシャ」(2021年10月17日)「巨大外来魚ハクレンが川面を一斉ジャンプ。なぜ大量に?川に影響は?」
24.読売新聞(2021年6月10日夕刊)「世界の湖の酸素濃度、温暖化で低下…⽇本の霞ヶ浦含む393の湖のデータ分析」
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22.朝日新聞(2020年11月21日朝刊)「霞ケ浦の恵み 年1217億円以上 水利用・観光…経済価値を県算出」
21.日本経済新聞(2020年11月18日朝刊)「霞ケ浦の経済価値 年1217億円以上に 国立環境研など試算」
20.朝日新聞(2019年12月5日、夕刊)「生態系の変化 長期観測で究明(茨城・霞ヶ浦 ワムシ類の量 漁獲に影響)」
19.Wedge「ニシキゴイは侵略的外来種 放流で見落とされる環境への影響」、2017年7月号
18.フジテレビ みんなのニュース 「風物詩・ニシキゴイ放流は「危険」?」、2017年5月18日
17.読売新聞(2015年7月31日、地方版)「北潟湖 環境研試算 10年間で漁業資源7割減」
16.共同通信(2015年1月22日、ウェブ版掲載)「湖沼の魚介類減少、外来種原因 ワカサギ、コイ、シジミなど」
(その他、東奥日報、岩手日報、福島民報、神戸新聞が共同通信社の記事を掲載)
15.毎日新聞(2015年1月23日、全国版、26面)「外来種が原因 食用魚介半減 国立環境研調査 17湖沼、水質悪化よりダメージ」
14.茨城新聞(2015年1月23日、地域版、21面)「全国の湖沼 魚介類減少 国立環境研 外来魚侵入が原因」
13.常陽新聞(2015年1月23日、地域版、2面)「外来魚侵入で資源量減少」
12.読売新聞(2015年1月25日、全国版、31面)「湖沼の漁業資源30年で45%減」
11.日本経済新聞(2015年1月26日、全国版、14面)「湖沼の魚介類減る 国立環境研 原因は外来魚」
10.環境新聞(2015年1月28日、全国版、3面)「湖沼の天然魚介、過去10年で半減―国環研調査、外来種が影響」
9.朝日新聞(2015年1月28日、全国版、6面)「外来魚で湖沼の資源量激減」
8.科学新聞(2015年2月6日、全国版、4面)「外来魚の侵入で資源量が減少」
7.NHKサイエンスZERO「絶滅の危機!日本のコイ」、2013年6月2日(日)夜23:30-24:00
6.「国内外来魚の脅威(下)、”善意”の放流でも悪影響」、しんぶん赤旗、2010年3月8日科学欄
5.「ヒシ繁茂 魚生息脅かす 三方五湖自然再生 東大など中間報告」、朝日新聞、2010年2月26日朝刊
4.「三方五湖再生に力結集 住民、研究者と連携 協議会設立へ」、福井新聞、2010年2月23日朝刊
3.「ヒシ影響や外来魚生息」、中日新聞、2010年2月22日朝刊
2.「三方五湖の自然再生 県と地元2町協議会設立へ 外来魚対策など」、中日新聞、2010年1月27日朝刊
1.「放流コイ 生態系の脅威 浄化・教育のつもりが・・・生き物駆逐」、朝日新聞、2009年11月19日夕刊
博士論文
Assessing ecological and genetic impacts of non-native domesticated common carp (Cyprinus carpio) in Japanese lakes
(日本の湖沼における導入型コイの生態的・遺伝的影響の評価)
※主査:鷲谷いづみ先生,副審:西田睦先生,高村典子先生,宮下直先生,吉田丈人先生
Google Citations
==投稿中の論文==
Anneville et al. (submitted)
Armstrong et al. (submitted)
Nakamura et al. (submitted)
Meyer et al. (submitted)
Tsuchiya et al. (submitted)
BioTIME team (submitted)
NEW!
87. Dai B, Matsuzaki SS, Negishi JN, Xia Z, Alam MK, Jiang Z (2024) Native fish assemblages in natural lakes across Japan: endemism deterioration lasting centuries. Diversity and Distribution.
86. Kadoya T, Nilsson KA, Kelly J, Bartley TJ, Saterberg T, Guzzo MM, Esch E, Koide D, Matsuzaki SS, Terui A, Akasaka M, MacDougall AS (2024) Common processes drive metacommunity structure in freshwater fish. Global Ecology and Biogeography.
85. 北村立実, 久保雄広, 松崎慎一郎, 西浩司, 湯澤美由紀, 幸福智, 菊地心, 吉村奈緒子, 山野博哉, 福島武彦 (2024)ゾーントラベルコスト法を用いた霞ヶ浦のレクリエーション価値評価の試み. 保全生態学研究.
84. O'Brien DA, Deb S, Gal G, Thackeray SJ, Dutta PS, Matsuzaki SS, May L, Clements CF (2023) Early warning signals have limited applicability to empirical lake data. Nature Communications 14:7942.
.
83. Cicala D, Haubrock PJ, Matsuzaki SS, Balzani P (2024) Seasonal variability in the isotopic niche of the invasive channel catfish Ictalurus punctatus in Japan. Hydrobiologia.851:1551-1563.
