Publication list

Scientific articles

  1. Huu Ton LE, Doanh NGUYEN-NGOC, Hoang Tung TRAN, Anh Tuan GIANG, Edourd AMOUROUX, Antonio-Román MUÑOZ and Fugo TAKASU (2022) Egg pattern mimicry in avian brood parasitism assessed using local image descriptors and human-eyes, Ornithological Science 21:189-198.
  2. Chunlei Xia, Tae-Soo Chon, Fugo Takasu, Won Il Choi, and Young-Seuk Park (2022) Simulating pine wilt disease dispersal with an individual-based model incorporating individual movement patterns of vector beetles. Front. Plant Sci. 13:886867. doi: 10.3389/fpls.2022.886867
  3. Nguyen Thanh Dieu, Takasu Fugo, Nguyen Huu Du (2020) Asymptotic behaviors of stochastic epidemic models with jump-diffusion. Applied Mathematical Modeling 86:259-270.
  4. ZHANG Yigui, ULLAH Sana, TAKASU Fugo, LI Zhongqiu (2020) "日本梅花鹿与大丰麋鹿发情期反刍行为的差异 Rumination behavior difference during season between Cervus nippon nippon in Japan and Elaphurus davidianus in Dafeng", 四川動物 Sichuan Journal of Zoology 2020, 39(1):50- 55. DOI: 10.11984/j.issn.1000-7083.20190221
  5. Miki Hamada and Fugo Takasu (2019) Equilibrium properties of the spatial SIS model as a point pattern dynamics - How is infection distributed over space? Journal of Theoretical Biology 468:12-26.
  6. 高須夫悟 (2019) マツ枯れ進展における潜在感染木の役割に関する数理的研究. 日本森林学会誌 101巻1号 30-34.
  7. Wei Liang, Canchao Yang, and Fugo Takasu (2017) How can distinct egg polymorphism be maintained in the rufescent prinia (Prinia rufescens)-plaintive cuckoo (Cacomantis merulinus) interactions- a modeling approach. Ecology and Evolution 1-8. DOI: 10.1002/ece3.3090.
  8. Tuyen Van Nguyen, Young-Seuk Park, Chang-Sik Jeoung, Won-Il Choi, Yong-Kuk Kim, Il-Hyo Jung, Nanako Shigesada, Kohkichi Kawasaki, Fugo Takasu, Tae-Soo Chon (2017) Spatially explicit model applied to pine wilt disease dispersal based on host plant infestation. Ecological Modelling 353:54-62.
  9. Frode Fossøy, Michael D. Sorenson, Wei Liang, Torbjørn Ekrem, Arne Moksnes, Anders P. Møller, Jarkko Rutila, Eivin Røskaft, Fugo Takasu, Canchao Yang and Bård G. Stokke (2016) Ancient origin and maternal inheritance of blue cuckoo eggs. Nature Communications 7, Article number: 10272. doi:10.1038/ncomms10272
  10. Wei Liang, Canchao Yang and Fugo Takasu (2016) Modeling the cuckoo’s brood parasitic behavior in the presence of egg polymorphism. Journal of Ethology 34:127-132. DOI 10.1007/s10164-015-0455-3
  11. Bård G. Stokke, Eivin Røskaft, Arne Moksnes, Anders Pape Møller, Anton Antonov, Frode Fossøy, Wei Liang, Germán López- Iborra, Csaba Moskát, Jacqui Shykoff, Manuel Soler, Johan R. Vikan, Canchao Yang and Fugo Takasu (2016) Disappearance of eggs from nonparasitized nests of brood parasite hosts: the evolutionary equilibrium hypothesis revisited. Biological Journal of the Linnean Society 118:215-225.
  12. Chiho Kaito, Ulf Dieckmann, Akira Sasaki and Fugo Takasu (2015) Beyond pairs: definition and interpretation of third-order structure in spatial point patterns. Journal of Theoretical Biology 372:22-38. doi 10.1016/j.jtbi.2015.02.004.
  13. Canchao Yang, Fugo Takasu, Wei Liang, and Anders P. Møller (2015) Why cuckoos should parasitize parrotbills by laying eggs randomly rather than laying eggs matching the egg appearance of parrotbill hosts?. Avian Research 6:5 DOI 10.1186/s40657-015-0014-1.
  14. Ayaka Suzuki, Atsushi Kobayashi, Hiroshi Nakamura, and Fugo Takasu (2013) Population viability analysis of the rock ptarmigan Lagopus muta japonica in Japan. Wildlife Biology 19:339-346.
