Access the full text.
Sign up today, get DeepDyve free for 14 days.
D. Woodhams, L. Rollins‐Smith, C. Carey, L. Reinert, M. Tyler, R. Alford (2005)
Population trends associated with skin peptide defenses against chytridiomycosis in Australian frogsOecologia, 146
J. Conlon, D. Woodhams, H. Raza, L. Coquet, J. Leprince, T. Jouenne, H. Vaudry, L. Rollins‐Smith (2007)
Peptides with differential cytolytic activity from skin secretions of the lemur leaf frog Hylomantis lemur (Hylidae: Phyllomedusinae).Toxicon : official journal of the International Society on Toxinology, 50 4
R. Poulin, C. Combes (1999)
The concept of virulence: interpretations and implications.Parasitology today, 15 12
(2004)
Aspects of amphibian decline: the influence of stress on water balance
Jacob Tennessen, D. Woodhams, P. Chaurand, L. Reinert, D. Billheimer, Y. Shyr, R. Caprioli, M. Blouin, L. Rollins‐Smith (2009)
Variations in the expressed antimicrobial peptide repertoire of northern leopard frog (Rana pipiens) populations suggest intraspecies differences in resistance to pathogens.Developmental and comparative immunology, 33 12
M. Parris, E. Reese, Andrew Storfer (2006)
Antipredator behavior of chytridiomycosis-infected northern leopard frog (Rana pipiens) tadpolesCanadian Journal of Zoology, 84
Poulin Poulin, Combes Combes (1999)
The concept of virulenceinterpretations and implications – comment, 15
N. Resnick, W. Maloy, H. Guy, M. Zasloff (1991)
A novel endopeptidase from Xenopus that recognizes alpha-helical secondary structure.Cell, 66 3
Michael Tyler, David Stone, John Bowie (1992)
A novel method for the release and collection of dermal, glandular secretions from the skin of frogs.Journal of pharmacological and toxicological methods, 28 4
D. Woodhams, J. Voyles, K. Lips, C. Carey, L. Rollins‐Smith (2006)
PREDICTED DISEASE SUSCEPTIBILITY IN A PANAMANIAN AMPHIBIAN ASSEMBLAGE BASED ON SKIN PEPTIDE DEFENSES, 42
(2008)
An analysis of Amphibians on the 2008 IUCN Red List
Katsumi Matsuzaki, Yasuyuki Mitani, Ken’ya Akada, Osamu Murase, Shuji Yoneyama, Michael Zasloff, K. Miyajima (1998)
Mechanism of synergism between antimicrobial peptides magainin 2 and PGLa.Biochemistry, 37 43
(2009)
The Zoological Society of London 2008: top 100 evolutionarily distinct and globally endangered amphibians
(2004)
Archey's frog emergency translocation-DOCDM-28159. Unpublished report. Department of Conservation
V. Chinchar, J. Wang, G. Murti, C. Carey, L. Rollins‐Smith (2001)
Inactivation of frog virus 3 and channel catfish virus by esculentin-2P and ranatuerin-2P, two antimicrobial peptides isolated from frog skin.Virology, 288 2
Carey Carey, Cohen Cohen, Rollins‐Smith Rollins‐Smith (1999)
Amphibian declinesan immunological perspective, 23
Smith Smith, Hayasaka Hayasaka, Tyler Tyler, Williams Williams (2004)
Beta‐caryophyllene in the skin secretion of the Australian green tree frog, Litoria caeruleaan investigation of dietary sources, 52
P. Nicolas, A. Mor (1995)
Peptides as weapons against microorganisms in the chemical defense system of vertebrates.Annual review of microbiology, 49
J. Vié, C. Hilton‐Taylor, S. Stuart (2009)
Wildlife in a changing world : an analysis of the 2008 IUCN red list of threatened species
(2006)
Veterinary care of captive Archey's frogs, Leiopelma archeyi
B. Bell, S. Carver, N. Mitchell, S. Pledger (2004)
The recent decline of a New Zealand endemic: how and why did populations of Archey's frog Leiopelma archeyi crash over 1996–2001?Biological Conservation, 120