82. Jin L, Chen H, Matsuzaki SS, Shinohara R, Wilkinson DM, Yan J (2023) Tipping points of nitrogen use efficiency in freshwater phytoplankton along trophic state gradient. Water Research 245:120639.
81. Matsuzaki SS, Kohzu A, Watanabe M, Kondo IN, Tatsuta A (2023) Use of legacy nitrogen as a resource: unfertilized lotus fields contribute to water quality improvement and biodiversity conservation. Nature-based solutions 4:100080. PDF
80. Nava V, Aherne J, Alfonso MB, Antão-Geraldes AM, Attermeyer K, Bao R, Bartrons M, Berger SA, Biernaczyk M, Bissen R, Brookes J, Brown D, Cañedo-Argüelles M, Canle M, Capelli C, Carballeira R, Cereijo JL, Chandra S, Chawchai S, Christensen ST, Christoffersen KS, de Eyto E, Delgado J, Dornan TN, Doubek JP, Dusaucy J, Erina O, Ersoy Z, Feuchtmayr H, Frezzotti ML, Galafassi S, Gateuille D, Gonçalves V, Grossart HP, Hamilton DP, Harris T, Kangur K, Kankılıç GB, Kessler R, Kiel C, Krynak EM, Leiva-Presa A, Lepori F, Matias MG, Matsuzaki SS, McElarney Y, Messyasz B, Mitchell M, Mlambo MC, Motitsoe SN, Nandini S, Owens C, Özkundakci D, Pinnow S, Pociecha A, Raposeiro P, Rõõm EI, Rotta F, Sartirana D, Salmaso N, Sarma SSS, Scordo F, Sibomana C, Siewert D, Stepanowska K, Tavşanoğlu UN, Tereshina M, Thompson J, Tolotti M, Valois A, Verburg P, Welsh B, Wesolek B, Weyhenmeyer GA, Wu N, Zawisza E, Zink L, Leoni B (2023) Plastic debris in lakes and reservoirs worldwide. Nature 619, 317–322. 簡単な解説
79. Zhao Q, Van den Brink PJ, Xu C, Wang S, Clark AT, Karakoc C, Sugihara G, Widdicombe CE, Atkinson A, Matsuzaki SS, Shinohara R, He S, Wang YXZ, De Laender F (2023) Relationships of temperature and biodiversity with stability of natural aquatic food webs. Nature Communications 14:3507.
78. Doi H, Matsuoka S, Matsuzaki SS, Nagano M, Sato H, Yamanaka H, Matsuhashi S, Yamamoto S, Minamoto T, Araki H, Ikeda K, Kato A, Kamei K, Maki N, Mitsuzuka T, Takahara T, Toki K, Ueda N, Watanabe T, Yamazoe K, Miya M (2023) Species traits and ecosystem characteristics affect species detection by eDNA metabarcoding in lake fish communities. Freshwater Biology 68:1346-1358. プレスリリース
77. Ishii Y, Nakagawa M, Matsuzaki SS, Jo J, Hayashi S (2023) Contrasting radiocesium transfer in the river and lake food webs: Importance of trophic level and food source. Journal of Environmental Radioactivity 263: 107184
76. Shinohara R, Matsuzaki SS, Watanabe M, Nakagawa M, Yoshida H, Kohzu A (2023) Heat waves can cause hypoxia in shallow lakes. Geophysical Research Letters 50: e2023GL102967. プレスリリース.
75. Kohzu A, Matsuzaki SS, Komuro S, Komatsu K, Takamura N, Nakagawa M, Imai A, and Fukushima T (2023) Identifying the true drivers of abrupt changes in ecosystem state with a focus on time lags: Extreme precipitation can determine water quality in shallow lakes. Science of The Total Environment 881: 163097.
74. Rogers T, Munch S, Matsuzaki SS, and Symons C (2023) Intermittent instability is widespread in plankton communities. Ecology Letters 26: 470-481.
73. Matsuzaki SS, Kohzu A, Tsuchiya K, Shinohara R, Nakagawa M, Fukumori K, Yamaguchi H, Kondo NI, and Kadoya T (2023) Water-level drawdowns can improve surface water quality and alleviate bottom hypoxia in shallow, eutrophic water bodies. Freshwater Biology 68:229-244. プレスリリース
72. O'Brien DA, Gal G, Thackeray SJ, Matsuzaki SS, and Clements CF (2023) Planktonic functional diversity changes in synchrony with lake ecosystem state. Global Change Biology 29:686-701.
71. Suzuki K, Matsuzaki SS, & Masuya H (2022) Decomposing predictability to identify dominant causal drivers in complex ecosystems. Proceedings of the National Academy of Sciences 119:e2204405119. プレスリリース
70. Shinohara R, Matsuzaki SS, Nakagawa M, Tsuchiya K, Kohzu A (2022) Does increased springtime solar radiation also increase primary production? Journal of Plankton Research. 44:496-506. プレスリリース
69. Sharma S, Filazzola A, Nguyen T, Imrit MA, Blagrave K, Bouffard D, Daly J, Feldman H, Felsine N, Franssen HJH, Granin N, Hecock R, L'Abee-Lund JH, Hopkins E, Howk N, Iacono M, Knoll LB, Korhonen J, Malmquist HJ, Marszelewski W, Matsuzaki SS, Miyabara Y, Miyasaka K, Mills A, Olson L, Peters TW, Richardson DC, Robertson DM, Rudstam L, Wain D, Waterfield H, Weyhenmeyer GA, Wiltse B, Yao H, Zhdanov A, and Magnuson JJ (2022) Long-term ice phenology records spanning up to 578 years for 78 lakes around the Northern Hemisphere. Scientific Data 9, 318.
