Updated on 2024/02/07

写真a

 
Ezoe Hideo
 
Organization
Graduate School of Science Department of Biology Associate Professor
School of Science Department of Biology
Title
Associate Professor
Affiliation
Institute of Science

Position

  • Graduate School of Science Department of Biology 

    Associate Professor  2022.04 - Now

  • School of Science Department of Biology 

    Associate Professor  2022.04 - Now

Degree

  • 博士(理学) ( Others )

Research Areas

  • Life Science / Ecology and environment

Research subject summary

  • 相利共生の進化動態に関する研究

  • 植物の繁殖生態学に関する理論的研究

  • メタ個体群動態に関する理論的研究

Research Career

  •  

    適応戦略、進化、数理生態学、最適化 

  •  

    空間構造、格子モデル、メタ個体群モデル、反応拡散モデル、ペア近似 

Professional Memberships

  • 日本生態学会

      Domestic

  • Japanese Society for Mathematical Biology

      Domestic

  • 個体群生態学会

      Domestic

Papers

  • A general mathematical model for coevolutionary dynamics of mutualisms with partner discrimination

    Ezoe H.

    Theoretical Ecology   15 ( 3 )   203 - 211   2022.09( ISSN:18741738

     More details

  • Adaptive partner recruitment can help maintain an intra-guild diversity in mutualistic systems. Reviewed

    Ezoe, H.

    Journal of Theoretical Biology 雑誌   478   40 - 47   2019

     More details

    Kind of work:Single Work  

  • Excessive flower production as an anti-predator strategy: when is random flower abortion favored? Reviewed

    Ezoe, H.

    Population Ecology 雑誌   60   275 - 286   2018

     More details

    Kind of work:Single Work  

  • Optimal resource allocation model for excessive flower production in a pollinating seed-predator mutualism. Reviewed

    Hideo Ezoe

    Theoretical Ecology 雑誌   10   105 - 115   2017.03

     More details

    Kind of work:Single Work  

  • A theoretical study on effects of cultivation management on biological pest control: A spatially explicit model. Reviewed

    Ikegawa, Y., Ezoe, H., Namba, T.

    Biological Control 雑誌   93   37 - 48   2016

     More details

    Kind of work:Joint Work  

  • Coevolutionary dynamics in one-to-many mutualistic systems. Reviewed

    Hideo Ezoe

    Theoretical Ecology 雑誌   1 - 8   2016

     More details

    Kind of work:Single Work  

  • Effects of generalized and specialized adaptive defense by shared prey on intra-guild predation. Reviewed

    Ikegawa, Y., Ezoe, H., Namba, T.

    Journal of Theoretical Biology 雑誌   364   231 - 241   2015.01

     More details

    Kind of work:Joint Work  

  • Adaptive defense of pests and switching predation can improve biological control by multiple natural enemies. Reviewed

    Ikegawa, Y., Ezoe, H., Namba, T.

    Population Ecology 雑誌   57   381 - 395   2015

     More details

    Kind of work:Joint Work  

  • Effects of nonspecific adaptive defense by pests on efficiency of biological control by multiple enemies

    Ikegawa, Y., Ezoe, H., Namba, T., Tuda, M.

    Journal of Faculty of Agriculture of Kyushu University 雑誌   59 ( 2 )   305 - 311   2014

     More details

    Kind of work:Joint Work  

  • 基底資源による2種類の適応的防御がIGP系に与える影響

    池川雄亮, 江副日出夫, 難波利幸

    京都大学数理解析研究所講究録 雑誌 京都大学数理解析研究所   1853   108 - 115   2013.10

     More details

    Kind of work:Joint Work  

  • Coexistence of mutualists and non-mutualists in a dual-lattice model. Reviewed

    Hideo Ezoe, Yusuke Ikegawa

    Journal of Theoretical Biology 雑誌   332   1 - 8   2013.09

     More details

    Kind of work:Joint Work  

  • Evolutionary stability of one-to-many mutualisms. Reviewed

    Hideo Ezoe

    Journal of Theoretical Biology 雑誌   314   138 - 144   2012.12

     More details

    Kind of work:Single Work  

  • Dual lattice model of the evolution of facultative symbiosis with continuous Prisoner's Dilemma game. Reviewed

    Hideo Ezoe

    Journal of Theoretical Biology 雑誌   259 ( 4 )   744 - 750   2009.08

     More details

    Kind of work:Single Work  

  • Effect of stochasticity in the availability of pollinators on the resource allocation within a flower Reviewed

    Hideo Ezoe, Nami Washizu

    Journal of Theoretical Biology 雑誌   258 ( 4 )   630 - 636   2009.06

     More details

    Kind of work:Joint Work  

  • Size distribution and spatial autocorrelation of subpopulations in a size structured metapopulation model. Reviewed

    Hideo Ezoe, Sayaka Nakamura

    Ecological Modelling 雑誌   198 ( 3-4 )   293 - 300   2006.10

     More details

    Kind of work:Joint Work  

  • Optimal dispersal range and seed size in a stable environment. Reviewed

    Ezoe, H.

