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M. Fisher, T. Garner (2007)
The relationship between the emergence of Batrachochytrium dendrobatidis, the international trade in amphibians and introduced amphibian speciesFungal Biology Reviews, 21
Chiszar Chiszar, Smith Smith, Radcliffe Radcliffe (1993)
Zoo and laboratory experiments on the behavior of snakes: assessments of competence in captive‐raised animalsAmerican Zoologist, 33
V. Lance, R. Elsey, G. Butterstein, P. Trosclair (2004)
Rapid suppression of testosterone secretion after capture in male American alligators (Alligator mississippiensis).General and comparative endocrinology, 135 2
C. Gascon, J. Collins, Robin Moore, D. Church, J. McKay, J. Mendelson (2007)
Amphibian Conservation Action Plan
K. Dickersin, Y. Min (1993)
Publication Bias: The Problem That Won't Go AwayAnnals of the New York Academy of Sciences, 703
R. Semlitsch (2002)
Critical Elements for Biologically Based Recovery Plans of Aquatic‐Breeding AmphibiansConservation Biology, 16
H. Butler, B. Malone, N. Clemann (2005)
The effects of translocation on the spatial ecology of tiger snakes (Notechis scutatus) in a suburban landscape.Wildlife Research, 32
A. Cunningham (1996)
Disease Risks of Wildlife TranslocationsConservation Biology, 10
F. Kraaijeveld-Smit, R. Griffiths, Robin Moore, T. Beebee (2006)
Captive breeding and the fitness of reintroduced species: a test of the responses to predators in a threatened amphibianJournal of Applied Ecology, 43
E. Coddington, A. Cree (1995)
Effect of acute captivity stress on plasma concentrations of corticosterone and sex steroids in female whistling frogs, Litoria ewingi.General and comparative endocrinology, 100 1
Q. Bloxam, S. Tonge (1995)
Amphibians: suitable candidates for breeding-release programmesBiodiversity & Conservation, 4
J. Scargle (2000)
Publication Bias: The “File-Drawer” Problem in Scientific Inference
H. Butler, B. Malone, N. Clemann (2005)
Activity patterns and habitat preferences of translocated and resident tiger snakes (Notechis scutatus) in a suburban landscapeWildlife Research, 32
P. Seddon, P. Soorae, F. Launay (2005)
Taxonomic bias in reintroduction projectsAnimal Conservation, 8
A. Alberts (2007)
Behavioral considerations of headstarting as a conservation strategy for endangered Caribbean rock iguanasApplied Animal Behaviour Science, 102
P. Edgar, R. Griffiths, J. Foster (2005)
Evaluation of translocation as a tool for mitigating development threats to great crested newts (Triturus cristatus) in England, 1990–2001Biological Conservation, 122
P. Seddon (1999)
Persistence without intervention: assessing success in wildlife reintroductions.Trends in ecology & evolution, 14 12
P. Trenham, D. Marsh (2002)
Amphibian Translocation Programs: Reply to Seigel and DoddConservation Biology, 16
P. Stephens, W. Sutherland (1999)
Consequences of the Allee effect for behaviour, ecology and conservation.Trends in ecology & evolution, 14 10
(2004)
Species assessment for Wyoming toad ( Bufo baxteri ) in Wyoming
C. Wolf, B. Griffith, C. Reed, S. Temple (1996)
Avian and Mammalian Translocations: Update and Reanalysis of 1987 Survey DataConservation Biology, 10
C. Wolf, Theodore Garland, Brad Griffith
Predictors of Avian and Mammalian Translocation Success: Reanalysis with Phylogenetically Independent Contrasts
R. Platenberg, R. Griffiths (1999)
Translocation of slow-worms (Anguis fragilis) as a mitigation strategy: a case study from south-east EnglandBiological Conservation, 90
J. Fischer, D. Lindenmayer (2000)
An assessment of the published results of animal relocationsBiological Conservation, 96
Joanne Connolly, A. Cree (2008)
Risks of a late start to captive management for conservation: Phenotypic differences between wild and captive individuals of a viviparous endangered skink (Oligosoma otagense)Biological Conservation, 141
