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L. Laikre, F. Allendorf, Laurel Aroner, C. Baker, D. Gregovich, M. Hansen, J. Jackson, K. Kendall, K. McKelvey, M. Neel, I. Olivieri, N. Ryman, M. Schwartz, R. Bull, Jeffrey Stetz, D. Tallmon, B. Taylor, C. Vojta, D. Waller, R. Waples (2010)
Neglect of Genetic Diversity in Implementation of the Convention on Biological DiversityConservation Biology, 24
D. Hayes, R. Taylor (1972)
Guidelines for managementBusiness Horizons, 15
R. Cristescu, Valma Cahill, W. Sherwin, K. Handasyde, K. Carlyon, D. Whisson, C. Herbert, B. Carlsson, A. Wilton, D. Cooper (2009)
Inbreeding and testicular abnormalities in a bottlenecked population of koalas (Phascolarctos cinereus)Wildlife Research, 36
Biodiversity Survey and Research Division, National Parks and Wildlife Service
C. Sansaloni, C. Petroli, D. Jaccoud, J. Carling, F. Detering, D. Grattapaglia, A. Kilian (2011)
Diversity Arrays Technology (DArT) and next-generation sequencing combined: genome-wide, high throughput, highly informative genotyping for molecular breeding of EucalyptusBMC Proceedings, 5
(1999)
Methods used in the census of the Lord
S. Garnett, D. Franklin (2014)
Climate Change Adaptation Plan for Australian Birds
L. Tracy, I. Jamieson (2011)
Historic DNA reveals contemporary population structure results from anthropogenic effects, not pre-fragmentation patternsConservation Genetics, 12
D. Hiscox (2005)
Guidelines for the management of the Lord Howe Island Woodhen (Gallirallus sylvestris) in Settlement Areas on Lord Howe Island
D. Chessel, A. Dufour, J. Thioulouse (2004)
The ade4 package - I : One-table methods, 4
G. Wilson, B. Rannala (2003)
Bayesian inference of recent migration rates using multilocus genotypes.Genetics, 163 3
(2010)
Strategic plan for biodiversity 2011–2020, including Aichi biodiversity targets
K. Harrisson, M. Magrath, J. Yen, A. Pavlova, Neil Murray, Bruce Quin, P. Menkhorst, K. Miller, Karina Cartwright, P. Sunnucks (2019)
Lifetime Fitness Costs of Inbreeding and Being Inbred in a Critically Endangered BirdCurrent Biology, 29
A. Kilian, P. Wenzl, E. Huttner, J. Carling, L. Xia, H. Blois, Vanessa Caig, K. Heller-Uszyńska, D. Jaccoud, C. Hopper, Malgorzata Aschenbrenner-Kilian, Margaret Evers, Kaiman Peng, C. Cayla, P. Hok, Grzegorz Uszynski (2012)
Diversity arrays technology: a generic genome profiling technology on open platforms.Methods in molecular biology, 888
J. Pritchard, Matthew Stephens, P. Donnelly (2000)
Inference of population structure using multilocus genotype data.Genetics, 155 2
T. Jombart (2008)
adegenet: a R package for the multivariate analysis of genetic markersBioinformatics, 24 11
K. Hindwood (1940)
The Birds of Lord Howe IslandEmu, 40
B. Miller, K. Mullette (1985)
Rehabilitation of an endangered Australian bird: The Lord Howe Island woodhen Tricholimnas sylvestris (Sclater)Biological Conservation, 34
B. Weir, C. Cockerham (1984)
ESTIMATING F‐STATISTICS FOR THE ANALYSIS OF POPULATION STRUCTUREEvolution, 38
I. Mcdougall, B. Embleton, D. Stone (1981)
Origin and evolution of Lord Howe Island, Southwest Pacific OceanAustralian Journal of Earth Sciences, 28
R. Holderegger, M. Giulio (2010)
The genetic effects of roads: A review of empirical evidenceBasic and Applied Ecology, 11
G. Olah, Annabel Smith, G. Asner, D. Brightsmith, R. Heinsohn, R. Peakall (2017)
Exploring dispersal barriers using landscape genetic resistance modelling in scarlet macaws of the Peruvian AmazonLandscape Ecology, 32
N. Preece, S. Abell, Laura Grogan, A. Wayne, L. Skerratt, P. Oosterzee, A. Shima, P. Daszak, H. Field, A. Reiss, L. Berger, T. Rymer, D. Fisher, M. Lawes, Susan Laurance, Hamish McCallum, C. Esson, J. Epstein (2017)
A guide for ecologists: Detecting the role of disease in faunal declines and managing population recoveryBiological Conservation, 214
B. Miller, K.J. Mullette (1985)
Rehabilitation of an endangered Australian bird: Lord Howe woodhen Tricholimnas sylvestris, 34
A. Weeks, C. Sgrò, A. Young, R. Frankham, N. Mitchell, Kim Miller, M. Byrne, D. Coates, M. Eldridge, P. Sunnucks, M. Breed, E. James, A. Hoffmann (2011)
Assessing the benefits and risks of translocations in changing environments: a genetic perspectiveEvolutionary Applications, 4
R. Frankham, J.D. Ballou, K. Ralls, M.D.B. Eldridge, M.R. Dudash, C.B. Fenster, R.C. Lacy, P. Sunnucks (2017)