    Journal of theoretical Biology 雑誌   190   287 - 293   1998

     More details

    Kind of work:Single Work  

  • Evolutionarily stable seasonal timing for insects with competition for renewable resource. Reviewed

    Ezoe, H.

    Evolutionary Ecology 雑誌   9   328 - 339   1995

     More details

    Kind of work:Single Work  

  • Population persistence and spatially limited social interaction. Reviewed

    Harada, Y., Ezoe, H., Iwasa, Y., Matsuda, H., Sato, K.

    Theoretical Population Biology 雑誌   48   65 - 91   1995

     More details

    Kind of work:Joint Work  

  • Aggregation by chemotactic random walk: drifting clusters and chemotactic friction. Reviewed

    Ezoe, H., Iwasa, Y., Umeda, T.

    Journal of Theoretical Biology 雑誌   168   259 - 267   1994

     More details

    Kind of work:Joint Work  

  • Evolution of condition-dependent dispersal: a genetic-algorithm search for ESS reaction norm. Reviewed

    Ezoe, H., Iwasa, Y.

    Researches on Population Ecology 雑誌   39   127 - 137   1887

     More details

    Kind of work:Joint Work  

▼display all

Books and Other Publications

  • シリーズ数理生物学要論 「行動・進化」の数理生物学

     ( Role: Joint author)

    共立出版  2010.03  ( ISBN:978-4-320-05702-9

     More details

    Responsible for pages:113-128  

  • これからの進化生態学 -進化学と生態学の融合-

    P. Mayhew(著), 江副日出夫, 高倉耕一, 巌俊介, 石原道博(訳)( Role: Joint author)

    共立出版  2009.03 

Presentations

  • A mathematical model on interaction between population and evolutionary dynamics in a mutualistic system Domestic conference

    Daiki FUJITA, Hideo EZOE

    2024.03  Ecological Society of Japan

     More details

    Presentation type:Poster presentation  

  • Evolution of cooperation without kinship and reciprocity Domestic conference

    Hideo Ezoe

    2024.03  Ecological Society of Japan

     More details

    Presentation type:Oral presentation (general)  

  • パートナー選択のある相利共生系の進化に関する数理的解析 Domestic conference

    小田遥希, 江副日出夫

    日本進化学会第23回大会  2021.08  日本進化学会

     More details

    Presentation type:Poster presentation  

  • Partner choice and stability of mutualistic systems Domestic conference

    Hideo Ezoe

    2021.03 

     More details

    Presentation type:Poster presentation  

Charge of on-campus class subject

  • 専門生物学実験1

    2024   Weekly class   Undergraduate

  • 数理生態学

    2024   Weekly class   Undergraduate

  • 生物学の潮流

    2024   Weekly class   Undergraduate

  • 生物学特別研究2A

    2024   Intensive lecture   Graduate school

  • 生物学特別研究1A

    2024   Intensive lecture   Graduate school

  • 自然誌機能生物学演習2A

    2024   Intensive lecture   Graduate school

  • 自然誌機能生物学演習1A

    2024   Intensive lecture   Graduate school

  • 生物学特別研究5A

    2024   Intensive lecture   Graduate school

  • 生物学特別研究4A

    2024   Intensive lecture   Graduate school

  • 生物学特別研究3A

    2024   Intensive lecture   Graduate school

  • 数理生態学

    2024   Weekly class   Undergraduate

  • 生物統計学

    2024   Weekly class   Undergraduate

  • 生物学実験B

    2023   Weekly class   Undergraduate

  • 数理生態学

    2023   Weekly class   Undergraduate

  • 自然誌機能生物学特論J

    2023   Weekly class   Graduate school

  • 生態学II

    2023   Weekly class   Undergraduate

  • 生物科学課題演習

    2023   Weekly class   Undergraduate

  • Introduction to Programming

    2021    

  • English for Scientists

    2021    

  • Mathematical Ecology

    2021    

  • Ecology

    2021    

  • Seminar in Mathematical Biology

    2021    

  • Ecology II

    2021    

▼display all

Visiting Lectures ⇒ Link to the list of Visiting Lectures

  • パソコンで知る生態学

    Category:Modern system science (knowledge information system, environmental system, educational welfare, psychology), Science (mathematics, physics, chemistry, biology, geology, biochemistry)

     More details

    Audience:Preschooler, Schoolchildren, Junior high school students

    数理生態学の入門。生態学における理論と、計算機を用いて解析する手法のいくつかを紹介します。