TACHIKI Yuya
准教授
立木 佑弥 タチキ ユウヤ たちき ゆうや
プロフィール
最終学歴・学位
九州大学大学院システム生命科学府・博士(理学) 2013年3月.
専門・研究分野
数理生物学、進化生態学
研究
研究テーマ
・生活史戦略の進化理論
・植物の血縁認識
・意思決定理論
・適応動態理論
研究キーワード
数理モデル、進化ゲーム理論、生活史戦略、シミュレーション
研究イメージ
詳細情報
著書
門脇浩明, 立木佑弥 (編). 2019. 遺伝子・多様性・循環の科学: 生態学の領域融合へ. 京都大学学術出版会. https://www.kyoto-up.or.jp/9784814001903.html
門脇浩明, 立木佑弥. 2025. 生態学の教科書: 理論×統計×シミュレーション. 共立出版. https://www.kyoritsu-pub.co.jp/book/b10139557.html
代表論文
[1] Tomizuka H, Yamawo A, Tachiki Y. 2025. Altruism or selfishness: floral behaviour based on genetic relatedness with neighbouring plants. Journal of Evolutionary Biology. https://doi.org/10.1093/jeb/voaf015
[2] Tomizuka H, Tachiki Y. 2024. The eco-evolutionary dynamics of Batesian mimicry. Journal of Theoretical Biology. https://doi.org/10.1016/j.jtbi.2023.111683
[3] Fukano Y, Yamori W, Misu H, Sato MP, Shirasawa K, Tachiki Y, Uchida K. 2023. From green to red: Urban heat stress drives leaf color evolution. Science Advances. https://doi.org/10.1126/sciadv.abq3542
[4] Fukano Y, Tachiki Y, Kasada M, Uchida K. 2022. Evolution of competitive traits changes species diversity in a natural field. Proceedings of the Royal Society B: Biological Sciences. https://doi.org/10.1098/rspb.2022.1376
[5] Kim BM, Horita J, Suzuki JI, Tachiki Y. 2021. Resource allocation in tragedy of the commons game in plants for belowground competition. Journal of Theoretical Biology. https://doi.org/10.1016/j.jtbi.2021.110858
[6] Katsuhara KR, Tachiki Y, Iritani R, Ushimaru A. 2021. The eco‐evolutionary dynamics of prior selfing rates promote coexistence without niche partitioning under conditions of reproductive interference. Journal of Ecology. https://doi.org/10.1111/1365-2745.13768
[7] Fukano Y, Tachiki Y. 2021. Evolutionary ecology of climacteric and non-climacteric fruits. Biology Letters. https://doi.org/10.1098/rsbl.2021.0352
[8] Yamaguchi R, Iwasa Y, Tachiki Y. 2021. Recurrent speciation rates on islands decline with species number. Proceedings of The Royal Society B: Biological Sciences. https://doi.org/10.1098/rspb.2021.0255
[9] Horita J, Iwasa Y, Tachiki Y. 2020. Positive feedback between behavioral and hormonal dynamics leads to differentiation of life-history tactics. The American Naturalist. https://doi.org/10.1086/711414
[10] Fukano Y, Guo W, Uchida K, Tachiki Y. 2020. Contemporary adaptive divergence of plant competitive traits in urban and rural populations and its implication for weed management. Journal of Ecology. https://doi.org/10.1111/1365-2745.13472
[11] Abe T, Tachiki Y, Kon H, Nagasaka A, Onodera K, Minamino K, Han Q, Satake A. 2016. Parameterization and validation of a resource budget model for masting using spatiotemporal flowering data of individual trees. Ecology Letters 19(9) 1139. https://doi.org/10.1111/ele.12651
[12] Tachiki Y, Koizumi I. 2016. Absolute versus relative assessments of individual status in status-dependent strategies in stochastic environments. The American Naturalist 188(1) 113-123. https://doi.org/10.1086/686899
