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G. Glass, S. Klein, D. Norris, L. Gardner (2016)
Multiple Paternity in Urban Norway Rats: Extended Ranging for Mates.Vector borne and zoonotic diseases, 16 5
P. Stockley (1999)
Sperm Competition and Sexual SelectionHeredity, 82
K. Phillips, T. Jorgensen, K. Jolliffe, S. Jolliffe, J. Henwood, D. Richardson (2013)
Reconstructing paternal genotypes to infer patterns of sperm storage and sexual selection in the hawksbill turtleMolecular Ecology, 22
C. Friesen, R. Mason, S. Arnold, Suzanne Estes (2014)
Patterns of sperm use in two populations of Red-sided Garter Snake (Thamnophis sirtalis parietalis) with long-term female sperm storageCanadian Journal of Zoology, 92
V. Lukoschek, J. Avise (2011)
Genetic monandry in 6 viviparous species of true sea snakes.The Journal of heredity, 102 3
K. Kissner, P. Weatherhead, H. Gibbs (2005)
Experimental assessment of ecological and phenotypic factors affecting male mating success and polyandry in northern watersnakes, Nerodia sipedonBehavioral Ecology and Sociobiology, 59
F. Rousset (2008)
genepop’007: a complete re‐implementation of the genepop software for Windows and LinuxMolecular Ecology Resources, 8
T. Madsen, R. Shine, J. Loman, T. Håkansson (1992)
Why do female adders copulate so frequently?Nature, 355
D. Warner, K. Woo, Daniel Dyk, C. Evans, R. Shine (2010)
Egg incubation temperature affects male reproductive success but not display behaviors in lizardsBehavioral Ecology and Sociobiology, 64
J. Stapley, C. Hayes, J. Keogh (2003)
Population genetic differentiation and multiple paternity determined by novel microsatellite markers from the Mountain Log Skink (Pseudemoia entrecasteauxii )Molecular Ecology Notes, 3
Joshua York, T. Baird (2015)
Testing the adaptive significance of sex-specific mating tactics in collared lizards (Crotaphytus collaris)Biological Journal of The Linnean Society, 115
J. Moore, C. Daugherty, S. Godfrey, N. Nelson (2009)
Seasonal monogamy and multiple paternity in a wild population of a territorial reptile (tuatara)Biological Journal of The Linnean Society, 98
(2017)
User’s Guide for Software COLONY.
Harold, K., Voris, Daryl, R., Karns, Kevin, A., Feldheim, B. Kechavarzi, Megan Rinehart (2008)
MULTIPLE PATERNITY IN THE ORIENTAL-AUSTRALIAN REAR-FANGED WATERSNAKES ( HOMALOPSIDAE )
R. King, W. Milstead, H. Gibbs, M. Prosser, G. Burghardt, G. McCracken (2001)
Application of microsatellite DNA markers to discriminate between maternal and genetic effects on scalation and behavior in multiply-sired garter snake littersCanadian Journal of Zoology, 79
T. Madsen, B. Ujvari, M. Olsson, R. Shine (2005)
Paternal alleles enhance female reproductive success in tropical pythonsMolecular Ecology, 14
(2015)
spiny-tailed iguana: conservation genetic concerns for female-biased hunting. Conservation Genetics
Lm Smith, L. Burgoyne (2004)
Collecting, archiving and processing DNA from wildlife samples using FTA® databasing paperBMC Ecology, 4
M. Olsson, Mo Healey, E. Wapstra, T. Schwartz, N. Lebas, T. Uller (2007)
Mating system variation and morph fluctuations in a polymorphic lizardMolecular Ecology, 16
Steve McAlpin, P. Duckett, A. Stow (2011)
Lizards Cooperatively Tunnel to Construct a Long-Term Home for Family MembersPLoS ONE, 6
S. Hofmann, K. Henle (2006)
Male Reproductive Success and Intrasexual Selection in the Common Lizard Determined by DNA-microsatellites, 40
M. Prosser, H. Gibbs, Gregory Brown (2002)
Genetic analysis of the mating system and opportunity for sexual selection in northern water snakes (Nerodia sipedon)Behavioral Ecology, 13
C. Friesen, R. Mason, S. Arnold, Suzanne Estes (2013)
