Publications
15. Johnson, C. A., Ren, R.†, Buckley, L. 2023. Temperature sensitivity of fitness components across life cycles drives insect response to climate change. The American Naturalist. 202 (6). (PDF)
14. Johnson, C. A., Dutt, P.†, Levine, J. 2022. Competition for pollinators destabilizes plant coexistence. Nature. 607 (7920), 721-725. (PDF)
13. Johnson, C. A., Smith, G., Yule, K., Davidowitz, G., Bronstein, J. & Ferrière, R. 2021. Evolutionary transitions from antagonism to mutualism explained by the Co-Opted Antagonist Hypothesis. Nature Communications. 12(1): 1-11. (PDF)
12. Johnson, C. A. 2021. How mutualisms influence the coexistence of competing species. Ecology. 102 (6): e03346. (PDF)
11. Yule, K., Johnson, C. A., Bronstein, J. & Ferrière, R. 2020. Interactions among interactions: the dynamical consequences of antagonism between
mutualists. Journal of Theoretical Biology. 110334. (PDF)
10. Richman, S., Stefan, L., Levine, J. & Johnson, C. A. 2020. Asynchronous range shifts drive alpine plant-pollinator interactions and reduce plant fitness. Global Change Biology. 26 (5); 3052-3064. (PDF)
9. Johnson, C. A. & Bronstein, J. 2019. Coexistence and competitive exclusion in mutualism. Ecology. 100 (6): e02708. (PDF)
8. Kandlikar, G., Johnson, C. A., Yan, X.†, Kraft, N., & Levine, J. 2019. Winning and losing with microbes: how microbially mediated fitness differences
influence plant diversity. Ecology Letters. 22 (8): 1178-1191. (PDF)
7. Smith, G., Johnson, C. A., Davidowitz, G., & Bronstein, J. 2018. Linkages between nectaring and oviposition preferences of Manduca sexta on two
co-blooming Datura species in the Sonoran Desert. Ecological Entomology. 43: 85-92. (PDF)
6. Amarasekare, P. and Johnson, C. A. 2017. Evolution of thermal reaction norms in seasonally varying environments. The American Naturalist. 189 (3):
E31 - E45. (PDF)
5. Johnson, C. A. & Amarasekare, P. 2015. A metric for quantifying the oscillatory tendency of consumer-resource interactions. The American Naturalist.
185, 1: 87-99. (PDF)
4. Johnson, C.A., Coutinho, R., Berlin, E.† Dolphin, K.†, Heyer, J.†, Kim, B.†, Leung, A.†, Sabellon, J.† & Amarasekare, P. 2015. Effects of temperature
and resource variation on insect population dynamics: the bordered plant bug as a case study. Journal of Functional Ecology. (PDF)
3. Johnson, C. A. & Amarasekare, P. 2013. Competition for benefits can promote the persistence of mutualistic interactions. Journal of Theoretical
Biology. 328: 54-64. (PDF)
2. Beardmore, S., Orr, P., Manzocchi, T., Furrer, H., Johnson, C. 2012. Death, decay and disarticulation: Modeling the skeletal taphonomy of
marine reptiles demonstrated using Serpianosaurus. Palaeogeography, Palaeoclimatology, Palaeoecology. 337: 1-13. (PDF)
1. Tierney, J., Mayes, M., Meyer, N., Johnson, C., Swarzenski, P., Cohen, A., & Russell, J. 2010. Late-20th-century warming in Lake Tanganyika
unprecedented since AD 500. Nature Geosciences 3: 422-25. (PDF)
14. Johnson, C. A., Dutt, P.†, Levine, J. 2022. Competition for pollinators destabilizes plant coexistence. Nature. 607 (7920), 721-725. (PDF)
13. Johnson, C. A., Smith, G., Yule, K., Davidowitz, G., Bronstein, J. & Ferrière, R. 2021. Evolutionary transitions from antagonism to mutualism explained by the Co-Opted Antagonist Hypothesis. Nature Communications. 12(1): 1-11. (PDF)
12. Johnson, C. A. 2021. How mutualisms influence the coexistence of competing species. Ecology. 102 (6): e03346. (PDF)
11. Yule, K., Johnson, C. A., Bronstein, J. & Ferrière, R. 2020. Interactions among interactions: the dynamical consequences of antagonism between
mutualists. Journal of Theoretical Biology. 110334. (PDF)
10. Richman, S., Stefan, L., Levine, J. & Johnson, C. A. 2020. Asynchronous range shifts drive alpine plant-pollinator interactions and reduce plant fitness. Global Change Biology. 26 (5); 3052-3064. (PDF)
9. Johnson, C. A. & Bronstein, J. 2019. Coexistence and competitive exclusion in mutualism. Ecology. 100 (6): e02708. (PDF)
8. Kandlikar, G., Johnson, C. A., Yan, X.†, Kraft, N., & Levine, J. 2019. Winning and losing with microbes: how microbially mediated fitness differences
influence plant diversity. Ecology Letters. 22 (8): 1178-1191. (PDF)
7. Smith, G., Johnson, C. A., Davidowitz, G., & Bronstein, J. 2018. Linkages between nectaring and oviposition preferences of Manduca sexta on two
co-blooming Datura species in the Sonoran Desert. Ecological Entomology. 43: 85-92. (PDF)
6. Amarasekare, P. and Johnson, C. A. 2017. Evolution of thermal reaction norms in seasonally varying environments. The American Naturalist. 189 (3):
E31 - E45. (PDF)
5. Johnson, C. A. & Amarasekare, P. 2015. A metric for quantifying the oscillatory tendency of consumer-resource interactions. The American Naturalist.
185, 1: 87-99. (PDF)
4. Johnson, C.A., Coutinho, R., Berlin, E.† Dolphin, K.†, Heyer, J.†, Kim, B.†, Leung, A.†, Sabellon, J.† & Amarasekare, P. 2015. Effects of temperature
and resource variation on insect population dynamics: the bordered plant bug as a case study. Journal of Functional Ecology. (PDF)
3. Johnson, C. A. & Amarasekare, P. 2013. Competition for benefits can promote the persistence of mutualistic interactions. Journal of Theoretical
Biology. 328: 54-64. (PDF)
2. Beardmore, S., Orr, P., Manzocchi, T., Furrer, H., Johnson, C. 2012. Death, decay and disarticulation: Modeling the skeletal taphonomy of
marine reptiles demonstrated using Serpianosaurus. Palaeogeography, Palaeoclimatology, Palaeoecology. 337: 1-13. (PDF)
1. Tierney, J., Mayes, M., Meyer, N., Johnson, C., Swarzenski, P., Cohen, A., & Russell, J. 2010. Late-20th-century warming in Lake Tanganyika
unprecedented since AD 500. Nature Geosciences 3: 422-25. (PDF)