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. Clarke (1997)
THE NATURAL HISTORY OF AMPHIBIAN SKIN SECRETIONS, THEIR NORMAL FUNCTIONING AND POTENTIAL MEDICAL APPLICATIONSBiological Reviews, 72
Menna Jones, P. Jarman, C. Lees, H. Hesterman, Rodrigo Hamede, N. Mooney, Dydee Mann, Chrissy Pukk, J. Bergfeld, H. McCallum (2007)
Conservation Management of Tasmanian Devils in the Context of an Emerging, Extinction-threatening Disease: Devil Facial Tumor DiseaseEcoHealth, 4
Richmond Richmond, Savage Savage, Zamudio Zamudio, Rosenblum Rosenblum (2009)
Toward immunogenetic studies of amphibian chytridiomycosislinking innate and acquired immunity, 59
M. Ali, A. Soto, F. Knoop, J. Conlon (2001)
Antimicrobial peptides isolated from skin secretions of the diploid frog, Xenopus tropicalis (Pipidae).Biochimica et biophysica acta, 1550 1
L. Rollins‐Smith, Jennifer Doersam, J. Longcore, Sharon Taylor, Jessica Shamblin, C. Carey, M. Zasloff (2002)
Antimicrobial peptide defenses against pathogens associated with global amphibian declines.Developmental and comparative immunology, 26 1
(2004)
Status and trends of amphibian declines and extinctions
L. Skerratt, L. Berger, R. Speare, S. Cashins, K. Mcdonald, A. Phillott, H. Hines, Nicole Kenyon (2007)
Spread of Chytridiomycosis Has Caused the Rapid Global Decline and Extinction of FrogsEcoHealth, 4
J. Wolinska, K. King (2009)
Environment can alter selection in host-parasite interactions.Trends in parasitology, 25 5
L. Rollins‐Smith, C. Carey, J. Longcore, Jennifer Doersam, A. Boutté, Judsen Bruzgal, J. Conlon (2002)
Activity of antimicrobial skin peptides from ranid frogs against Batrachochytrium dendrobatidis, the chytrid fungus associated with global amphibian declines.Developmental and comparative immunology, 26 5
Daly Daly, Spande Spande, Garraffo Garraffo (2005)
Alkaloids from amphibian skina tabulation of over eight-hundred compounds, 68
Jonathan Richmond, A. Savage, K. Zamudio, E. Rosenblum (2009)
Toward Immunogenetic Studies of Amphibian Chytridiomycosis: Linking Innate and Acquired Immunity, 59
(2009)
Elimination of chytridiomycosis by Archey ’ s frog , Leiopelma archeyi , a critically endangered New Zealand endemic species
R. Harris, T. James, A. Lauer, M. Simon, Amit Patel (2006)
Amphibian Pathogen Batrachochytrium dendrobatidis Is Inhibited by the Cutaneous Bacteria of Amphibian SpeciesEcoHealth, 3
L. Berger (2001)
Diseases in Australian frogs
Margit Apponyi, T. Pukala, C. Brinkworth, V. Maselli, J. Bowie, M. Tyler, G. Booker, J. Wallace, J. Carver, F. Separovic, J. Doyle, L. Llewellyn (2004)
Host-defence peptides of Australian anurans: structure, mechanism of action and evolutionary significancePeptides, 25
L. Berger, R. Speare, P. Daszak, D. Green, A. Cunningham, C. Goggin, R. Slocombe, M. Ragan, A. Hyatt, K. Mcdonald, H. Hines, K. Lips, G. Marantelli, H. Parkes (1998)
Chytridiomycosis causes amphibian mortality associated with population declines in the rain forests of Australia and Central America.Proceedings of the National Academy of Sciences of the United States of America, 95 15
C. Y, J N, E. H (2007)
Effects of Chytrid and Carbaryl Exposure on Survival , Growth and Skin Peptide Defenses in Foothill Yellow-legged Frogs
D. Woodhams, K. Ardipradja, Ross Alford, G. Marantelli, L. Reinert, L. Rollins‐Smith (2007)
Resistance to chytridiomycosis varies among amphibian species and is correlated with skin peptide defensesAnimal Conservation, 10
Tomas Rozek, K. Wegener, J. Bowie, I. Olver, J. Carver, J. Wallace, M. Tyler (2000)