68. Nakanishi K, Yokomizo H, Fukaya K, Kadoya T, Matsuzaki SS, Nishihiro J, Kohzu A, & Hayashi TI (2022) Inferring causal impacts of extreme water-level drawdowns on lake water clarity using long-term monitoring data. Science of The Total Environment 838:156088
67. Chang CC, Miki T, Ye H, Souissi S, Adrian R, Anneville O, Agasild H, Ban S, Be'eri-Shlevin Y, Chiang YR, Feuchtmayr H, Gal G, Ichise S, Kagami M, Kumagai M, Liu X, Matsuzaki SS, Manca M, Nõges P, Piscia R, Rogora M, Shiah FW, Thackeray S, Widdicombe C, Wu JT, Zohary T, and Hsieh CH (2022) Causal networks of phytoplankton diversity and biomass are modulated by environmental context. Nature Communications 13:1140.
66. Maasri A, Jähnig SC, Adamescu M, Adrian R, Baigun C, Baird D, Batista-Morales A, Bonada N, Brown L, Cai Q, Campos-Silva J, Clausnitzer V, Contreras-MacBeath T, Cooke S, Datry T, Delacamara G, De Meester L, Dijkstra K-D, Do VT, Domisch S, Dudgeon D, Eros T, Freitag H, Freyhof J, Friedrich J, Friedrichs-Manthey M, Geist J, Gessner M, Goethals P, Gollock M, Gordon C, Grossart H-P, Gulemvuga G, Gutiérrez-Fonseca P, Haase P, Hering D, Hahn HJ, Hawkins C, He F, Heino J, Hermoso V, Hogan Z, Hoelker F, Jeschke J, Jiang M, Johnson R, Kalinkat G, Karimov B, Kasangaki A, Kimirei I, Kohlmann B, Kummerlen M, Kuiper J, Kupilas B, Langhans S, Lansdown R, Leese F, Magbanua F, Matsuzaki SS, Monaghan MT, Mumladze L, Muzon J, Mvogo Ndongo P, Nejstgaard J, Nikitina O, Ochs C, Odume ON, Opperman J, Patricio H, Pauls S, Raghavan R, Ramirez A, Rashni B, Ross-Gillespie V, Samways M, Schaefer R, Schmidt-Kloiber A, Seehausen O, Shah DN, Sharma S, Soininen J, Sommerwerk N, Stockwell J, Suhling F, Tachamo Shah RD, Tharme R, Thorp J, Tickner D, Tockner K, Tonkin J, Valle M, Vitule J, Volk M, Wang D, Wolter C & Worischka S (2022) A Global Agenda for Advancing Freshwater Biodiversity Research. Ecology Letters 25:255-263. プレスリリース
65. Fukaya K, Kondo N, Matsuzaki SS, Kadoya T (2022) Multispecies site occupancy modeling and study design for spatially replicated environmental DNA metabarcoding. Methods in Ecology and Evolution. 13:183-193.
64. Qiu Q, Liang Z, Xu Y, Matsuzaki SS, Komatsu K, Wagner T (2021) A statistical framework to track temporal dependence of chlorophyll?nutrient relationships with implications for lake eutrophication management.Journal of Hydrology. 603, part D, 127134.
63. Sharma S, Richardson DC, Woolway RI, Imrit MA, Bouffard D, Blagrave K, Daly J, Filazzola A, Granin N, Korhonen J, Magnuson J, Marszelewski W, Matsuzaki SS, Perry W, Robertson D, Rudstam L, Weyhenmeyer GA, Yao H (2021) Loss of ice cover, shifting phenology, and more extreme events in Northern Hemisphere lakes. Journal of Geophysical Research: Biogeosciences 126(10) e2021JG006348.
62. Jane SF, Hansen GJA, Kraemer BM, Leavitt PR, Mincer JL, North RL, Pilla RM, Stetler JT, Williamson CE, Woolway RI, Arvola L, Chandra S, DeGasperi CL, Diemer L, Dunalska J, Erina O, Flaim G, Grossart HP, Hambright KD, Hein C, Hejzlar J, Janus LL, Jenny JP, Jones JR, Knoll LB, Leoni B, Mackay E, Matsuzaki SS, McBride C, Müller-Navarra DC, Paterson AM, Pierson D, Rogora M, Rusak JA, Sadro S, Saulnier-Talbot E, Schmid M, Sommaruga R, Thiery W, Verburg P, Weathers KC, Weyhenmeyer GA, Yokota K, & Rose KC (2021) Widespread deoxygenation of temperate Lakes. Nature 594: 66-70. プレスリリース
61. Tsuchiya K, Kohzu A, Kuwahara VS, Matsuzaki SS, Denda M, Hirabayashi K (2021) Different regulation of planktonic and epilithic biofilm bacterial production in the middle reaches of a temperate river. Aquatic Microbial Ecology 87:47-60.
