Publications: peer-reviewed research articles
- Nguyen, T. D.; Y. Wu; A. Veprauskas, T. Tang, Y. Zhou; B.D. Rouhani, Z. Shuai. Impact of resource distribution on the competition of species in stream environment, accepted by Journal of Mathematical Biology.
- Robert Stephen Cantrell, Chris Cosner, and Ying Zhou*, Evolution of dispersal by memory and learn-
ing in integrodifference equation models, accepted by Journal of Difference Equations and Applications. (* Authors listed alphabetically) - Nguyen, T. D.; Y. Wu; A. Veprauskas; T. Tang, Y. Zhou; C. Beckford, B. Chau, X. Chen, B.D. Rouhani,
A. Imadh, Y., Yang, Y. Wu; Z. Shuai. Maximizing metapopulation growth rate and biomass in stream
networks, accepted by SIAM Journal on Applied Mathematics. - Robert Stephen Cantrell, Chris Cosner and Ying Zhou*, Ideal free dispersal in integrodifference models, Journal of Mathematical Biology (2022) 85: 6. (* Authors listed alphabetically)
- Ying Zhou, Range Shifts Under Constant-Speed and Accelerated Climate Warming, Bulletin of Mathematical Biology (2021) 84:1.
- Ying Zhou and William Fagan, A discrete-time model for population persistence in habitats with time- varying sizes, Journal of Mathematical Biology (2017) 75:649-704. Open-access viewing here.
- Melanie A. Harsch, Ying Zhou, Janneke Hille Ris Lambers and Mark Kot, Keeping pace with climate change: stage-structured moving-habitat models, The American Naturalist (2014) 184.1: 25-37.
- Ying Zhou and Mark Kot (2013), Life on the Move: Modeling the Effects of Climate-Driven Range Shifts with Integrodifference Equations. In: Dispersal, Individual Movement and Spatial Ecology: A Mathematical Perspective (eds: M. Lewis, P. Maini and S. Petrovskii), 263–292.
- Ying Zhou and Mark Kot, Discrete-time growth-dispersal models with shifting species ranges, Theoretical Ecology (2011) 4:13–25.
Publications: perspective articles
- Melanie A. Harsch, Austin Phillips, Ying Zhou, Margaret-Rose Leung, D. Scott Rinnan, Mark Kot, Moving forward: Insights and applications of moving-habitat models for climate change ecology, Journal of Ecology (2017) DOI:10.1111/1365-2745.12724.