The antibiotic and anticancer active aurein peptides from the Australian Bell Frogs Litoria aurea and Litoria raniformis the solution structure of aurein 1.2.European journal of biochemistry, 267 17
A. Rinaldi (2002)
Antimicrobial peptides from amphibian skin: an expanding scenario.Current opinion in chemical biology, 6 6
B. Sheafor, E. Davidson, Luke Parr, L. Rollins‐Smith (2008)
ANTIMICROBIAL PEPTIDE DEFENSES IN THE SALAMANDER, AMBYSTOMA TIGRINUM, AGAINST EMERGING AMPHIBIAN PATHOGENS, 44
R. Harris, Robert Brucker, Jenifer Walke, Matthew Becker, Christian Schwantes, Devon Flaherty, Brianna Lam, D. Woodhams, C. Briggs, V. Vredenburg, K. Minbiole (2009)
Skin microbes on frogs prevent morbidity and mortality caused by a lethal skin fungusThe ISME Journal, 3
E. Urbán, E. Nagy, T. Pál, Á. Sonnevend, J. Conlon (2007)
Activities of four frog skin-derived antimicrobial peptides (temporin-1DRa, temporin-1Va and the melittin-related peptides AR-23 and RV-23) against anaerobic bacteria.International journal of antimicrobial agents, 29 3
D. Woodhams, R. Alford, C. Briggs, Megan Johnson, L. Rollins‐Smith (2008)
Life-history trade-offs influence disease in changing climates: strategies of an amphibian pathogen.Ecology, 89 6
(2008)
Life-history trade-offs Animal Conservation
J. Conlon, S. Iwamuro, Jay. King (2009)
Dermal Cytolytic Peptides and the System of Innate Immunity in AnuransAnnals of the New York Academy of Sciences, 1163
D. Wake, V. Vredenburg (2008)
Are we in the midst of the sixth mass extinction? A view from the world of amphibiansProceedings of the National Academy of Sciences, 105
M. Mangoni, G. Maisetta, M. Luca, Ludovica Gaddi, S. Esin, W. Florio, F. Brancatisano, D. Barra, M. Campa, G. Batoni (2007)
Comparative Analysis of the Bactericidal Activities of Amphibian Peptide Analogues against Multidrug-Resistant Nosocomial Bacterial StrainsAntimicrobial Agents and Chemotherapy, 52
Bell (2004)
The recent decline of a New Zealand endemichow and why did populations of Archey's frog Leiopelma archeyi crash over 1996-2001?, 120
A. Hyatt, D. Boyle, V. Olsen, D. Boyle, L. Berger, D. Obendorf, A. Dalton, K. Kriger, M. Hero, H. Hines, R. Phillott, R. Campbell, G. Marantelli, F. Gleason, A. Colling (2007)
Diagnostic assays and sampling protocols for the detection of Batrachochytrium dendrobatidis.Diseases of aquatic organisms, 73 3
(2003)
In vitro evaluation of chemical disinfectants and physical techniques against the amphibian chytrid, Batrachochytrium dendrobatidis
S. Steinborner, J. Bowie, M. Tyler, J. Wallace (1997)
An Unusual Combination of Peptides from the Skin Glands of Ewing's Tree Frog, Litoria ewingi. Sequence Determination and Antimicrobial ActivityAustralian Journal of Chemistry, 50
L. Rollins‐Smith, J. Ramsey, L. Reinert, D. Woodhams, Lauren Livo, C. Carey (2009)
Immune defenses of Xenopus laevis against Batrachochytrium dendrobatidis.Frontiers in bioscience, 1
Lips Lips, Diffendorfer Diffendorfer, Mendelson Mendelson, Sears Sears (2008)
Riding the wavereconciling the roles of disease and climate change in amphibian declines, 6
Benjamin Smith, Y. Hayasaka, M. Tyler, B. Williams (2004)
β-caryophyllene in the skin secretion of the Australian green tree frog, Litoria caerulea: an investigation of dietary sourcesAustralian Journal of Zoology, 52
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
D. Boyle, A. Hyatt, Peter Daszak, Lee Berger, J. Longcore, D. Porter, S. Hengstberger, V. Olsen (2003)
