|From reference genomes to population genomics: comparing three reference-aligned reduced-representation sequencing pipelines in two wildlife species|
B Wright, KA Farquharson, EA McLennan, K Belov, CJ Hogg, CE Grueber
BMC genomics 20 (1), 1-10, 2019
|A demonstration of conservation genomics for threatened species management|
BR Wright, KA Farquharson, EA McLennan, K Belov, CJ Hogg, ...
Molecular Ecology Resources 20 (6), 1526-1541, 2020
|Pedigree reconstruction using molecular data reveals an early warning sign of gene diversity loss in an island population of Tasmanian devils (Sarcophilus harrisii)|
EA McLennan, RM Gooley, P Wise, K Belov, CJ Hogg, CE Grueber
Conservation Genetics 19 (2), 439-450, 2018
|Complex problems need detailed solutions: Harnessing multiple data types to inform genetic management in the wild|
CE Grueber, S Fox, EA McLennan, RM Gooley, D Pemberton, CJ Hogg, ...
Evolutionary Applications 12 (2), 280-291, 2019
|Immunization strategies producing a humoral IgG immune response against devil facial tumor disease in the majority of Tasmanian devils destined for wild release|
R Pye, A Patchett, E McLennan, R Thomson, S Carver, S Fox, ...
Frontiers in Immunology 9, 259, 2018
|Too much of a good thing? Finding the most informative genetic data set to answer conservation questions|
EA McLennan, BR Wright, K Belov, CJ Hogg, CE Grueber
Molecular Ecology Resources 19 (3), 659-671, 2019
|Mixing genetically differentiated populations successfully boosts diversity of an endangered carnivore|
EA McLennan, CE Grueber, P Wise, K Belov, CJ Hogg
Animal Conservation 23 (6), 700-712, 2020
|Preserving the demographic and genetic integrity of a single source population during multiple translocations|
CJ Hogg, EA McLennan, P Wise, AV Lee, D Pemberton, S Fox, K Belov, ...
Biological Conservation 241, 108318, 2020
|Assessing evolutionary processes over time in a conservation breeding program: A combined approach using molecular data, simulations and pedigree analysis|
BR Wright, CJ Hogg, EA McLennan, K Belov, CE Grueber
Biodiversity and Conservation 30 (4), 1011-1029, 2021
|Metapopulation management of a critically endangered marsupial in the age of genomics|
KA Farquharson, EA McLennan, A Wayne, M Smith, E Peel, K Belov, ...
Global Ecology and Conservation 31, e01869, 2021
|Investigating inbreeding in a free-ranging, captive population of an Australian marsupial|
SR Mulvena, JC Pierson, KA Farquharson, EA McLennan, CJ Hogg, ...
Conservation Genetics 21 (4), 665-675, 2020
|Genetic analysis of scat samples to inform conservation of the Tasmanian devil|
CE Grueber, R Chong, RM Gooley, EA McLennan, VR Barrs, K Belov, ...
Australian Zoologist 40 (3), 492-504, 2020
|Restoring faith in conservation action: Maintaining wild genetic diversity through the Tasmanian devil insurance program|
KA Farquharson, EA McLennan, Y Cheng, L Alexander, S Fox, AV Lee, ...
Iscience 25 (7), 104474, 2022
|DNA metabarcoding reveals a broad dietary range for Tasmanian devils introduced to a naive ecosystem|
EA McLennan, P Wise, AV Lee, CE Grueber, K Belov, CJ Hogg
Ecology and Evolution 12 (5), e8936, 2022
|How much is enough? Sampling intensity influences estimates of reproductive variance in an introduced population|
EA McLennan, K Belov, CJ Hogg, CE Grueber
Ecological Applications 32 (1), e02462, 2022
|To move or not to move? A genetic toolkit for monitoring assisted colonisations|
University of Sydney, 2020
|Genetic tools: maintaining genetic diversity in the Tasmanian devil metapopulation|
CE Grueber, EA McLennan
Saving the Tasmanian Devil: Recovery through Science-based Management, 55, 2019