Genetic management of fragmented animal and plant populations
L. Excoffier, H. Lischer (2010)
Arlequin suite ver 3.5: a new series of programs to perform population genetics analyses under Linux and WindowsMolecular Ecology Resources, 10
J. Pierson, D. Coates, J. Oostermeijer, S. Beissinger, Jason Bragg, P. Sunnucks, N. Schumaker, A. Young (2016)
Genetic factors in threatened species recovery plans on three continentsFrontiers in Ecology and the Environment, 14
R. DeSalle, G. Amato (2004)
The expansion of conservation geneticsNature Reviews Genetics, 5
A. Adamack, B. Gruber (2014)
PopGenReport: simplifying basic population genetic analyses in RMethods in Ecology and Evolution, 5
J. Black, F. Duvall, H. Hoshide, J. Medeiros, C. Hodges, Nelson Santos, T. Telfer (1991)
The current status of the Hawaiian Goose Branta sandvicensis and its recovery programme, 42
D. Portelli, N. Carlile (2020)
Preventing the Extinction of the Lord Howe Woodhen (Hypotaenidia sylvestris) through Predator Eradication and Population AugmentationOrnithological Science, 18
J. Mcneely, K. Miller, W. Reid, R. Mittermeier, T. Werner (1990)
Conserving the World's Biological Diversity
(2021)
ª 2020 The Zoological Society of London genetic and genomic approaches
J. Waters, C. Fraser, G. Hewitt (2013)
Founder takes all: density-dependent processes structure biodiversity.Trends in ecology & evolution, 28 2
R. Frankham, J. Ballou, K. Ralls, M. Eldridge, Michele Dudash, C. Fenster, R. Lacy, P. Sunnucks (2017)
A Practical Guide for Genetic Management of Fragmented Animal and Plant Populations
I. Medina, G. Cooke, T. Ord (2018)
Walk, swim or fly? Locomotor mode predicts genetic differentiation in vertebrates.Ecology letters, 21 5
Shawn Billerman, J. Walsh (2019)
Historical DNA as a tool to address key questions in avian biology and evolution: A review of methods, challenges, applications, and future directionsMolecular Ecology Resources, 19
P. Brussard, Lianne Ball, Graeme Caughley, Anne Gunn (1995)
Conservation Biology in Theory and PracticeJournal of Animal Ecology, 65
C. Cook, C. Sgrò (2017)
Aligning science and policy to achieve evolutionarily enlightened conservationConservation Biology, 31
J. Kinnear, M. Onus, R. Bromilow (1988)
Fox control and rock-wallaby population dynamicsWildlife Research, 15
(2018)
Characterizing rangewide divergence in an alpine
J. Bertrand, Y. Bourgeois, B. Delahaie, T. Duval, R. García-Jiménez, J. Cornuault, P. Heeb, B. Milá, B. Pujol, C. Thébaud (2013)
Extremely reduced dispersal and gene flow in an island birdHeredity, 112
H. Quastler (1964)
GENETIC EFFECTS.New York state journal of medicine, 64
David Butler, D. Merton (1992)
The black robin : saving the world's most endangered bird
(2017)
Guidelines for using the IUCN RedList categories and criteria
J. Melville, Margaret Haines, Katja Boysen, L. Hodkinson, A. Kilian, Katie Date, D. Potvin, K. Parris (2017)
Identifying hybridization and admixture using SNPs: application of the DArTseq platform in phylogeographic research on vertebratesRoyal Society Open Science, 4
Gili Greenbaum, A. Templeton, Y. Zarmi, S. Bar-David (2014)
Allelic Richness following Population Founding Events – A Stochastic Modeling Framework Incorporating Gene Flow and Genetic DriftPLoS ONE, 9
R. Harden (1999)
Methods used in the census of the Lord Howe Island Woodhen population from 1985 to 1998
K. Langin, Cameron Aldridge, J. Fike, R. Cornman, K. Martin, Gregory Wann, A. Seglund, M. Schroeder, C. Braun, David Benson, B. Fedy, Jessica Young, Scott Wilson, D. Wolfe, S. Oyler‐McCance (2018)
Characterizing range-wide divergence in an alpine-endemic bird: a comparison of genetic and genomic approachesConservation Genetics, 19
(1981)
Discriminant functions for sexing woodhens
(2010)
Guidelines for using the IUCN RedList categories and criteria. Version 13. Prepared by the Standards and Petitions Subcommittee
P. Meirmans (2014)
Nonconvergence in Bayesian estimation of migration ratesMolecular Ecology Resources, 14
V. Cruz, A. Kilian, D. Dierig (2013)
Development of DArT Marker Platforms and Genetic Diversity Assessment of the U.S. Collection of the New Oilseed Crop Lesquerella and Related SpeciesPLoS ONE, 8
(2013)
Woodhen
E. Kennedy, C. Grueber, R. Duncan, I. Jamieson (2014)
