|Linked selection and recombination rate variation drive the evolution of the genomic landscape of differentiation across the speciation continuum of Ficedula flycatchers|
R Burri, A Nater, T Kawakami, CF Mugal, PI Olason, L Smeds, A Suh, ...
Genome research 25 (11), 1656-1665, 2015
|Divergence in gene expression within and between two closely related flycatcher species|
S Uebbing, A Künstner, H Mäkinen, N Backström, P Bolivar, R Burri, ...
Molecular ecology 25 (9), 2015-2028, 2016
|Covariation in levels of nucleotide diversity in homologous regions of the avian genome long after completion of lineage sorting|
L Dutoit, N Vijay, CF Mugal, CM Bossu, R Burri, J Wolf, H Ellegren
Proceedings of the Royal Society B: Biological Sciences 284 (1849), 20162756, 2017
|Sex-biased gene expression, sexual antagonism and levels of genetic diversity in the collared flycatcher (Ficedula albicollis) genome|
L Dutoit, C Mugal, P Bolívar, M Wang, K Nadachowska-Brzyska, L Smeds, ...
Molecular ecology 27 (18), 3572–3581, 2018
|Genomic distribution and estimation of nucleotide diversity in natural populations: perspectives from the collared flycatcher (Ficedula albicollis) genome|
L Dutoit, R Burri, A Nater, CF Mugal, H Ellegren
Molecular ecology resources 17 (4), 586-597, 2017
|How a haemosporidian parasite of bats gets around: the genetic structure of a parasite, vector and host compared|
F Witsenburg, L Clément, A López‐Baucells, J Palmeirim, I Pavlinić, ...
Molecular Ecology 24 (4), 926-940, 2015
|Local adaptation and the evolution of inversions on sex chromosomes and autosomes|
T Connallon, C Olito, L Dutoit, H Papoli, F Ruzicka, L Yong
Philosophical Transactions of the Royal Society B: Biological Sciences 373 …, 2018
|Biased inference of selection due to GC-biased gene conversion and the rate of protein evolution in flycatchers when accounting for it|
P Bolívar, CF Mugal, M Rossi, A Nater, M Wang, L Dutoit, H Ellegren
Molecular biology and evolution 35 (10), 2475-2486, 2018
|Receding ice drove parallel expansions in Southern Ocean penguins|
TL Cole, L Dutoit, N Dussex, T Hart, A Alexander, JL Younger, GV Clucas, ...
Proceedings of the National Academy of Sciences 116 (52), 26690-26696, 2019
|Ecological gradients drive insect wing loss and speciation: The role of the alpine treeline|
GA McCulloch, BJ Foster, L Dutoit, T Ingram, E Hay, AJ Veale, ...
Molecular ecology 28 (13), 3141-3150, 2019
|The search for sexually antagonistic genes: Practical insights from studies of local adaptation and statistical genomics|
F Ruzicka, L Dutoit, P Czuppon, CY Jordan, XY Li, C Olito, A Runemark, ...
Evolution letters 4 (5), 398-415, 2020
|Genomics detects population structure within and between ocean basins in a circumpolar seabird: the white‐chinned petrel|
K Rexer‐Huber, AJ Veale, P Catry, Y Cherel, L Dutoit, Y Foster, ...
Molecular ecology 28 (20), 4552-4572, 2019
|The genomic footprint of coastal earthquake uplift|
E Parvizi, CI Fraser, L Dutoit, D Craw, JM Waters
Proceedings of the Royal Society B 287 (1930), 20200712, 2020
|SNP analyses reveal a diverse pool of potential colonists to earthquake‐uplifted coastlines|
JC Peters, JM Waters, L Dutoit, CI Fraser
Molecular ecology 29 (1), 149-159, 2020
|Phylogenomics resolves the invasion history of Acacia auriculiformis in Florida|
GA McCulloch, PT Madeira, JR Makinson, L Dutoit, Z Blair, GH Walter, ...
Journal of Biogeography 48 (2), 453-464, 2021
|Genomics reveals widespread ecological speciation in flightless insects|
GA McCulloch, BJ Foster, L Dutoit, TWR Harrop, J Guhlin, PK Dearden, ...
Systematic Biology, 2021
|Tissue-specific patterns of regulatory changes underlying gene expression differences among Ficedula flycatchers and their naturally occurring F1 hybrids|
CF Mugal, M Wang, N Backström, D Wheatcroft, M Ĺlund, M Sémon, ...
Genome research 30 (12), 1727-1739, 2020
|Species in the faeces: DNA metabarcoding as a method to determine the diet of the endangered yellow-eyed penguin|
MJ Young, L Dutoit, F Robertson, Y van Heezik, PJ Seddon, ...
Wildlife Research 47 (6), 509-522, 2020
|Genomic analyses suggest strong population connectivity over large spatial scales of the commercially important baitworm, Australonuphis teres (Onuphidae)|
A Padovan, RC Chick, VJ Cole, L Dutoit, PA Hutchings, C Jack, CI Fraser
Marine and Freshwater Research 71 (11), 1549-1556, 2020
|Population structure of the New Zealand whelk, Cominella glandiformis (Gastropoda: Buccinidae), suggests sporadic dispersal of a direct developer|
KM Donald, GA McCulloch, L Dutoit, HG Spencer
Biological Journal of the Linnean Society 130 (1), 49-60, 2020