60. Doubek JP, Anneville O, Dur G, Lewandowska AM, Patil VP, Rusak JA, Salmaso N, Seltmann CT, Straile D, Urrutia-Cordero P, Venail P, Adrian R, Alfonso MB, DeGasperi CL, de Eyto E, Feuchtmayr H, Gaiser EE, Girdner SF, Graham JL, Grossart HP, Hejzlar J, Jacquet S, Kirillin G, Llames ME, Matsuzaki SS, Nodine ER, Piccolo CM, Pierson DC, Rimmer A, Rudstam LG, Sadro S, Swain HM, Thackeray SJ, Thiery W, Verburg P, Zohary T, Stockwell JD (2021) The extent and variability of storm-induced temperature changes in lakes measured with long-term and high-frequency data. Limnology and Oceanography 66:1979-1992.
59. Haubrock P, Balzani P, Matsuzaki SS, Tarkan AS, Kourantidou M, Haase P (2021) Spatio-temporal niche plasticity of a freshwater invader as a harbinger of impact variability. Science of the Total Environment 777: 145947.
58. Zagarese HE, Gonzalez Sagrario MA, Wolf-Gladrow D, Noges P, Noges T, Kangur K, Matsuzaki SS, Kohzu A, Vanni MJ, Ozkundakci D, Echaniz SA, Vignatti A, Grosman F, Sanzano P, Van Dam B, & Knoll LB (2021) Patterns of CO2 concentration and inorganic carbon limitation of phytoplankton biomass in agriculturally eutrophic lakes. Water Research 190:116715.
57. Matsuzaki SS, Tanaka A, Kohzu A, Suzuki K, Komatsu K, Shinohara R, Nakagawa M, Nohara S, Ueno R, Satake K, and Hayashi S (2021) Seasonal dynamics of the activities of dissolved 137Cs and the 137Cs of fish in a shallow, hypereutrophic lake: Links to bottom-water oxygen concentrations. Science of the Total Environment 761: 143257.(プレスリリース)PDF
56. Matsuzaki SS, Lathrop RC, Carpenter SR, Walsh JR, Vander Zanden MJ, Gahler MR, and Stanley EH (2021) Climate and food web effects on the spring clear-water phase in two north-temperate eutrophic lakes. Limnology and Oceanography 66:30-46. PDF
55. 小松一弘, 中川惠, 土屋 健司, 高津文人, 篠原隆一郎, 松崎慎一郎(2020)霞ヶ浦における一次生産量に影響を及ぼす水質環境因子の解析. 土木学会論文集G(環境)76(7):III-11-III-17. 論文賞受賞
54. 小松一弘, 松崎慎一郎 (2020) 霞ヶ浦長期モニタリングにおけるCOVID-19 への対応. 水環境学会誌 43(12):427-428.
53. 松崎慎一郎・北村立実・西浩司・松本俊一・久保雄広・山野博哉・幸福智・菊地心・吉村奈緒子・福島武彦(2020)複数のアプローチを用いた霞ヶ浦の生態系サービス経済評価の試み:特集を企画するにあたって.応用生態工学会誌 23(1): 213-215
52. 北村立実・松崎慎一郎・西浩司・松本俊一・久保雄広・山野博哉・幸福智・菊地心・吉村奈緒子・福島武彦(2020)霞ヶ浦の生態系サービスの享受量の変遷及び代替法による経済評価.応用生態工学会誌 23(1): 217-234 (プレスリリース)
51. 幸福智・久保雄広・北村立実・松崎慎一郎・松本俊一・山野博哉・西浩司・菊地心・吉村奈緒子・福島武彦(2020)選択型実験を用いた霞ヶ浦の生態系サービスの経済価値評価.応用生態工学会誌 23(1): 235-243
50. 西浩司・久保雄広・北村立実・松崎慎一郎・松本俊一・山野博哉・幸福智・菊地心・吉村奈緒子・福島武彦(2020)ベスト・ワースト・スケーリングによる霞ヶ浦の生態系サービスの重要度評価.応用生態工学会誌 23(1): 245-256
49. 山野博哉・久保雄広・松崎慎一郎(2020)霞ヶ浦生態系サービスの経済評価の意義、課題、そして活用.応用生態工学会誌 23(1): 257-259
48. Chang CW, Ye H, Miki T, Deyle ER, Sami S, Anneville O, Adrian R, Chiang YR, Ichise S, Kumagai M, Matsuzaki SS, Shiah FK, Wu JT, Hsieh CH, Sugihara G (2020) Long‐term warming destabilizes aquatic ecosystems through weakening biodiversity‐mediated causal networks. Global Change Biology 26: 6413-6423.
47. Tsuchiya K, Komatsu K, Shinohara R, Imai A, Matsuzaki SS, Ueno R, Kuwahara VS, Kohzu A (2020) Variability of Benthic Methane-Derived Carbon along Seasonal, Biological and Sedimentary Gradients in a Polymictic Lake. Limnology and Oceanography.
46. Rogers Tl, Munch SB, Stewart SD, Palkovacs EP, Giron‐Nava A, Matsuzaki SS, Symons CC (2020) Trophic control changes with season and nutrient loading in lakes. Ecology Letters 23:1287-1297.