  15. Lenka Polačiková, Fugo Takasu, Bård G. Stokke, Arne Moksnes, Eivin Røskaft, Phillip Cassey, Mark E. Hauber, Tomáš Grim (2013) Egg arrangement in avian clutches covaries with the rejection of foreign eggs. Animal Cognition 16:819-828. DOI 10.1007/s10071-013-0615-1
  16. 高須夫悟, 大迫義人 (2012) 日本におけるコウノトリの再導入個体群の存続可能性分析. 野生復帰 2:1-6 (in Japanese).
  17. Csaba Moskát, Fugo Takasu, A. Roman Muñoz, Hiroshi Nakamura, Miklós Bán, Zoltán Barta (2012) Cuckoo parasitism on two closely-related Acrocephalus warblers in distant areas: a case of parallel coevolution?. Chinese Birds 3(4):320-329. doi 10.5122/cbirds.2012.0038.
  18. Takako Kaneko-Kawano, Fugo Takasu, Honda Naoki, Yuichi Sakumura, Shin Ishii, Takahiro Ueba, Akinori Eiyama, Aiko Okada, Yoji Kawano, Kenji Suzuki (2012) Dynamic Regulation of Myosin Light Chain Phosphorylation by Rho-kinase. PLoSONE 7(6): e39269. doi:10.1371/journal.pone.0039269.
  19. Youichi Kobori, Fugo Takasu & Yasuo Ohto (2012) Development of an individual-based simulation model for the spread of citrus greening disease by the vector insect Diaphorina citri, Zoology, Chapter 5 (pp. 87-102), Dr. María-Dolores García (Ed.), ISBN: 978-953-51-0360-8, InTech, Available from:
  20. Liang W., C. Yang, B.G. Stokke, A. Antonov, F. Fossøy, J.R. Vikan, A. Moksnes, E. Røskaft, J.A. Shykoff, A.P. Møller, and F. Takasu (2012) Modeling the maintenance of egg polymorphism in avian brood parasites and their hosts. J. Evol. Biol. 25:916–929. doi: 10.1111/j.1420-9101.2012.02484.x.
  21. Liang W., C. Yang, A. Antonov, F. Fossøy, B.G. Stokke, A. Moksnes, E. Røskaft, J.A. Shykoff, A.P. Møller, and F. Takasu (2012) Sex roles in egg recognition and egg polymorphism in avian brood parasitism. Behavioral Ecology 23:397-402. doi: 10.1093/beheco/arr203.
  22. Bán M., Z. Barta, A. R. Muñoz, F. Takasu, H. Nakamura & C. Moskát (2011) The analysis of common cuckoo's egg shape in relation to its hosts' in two geographically distant areas. J. Zool. 284:77-83.
  23. Kobori Y., T. Nakata, Y. Ohto, F. Takasu (2011) Dispersal of adult Asian citrus psyllid, Diaphorina citri Kuwayama (Homoptera: Psyllidae), the vector of citrus greening disease, in artificial release experiments. Applied Entomology and Zoology 46:27-30.
  24. Møller A.P., A. Antonov , B. G. Stokke, F. Fossøy, A. Moksnes, E. Røskaft, F. Takasu (2011) Isolation by time and habitat and coexistence of distinct host races of the common cuckoo. J. Evol. Biol. 24:676-684.
  25. Takasu F., C. Moskát (2011) Modeling the consequence of increased host tolerance toward avian brood parasitism. Population Ecology 53:187-193. DOI 10.1007/s10144-010-0221-x.
  26. Yang C., W. Liang, Y. Cai, S. Shi, F. Takasu, A.P. Møller, A. Antonov, F. Fossøy, A. Moksnes, E. Røskaft, B.G. Stokke (2010) Coevolution in Action: Disruptive Selection on Egg Colour in an Avian Brood Parasite and Its Host. PLoS ONE 5(5): e10816. doi:10.1371/journal.pone.0010816.
  27. Takasu F., C. Moskát, A. R. Muñoz, S. Imanishi and H. Nakamura (2009) Adaptations in the common cuckoo (Cuculus canorus) to host eggs in a multiple-hosts system of brood parasitism. Biological Journal of the Linnean Society 98:291-300.
  28. Takasu F. (2009) Individual-based modeling of the spread of pine wilt disease: vector beetle dispersal and the Allee effect. Population Ecology 51:399-409.
  29. Stokke B.G., F. Takasu, A. Moksnes, and E. Røskaft (2007) The importance of clutch characteristics and learning for anti-parasite adaptations in hosts of avian brood parasites. Evolution 61-9: 2212-2228.
  30. Muñoz A. R. , M. Altamirano, F. Takasu, and H. Nakamura (2007) Nest light environment and the potential risk of common cuckoo (Cuculus canorus) parasitism. The Auk 124(2): 619-627.
