|Parasites in food webs: the ultimate missing links|
KD Lafferty, S Allesina, M Arim, CJ Briggs, G De Leo, AP Dobson, ...
Ecology letters 11 (6), 533-546, 2008
|Optimal temperature for malaria transmission is dramatically lower than previously predicted|
EA Mordecai, KP Paaijmans, LR Johnson, C Balzer, T Ben‐Horin, ...
Ecology letters 16 (1), 22-30, 2013
|Detecting the impact of temperature on transmission of Zika, dengue, and chikungunya using mechanistic models|
EA Mordecai, JM Cohen, MV Evans, P Gudapati, LR Johnson, CA Lippi, ...
PLoS neglected tropical diseases 11 (4), e0005568, 2017
|Pathogen impacts on plant communities: unifying theory, concepts, and empirical work|
Ecological Monographs 81 (3), 429-441, 2011
|The community ecology of pathogens: coinfection, coexistence and community composition|
EW Seabloom, ET Borer, K Gross, AE Kendig, C Lacroix, CE Mitchell, ...
Ecology Letters 18 (4), 401-415, 2015
|Global expansion and redistribution of Aedes-borne virus transmission risk with climate change|
SJ Ryan, CJ Carlson, EA Mordecai, LR Johnson
PLoS neglected tropical diseases 13 (3), e0007213, 2019
|Environmental and social change drive the explosive emergence of Zika virus in the Americas|
S Ali, O Gugliemini, S Harber, A Harrison, L Houle, J Ivory, S Kersten, ...
PLoS neglected tropical diseases 11 (2), e0005135, 2017
|Mapping physiological suitability limits for malaria in Africa under climate change|
SJ Ryan, A McNally, LR Johnson, EA Mordecai, T Ben-Horin, ...
Vector-Borne and Zoonotic Diseases 15 (12), 718-725, 2015
|Competition–defense tradeoffs and the maintenance of plant diversity|
DV Viola, EA Mordecai, AG Jaramillo, SA Sistla, LK Albertson, JS Gosnell, ...
Proceedings of the National Academy of Sciences 107 (40), 17217-17222, 2010
|Temperature drives Zika virus transmission: evidence from empirical and mathematical models|
B Tesla, LR Demakovsky, EA Mordecai, SJ Ryan, MH Bonds, ...
Proceedings of the Royal Society B: Biological Sciences 285 (1884), 20180795, 2018
|Understanding uncertainty in temperature effects on vector‐borne disease: a Bayesian approach|
LR Johnson, T Ben-Horin, KD Lafferty, A McNally, E Mordecai, ...
Ecology 96 (1), 203-213, 2015
|Soil moisture and fungi affect seed survival in California grassland annual plants|
Plos One 7 (6), e39083, 2012
|A framework for priority effects|
T Fukami, EA Mordecai, A Ostling
Journal of vegetation science 27 (4), 655-657, 2016
|The rise and fall of infectious disease in a warmer world|
KD Lafferty, EA Mordecai
F1000Research 5, 2016
|Thermal biology of mosquito‐borne disease|
EA Mordecai, JM Caldwell, MK Grossman, CA Lippi, LR Johnson, M Neira, ...
Ecology letters 22 (10), 1690-1708, 2019
|Disease ecology, health and the environment: a framework to account for ecological and socio-economic drivers in the control of neglected tropical diseases|
A Garchitorena, SH Sokolow, B Roche, CN Ngonghala, M Jocque, A Lund, ...
Philosophical Transactions of the Royal Society B: Biological Sciences 372 …, 2017
|Despite spillover, a shared pathogen promotes native plant persistence in a cheatgrass‐invaded grassland|
Ecology 94 (12), 2744-2753, 2013
|Seasonal temperature variation influences climate suitability for dengue, chikungunya, and Zika transmission|
JH Huber, ML Childs, JM Caldwell, EA Mordecai
PLoS neglected tropical diseases 12 (5), e0006451, 2018
|Consequences of pathogen spillover for cheatgrass-invaded grasslands: coexistence, competitive exclusion, or priority effects|
The American Naturalist 181 (6), 737-747, 2013
|Within-host niche differences and fitness trade-offs promote coexistence of plant viruses|
EA Mordecai, K Gross, CE Mitchell
The American Naturalist 187 (1), E13-E26, 2016