|Context‐dependent conservation responses to emerging wildlife diseases|
KE Langwig, J Voyles, MQ Wilber, WF Frick, KA Murray, BM Bolker, ...
Frontiers in Ecology and the Environment 13 (4), 195-202, 2015
|Moving beyond too little, too late: managing emerging infectious diseases in wild populations requires international policy and partnerships|
J Voyles, AM Kilpatrick, JP Collins, MC Fisher, WF Frick, H McCallum, ...
EcoHealth 12, 404-407, 2015
|Extreme drought, host density, sex, and bullfrogs influence fungal pathogen infection in a declining lotic amphibian|
AJ Adams, SJ Kupferberg, MQ Wilber, AP Pessier, M Grefsrud, S Bobzien, ...
Ecosphere 8 (3), e01740, 2017
|Resistance, tolerance and environmental transmission dynamics determine host extinction risk in a load‐dependent amphibian disease|
MQ Wilber, RA Knapp, M Toothman, CJ Briggs
Ecology Letters 20 (9), 1169-1181, 2017
|Integral projection models for host–parasite systems with an application to amphibian chytrid fungus|
MQ Wilber, KE Langwig, AM Kilpatrick, HI McCallum, CJ Briggs
Methods in Ecology and Evolution 7 (10), 1182-1194, 2016
|Scale collapse and the emergence of the power law species–area relationship|
MQ Wilber, J Kitzes, J Harte
Global Ecology and Biogeography 24 (8), 883-895, 2015
|Empirical tests of within‐and across‐species energetics in a diverse plant community|
EA Newman, ME Harte, N Lowell, M Wilber, J Harte
Ecology 95 (10), 2815-2825, 2014
|Modeling multi-species and multi-mode contact networks: implications for persistence of bovine tuberculosis at the wildlife-livestock interface|
MQ Wilber, KM Pepin, H Campa II, SE Hygnstrom, MJ Lavelle, T Xifara, ...
Journal of Applied Ecology, 2019
|Why disease ecology needs life-history theory: a host perspective|
A Valenzuela-Sanchez, MQ Wilber, S Canessa, LD Bacigalupe, E Muths, ...
Ecology Letters, 2021
|Detecting and quantifying parasite-induced host mortality from intensity data: method comparisons and limitations|
MQ Wilber, SB Weinstein, CJ Briggs
International Journal for Parasitology 46 (1), 59-66, 2016
|Disease hotspots or hot species? Infection dynamics in multi-host metacommunities controlled by species identity, not source location|
MQ Wilber, PTJ Johnson, CJ Briggs
Ecology Letters 23 (8), 1201-1211, 2020
|Effects of social structure and management on risk of disease establishment in wild pigs|
A Yang, P Schlichting, B Wight, WM Anderson, SM Chinn, MQ Wilber, ...
Journal of Animal Ecology 90 (4), 820-833, 2021
|When can we infer mechanism from parasite aggregation? A constraint‐based approach to disease ecology|
MQ Wilber, PTJ Johnson, CJ Briggs
Ecology 98 (3), 688-702, 2017
|Disturbance macroecology: a comparative study of community structure metrics in a high‐severity disturbance regime|
EA Newman, MQ Wilber, KE Kopper, MA Moritz, DA Falk, D McKenzie, ...
Ecosphere 11 (1), e03022, 2020
|Improving wellbeing and reducing future world population|
WW Murdoch, FI Chu, A Stewart-Oaten, MQ Wilber
PloS one 13 (9), e0202851, 2018
|Biological and statistical processes jointly drive population aggregation: using host–parasite interactions to understand Taylor's power law|
PTJ Johnson, MQ Wilber
Proceedings of the Royal Society B: Biological Sciences 284 (1863), 20171388, 2017
|Frequency‐dependent transmission of Batrachochytrium salamandrivorans in eastern newts|
A Tompros, AD Dean, A Fenton, MQ Wilber, ED Carter, MJ Gray
Transboundary and emerging diseases 69 (2), 731-741, 2022
|Predicting functional responses in agro‐ecosystems from animal movement data to improve management of invasive pests|
MQ Wilber, SM Chinn, JC Beasley, RK Boughton, RK Brook, SS Ditchkoff, ...
Ecological Applications 30 (1), e02015, 2020
|Batrachochytrium salamandrivorans can Devour more than Salamanders|
AE Towe, MJ Gray, ED Carter, MQ Wilber, RJ Ossiboff, K Ash, M Bohanon, ...
Journal of wildlife diseases 57 (4), 942-948, 2021
|Fungal infection alters the selection, dispersal and drift processes structuring the amphibian skin microbiome|
MQ Wilber, AJ Jani, JR Mihaljevic, CJ Briggs
Ecology Letters 23 (1), 88-98, 2020