  31. Røskaft E., F. Takasu, A. Moksnes, B. Stokke (2006) Importance of spatial habitat structure on establishment of host defenses against avian brood parasitism. Behavioral Ecology 17(5):700-708.
  32. Kawasaki K., F. Takasu, H. Caswell, N. Shigesada (2006) How does stochasticity in colonization accelerate the speed of invasion in a cellular automaton model?. Ecological Research 21:334-345.
  33. Takasu F. (2005) A theoretical consideration on co-evolutionary interactions between avian brood parasites and their hosts. Ornithological Science 4: 65-72.
  34. Takasu F. (2004) How many eggs should be laid in one's own nest and other's in intra-specific brood parasitism? Population Ecology 46: 221-229.
  35. Barabas L., B. Gilicze, F. Takasu and C. Moskát (2004) Survival and anti-parasite defense in a host metapopulation under heavy brood parasitism: a source-sink dynamic model. Journal of Ethology 22: 143-151.
  36. Ohsawa, K., K. Kawasaki, F. Takasu and N. Shigesada (2003) How does spatio-temporal disturbance influence species diversity in a hierarchical competitive system? Prospective order of species coexistence and extinction. Population Ecology 45: 239-247.
  37. Kinezaki, N., K. Kawasaki, F. Takasu and N. Shigesada (2003) Modeling biological invasions into periodically fragmented environments. Theoretical Population Biology 64:291-302.
  38. Shigesada, N., N. Kinezaki, K. Kawasaki and F. Takasu (2003) Biological invasion into periodically fragmented environments: a diffusion-reaction model. In Morphogenesis and Pattern Formation in Biological Systems: Experiments and Models (eds. T. Sekimura, S. Noji, P.K. Maini) Springer-Verlag Tokyo, pp. 215-222.
  39. 福谷 郁子, 重定 南奈子, 高須 夫悟 (2003) リンデンマイヤー・システムとしての椊物根系の形態「生物の形の多様性と進化」遺伝子から生態系まで 第14章 152-162 関村利朗・野地澄晴・森田利仁 共編 裳華房. (in Japanese)
  40. Takasu F. (2003) Co-evolutionary dynamics of egg appearance in avian brood parasitism. Evolutionary Ecology Research 5: 345-362.
  41. 高須 夫悟 (2003) フィールド研究と数理モデル研究. 生物科学 第54巻 第2号 111-118.
  42. 高須 夫悟 (2002) 数理生態学と鳥類学 – 托卵を題材にして – . 「これからの鳥類学」第8章 191-222 山岸哲・樋口広芳 共編 裳華房. (in Japanese)
  43. Ohsawa K., K. Kawasaki, F. Takasu and N. Shigesada (2002) Recurrent Habitat Disturbance and Species Diversity in a Multiple-Competitive Species System. Journal of Theoretical Biology 216(2): 123-138.
  44. Hamaguchi Y., Y. Sakai, F. Takasu and N. Shigesada (2002) Modeling spawning strategy for sex change under social control in haremic angelfishes . Behavioral Ecology, Vol. 13 No. 1: 75-82.
  45. Nunotani Hi, K. Kawasaki, F. Takasu, K. Togashi and N. Shigesada (2001) Spatial spread of pine wilt disease: modeling the dispersal distance distribution of the pine sawyer beetle, Monochamus alternatus. Protection of World Forests from Insect Pests: Advances in Research (eds. H. Evans & A. Liebhold) IUFRO World Series 11: 79-85.
  46. Petrovskii S.V., K. Kawasaki, F. Takasu and N. Shigesada (2001) Diffusive waves, dynamical stabilization and spatio-temporal chaos in a community of three competitive species. Japan Journal of Industral and Applied Mathematics, Vol. 18. No. 2 (June), pp. 459-481.
  47. 山本 奈美子,高須 夫悟,川崎 廣吉,富樫 一巳,岸 洋一,重定 南奈子 (2000)「マツ枯れシステムのダイナミクスと大域的伝播の数理解析」. 日本生態学会誌 50:269-276. (in Japanesse)
  48. Takasu F., N. Yamamoto, K. Kawasaki, K. Togasi and N. Shigesada (2000) Modeling the range expansion of an introduced tree disease. Biological Invasions 2(2):141-150.
  49. Muko S., K. Kawasaki, K. Sakai, F. Takasu and N. Shigesada (2000) Morphological plasticity in the coral Porites sillimaniani and its adaptive significance. Bulletin of Marine Science, 66(1): 225-239.
  50. Kubo Y., F. Takasu, R. Shimura, S. Nagaoka,and N. Shigesada (1999) Population Dynamics of Nitrifying Bacteria in an Aquatic Ecosystem. Biological Sciences in Space, Vol. 13, No. 4, 333-340.