Cryo-archiving of Batrachochytrium dendrobatidis and other chytridiomycetes.Diseases of aquatic organisms, 56 1
Kevin Smith, C. Weldon, W. Conradie, L. Preez (2007)
Relationships among size, development, and Batrachochytrium dendrobatidis infection in African tadpoles.Diseases of aquatic organisms, 74 2
A. Pessier, D. Nichols, J. Longcore, M. Fuller (1999)
Cutaneous Chytridiomycosis in Poison Dart Frogs (Dendrobates spp.) and White's Tree Frogs (Litoria Caerulea)Journal of Veterinary Diagnostic Investigation, 11
(2004)
Rapid detection of amphibian chytrid fungus by PCR assay . Captivity , reintroduction and disease control technologies for amphibians
J. Daly, T. Spande, H. Garraffo (2005)
Alkaloids from amphibian skin: a tabulation of over eight-hundred compounds.Journal of natural products, 68 10
K. Kriger, J. Hero (2007)
The chytrid fungus Batrachochytrium dendrobatidis is non‐randomly distributed across amphibian breeding habitatsDiversity and Distributions, 13
Chytridiomycosis in New Zealand frogs
J. Longcore, A. Pessier, D. Nichols (1999)
BATRACHOCHYTRIUM DENDROBATIDIS GEN. ET SP. NOV., A CHYTRID PATHOGENIC TO AMPHIBIANSMycologia, 91
L. Rollins‐Smith (2009)
The role of amphibian antimicrobial peptides in protection of amphibians from pathogens linked to global amphibian declines.Biochimica et biophysica acta, 1788 8
K. Kriger, J. Hero (2006)
Survivorship in Wild Frogs Infected with ChytridiomycosisEcoHealth, 3
(2004)
Rapid detection of amphibian chytrid fungus by PCR assay. Captivity, reintroduction and disease control technologies for amphibians. Werribee: Amphibian Research Centre
N. Resnick, W. Maloy, H. Guy, M. Zasloff (1991)
A novel endopeptidase from Xenopus that recognizes α-helical secondary structureCell, 66
(2006)
Veterinary care of captive Archey ’ s frogs , Leiopelma archeyi , at Auckland Zoo
(2005)
Chytridiomycosis status of wild amphibians in Australia
(2004)
Aspects of amphibian decline: the influence of stress on water balance; chytrid infection on skin function; plus biosecurity and chytrid pathogen pollution
(2006)
Veterinary care of captive Archey’s frogs
Megan Johnson, L. Berger, L. Philips, R. Speare (2003)
Fungicidal effects of chemical disinfectants, UV light, desiccation and heat on the amphibian chytrid Batrachochytrium dendrobatidis.Diseases of aquatic organisms, 57 3
(2008)
Hochstetter’s frog amphibian chytrid fungus survey
R. Speare, L. Skerratt, L. Berger, H. Hines, A. Hyatt, D. Mendez, K. Mcdonald, J. Hero, G. Marantelli, R. Muller, R. Alford, R. Woods (2005)
A project that designs and trials a pilot survey to map the distribution of chyridomycosis (caused by the amphibian chytrid fungus) in Australian frogs
Jones Jones, Jarman Jarman, Lees Lees, Hesterman Hesterman, Hamede Hamede, Mooney Mooney, Mann Mann, Pukk Pukk, Bergfeld Bergfeld, McCallum McCallum (2007)
Conservation management of tasmanian devils in the context of an emerging, extinction‐threatening diseasedevil facial tumor disease, 4
A. Lauer, M. Simon, Jenifer Banning, Brianna Lam, R. Harris (2008)
Diversity of cutaneous bacteria with antifungal activity isolated from female four-toed salamandersThe ISME Journal, 2
J. Parker, I. Mikaelian, N. Hahn, H. Diggs (2002)
Clinical diagnosis and treatment of epidermal chytridiomycosis in African clawed frogs (Xenopus tropicalis).Comparative medicine, 52 3
(2006)
Archey’s frog emergency translocationDOCDM-28159
J. Piotrowski, S. Annis, J. Longcore (2004)
Physiology of Batrachochytrium dendrobatidis, a chytrid pathogen of amphibians.Mycologia, 96 1