(1987)
IUCN Position statement on the translocation of living organisms: introductions, re-introductions, and re-stocking
Fellers Fellers, Bradford Bradford, Pratt Pratt, Wood Wood (2007)
Demise of repatriated populations of mountain yellow‐legged frogs ( Rana muscosa ) in the Sierra Nevada of CaliforniaHerpetological Conservation and Biology, 2
A. Cooke, R. Oldham (1995)
01. Establishment of populations of the common frog, Rana temporaria , and common toad, Bufo bufo , in a newly created reserve following translocationHerpetological Journal, 5
K. Lips, Forrest Brem, Roberto Brenes, J. Reeve, R. Alford, J. Voyles, C. Carey, Lauren Livo, A. Pessier, J. Collins (2006)
Emerging infectious disease and the loss of biodiversity in a Neotropical amphibian community.Proceedings of the National Academy of Sciences of the United States of America, 103 9
B. Sullivan, Matthew Kwiatkowski, G. Schuett (2004)
Translocation of urban Gila Monsters: a problematic conservation toolBiological Conservation, 117
(1997)
Evaluation of a rattlesnake relocation program in the Tucson
Andy, T. D., Ocher, Avid, Letcher, Hillip, B. J., Ishop
A MODELLING APPROACH TO DETERMINE A TRANSLOCATION SCENARIO FOR THE ENDANGERED NEW ZEALAND FROG LEIOPELMA HAMILTONI
B. Griffith, J. Scott, J. Carpenter, C. Reed (1989)
Translocation as a Species Conservation Tool: Status and StrategyScience, 245
G. Rathbun, J. Schneider (2001)
Translocation of California red-legged frogs (Rana aurora draytonii)Wildlife Society Bulletin, 29
J. Stamps, R. Swaisgood (2007)
Someplace like home: Experience, habitat selection and conservation biologyApplied Animal Behaviour Science, 102
B. Bell, S. Pledger, Paulette Dewhurst (2004)
The fate of a population of the endemic frog Leiopelma pakeka (Anura: Leiopelmatidae) translocated to restored habitat on Maud Island, New ZealandNew Zealand Journal of Zoology, 31
D. Gill (1979)
DENSITY DEPENDENCE AND HOMING BEHAVIOR IN ADULT RED-SPOTTED NEWTS NOTOPHTHALMUS VIRIDESCENS (RAFINESQUE)'Ecology, 60
(2008)
Testing the potential and limitations of herpetofaunal community restoration in an urban landscape at Gateway National Recreation Area,
D. Chiszar, Hobart Smith, C. Radcliffe (1993)
Zoo and Laboratory Experiments on the Behavior of Snakes: Assessments of Competence in Captive-Raised AnimalsIntegrative and Comparative Biology, 33
G. Fellers, D. Bradford, D. Pratt, L. Wood (2008)
Experimental Repatriation of Mountain Yellow-legged Frogs (Rana muscosa) in the Sierra Nevada of California
(1993)
Implications of infectious diseases for captive propagation and introduction programs of threatened/endangered reptiles
H. Reinert (1991)
Translocation as a conservation strategy for amphibians and reptiles : some comments, concerns, and observationsHerpetologica, 47
N. Nelson, S. Keall, Derek Brown, C. Daugherty (2002)
Establishing a New Wild Population of Tuatara (Sphenodon guntheri)Conservation Biology, 16
A. Haskell, T. Graham, C. Griffin, J. Hestbeck (1996)
Size related survival of headstarted redbelly turtles (Pseudemys rubriventris) in MassachusettsJournal of Herpetology, 30
B. Walsh, P. Whitehead (1993)
Problem crocodiles, Crocodylus porosus, at Nhulunbuy, Northern Territory: an assessment of relocation as a mangaement strategyWildlife Research, 20
Amphibian and Reptile Translocations
M. Muñoz, J. Thorbjarnarson (2000)
Movement of Captive-released Orinoco Crocodiles (Crocodylus intermedius) in the Capanaparo River, VenezuelaJournal of Herpetology, 34
M. Alexander, J. Eischeid (2001)
Climate Variability in Regions of Amphibian DeclinesConservation Biology, 15
J. Gibbon, D. Scott, T. Ryan, A. Kurt, Buhlmann, T. Tuberville, Brian Metts, Judith Greene, Tony Mills, Sean Poppy, C. Winne, J. Gibbons, T. Tuberville, Brian Metts, Judith Greene (2000)
The Global Decline of Reptiles, Déjà Vu Amphibians, 50
(1998)
Guidelines for re-introductions.
