| Discrete-time growth-dispersal models with shifting species ranges Y Zhou, M Kot Theoretical Ecology 4, 13-25, 2011 | 110 | 2011 |
| Keeping pace with climate change: stage-structured moving-habitat models MA Harsch, Y Zhou, J HilleRisLambers, M Kot The American Naturalist 184 (1), 25-37, 2014 | 60 | 2014 |
| Advancing an interdisciplinary framework to study seed dispersal ecology NG Beckman, CE Aslan, HS Rogers, O Kogan, JL Bronstein, JM Bullock, ... AoB Plants 12 (2), plz048, 2020 | 54 | 2020 |
| Life on the move: modeling the effects of climate-driven range shifts with integrodifference equations Y Zhou, M Kot Dispersal, individual movement and spatial ecology: a mathematical …, 2013 | 46 | 2013 |
| Moving forward: Insights and applications of moving-habitat models for climate change ecology M Harsch, A Phillips, Y Zhou, MR Leung, DS Rinnan, M Kot Journal of Ecology, 2016 | 42 | 2016 |
| Employing plant functional groups to advance seed dispersal ecology and conservation C Aslan, NG Beckman, HS Rogers, J Bronstein, D Zurell, F Hartig, K Shea, ... AoB Plants 11 (2), plz006, 2019 | 41 | 2019 |
| A discrete-time model for population persistence in habitats with time-varying sizes Y Zhou, W Fagan Journal of Mathematical Biology, 2017 | 19 | 2017 |
| Geographic range shifts under climate warming Y Zhou | 6 | 2013 |
| Maximizing metapopulation growth rate and biomass in stream networks TD Nguyen, Y Wu, A Veprauskas, T Tang, Y Zhou, C Beckford, B Chau, ... SIAM Journal on Applied Mathematics 83 (6), 2145-2168, 2023 | 4 | 2023 |
| Ideal free dispersal in integrodifference models RS Cantrell, C Cosner, Y Zhou Journal of mathematical biology 85 (1), 6, 2022 | 3 | 2022 |
| Range shifts under constant-speed and accelerated climate warming Y Zhou Bulletin of Mathematical Biology 84 (1), 1, 2022 | 3 | 2022 |
| Impact of resource distributions on the competition of species in stream environment TD Nguyen, Y Wu, T Tang, A Veprauskas, Y Zhou, BD Rouhani, Z Shuai Journal of Mathematical Biology 87 (4), 62, 2023 | 2 | 2023 |
| Population Persistence in Stream Networks: Growth Rate and Biomass TD Nguyen, Y Wu, A Veprauskas, T Tang, Y Zhou, C Beckford, B Chau, ... 2023 Joint Mathematics Meetings (JMM 2023), 2022 | 1 | 2022 |
| The Role of Seed Dispersal in Plant Populations: Perspectives and Advances in a Changing World: Employing plant functional groups to advance seed dispersal ecology and conservation C Asian, NG Beckman, HS Rogers, J Bronstein, D Zurell, F Hartig, K Shea, ... AoB Plants, 1b-1b, 2019 | 1 | 2019 |
| Impact of network connectivity on the dynamics of populations in stream environments TD Nguyen, T Tang, A Veprauskas, Y Wu, Y Zhou arXiv preprint arXiv:2503.13747, 2025 | | 2025 |
| Evolution of dispersal by memory and learning in integrodifference equation models RS Cantrell, C Cosner, Y Zhou Journal of Difference Equations and Applications 30 (8), 1040-1061, 2024 | | 2024 |
| Persistence under climate change and habitat loss: Distributions of spreading speeds and critical patch sizes NG Beckman, Y Zhou, S Bogen, MG Neubert, JM Bullock, MA Lewis 2020 ESA Annual Meeting (August 3-6), 2020 | | 2020 |
| Biodiversity Loss in the Face of Global Change: Models and Data NG Beckman, Y Zhou, E Crone 2020 ESA Annual Meeting (August 3-6), 2020 | | 2020 |
| Some recent results on the ideal free distribution in models for the evolution of dispersal. C Cosner, RS Cantrell, KY Lam, Y Zhou 2025 Joint Mathematics Meetings (JMM 2025), 0 | | |
| mpact of resource distributions on the competition of species in stream environment T Tang, Y Wu, A Veprauskas, Z Shuai, Y Zhou, TD Nguyen, ... 2024 Joint Mathematics Meetings (JMM 2024), 0 | | |
Mark KotUniversity of WashingtonVerified email at uw.edu