45. Kon T, Omori Y, Fukuta K, Wada H, Watanabe M, Chen Z, Iwasaki M, Mishina T, Matsuzaki SS, Yoshihara D, Arakawa J, Kawakami K, Toyoda A, Burgess SM, Noguchi H, & Furukawa T (2020) The Genetic Basis of Morphological Diversity in Domesticated Goldfish. Current Biology 30: 2260-2274.
44. Nakamura Y, Tsuji A, Makino W, Matsuzaki SS, Nagata N, Nakagawa M, and Takamura N (2020) Feeding ecology of a mysid species, Neomysis awatschensis in the Lake Kasumigaura: combining approach with microscopy, stable isotope analysis and DNA metabarcoding. Plankton and Benthos Research 15: 44-54.
43. Stockwell JD, Doubek JP, Adrian R, Anneville O, Carey CC, Carvalho L, De Senerpont Domis LN, Dur G, Frassl MA, Grossart HP, Ibelings BW, Lajeuness MJ, Lewandowska AM, Llames ME, Matsuzaki SS, Nodine ER, Nõges P, Patil VP, Pomati F, Rinke K, Rudstam LG, Rusak JA, Salmaso N, Seltmann CT, Straile D, Thackeray SJ, Thiery W, Urrutia-Cordero P, Venail P, Verburg P, Woolway RI, Zohary T, Andersen MR, Bhattacharya R, Hejzlar J, Janatian N, Kpodonu ATNK, Williamson TJ, and Wilson HL (2020) Storm Impacts on Phytoplankton Community Dynamics in Lakes. Global Change Biology 26: 2756-2784.
42.Dai B, Jiang X, Wang C, Matsuzaki SS, and Zhou L (2020) Abundance-based dissimilarity measurements reveal higher heterogeneity of fish communities in the lotic habitats of the Yangtze-Caizi transitional floodplain. Ecological Indicators 112: 106122.
41. Ishii Y, Matsuzaki SS, Hayashi S (2020) Different factors determine 137Cs concentration factors of freshwater fish and aquatic organisms in lake and river ecosystems. Journal of Environmental Radioactivity 213:106102. (プレスリリース)
40. Matsuzaki SS, Kohzu A, Kadoya T, Watanabe M, Osawa T, Fukaya K, Komatsu K, Kondo N, Yamaguchi H, Ando H, Shimotori K, Nakagawa M, Kizuka T, Yoshioka A, Sasai T, Saigusa N, Matsushita B, Takamura N (2019) Role of wetlands in mitigating the tradeoff between crop production and water quality in agricultural landscapes. Ecosphere 10(11):e02918 PDF (簡単な研究の紹介)
39. Cazelles K, Bartley T, Guzzo MM, Brice MH, MacDougall AS, Bennett JR, Esch EH, Kadoya T, Kelly J, Matsuzaki SS, Nilsson KA, and McCann KS (2019) Homogenization of freshwater lakes: recent compositional shifts in fish communities are explained by gamefish movement and not climate change. Global Change Biology 25:4222-4233.
38. Vitule JRS, Occhi TVT, Kang B, Matsuzaki SS, Bezerra LA, Vanessa LA, Daga VS, Faria L, Frehse FA, Walter F, Padial AA (2019) Intra-country introductions unraveling global hotspots of alien fish species. Biodiversity and Conservation 28:3037-3043.
37. Xu J, Molinos JG, Su G, Matsuzaki SS, Akasaka M, Zhang M, Heino J (in press) Cross‐taxon congruence of multiple diversity facets of freshwater assemblages is determined by large‐scale processes across China. Freshwater Biology 64:1492-1503.
36. Ye L, Chang CW, Matsuzaki SS, Takamura N, Widdicombe CE, Hsieh CH (2019) Functional diversity promotes phytoplankton resource use efficiency. Journal of Ecology 107:2353-2363.
35. Matsuzaki SS, Shinohara R, Uchida K, & Sasaki T. (2019) Catch diversification provides multiple benefits in inland fisheries. Journal of Applied Ecology 56:843-854. PDF
34. Tsuji H, Tanaka A, Komatsu K, Kohzu A, Matsuzaki SS, Hayashi S (2019) Vertical/spatial movement and accumulation of 137Cs in a shallow lake in the initial phase after the Fukushima Daiichi nuclear power plant accident. Applied Radiation and Isotopes 147:59-69.
33. Matsuzaki SS , Suzuki K, Kadoya T, Nakagawa M, & Takamura N. (2018) Bottom‐up linkages between primary production, zooplankton, and fish in a shallow, hypereutrophic lake. Ecology 99:2025-2036. PDF
32. 今藤夏子、松崎慎一郎(2018)霞ヶ浦における定置網と環境DNAを用いた魚類調査と種多様性の比較. 水環境学会誌 41: 137-140.
31. Shinohara R, Ouellette L, Nowell P, Parsons, CT, Matsuzaki SS, & Voroney PR (2018) The composition of particulate phosphorus: a case study of the Grand River, Canada. Journal of Great Lakes Research 44:527-534.