[13] Tachiki Y, Makita A, Suyama Y, Satake A. 2015. A spatially explicit model for flowering time in bamboos: long rhizomes drive the evolution of delayed flowering. Journal of Ecology 103(3) 585-593. https://doi.org/10.1111/1365-2745.12390
[14] Tachiki Y, Iwasa Y. 2013. Coevolution of mast seeding in trees and extended diapause of seed predators. Journal of Theoretical Biology 339 129-139. https://doi.org/10.1016/j.jtbi.2013.05.026
[15] Fukano Y, Tachiki Y, Yahara T, Iwasa Y. 2013. Soil disturbances can suppress the invasion of alien plants under plant-soil feedback. Ecological Modelling 260 42-49. https://doi.org/10.1016/j.ecolmodel.2013.03.022
[16] Tachiki Y, Iwasa Y. 2012. Evolutionary jumping and breakthrough in tree masting evolution. Theoretical Population Biology 81(1) 20-31. https://doi.org/10.1016/j.tpb.2011.10.004
[17] Tachiki Y, Iwasa Y. 2010. Both seedling banks and specialist seed predators promote the evolution of synchronized and intermittent reproduction (masting) in trees. Journal of Ecology 98(6) 1398-1408. https://doi.org/10.1111/j.1365-2745.2010.01729.x
[18] Tachiki Y, Iwasa Y. 2008. Role of gap dynamics in the evolution of masting of trees. Evolutionary Ecology Research 10(6) 893-905.
解説等
[1] 立木佑弥、佐竹暁子. どんくりの豊凶と地球温暖化. グリーン・エージ2017年5月号 pp16-19.
[2] 立木佑弥. 植物の豊凶現象を説明する資源収支モデル. JSMB Newsletter No. 79, pp. 8-9. 2016.
[3] 立木佑弥. どんぐり豊凶の進化生態学. JSMB Newsletter No, 89.
著書(ブックチャプター)
[1] 立木佑弥. 2025. 生活史戦略. 理論生物学事典. 朝倉書店.
[2] Iwasa, Y, Satake A and Tachiki Y. Evolution of synchrinised and intermittent reproduction (masting) of trees - key role of regeneration dynamics. pp.191-223. “Temporal Dynamics and Ecological Process” Kelly C.K., Bowler M.G., Fox G.A. ed. Cambridge University Press. 2014.
[3] Satake A, Tachiki Y and Iwasa Y. Roles of pollinator attraction and environmental fluctuation in inducing flowering synchrony. pp.251-281. “Temporal Dynamics and Ecological Process” Kelly C.K., Bowler M.G., Fox G.A. ed. Cambridge University Press. 2014.
門脇浩明, 立木佑弥 (編). 2019. 遺伝子・多様性・循環の科学: 生態学の領域融合へ. 京都大学学術出版会. https://www.kyoto-up.or.jp/9784814001903.html
門脇浩明, 立木佑弥. 2025. 生態学の教科書: 理論×統計×シミュレーション. 共立出版. https://www.kyoritsu-pub.co.jp/book/b10139557.html
代表論文
[1] Tomizuka H, Yamawo A, Tachiki Y. 2025. Altruism or selfishness: floral behaviour based on genetic relatedness with neighbouring plants. Journal of Evolutionary Biology. https://doi.org/10.1093/jeb/voaf015
[2] Tomizuka H, Tachiki Y. 2024. The eco-evolutionary dynamics of Batesian mimicry. Journal of Theoretical Biology. https://doi.org/10.1016/j.jtbi.2023.111683
[3] Fukano Y, Yamori W, Misu H, Sato MP, Shirasawa K, Tachiki Y, Uchida K. 2023. From green to red: Urban heat stress drives leaf color evolution. Science Advances. https://doi.org/10.1126/sciadv.abq3542
[4] Fukano Y, Tachiki Y, Kasada M, Uchida K. 2022. Evolution of competitive traits changes species diversity in a natural field. Proceedings of the Royal Society B: Biological Sciences. https://doi.org/10.1098/rspb.2022.1376
