|West Nile virus emergence and large-scale declines of North American bird populations|
SL LaDeau, AM Kilpatrick, PP Marra
Nature 447 (7145), 710-713, 2007
|Re‐assessment of plant carbon dynamics at the Duke free‐air CO2 enrichment site: interactions of atmospheric [CO2] with nitrogen and water availability over …|
HR McCarthy, R Oren, KH Johnsen, A Gallet‐Budynek, SG Pritchard, ...
New Phytologist 185 (2), 514-528, 2010
|Climate, environmental and socio-economic change: weighing up the balance in vector-borne disease transmission|
PE Parham, J Waldock, GK Christophides, D Hemming, F Agusto, ...
Philosophical Transactions of the Royal Society B: Biological Sciences 370 …, 2015
|Rising CO2 levels and the fecundity of forest trees|
SL LaDeau, JS Clark
Science 292 (5514), 95-98, 2001
|Predicting biodiversity change: outside the climate envelope, beyond the species–area curve|
I Ibáñez, JS Clark, MC Dietze, K Feeley, M Hersh, S LaDeau, A McBride, ...
Ecology 87 (8), 1896-1906, 2006
|Ecology of West Nile virus transmission and its impact on birds in the western hemisphere|
AM Kilpatrick, SL LaDeau, PP Marra
The Auk 124 (4), 1121-1136, 2007
|Fecundity of trees and the colonization–competition hypothesis|
JS Clark, S LaDeau, I Ibanez
Ecological Monographs 74 (3), 415-442, 2004
|Nonnative forest insects and pathogens in the United States: Impacts and policy options|
GM Lovett, M Weiss, AM Liebhold, TP Holmes, B Leung, KF Lambert, ...
Ecological Applications 26 (5), 1437-1455, 2016
|Ecological forecasting and data assimilation in a data‐rich era|
Y Luo, K Ogle, C Tucker, S Fei, C Gao, S LaDeau, JS Clark, DS Schimel
Ecological Applications 21 (5), 1429-1442, 2011
|Resolving the biodiversity paradox|
JS Clark, M Dietze, S Chakraborty, PK Agarwal, I Ibanez, S LaDeau, ...
Ecology letters 10 (8), 647-659, 2007
|High‐dimensional coexistence based on individual variation: a synthesis of evidence|
JS Clark, D Bell, C Chu, B Courbaud, M Dietze, M Hersh, ...
Ecological Monographs 80 (4), 569-608, 2010
|Exploiting temporal variability to understand tree recruitment response to climate change|
I Ibáñez, JS Clark, S LaDeau, JHR Lambers
Ecological Monographs 77 (2), 163-177, 2007
|The ecological foundations of transmission potential and vector‐borne disease in urban landscapes|
SL LaDeau, BF Allan, PT Leisnham, MZ Levy
Functional ecology 29 (7), 889-901, 2015
|Range‐wide effects of breeding‐and nonbreeding‐season climate on the abundance of a Neotropical migrant songbird|
S Wilson, SL LaDeau, AP Tøttrup, PP Marra
Ecology 92 (9), 1789-1798, 2011
|Higher mosquito production in low-income neighborhoods of Baltimore and Washington, DC: understanding ecological drivers and mosquito-borne disease risk in temperate cities|
SL LaDeau, PT Leisnham, D Biehler, D Bodner
International journal of environmental research and public health 10 (4 …, 2013
|Tree growth inference and prediction from diameter censuses and ring widths|
JS Clark, M Wolosin, M Dietze, I IbáÑez, S LaDeau, M Welsh, B Kloeppel
Ecological Applications 17 (7), 1942-1953, 2007
|Communicating with the public: opportunities and rewards for individual ecologists|
ML Pace, SE Hampton, KE Limburg, EM Bennett, EM Cook, AE Davis, ...
Frontiers in Ecology and the Environment 8 (6), 292-298, 2010
|Dynamic heterogeneity: a framework to promote ecological integration and hypothesis generation in urban systems|
STA Pickett, ML Cadenasso, EJ Rosi-Marshall, KT Belt, PM Groffman, ...
Urban Ecosystems 20 (1), 1-14, 2017
|Pollen Production by Pinus taeda Growing in Elevated Atmospheric CO2|
SL LaDeau, JS Clark
Functional Ecology, 541-547, 2006
|Spatial and temporal habitat segregation of mosquitoes in urban Florida|
PT Leisnham, SL LaDeau, SA Juliano
PloS one 9 (3), e91655, 2014