30. MacDougall AS, Harvey E, McCune JL, Nilsson KA, Bennett J, Firn J, Bartley T,Grace JB, Kelly J, Tunney TD, McMeans B, Matsuzaki SS, Kadoya T, Esch E, Cazelles K, Lester N, & McCann KS (2018) Context-dependent interactions and the regulation of species richness in freshwater fish. Nature Communications 9: 973.
29. Nakaoka M, Sudo K, Namba M, Shibata H, Nakamura F, Ishikawa S, Makino M, Yamano H, Matsuzaki SS, Yamakita T, Yu X, Hou X, Li X, Brodie J, Kanemoto K, Moran D, & Verones F (2018) TSUNAGARI: A new interdisciplinary and transdisciplinary study toward conservation and sustainable use of biodiversity and ecosystem services. Ecological Research 33: 35-49.
28. 馬渕浩司、松崎慎一郎(2017)日本の自然水域のコイ:在来コイの現状と導入コイの脅威. 魚類学雑誌 64:213-218
27. 向井貴彦、Abinash Padhi、臼杵崇広、山本大輔、加納光樹、萩原富司、榎本昌宏、松崎慎一郎(2016)日本における特定外来生物チャネルキャットフィッシュのミトコンドリアDNAハプロタイプの分布. 魚類学雜誌63: 81-87
26. Matsuzaki SS, Sasaki T & Akasaka M (2016) Invasion of exotic piscivores causes losses of functional diversity and functionally unique species in Japanese lakes. Freshwater Biology 61: 1128-1142. PDF
25.松崎慎一郎、西廣 淳、山ノ内崇志、森明寛、蛯名政仁、榎本昌宏、福田照美、福井利憲、福本一彦、後藤裕康、萩原彩華、長谷川裕弥、五十嵐聖貴、井上栄壮、神谷宏、金子有 子、小日向寿夫、紺野香織、松村俊幸、三上英敏、森山充、永田貴丸、中川圭太、大内孝雄、尾辻裕一、小山信、榊原靖、佐藤晋一、佐藤利幸、清水美登里、清水稔、勢村均、下中邦俊、戸井田伸一、吉澤一家、湯田達也、渡部正弘、中川惠、高村典子(2016)純淡水魚と水生植物を指標とした湖沼の生物多様性広域評価の試み. 保全生態学研究 21:155-165
24. 佐竹潔、上野隆平、松崎慎一郎、田中敦、高津文人、中川惠、野原精一(2016)福島原発事故から 2 年後の霞ヶ浦におけるユスリカ幼虫の放射性セシウム 137(137Cs)の濃度と移行状況. 陸水学雑誌 77: 137-143
23. Matsuzaki SS, Kumagai NH, & Hayashi TI (2016) Need for systematic statistical tools for decision-making in radioactively contaminated areas. Environmental Science & Technology 50: 1075-1076. PDF
22. Su G, Xu J, Akasaka M, Molinos JG & Matsuzaki SS (2015) Human impacts on functional and taxonomic homogenization of plateau fish assemblages in Yunnan, China. Global Ecology and Conservation 4:470-478. PDF
21. Terui A, Miyazaki Y, Yoshioka A, Matsuzaki SS (2015) A cryptic Allee effect: spatial contexts mask an existing fitness-density relationship. Royal Society Open Science 2: 150034. PDF
20. Matsuzaki SS, Kadoya T (2015) Trends and stability of inland fishery resources in Japanese lakes: introduction of exotic piscivores as a driver. Ecological Applications 25:1420-1432. PDF
(*The both authors contributed equally to this paper.)
プレスリリースを行いました―共同通信・毎日新聞・朝日新聞・読売新聞・日本経済新聞・茨城新聞等に取り上げていただきました
19. Xu J, Su G, Xiong Y, Akasaka M, Garcia Molinos J, Matsuzaki SS, Zhang M (2015) Complimentary analysis of metacommunity nestedness and diversity partitioning highlights the need for a holistic conservation strategy for highland lake fish assemblages. Global Ecology and Conservation 3: 288-296. PDF
18. 松崎慎一郎、佐竹潔、田中敦、上野隆平、中川惠、野原精一(2015)福島原発事故後の霞ヶ浦における淡水巻貝・二枚貝の放射性セシウム137(137Cs)の濃度推移,濃縮係数および生態学的半減期. 陸水学雑誌 76:25-34
17. Terui A, Miyazaki Y, Yoshioka A, Kaifu K, Matsuzaki SS, Washitani I (2014) Asymmetric dispersal structures a riverine metapopulation of the freshwater pearl mussel Margaritifera laevis. Ecology and Evolution 4: 3004-3014. PDF
16. Aiba M, Katabuchi M, Takafumi H, Matsuzaki SS, Sasaki T, Hiura T (2013) Robustness of trait distribution metrics for community assembly studies under the uncertainties of assembly processes. Ecology 94: 2873-2885
15. Matsuzaki SS, Sasaki T & Akasaka M (2013) Consequences of the introduction of exotic and translocated species and future extirpations on the functional diversity of freshwater fish assemblages. Global Ecology and Biogeography 22: 1071-1082. PDF
14 .Matsuzaki SS, von Wehrden H, Moller AP & Takamura N (2012) Fukushima disaster indirectly threatens lake ecosystems. Frontiers in Ecology & the Environment 10(9): 464. PDF