[5] Kim BM, Horita J, Suzuki JI, Tachiki Y. 2021. Resource allocation in tragedy of the commons game in plants for belowground competition. Journal of Theoretical Biology. https://doi.org/10.1016/j.jtbi.2021.110858
[6] Katsuhara KR, Tachiki Y, Iritani R, Ushimaru A. 2021. The eco‐evolutionary dynamics of prior selfing rates promote coexistence without niche partitioning under conditions of reproductive interference. Journal of Ecology. https://doi.org/10.1111/1365-2745.13768
[7] Fukano Y, Tachiki Y. 2021. Evolutionary ecology of climacteric and non-climacteric fruits. Biology Letters. https://doi.org/10.1098/rsbl.2021.0352
[8] Yamaguchi R, Iwasa Y, Tachiki Y. 2021. Recurrent speciation rates on islands decline with species number. Proceedings of The Royal Society B: Biological Sciences. https://doi.org/10.1098/rspb.2021.0255
[9] Horita J, Iwasa Y, Tachiki Y. 2020. Positive feedback between behavioral and hormonal dynamics leads to differentiation of life-history tactics. The American Naturalist. https://doi.org/10.1086/711414
[10] Fukano Y, Guo W, Uchida K, Tachiki Y. 2020. Contemporary adaptive divergence of plant competitive traits in urban and rural populations and its implication for weed management. Journal of Ecology. https://doi.org/10.1111/1365-2745.13472
[11] Abe T, Tachiki Y, Kon H, Nagasaka A, Onodera K, Minamino K, Han Q, Satake A. 2016. Parameterization and validation of a resource budget model for masting using spatiotemporal flowering data of individual trees. Ecology Letters 19(9) 1139. https://doi.org/10.1111/ele.12651
[12] Tachiki Y, Koizumi I. 2016. Absolute versus relative assessments of individual status in status-dependent strategies in stochastic environments. The American Naturalist 188(1) 113-123. https://doi.org/10.1086/686899
[13] Tachiki Y, Makita A, Suyama Y, Satake A. 2015. A spatially explicit model for flowering time in bamboos: long rhizomes drive the evolution of delayed flowering. Journal of Ecology 103(3) 585-593. https://doi.org/10.1111/1365-2745.12390
[14] Tachiki Y, Iwasa Y. 2013. Coevolution of mast seeding in trees and extended diapause of seed predators. Journal of Theoretical Biology 339 129-139. https://doi.org/10.1016/j.jtbi.2013.05.026
[15] Fukano Y, Tachiki Y, Yahara T, Iwasa Y. 2013. Soil disturbances can suppress the invasion of alien plants under plant-soil feedback. Ecological Modelling 260 42-49. https://doi.org/10.1016/j.ecolmodel.2013.03.022
[16] Tachiki Y, Iwasa Y. 2012. Evolutionary jumping and breakthrough in tree masting evolution. Theoretical Population Biology 81(1) 20-31. https://doi.org/10.1016/j.tpb.2011.10.004
[17] Tachiki Y, Iwasa Y. 2010. Both seedling banks and specialist seed predators promote the evolution of synchronized and intermittent reproduction (masting) in trees. Journal of Ecology 98(6) 1398-1408. https://doi.org/10.1111/j.1365-2745.2010.01729.x
[18] Tachiki Y, Iwasa Y. 2008. Role of gap dynamics in the evolution of masting of trees. Evolutionary Ecology Research 10(6) 893-905.
解説等
[1] 立木佑弥、佐竹暁子. どんくりの豊凶と地球温暖化. グリーン・エージ2017年5月号 pp16-19.
[2] 立木佑弥. 植物の豊凶現象を説明する資源収支モデル. JSMB Newsletter No. 79, pp. 8-9. 2016.