Patterns of sperm use in two populations of Red-sided Garter Snake ( Thamnophis sirtalis parietalis ) with long-term female sperm storage
B. Meister, S. Ursenbacher, B. Baur (2012)
Frequency of multiple paternity in the grass snake (Natrix natrix)Amphibia-reptilia, 33
J. Schofield, M. Gardner, A. Fenner, C. Bull (2014)
Promiscuous mating in the endangered Australian lizard Tiliqua adelaidensis: a potential windfall for its conservationConservation Genetics, 15
A. Salvador, José Díaz, J. Veiga, P. Bloor, Richard Brown (2007)
Correlates of reproductive success in male lizards of the alpine species Iberolacerta cyreniBehavioral Ecology, 19
A. Natoli, K. Phillips, D. Richardson, R. Jabado (2017)
Low genetic diversity after a bottleneck in a population of a critically endangered migratory marine turtle speciesJournal of Experimental Marine Biology and Ecology, 491
R. King, W. Grayburn, M. Duvall, T. Wusterbarth, G. Burghardt (2010)
Phylogenetically widespread multiple paternity in New World natricine snakesHerpetological Conservation and Biology, 5
Katrina Rankin, C. McLean, D. Kemp, D. Stuart-Fox (2016)
The genetic basis of discrete and quantitative colour variation in the polymorphic lizard, Ctenophorus decresiiBMC Evolutionary Biology, 16
E. Todd, D. Blair, C. Limpus, D. Limpus, D. Jerry (2013)
High incidence of multiple paternity in an Australian snapping turtle (Elseya albagula)Australian Journal of Zoology, 60
S. Dubey, M. Chevalley, R. Shine (2011)
Sexual dimorphism and sexual selection in a montane scincid lizard (Eulamprus leuraensis)Austral Ecology, 36
T. Uller, T. Schwartz, Troy Koglin, M. Olsson (2013)
Sperm storage and sperm competition across ovarian cycles in the dragon lizard, Ctenophorus fordi.Journal of experimental zoology. Part A, Ecological genetics and physiology, 319 7
M. Olsson, T. Schwartz, T. Uller, Mo Healey (2007)
Sons are made from old stores: sperm storage effects on sex ratio in a lizardBiology Letters, 3
Jinliang Wang (2004)
Sibship reconstruction from genetic data with typing errors.Genetics, 166 4
Suzanne Morrison, J. Keogh, Ian Scott (2002)
Molecular determination of paternity in a natural population of the multiply mating polygynous lizard Eulamprus heatwoleiMolecular Ecology, 11
Owen Jones, Jinliang Wang (2010)
COLONY: a program for parentage and sibship inference from multilocus genotype dataMolecular Ecology Resources, 10
(2011)
2011).Geneticmonandry in 6 viviparous
A. Gullberg, M. Olsson, H. Tegelström (1997)
Male mating success, reproductive success and multiple paternity in a natural population of sand lizards: behavioural and molecular genetics dataMolecular Ecology, 6
L. Nunney (1993)
THE INFLUENCE OF MATING SYSTEM AND OVERLAPPING GENERATIONS ON EFFECTIVE POPULATION SIZEEvolution, 47
Michael Gardner, C. Bull, Steven Cooper (2002)
High levels of genetic monogamy in the group‐living Australian lizard Egernia stokesiiMolecular Ecology, 11
C. Frère, Dani Chandrasoma, M. Whiting (2015)
Polyandry in dragon lizards: inbred paternal genotypes sire fewer offspringEcology and Evolution, 5
K. Tolley, L. Chauke, J. Jackson, K. Feldheim (2014)
Multiple paternity and sperm storage in the Cape Dwarf Chameleon (Bradypodion pumilum)African Journal of Herpetology, 63
G. Blouin‐Demers, H. Gibbs, P. Weatherhead (2005)
Genetic evidence for sexual selection in black ratsnakes, Elaphe obsoletaAnimal Behaviour, 69
M. Barbosa, S. Connolly, Mizue Hisano, M. Dornelas, A. Magurran (2012)
Fitness consequences of female multiple mating: A direct test of indirect benefitsBMC Evolutionary Biology, 12
D. Hosken, P. Stockley (2005)