13. 荒山和則、松崎慎一郎、増子勝男、萩原富司、諸澤崇裕、加納光樹、渡辺勝敏(2012)霞ヶ浦における外来種コウライギギ(ナマズ目ギギ科)の採集記録と定着のおそれ. 魚類学雑誌 59:141-146
12. Matsuzaki SS, Sakamoto M, Kawabe K & Takamura N (2012) A laboratory study of the effects of shelter availability and invasive crayfish on the growth of native stream fish. Freshwater Biology 57: 874-882. PDF
11. Terui A, Matsuzaki SS, Kodama K, Tada M & Washitani I (2011) Factors affecting the local occurrence of the near-threatened bitterling (Tanakia lanceolata) in agricultural canal networks: strong attachment to its potential host mussels. Hydrobiologia 675: 19-28
10. 松崎慎一郎、児玉晃治、照井 慧、武島弘彦、佐藤専寿、富永 修、前田英章、多田雅充、鷲谷いづみ、吉田丈人(2011)モニタリングデータと生態的特性から探る福井県三方湖流域の純淡水魚類相の変化とその要因. 保全生態学研究 16(2):205-212. PDF
9. 照井慧、宮崎佑介、松崎慎一郎、鷲谷いづみ(2011)朱太川水系におけるカワシンジュガイ個体群の現況と局所密度に影響する要因. 保全生態学研究 16:149-157
8. Matsuzaki SS, Takamura N, Arayama K, Tominaga A, Iwasaki J & Washitani I (2011) Potential impacts of non-native channel catfish on commercially important species in a Japanese lake, as inferred from long-term monitoring data. Aquatic Conservation: Marine and Freshwater Ecosystems 21: 348-357. PDF
7. Matsuzaki SS, Terui A, Kodama K, Tada M, Yoshida T & Washitani I (2011) Influence of connectivity, habitat quality and invasive species on egg and larval distributions and local abundance of crucian carp in Japanese agricultural landscapes. Biological Conservation 144: 2081-2087. PDF
6. 宮崎佑介、松崎慎一郎、角谷拓、関崎悠一郎、鷲谷いづみ(2010)岩手県一関市のため池群においてコイが水草に与えていた影響. 保全生態学研究 15: 291-295
5. 松崎慎一郎、児玉晃治、武島弘彦、照井慧、増井増一、吉田丈人、鷲谷いづみ(2010)ラムサール条約登録湿地三方湖におけるブルーギルの侵入・定着. 魚類学雑誌 57: 87-89
4. Matsuzaki SS, Mabuchi K, Takamura N, Hicks BJ, Nishida M & Washitani I (2010) Stable isotope and molecular analyses indicate that hybridization with non-native domesticated common carp influence habitat use of native carp. OIKOS 119: 964-971. PDF
3. Matsuzaki SS, Mabuchi K, Takamura N, Nishida M & Washitani I (2009) Behavioural and morphological differences between feral and domesticated strains of common carp. Journal of Fish Biology 75: 1206-1220. PDF
2. Matsuzaki SS, Usio N, Takamura N & Washitani I (2009) Contrasting impacts of invasive engineers on freshwater ecosystems: an experiment and meta-analysis. Oecologia 158: 673-686. PDF
1. Matsuzaki SS, Usio N, Takamura N & Washitani I(2007) Effects of common carp on nutrient dynamics and littoral community composition: roles of excretion and bioturbation. Fundamental and Applied Limnology(旧誌名:Archiv fur Hydrobiologie)168 : 27-38. PDF
著書
NEW!
5. 松崎慎一郎(2021)生物多様性.水環境学会編集「水環境の事典(分担執筆)」(朝倉書店)
4. Katano, Hakoyama & Matsuzaki SS(2015)Japanese inland fisheries and aquaculture -Freshwater Fisheries Ecology (John F. Craig eds), pp231-240, Wiley-Blackwell
3. 松崎慎一郎(2013):湖沼におけるコイの水質や生物群集に与える生態的影響(日本魚類学会自然保護委員会編(向井貴彦・鬼倉徳雄・淀 太我・瀬能 宏)「見えない脅威"国内外来魚"ーどう守る地域の生物多様性」、分担執筆),東海大学出版会
2.Katano, O and Matsuzaki, SS(2012): Biodiversity of freshwater fishes in Japan in relation to inland fisheries - The Biodiversity Observation Network in Asia-Pacific Region: Towards Further Development of Monitoring (eds Nakano S, Yahara T and Nakashizuka T), Springer, Tokyo.pp431-444
1.松崎慎一郎(2010)安定同位体を用いた食物網構造と栄養段階の評価法.In「保全生態学の技法:ウェットランドの生物多様性評価」(鷲谷いづみ・宮下直・西廣淳・角谷拓(編))東京大学出版会,東京.
その他(査読なし、解説記事等)
NEW!
14. Blunden, J., T. Boyer, and E. Bartow-Gillies, Eds., 2023: “State of the Climate in 2022”. Bull. Amer. Meteor. Soc., 104 (9), Si–S501 https://doi.org/10.1175/2023BAMSStateoftheClimate.1.
13. 松崎慎一郎(2024)国際ワークショップで体験した5つの驚きと学び. 陸水学雑誌 85:35:-37.
