| Fishing effects on age and spatial structures undermine population stability of fishes C Hsieh, A Yamauchi, T Nakazawa, WF Wang Aquatic Sciences 72, 165-178, 2010 | 266 | 2010 |
| Ontogenetic niche shifts matter in community ecology: a review and future perspectives T Nakazawa Population Ecology 57, 347-354, 2015 | 168 | 2015 |
| A perspective on match/mismatch of phenology in community contexts T Nakazawa, H Doi Oikos 121 (4), 489-495, 2012 | 123 | 2012 |
| Sex in a material world: why the study of sexual reproduction and sex‐specific traits should become more nutritionally‐explicit NI Morehouse, T Nakazawa, CM Booher, PD Jeyasingh, MD Hall Oikos 119 (5), 766-778, 2010 | 93 | 2010 |
| Analysis of species coexistence co-mediated by resource competition and reproductive interference S Kishi, T Nakazawa Population ecology 55, 305-313, 2013 | 85 | 2013 |
| Scale dependence of predator–prey mass ratio: determinants and applications T Nakazawa, M Ushio, M Kondoh Advances in ecological research 45, 269-302, 2011 | 74 | 2011 |
| Predator–prey body size relationships when predators can consume prey larger than themselves T Nakazawa, S Ohba, M Ushio Biology letters 9 (3), 20121193, 2013 | 73 | 2013 |
| Is the relationship between body size and trophic niche position time-invariant in a predatory fish? First stable isotope evidence T Nakazawa, Y Sakai, C Hsieh, T Koitabashi, I Tayasu, N Yamamura, ... PLoS One 5 (2), e9120, 2010 | 56 | 2010 |
| Individual interaction data are required in community ecology: a conceptual review of the predator–prey mass ratio and more T Nakazawa Ecological Research 32, 5-12, 2017 | 49 | 2017 |
| A minimum model of prey-predator system with dormancy of predators and the paradox of enrichment M Kuwamura, T Nakazawa, T Ogawa Journal of Mathematical Biology 58, 459-479, 2009 | 49 | 2009 |
| Predator–prey mass ratio revisited: does preference of relative prey body size depend on individual predator size? CH Tsai, C Hsieh, T Nakazawa Functional Ecology 30 (12), 1979-1987, 2016 | 46 | 2016 |
| Functional consequences of viral impacts on bacterial communities: a food‐web model analysis T Miki, T Nakazawa, T Yokokawa, T Nagata Freshwater Biology 53 (6), 1142-1153, 2008 | 44 | 2008 |
| Long-Term Changes in the Diet of Gymnogobius isaza from Lake Biwa, Japan: Effects of Body Size and Environmental Prey Availability JC Briones, CH Tsai, T Nakazawa, Y Sakai, RDS Papa, C Hsieh, N Okuda PLoS One 7 (12), e53167, 2012 | 32 | 2012 |
| Larger body size with higher predation rate T Nakazawa, N Ishida, M Kato, N Yamamura Ecology of Freshwater Fish 16 (3), 362-372, 2007 | 32 | 2007 |
| Ontogenetic niche shift, food-web coupling, and alternative stable states T Nakazawa Theoretical Ecology 4, 479-494, 2011 | 28 | 2011 |
| Model analysis for plant disease dynamics co-mediated by herbivory and herbivore-borne phytopathogens T Nakazawa, T Yamanaka, S Urano Biology Letters 8 (4), 685-688, 2012 | 27 | 2012 |
| The ontogenetic stoichiometric bottleneck stabilizes herbivore–autotroph dynamics T Nakazawa Ecological Research 26, 209-216, 2011 | 27 | 2011 |
| Influence of predator‐specific defense adaptation on intraguild predation T Nakazawa, T Miki, T Namba Oikos 119 (3), 418-427, 2010 | 25 | 2010 |
| Incorporating an ontogenetic perspective into evolutionary theory of sexual size dimorphism CC Chou, Y Iwasa, T Nakazawa Evolution 70 (2), 369-384, 2016 | 23 | 2016 |
| Alternative stable states generated by ontogenetic niche shift in the presence of multiple resource use T Nakazawa PLoS One 6 (2), e14667, 2011 | 21 | 2011 |
Chih-hao HsiehInstitute of Oceanography, National Taiwan University確認したメール アドレス: ntu.edu.tw