  51. Takasu F., M. Shiraishi, K. Kawasaki and N. Shigesada (1999) Mathematical models for biological invasions - competition for open spaces. In: Biological Invasions of Ecosystem by Pests and Beneficial Organisms, eds. E. Yano, K. Matsuo, M. Shiyomi, and D. A. Andow, National Institute for Agro-Environmental Sciences, Tsukuba, Japan, NIAES Series 3, 78-87.
  52. Takasu F. (1999) The role of theoretical models explaining the relationships between brood parasites and their hosts. In: Adams, N. J. & Slotow, R. H. (eds), Proceedings of 22nd International Ornithological Congress, Durban: 3146-3164, Johannesburg: BirdLife South Africa.
  53. Yoshimura A., K. Kawasaki, F. Takasu, K. Togashi, K. Futai and N. Shigesada (1999) Modeling the spread of pine wilt disease caused by nematodes with pine sawyers as vector. Ecology, 80(5), pp. 1691-1702.
  54. Takasu F. (1998b) Modelling the arms race in avian brood parasitism. Evolutionary Ecology, 12:969-987.
  55. Takasu F. (1998a) Why do all host species not show defense against avian brood parasitism: evolutionary lag or equilibrium? The American Naturalist 151:193-205.
  56. Takasu F., K. Kawasaki and N. Shigesada (1997) Simulation study of stratified diffusion model. Forma, 12, 167-175.
  57. 高須 夫悟 (1995) 行動と共進化 托卵鳥とその宿主. 日本生態学会誌 第45巻第2号:191-197. (in Japanese)
  58. Takasu F., K. Kawasaki, H. Nakamura, J. E. Cohen and N. Shigesada (1993) Modeling the population dynamics of a cuckoo-host association and the evolution of host defenses. The American Naturalist 142:819-839.
Thesis Translation
  1. 高須 夫悟 (2009) 表現型の進化. 「進化 − 分子・個体・生態系 −」 第20章 599-632ページ 翻訳. Evolution by NH Barton, DEG Briggs, JA Eisen, DB Goldstein, NH Patel, Cold Spring Harbor Laboratory Press 2007, 宮田隆・星山大介監訳 メディカル・サイエンス・インターナショナル. 2009年12月出版.
  2. 重定 南奈子, 高須 夫悟 共訳 (2003)『持続不可能性 - 環境保全のための複雑系理論入門』文一総合出版, 376 pages. "Fragile Dominion - complexity and the commons", Simon Levin (1999). Perseus Publishing, Cambridge, Massachusetts.
  3. 重定 南奈子, 瀬野 裕美, 高須 夫悟 共訳 (1998)『新人口論 - 生態学的アプローチ』農山漁村文化協会, 656 pages. "How many people can the earth support?", Joel. E. Cohen (1995). W. W. Norton & Company, New York.


  1. Chapter "Evolution and Maintenance of Egg Rejection by Hosts as Adaptation Against Conspecific Brood Parasites: An Individual-Based Model" F. Takasu in Avian Brood Parasitism - Behaviour, Ecology, Evolution and Coevolution, Manuel Soler (Ed.) Series: Fascinating Life Sciences,
  2. Springer Nature, Springer 2017
  3. 招かれない虫たちの話 虫がもたらす健康被害と害虫管理, 第11章「感染症流行の数理的研究」執筆 高須夫悟 153-162ページ, 日本昆虫科学連合編、東海大学出版部 2017年3月20日 ISBN978-4-486-02125-4
  4. 行動生物学辞典 上田、岡ノ谷 、菊水、坂上 、辻、友永、中島、長谷川、松島 編集 用語部分担当 東京化学同人 2013年11月 ISBN 9784807908370
  5. シリーズ現代の生態学・行動生態学・第5章「表現型進化の理論 アダプティブダイナミクス」98-119ページ執筆(高須夫悟)、日本生態学会編・担当編集委員:沓掛展之、古賀庸憲、共立出版 ISBN 978-4-320-05738-8 3,400円 2012年6月出版
  6. 数理科学事典 編集代表・広中平祐 生命の数理/進化生物学/共進化 278-281ページ執筆(高須夫悟) 丸善 2009年11月出版
  7. 鳥の自然史【空間分布を巡って】第5章「オナガの分布域拡大にともなうカッコウとの新たな関係」73-88ページ執筆(高須夫悟) 樋口広芳・黒沢令子編著 北海道大学出版会 2009年10月
  8. シリーズ数理生物学要論 巻2「空間」の数理生物学 第6章「個体性を保ったダイナミクスモデル」執筆(高須夫悟)日本数理生物学会/編集 瀬野裕美/責任編集 共立出版 2009年5月,