12. 松崎慎一郎(2024)自然資本としての湖の価値と生態系サービスの持続的利用. 化学物質と環境 183:10-12.
11. 鈴木健大、松崎慎一郎、桝屋啓志(2024)EcohNetによる複雑な生態系の因果ネットワーク推定と動態予測. アグリバイオ 8(1):15-21.
10. 松崎慎一郎(2022)気候変動影響の監視を目指した湖沼高頻度自動観測の開始. 国立環境研究所ニュース 41巻5号
9. Chang KH, Nagata T, Ha JY, Takahashi H, Matsuzaki SS, Sakuma M, and Sakamoto M (2022) Takayuki Hanazato (1957-2021) in memoriam. Limnology 23:403-413.
8. 松崎慎一郎(2022)追悼 花里孝幸先生―ミジンコ先生から教わったこと. 陸水学雑誌 83(2): 99-101.
7. 松崎慎一郎(2019)アメリカ滞在記:冬は山小屋にこもる. 国立環境研究所ニュース 38巻
6. 松崎慎一郎(2016)霞ヶ浦魚類モニタリングの紹介~継続がデータの価値を高める~. 国立環境研究所ニュース 35巻
5. Kondo N., Nakagawa M., Matsuzaki SS, Ueno R., Takamura K., Ito H (2016) DNA barcoding, Environmental DNA and an ongoing attempt of detecting biodiversity in Lake Kasumigaura. Journal of Integrated Field Science, 13, 21-29.
4. 松崎慎一郎(2016)2015年度JaLTER All Scientist Meeting (ASM)の報告. 京都大学生態学研究センターニュース NO.131, 6.
3. 松崎慎一郎、三枝信子(2015)生物や生態系の変化をデータから読み解く~JaLTER全科学者会議2015の報告~. -地球環境研究センターニュー―ス26号Vol.8
2. 武島弘彦、松崎慎一郎(2013)DNA分析からみえてきた三方湖フナの固有性 -ナチュラリスト23(2):4
1. 松崎慎一郎(2010)放流コイ、実は大陸産だった!沈水植物を減らし、生態系も変化 -自然保護、No. 514:pp.25
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21.日本経済新聞(2020年11月18日朝刊)「霞ケ浦の経済価値 年1217億円以上に 国立環境研など試算」
20.朝日新聞(2019年12月5日、夕刊)「生態系の変化 長期観測で究明(茨城・霞ヶ浦 ワムシ類の量 漁獲に影響)」
19.Wedge「ニシキゴイは侵略的外来種 放流で見落とされる環境への影響」、2017年7月号
18.フジテレビ みんなのニュース 「風物詩・ニシキゴイ放流は「危険」?」、2017年5月18日
17.読売新聞(2015年7月31日、地方版)「北潟湖 環境研試算 10年間で漁業資源7割減」
16.共同通信(2015年1月22日、ウェブ版掲載)「湖沼の魚介類減少、外来種原因 ワカサギ、コイ、シジミなど」
(その他、東奥日報、岩手日報、福島民報、神戸新聞が共同通信社の記事を掲載)
15.毎日新聞(2015年1月23日、全国版、26面)「外来種が原因 食用魚介半減 国立環境研調査 17湖沼、水質悪化よりダメージ」
14.茨城新聞(2015年1月23日、地域版、21面)「全国の湖沼 魚介類減少 国立環境研 外来魚侵入が原因」
13.常陽新聞(2015年1月23日、地域版、2面)「外来魚侵入で資源量減少」
12.読売新聞(2015年1月25日、全国版、31面)「湖沼の漁業資源30年で45%減」
11.日本経済新聞(2015年1月26日、全国版、14面)「湖沼の魚介類減る 国立環境研 原因は外来魚」
10.環境新聞(2015年1月28日、全国版、3面)「湖沼の天然魚介、過去10年で半減―国環研調査、外来種が影響」
9.朝日新聞(2015年1月28日、全国版、6面)「外来魚で湖沼の資源量激減」
8.科学新聞(2015年2月6日、全国版、4面)「外来魚の侵入で資源量が減少」
7.NHKサイエンスZERO「絶滅の危機!日本のコイ」、2013年6月2日(日)夜23:30-24:00
6.「国内外来魚の脅威(下)、”善意”の放流でも悪影響」、しんぶん赤旗、2010年3月8日科学欄
5.「ヒシ繁茂 魚生息脅かす 三方五湖自然再生 東大など中間報告」、朝日新聞、2010年2月26日朝刊
4.「三方五湖再生に力結集 住民、研究者と連携 協議会設立へ」、福井新聞、2010年2月23日朝刊
3.「ヒシ影響や外来魚生息」、中日新聞、2010年2月22日朝刊
2.「三方五湖の自然再生 県と地元2町協議会設立へ 外来魚対策など」、中日新聞、2010年1月27日朝刊
1.「放流コイ 生態系の脅威 浄化・教育のつもりが・・・生き物駆逐」、朝日新聞、2009年11月19日夕刊
博士論文
Assessing ecological and genetic impacts of non-native domesticated common carp (Cyprinus carpio) in Japanese lakes
(日本の湖沼における導入型コイの生態的・遺伝的影響の評価)
※主査:鷲谷いづみ先生,副審:西田睦先生,高村典子先生,宮下直先生,吉田丈人先生