|Niche conservatism as an emerging principle in ecology and conservation biology|
JJ Wiens, DD Ackerly, AP Allen, BL Anacker, LB Buckley, HV Cornell, ...
Ecology Letters 13 (10), 1310-1324, 2010
|Global imprint of climate change on marine life|
ES Poloczanska, CJ Brown, WJ Sydeman, W Kiessling, DS Schoeman, ...
Nature Climate Change 3 (10), 919-925, 2013
|The Pace of Shifting Climate in Marine and Terrestrial Ecosystems|
MT Burrows, DS Schoeman, LB Buckley, P Moore, ES Poloczanska, ...
Science 334 (6056), 652-655, 2011
|Can mechanism inform species’ distribution models?|
LB Buckley, MC Urban, MJ Angilletta, LG Crozier, LJ Rissler, MW Sears
Ecology Letters 13 (8), 1041-1054, 2010
|Geographical limits to species-range shifts are suggested by climate velocity|
MT Burrows, DS Schoeman, AJ Richardson, JG Molinos, A Hoffmann, ...
Nature 507 (7493), 492-495, 2014
|Environmental and historical constraints on global patterns of amphibian richness|
LB Buckley, W Jetz
Proceedings of the Royal Society B: Biological Sciences 274 (1614), 1167, 2007
|Complex life cycles and the responses of insects to climate change|
JG Kingsolver, HA Woods, LB Buckley, KA Potter, HJ MacLean, ...
Integrative and Comparative Biology 51 (5), 719-732, 2011
|Linking global turnover of species and environments|
LB Buckley, W Jetz
Proceedings of the National Academy of Sciences 105 (46), 17836, 2008
|Phylogeny, niche conservatism and the latitudinal diversity gradient in mammals|
LB Buckley, TJ Davies, DD Ackerly, NJB Kraft, SP Harrison, BL Anacker, ...
Proceedings of the Royal Society B: Biological Sciences 277 (1691), 2131-2138, 2010
|Macrosystems ecology: understanding ecological patterns and processes at continental scales|
JB Heffernan, PA Soranno, MJ Angilletta Jr, LB Buckley, DS Gruner, ...
Frontiers in Ecology and the Environment 12 (1), 5-14, 2014
|Linking traits to energetics and population dynamics to predict lizard ranges in changing environments|
The American Naturalist 171 (1), E1-E19, 2008
|Broad‐scale ecological implications of ectothermy and endothermy in changing environments|
LB Buckley, AH Hurlbert, W Jetz
Global Ecology and Biogeography 21 (9), 873-885, 2012
|Fine-grain modeling of species’ response to climate change: holdouts, stepping-stones, and microrefugia|
L Hannah, L Flint, AD Syphard, MA Moritz, LB Buckley, IM McCullough
Trends in ecology & evolution 29 (7), 390-397, 2014
|Heat stress and the fitness consequences of climate change for terrestrial ectotherms|
JG Kingsolver, SE Diamond, LB Buckley
Functional Ecology 27 (6), 1415-1423, 2013
|Species' traits predict phenological responses to climate change in butterflies|
SE Diamond, AM Frame, RA Martin, LB Buckley
Ecology 92 (5), 1005-1012, 2011
|Functional and phylogenetic approaches to forecasting species' responses to climate change|
LB Buckley, JG Kingsolver
Annual Review of Ecology, Evolution, and Systematics 43, 2012
|Thermoregulatory behaviour limits local adaptation of thermal niches and confers sensitivity to climate change|
LB Buckley, JC Ehrenberger, MJ Angilletta Jr
Functional Ecology 29 (8), 1038-1047, 2015
|Phylogenetic diversity as a window into the evolutionary and biogeographic histories of present-day richness gradients for mammals|
TJ Davies, LB Buckley
Philosophical Transactions of the Royal Society B: Biological Sciences 366 …, 2011
|Quantitative approaches in climate change ecology|
CJ Brown, DS Schoeman, WJ Sydeman, K Brander, LB Buckley, ...
Global Change Biology 17 (12), 3697-3713, 2011
|Ecological and methodological drivers of species’ distribution and phenology responses to climate change|
CJ Brown, MI O'Connor, ES Poloczanska, DS Schoeman, LB Buckley, ...
Global change biology 22 (4), 1548-1560, 2016