[3] 立木佑弥. どんぐり豊凶の進化生態学. JSMB Newsletter No, 89.
著書(ブックチャプター)
[1] 立木佑弥. 2025. 生活史戦略. 理論生物学事典. 朝倉書店.
[2] Iwasa, Y, Satake A and Tachiki Y. Evolution of synchrinised and intermittent reproduction (masting) of trees - key role of regeneration dynamics. pp.191-223. “Temporal Dynamics and Ecological Process” Kelly C.K., Bowler M.G., Fox G.A. ed. Cambridge University Press. 2014.
[3] Satake A, Tachiki Y and Iwasa Y. Roles of pollinator attraction and environmental fluctuation in inducing flowering synchrony. pp.251-281. “Temporal Dynamics and Ecological Process” Kelly C.K., Bowler M.G., Fox G.A. ed. Cambridge University Press. 2014.
[1] 2019年 2018年度 日本数理生物学会奨励賞 (日本数理生物学会)
[2] 2106年 Harper Prize 2015. (British Ecological Society)
[3] 2016年 第10回種生物学会片岡奨励賞 (種生物学会)
[4] 2016年 第4回日本生態学会奨励賞(鈴木賞)(日本生態学会)
[5] ポスター賞最優秀賞 (第28回個体群生態学会大会)
[6] ポスター賞優秀賞 (日本進化学会第14回東京大会)
[2] 2106年 Harper Prize 2015. (British Ecological Society)
[3] 2016年 第10回種生物学会片岡奨励賞 (種生物学会)
[4] 2016年 第4回日本生態学会奨励賞(鈴木賞)(日本生態学会)
[5] ポスター賞最優秀賞 (第28回個体群生態学会大会)
[6] ポスター賞優秀賞 (日本進化学会第14回東京大会)
British Ecological Society、日本生態学会 、種生物学会、個体群生態学会、日本数理生物学会
2025 - 2026 日本数理生物学会 学術専門委員会
2024 - 2027 個体群生態学会 理事
2022 - 2023 日本数理生物学会 運営委員
2018 - 2020 日本数理生物学会 事務局
2017 - 2025 日本生態学会 大会企画委員会
2014 - 2022 文部科学省科学技術政策研究所科学技術動向研究センター 専門調査員
2014 - 2022 日本生態学会将来計画専門委員会
2024 - 2027 個体群生態学会 理事
2022 - 2023 日本数理生物学会 運営委員
2018 - 2020 日本数理生物学会 事務局
2017 - 2025 日本生態学会 大会企画委員会
2014 - 2022 文部科学省科学技術政策研究所科学技術動向研究センター 専門調査員
2014 - 2022 日本生態学会将来計画専門委員会
- 進化生物学各論
- 進化生物学特別講義
- Practices in Biology 1(生物学基礎演習1)
- Practices in Biology 2(生物学基礎演習2)
- 進化生物学実験(数理計算生物学)
- Evolutionary Biology(進化生物学各論)
- 生命科学実験1(数理計算)
- 生命科学実験1(数理計算)
- 生命科学実験2(数理計算)
- 生命科学実験2(数理計算)
- 生命科学セミナー1(数理計算1)
- 生命科学セミナー1(数理計算1)
- 生命科学セミナー2(数理計算1)
- 生命科学セミナー2(数理計算1)
- 生命科学セミナー1(数理計算2)
- 生命科学セミナー1(数理計算2)
- 生命科学セミナー2(数理計算2)
- 生命科学セミナー2(数理計算2)
- 組織再編前旧課程の同時開講科目等が含まれており、掲載されている全ての科目を開講するわけではありません。
関連HOT TOPICS
関連ニュース
すべて見る連絡先
研究室
数理計算生物学研究室
メールアドレス
tachiki●tmu.ac.jp
(メールを送信される場合は●を@に変換してください)