T. Duda, Damien Vanhoye, P. Nicolas (2002)
Roles of diversifying selection and coordinated evolution in the evolution of amphibian antimicrobial peptides.Molecular biology and evolution, 19 6
D. Woodhams, V. Vredenburg, M. Simon, D. Billheimer, B. Shakhtour, Y. Shyr, C. Briggs, L. Rollins‐Smith, R. Harris (2007)
Symbiotic bacteria contribute to innate immune defenses of the threatened mountain yellow-legged frog, Rana muscosaBiological Conservation, 138
J. Collins, Andrew Storfer (2003)
Global amphibian declines: sorting the hypothesesDiversity and Distributions, 9
L. Rollins‐Smith, L. Reinert, V. Miera, J. Conlon (2002)
Antimicrobial peptide defenses of the Tarahumara frog, Rana tarahumarae.Biochemical and biophysical research communications, 297 2
Jenifer Banning, Anna Weddle, George III, M. Simon, A. Lauer, R. Walters, R. Harris (2008)
Antifungal skin bacteria, embryonic survival, and communal nesting in four-toed salamanders, Hemidactylium scutatumOecologia, 156
Rozek Rozek, Wegener Wegener, Bowie Bowie, Olver Olver, Carver Carver, Wallace Wallace, Tyler Tyler (2000b)
The antibiotic and anticancer active aurein peptides from the Australian bell frogs Litoria aurea and Litoria raniformisEur. J. Biochem., 267
N. Isaac, S. Turvey, B. Collen, C. Waterman, J. Baillie (2007)
Mammals on the EDGE: Conservation Priorities Based on Threat and PhylogenyPLoS ONE, 2
L. Romani (2004)
Immunity to fungal infectionsNature Reviews Immunology, 4
D. Obendorf, A. Dalton (2006)
A survey for the presence of the amphibian chytrid fungus(Batrachochytrium dendrobatidis) in Tasmania.
Isaac Isaac, Turvey Turvey, Collen Collen, Waterman Waterman, Baillie Baillie (2007)
Mammals on the EDGEconservation priorities based on threat and phylogeny, 2
Patrzykat Patrzykat, Douglas Douglas (2005)
Antimicrobial peptidescooperative approaches to protection, 12
P. Bishop, R. Speare, R. Poulter, M. Butler, Benjamin Speare, A. Hyatt, V. Olsen, A. Haigh (2009)
Elimination of the amphibian chytrid fungus Batrachochytrium dendrobatidis by Archey's frog Leiopelma archeyi.Diseases of aquatic organisms, 84 1
Jason Rohr, T. Raffel, John Romansic, Hamish McCallum, P. Hudson (2008)
Evaluating the links between climate, disease spread, and amphibian declinesProceedings of the National Academy of Sciences, 105
Rinaldi Rinaldi (2002)
Antimicrobial peptides from amphibian skinan expanding scenario, 6
Apponyi (2004)
Host-defence peptides of Australian anuransstructure, mechanism of action and evolutionary significance, 25
(1999)
Declining frog populations in New Zealand – the New Zealand Frog Survey and possible future directions
B. Matutte, K. Storey, F. Knoop, J. Conlon (2000)
Induction of synthesis of an antimicrobial peptide in the skin of the freeze‐tolerant frog, Rana sylvatica, in response to environmental stimuliFEBS Letters, 483
Harris Harris, Brucker Brucker, Walke Walke, Becker Becker, Schwantes Schwantes, Flaherty Flaherty, Lam Lam, Woodhams Woodhams, Briggs Briggs, Vredenburg Vredenburg, Minbiole Minbiole (2009)
Skin microbes on frogs prevent morbidity and mortality caused by a lethal skin fungusInt. Soc. Microb. Ecol. J., 3
Tomas Rozek, J. Bowie, J. Wallace, M. Tyler (2000)
The antibiotic and anticancer active aurein peptides from the Australian Bell Frogs Litoria aurea and Litoria raniformis. Part 2. Sequence determination using electrospray mass spectrometry.Rapid communications in mass spectrometry : RCM, 14 21
(2009)
Journal compilation c 2009 The Zoological Society of London influence disease in changing climates: strategies of an amphibian pathogen