Madsen Madsen, Shine Shine, Olsson Olsson, Wittzell Wittzell (1999)
Restoration of an inbred adder populationNature, 402
(2004)
Leiopelma hamiltoni (NCN.) homing
B. Wilson, A. Alberts, Karen Graham, R. Hudson, R. Bjorkland, Delano Lewis, N. Lung, Richard Nelson, N. Thompson, John Kunna, P. Vogel (2004)
16. Survival and Reproduction of Repatriated Jamaican Iguanas
C. Teixeira, C. Azevedo, M. Mendl, C. Cipreste, R. Young (2007)
Revisiting translocation and reintroduction programmes: the importance of considering stressAnimal Behaviour, 73
R. Burke (1991)
Relocations, repatriations, and translocations of amphibians and reptiles : taking a broader viewHerpetologica, 47
T. Tuberville, E. Clark, K. Buhlmann, J. Gibbons (2005)
Translocation as a conservation tool: site fidelity and movement of repatriated gopher tortoises (Gopherus polyphemus)Animal Conservation, 8
J. Linnell, R. Aanes, J. Swenson, J. Odden, Martin Smith (1997)
Translocation of carnivores as a method for managing problem animals: a reviewBiodiversity & Conservation, 6
Mandy Tocher, D. Fletcher, P. Bishop (2006)
A MODELLING APPROACH TO DETERMINE A TRANSLOCATION SCENARIO FOR THE ENDANGERED NEW ZEALAND FROG LEIOPELMA HAMILTONIHerpetological Journal, 16
S. Stuart, J. Chanson, N. Cox, B. Young, A. Rodrigues, Debra Fischman, R. Waller (2004)
Status and Trends of Amphibian Declines and Extinctions WorldwideScience, 306
C. Tyrrell, A. Cree (1998)
Relationships between corticosterone concentration and season, time of day and confinement in a wild reptile (tuatara, Sphenodon punctatus).General and comparative endocrinology, 110 2
F. Courchamp, T. Clutton‐Brock, B. Grenfell (1999)
Inverse density dependence and the Allee effect.Trends in ecology & evolution, 14 10
R. Seigel, C. Dodd (2002)
Translocations of Amphibians: Proven Management Method or Experimental Technique?Conservation Biology, 16
D. Armstrong, P. Seddon (2008)
Directions in reintroduction biology.Trends in ecology & evolution, 23 1
K. Lips (1998)
Decline of a Tropical Montane Amphibian FaunaConservation Biology, 12
Hare Hare, McNally McNally (1997)
Evaluation of a rattlesnake relocation program in the Tucson, Arizona, areaSonoran Herpetologist, 10
M. Moore, C. Thompson, C. Marler (1991)
Reciprocal changes in corticosterone and testosterone levels following acute and chronic handling stress in the tree lizard, Urosaurus ornatus.General and comparative endocrinology, 81 2
T. Madsen, R. Shine, M. Olsson, H. Wittzell (1999)
Conservation biology: Restoration of an inbred adder populationNature, 402
T. Mathies, T. Felix, V. Lance (2001)
Effects of trapping and subsequent short-term confinement stress on plasma corticosterone in the brown treesnake (Boiga irregularis) on Guam.General and comparative endocrinology, 124 1
J. Mendelson, K. Lips, Ron Gagliardo, G. Rabb, J. Collins, J. Diffendorfer, P. Daszak, R. D, K. Zippel, D. Lawson, K. Wright, S. Stuart, C. Gascon, H. Silva, P. Burrowes, R. Joglar, E. Marca, S. Lötters, L. Preez, C. Weldon, A. Hyatt, José Rodríguez-Mahecha, S. Hunt, H. Robertson, B. Lock, C. Raxworthy, D. Frost, R. Lacy, R. Alford, Jonathan Campbell, G. Parra-Olea, F. Bolaños, José Domingo, T. Halliday, J. Murphy, M. Wake, L. Coloma, S. Kuzmin, M. Price, K. Howell, M. Lau, R. Pethiyagoda, M. Boone, M. Lannoo, A. Blaustein, A. Dobson, R. Griffiths, M. Crump, D. Wake, E. Brodie (2006)
Confronting Amphibian Declines and ExtinctionsScience, 313
C. Dodd, R. Seigel (1991)
Relocation, repatriation, and translocation of amphibians and reptiles: Are they conservation strategies that work?Herpetologica, 47
Abstract: Translocations are important tools in the field of conservation. Despite increased use over the last few decades, the appropriateness of translocations for amphibians and reptiles has been debated widely over the past 20 years. To provide a comprehensive evaluation of the suitability of amphibians and reptiles for translocation, we reviewed the results of amphibian and reptile translocation projects published between 1991 and 2006. The success rate of amphibian and reptile translocations reported over this period was twice that reported in an earlier review in 1991. Success and failure rates were independent of the taxonomic class (Amphibia or Reptilia) released. Reptile translocations driven by human–wildlife conflict mitigation had a higher failure rate than those motivated by conservation, and more recent projects of reptile translocations had unknown outcomes. The outcomes of amphibian translocations were significantly related to the number of animals released, with projects releasing over 1000 individuals being most successful. The most common reported causes of translocation failure were homing and migration of introduced individuals out of release sites and poor habitat. The increased success of amphibian and reptile translocations reviewed in this study compared with the 1991 review is encouraging for future conservation projects. Nevertheless, more preparation, monitoring, reporting of results, and experimental testing of techniques and reintroduction questions need to occur to improve translocations of amphibians and reptiles as a whole.
Conservation Biology – Wiley
Published: Feb 1, 2009
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