SEVERE INBREEDING DEPRESSION AND NO EVIDENCE OF PURGING IN AN EXTREMELY INBRED WILD SPECIES—THE CHATHAM ISLAND BLACK ROBINEvolution, 68
Carl Jones, W. Heck, Richard Lewis, Y. Mungroo, G. Slade, T. Cade (2008)
The restoration of the Mauritius Kestrel Falco punctatus populationIbis, 137
K. Ralls, J. Ballou, Michele Dudash, M. Eldridge, C. Fenster, R. Lacy, P. Sunnucks, R. Frankham (2018)
Call for a Paradigm Shift in the Genetic Management of Fragmented PopulationsConservation Letters, 11
R. Frankham, J. Ballou, D. Briscoe, Karina McInnes (2002)
Introduction to Conservation Genetics: Preface
A. Weeks, J. Stoklosa, A. Hoffmann (2016)
Conservation of genetic uniqueness of populations may increase extinction likelihood of endangered species: the case of Australian mammalsFrontiers in Zoology, 13
B. Gruber, P. Unmack, O. Berry, A. Georges (2018)
dartr: An r package to facilitate analysis of SNP data generated from reduced representation genome sequencingMolecular Ecology Resources, 18
Claire Raisin, A. Frantz, S. Kundu, A. Greenwood, Carl Jones, Nicolas Zuel, J. Groombridge (2012)
Genetic consequences of intensive conservation management for the Mauritius parakeetConservation Genetics, 13
J. Goudet (2005)
HIERFSTAT , a package for R to compute and test hierarchical F -statisticsMolecular Ecology Notes, 5
P.J. Fullagar, H.J.S. Disney (1975)
The birds of Lord Howe Island: a report on the rare and endangered species, 12
H. Recher (2014)
The Woodhen: A Flightless Island Bird Defying Extinction.Pacific Conservation Biology, 20
A. Kilian, P. Wenzl, E. Huttner, J. Carling, L. Xia, H. Blois, V. Caig, K. Heller‐Uszynska, D. Jaccoud, C. Hopper, M. Aschenbrenner‐Kilian, M. Evers, K. Peng, C. Cayla, P. Hok, G. Uszynski (2012)
Data production and analysis in population genomics: methods and protocols
(2021)
Samples details of all birds included in analysis
D. Chessel, A. Dufour, J. Thioulouse (2004)
The ade 4 package-I : One-table methods by
R. Peakall, P. Smouse (2012)
GenAlEx 6.5: genetic analysis in Excel. Population genetic software for teaching and research—an updateBioinformatics, 28
D. Moulton, M. Weller (1984)
Biology and Conservation of the Laysan Duck (Anas laysanensis)The Condor, 86
L. Lim (2001)
Introduction to Conservation GeneticsPacific Conservation Biology, 7
Maintenance of genetic diversity within species is a key objective of biodiversity conservation, and small, isolated populations are particularly vulnerable to genetic erosion. Conservation management actions such as predator removal, captive breeding and reintroduction can facilitate numerical recovery of a population, but species often remain at risk from depleted genetic diversity and inbreeding. We investigated dispersal, genetic bottlenecks and genetic population structuring in the island‐dwelling Lord Howe woodhen, a species that came perilously close to extinction in the 1970s. Analyses of mark‐resighting records and variable genetic markers (single‐nucleotide polymorphisms) collected from the contemporary population and 100‐year‐old museum specimens found strong evidence of restricted dispersal at fine spatial scales, with both the contemporary and historic populations exhibiting strong population structuring between mountain and lowland/slopes sites. Additionally, genetic comparison of the contemporary population and historic specimens demonstrated a decline in genetic diversity over the past century. Specifically for the Lord Howe woodhen, we recommend ongoing genetic monitoring and translocations to increase genetic diversity within the re‐established lowland subpopulation. More generally, our results demonstrate how pronounced genetic erosion can arise in species subject to human persecution and predation by introduced predators, and how genetic fragmentation of natural populations can be present at fine geographical scales (less than hundreds of metres). Moreover, without prior information about genetic structure and subsequent genetic monitoring, conservation management can have unexpected negative consequences for the genetic health of populations. Therefore, genetic monitoring and management early in the recovery of populations is desirable to maximize their adaptive potential.
Animal Conservation – Wiley
Published: Feb 1, 2021
Keywords: ; ; ; ; ; ; ;
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