S. Steinborner, R. Waugh, J. Bowie, J. Wallace, M. Tyler, S. Ramsay (1997)
New caerin antibacterial peptides from the skin glands of the Australian tree frog Litoria xanthomeraJournal of Peptide Science, 3
Woodhams Woodhams, Alford Alford, Briggs Briggs, Johnson Johnson, Rollins‐Smith Rollins‐Smith (2008)
Life‐history trade‐offs influence disease in changing climatesstrategies of an amphibian pathogen, 89
C. Carey, N. Cohen, L. Rollins‐Smith (1999)
Amphibian declines: an immunological perspective.Developmental and comparative immunology, 23 6
H. Westerhoff, H. Westerhoff, M. Zasloff, J. Rosner, R. Hendler, A. Waal, A. Gomes, A. Jongsma, A. Riethorst, D. Juretic, D. Juretic (1995)
Functional synergism of the magainins PGLa and magainin-2 in Escherichia coli, tumor cells and liposomes.European journal of biochemistry, 228 2
C. Reading (2007)
Linking global warming to amphibian declines through its effects on female body condition and survivorshipOecologia, 151
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
L. Berger, R. Speare, L. Skerratt (2005)
Distribution of Batrachochytrium dendrobatidis and pathology in the skin of green tree frogs Litoria caerulea with severe chytridiomycosis.Diseases of aquatic organisms, 68 1
M. Mangoni, R. Miele, T. Renda, D. Barra, M. Simmaco (2001)
The synthesis of antimicrobial peptides in the skin of Rana esculenta is stimulated by microorganismsThe FASEB Journal, 15
A. Patrzykat, S. Douglas (2005)
Antimicrobial peptides: cooperative approaches to protection.Protein and peptide letters, 12 1
Collins Collins, Storfer Storfer (2003)
Global amphibian declinessorting the hypotheses, 9
K. Lips, J. Diffendorfer, J. Mendelson, M. Sears (2008)
Riding the Wave: Reconciling the Roles of Disease and Climate Change in Amphibian DeclinesPLoS Biology, 6
R. Retallick, H. McCallum, R. Speare (2004)
Endemic Infection of the Amphibian Chytrid Fungus in a Frog Community Post-DeclinePLoS Biology, 2
(2002)
Clinical diagnosis and treatment of epidermal chytridiomycosis in African clawed frogs
(2009)
Elimination of chytridiomycosis by Archey’s frog, Leiopelma archeyi, a critically endangered New Zealand endemic species.Dis
Over the past few decades, amphibian populations have undergone drastic declines on a global scale. Declines in many anuran populations have been linked to the emergent skin‐invasive amphibian chytrid fungus Batrachochytrium dendrobatidis (Bd). Antimicrobial peptides in the skin are thought to act as important components of the innate immune system that may protect some species from infectious diseases. The four archaic species of Leiopelma in New Zealand are of great conservation concern and a severe population crash of Leiopelma archeyi between 1996 and 2001 has been tentatively linked with the outbreak of Bd. Here, we investigated the in vitro activity of skin secretions of six frog species in New Zealand against Bd zoospore growth. The activity of skin secretions produced by frogs in the wild varied significantly between species, with those of Le. archeyi being the most active. The skin secretions of native Leiopelmatid species showed greater Bd zoospore inhibition (31.0–71.9%) than the naturalized Litoria species (17.4–18.2%). Leiopelma archeyi has the most active peptides, even though it is the only native species with known susceptibility to Bd infections.
Animal Conservation – Wiley
Published: Dec 1, 2010
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.