Sexual conflictCurrent Biology, 15
Allison Abell (1997)
Estimating paternity with spatial behaviour and DNA fingerprinting in the striped plateau lizard, Sceloporus virgatus (Phrynosomatidae)Behavioral Ecology and Sociobiology, 41
J. Schaik, Gerald Kerth (2016)
Host social organization and mating system shape parasite transmission opportunities in three European bat speciesParasitology Research, 116
D. Noble, J. Keogh, M. Whiting (2013)
Multiple mating in a lizard increases fecundity but provides no evidence for genetic benefitsBehavioral Ecology, 24
Joël White, M. Richard, M. Massot, S. Meylan (2011)
Cloacal Bacterial Diversity Increases with Multiple Mates: Evidence of Sexual Transmission in Female Common LizardsPLoS ONE, 6
M. Olsson, T. Schwartz, T. Uller, Mo Healey (2009)
Effects of sperm storage and male colour on probability of paternity in a polychromatic lizardAnimal Behaviour, 77
Jinliang Wang (2007)
Triadic IBD coefficients and applications to estimating pairwise relatedness.Genetical research, 89 3
C. McLean, A. Moussalli, D. Stuart-Fox (2010)
The predation cost of female resistanceBehavioral Ecology, 21
C. Bull, S. Cooper, Ben Baghurst (1998)
Social monogamy and extra-pair fertilization in an Australian lizard, Tiliqua rugosaBehavioral Ecology and Sociobiology, 44
J. Pemberton, J. Slate, D. Bancroft, J. Barrett (1995)
Nonamplifying alleles at microsatellite loci: a caution for parentage and population studiesMolecular Ecology, 4
T. Schwartz, D. Warner, L. Beheregaray, M. Olsson (2006)
Microsatellite loci for Australian agamid lizards: Primer noteMolecular Ecology Notes, 7
N. FitzSimmons (1998)
Single paternity of clutches and sperm storage in the promiscuous green turtle (Chelonia mydas)Molecular Ecology, 7
R. Clark, G. Schuett, R. Repp, Melissa Amarello, Charles Smith, H. Herrmann (2014)
Mating Systems, Reproductive Success, and Sexual Selection in Secretive Species: A Case Study of the Western Diamond-Backed Rattlesnake, Crotalus atroxPLoS ONE, 9
J. Keogh, K. Umbers, Eleanor Wilson, Jessica Stapley, Jessica Stapley, M. Whiting (2013)
Influence of alternate reproductive tactics and pre- and postcopulatory sexual selection on paternity and offspring performance in a lizardBehavioral Ecology and Sociobiology, 67
T. Uller, M. Olsson (2008)
Multiple paternity in reptiles: patterns and processesMolecular Ecology, 17
G. While, T. Uller, E. Wapstra (2009)
Within-population variation in social strategies characterize the social and mating system of an Australian lizard, Egernia whitiiAustral Ecology, 34
C. Lind, B. Flack, D. Rhoads, S. Beaupre (2016)
The Mating System and Reproductive Life History of Female Timber Rattlesnakes in Northwestern ArkansasCopeia, 104
J. Keogh, D. Noble, Eleanor Wilson, M. Whiting (2012)
Activity Predicts Male Reproductive Success in a Polygynous LizardPLoS ONE, 7
E. Simonov, M. Wink (2011)
Cross-amplification of microsatellite loci reveals multiple paternity in Halys pit viper (Gloydius halys)Acta Herpetologica, 6
Michael Jensen, F. Abreu-Grobois, Jane Frydenberg, Volker Loeschcke (2006)
Microsatellites provide insight into contrasting mating patterns in arribada vs. non‐arribada olive ridley sea turtle rookeriesMolecular Ecology, 15
M. Yewers (2016)
The function and evolution of colour polymorphism in the tawny dragon lizard
C. Eizaguirre, D. Laloi, M. Massot, M. Richard, P. Fédérici, J. Clobert (2007)
Condition dependence of reproductive strategy and the benefits of polyandry in a viviparous lizardProceedings of the Royal Society B: Biological Sciences, 274
G. McCracken, G. Burghardt, S. Houts (1999)
Microsatellite markers and multiple paternity in the garter snake Thamnophis sirtalisMolecular Ecology, 8
A. Oppliger, L. Degen, C. Bouteiller-Reuter, H. John-Alder (2007)
Promiscuity and high level of multiple paternity in common wall lizards (Podarcis muralis): data from microsatellite markersAmphibia-reptilia, 28
(2010)
oriental-australian rear-fanged watersnakes (homalopsidae). Herpetological Conservation and Biology
S. Kalinowski, M. Taper, T. Marshall (2007)
Revising how the computer program cervus accommodates genotyping error increases success in paternity assignmentMolecular Ecology, 16
A. Lewis, G. Tirado, J. Sepulveda (2000)
Body Size and Paternity in a Teiid Lizard (Ameiva exsul)Journal of Herpetology, 34
K. Zamudio, B. Sinervo (2000)
Polygyny, mate-guarding, and posthumous fertilization as alternative male mating strategies.Proceedings of the National Academy of Sciences of the United States of America, 97 26
S. Ursenbacher, Cecile Erny, L. Fumagalli (2009)
Male reproductive success and multiple paternity in wild, low-density populations of the adder (Vipera berus).The Journal of heredity, 100 3
M. Whitlock, R. Bürger (2004)
Fixation of new mutations in small populations
T. Uller (2010)
Evolution of primary sexual characters in reptiles
L. Vitt, J. Congdon (1978)
Body Shape, Reproductive Effort, and Relative Clutch Mass in Lizards: Resolution of a ParadoxThe American Naturalist, 112
Catriona McLean, Catriona McLean, Devi Stuart-Fox, A. Moussalli (2014)
Phylogeographic structure, demographic history and morph composition in a colour polymorphic lizardJournal of Evolutionary Biology, 27
J. Stapley, J. Keogh (2006)
Experimental and molecular evidence that body size and ventral colour interact to influence male reproductive success in a lizardEthology Ecology & Evolution, 18
A. Stow, P. Sunnucks (2004)
High mate and site fidelity in Cunningham's skinks (Egernia cunninghami) in natural and fragmented habitatMolecular Ecology, 13
N. Lebas (2001)
Microsatellite determination of male reproductive success in a natural population of the territorial ornate dragon lizard, Ctenophorus ornatusMolecular Ecology, 10
Rebecca Lange, B. Gruber, K. Henle, S. Sarre, M. Hoehn (2013)
Mating system and intrapatch mobility delay inbreeding in fragmented populations of a geckoBehavioral Ecology, 24
R. Lande (1995)
Mutation and ConservationConservation Biology, 9
T. Garner, K. Larsen (2005)
Multiple paternity in the western terrestrial garter snake, Thamnophis elegansCanadian Journal of Zoology, 83
Genetic mating systems described for squamate reptiles range from primarily monogamous to completely polygynandrous. The presence of female multiple mating is almost ubiquitous among squamates and even occurs, albeit at a low rate, in socially monogamous species. Here we examine the genetic mating system of the territorial tawny dragon lizard (Ctenophorus decresii). Paternity was assigned to captive-born hatchlings using eight microsatellite loci, revealing a 4% rate of multiple paternity. One-quarter of males sired more than one clutch, although multiple mating by males is likely underestimated. The rate of multiple paternity in C. decresii represents one of the lowest among squamates and may be a result of successful male territoriality. However, the observed low rate of multiple paternity does not eliminate the possibility of widespread female multiple mating due to the potential for sperm storage and sperm competition. We conclude that the tawny dragon lizard employs a predominantly polygynous genetic mating system.
Australian Journal of Zoology – CSIRO Publishing
Published: Apr 30, 2018
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