Search Results - "McCallum, Hamish I"

Review of the Amphibian Immune Response to Chytridiomycosis, and Future Directions by Grogan, Laura F, Robert, Jacques, Berger, Lee, Skerratt, Lee F, Scheele, Benjamin C, Castley, J Guy, Newell, David A, McCallum, Hamish I

“…The fungal skin disease, chytridiomycosis (caused by and ), has caused amphibian declines and extinctions globally since its emergence. Characterizing the host…”
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Limited impact of chytridiomycosis on juvenile frogs in a recovered species by Hollanders, Matthijs, Grogan, Laura F., McCallum, Hamish I., Brannelly, Laura A., Newell, David A.

“…The amphibian chytrid fungus Batrachochytrium dendrobatidis ( Bd ) has caused catastrophic frog declines on several continents, but disease outcome is mediated…”
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The devil is in the details: Genomics of transmissible cancers in Tasmanian devils by Storfer, Andrew, Hohenlohe, Paul A, Margres, Mark J, Patton, Austin, Fraik, Alexandra K, Lawrance, Matthew, Ricci, Lauren E, Stahlke, Amanda R, McCallum, Hamish I, Jones, Menna E

“…[...]DFT1 is generally composed of pleomorphic round cells in bundles, whereas DFT2 is typically characterized by pleomorphic sheets of cells [9]. [...]DFT2…”
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Immunological Aspects of Chytridiomycosis by Grogan, Laura F., Humphries, Josephine E., Robert, Jacques, Lanctôt, Chantal M., Nock, Catherine J., Newell, David A., McCallum, Hamish I.

“…Amphibians are currently the most threatened vertebrate class, with the disease chytridiomycosis being a major contributor to their global declines…”
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Amphibian infection tolerance to chytridiomycosis by Grogan, Laura F, Mangan, Madelyn J, McCallum, Hamish I

“…Animal defences against infection involve two distinct but complementary mechanisms: tolerance and resistance. Tolerance measures the animal's ability to limit…”
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Pathogen spillover during land conversion by Faust, Christina L., McCallum, Hamish I., Bloomfield, Laura S. P., Gottdenker, Nicole L., Gillespie, Thomas R., Torney, Colin J., Dobson, Andrew P., Plowright, Raina K., Ostfeld, Richard

“…Pathogen spillover from wildlife to domestic animals and humans, and the reverse, has caused significant epidemics and pandemics worldwide. Although pathogen…”
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Recovered frog populations coexist with endemic Batrachochytrium dendrobatidis despite load‐dependent mortality by Hollanders, Matthijs, Grogan, Laura F., Nock, Catherine J., McCallum, Hamish I., Newell, David A.

“…Novel infectious diseases, particularly those caused by fungal pathogens, pose considerable risks to global biodiversity. The amphibian chytrid fungus…”
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Contemporary Demographic Reconstruction Methods Are Robust to Genome Assembly Quality: A Case Study in Tasmanian Devils by Patton, Austin H, Margres, Mark J, Stahlke, Amanda R, Hendricks, Sarah, Lewallen, Kevin, Hamede, Rodrigo K, Ruiz-Aravena, Manuel, Ryder, Oliver, McCallum, Hamish I, Jones, Menna E, Hohenlohe, Paul A, Storfer, Andrew

“…Abstract Reconstructing species’ demographic histories is a central focus of molecular ecology and evolution. Recently, an expanding suite of methods…”
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Mechanisms underlying host persistence following amphibian disease emergence determine appropriate management strategies by Brannelly, Laura A., McCallum, Hamish I., Grogan, Laura F., Briggs, Cheryl J., Ribas, Maria P., Hollanders, Matthijs, Sasso, Thais, Familiar López, Mariel, Newell, David A., Kilpatrick, Auston M., Drake, John

“…Emerging infectious diseases have caused many species declines, changes in communities and even extinctions. There are also many species that persist following…”
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Individual and temporal variation in pathogen load predicts long-term impacts of an emerging infectious disease by Wells, Konstans, Hamede, Rodrigo K., Jones, Menna E., Hohenlohe, Paul A., Storfer, Andrew, Mccallum, Hamish I.

“…Emerging infectious diseases increasingly threaten wildlife populations. Most studies focus on managing short-term epidemic properties, such as controlling…”
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Global spread of helminth parasites at the human–domestic animal–wildlife interface by Wells, Konstans, Gibson, David I., Clark, Nicholas J., Ribas, Alexis, Morand, Serge, McCallum, Hamish I.

“…Changes in species distributions open novel parasite transmission routes at the human–wildlife interface, yet the strength of biotic and biogeographical…”
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A two-phase model for smoothly joining disparate growth phases in the macropodid Thylogale billardierii by McMahon, Clive R, Buscot, Marie-Jeanne, Wiggins, Natasha L, Collier, Neil, Maindonald, John H, McCallum, Hamish I, Bowman, David M J S

“…Generally, sigmoid curves are used to describe the growth of animals over their lifetime. However, because growth rates often differ over an animal's lifetime…”
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Do immune system changes at metamorphosis predict vulnerability to chytridiomycosis? An update by Humphries, Josephine E., Lanctôt, Chantal M., Robert, Jacques, McCallum, Hamish I., Newell, David A., Grogan, Laura F.

“…Amphibians are among the vertebrate groups suffering great losses of biodiversity due to a variety of causes including diseases, such as chytridiomycosis…”
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Chytridiomycosis causes high amphibian mortality prior to the completion of metamorphosis by Humphries, Josephine E., Lanctôt, Chantal M., McCallum, Hamish I., Newell, David A., Grogan, Laura F.

“…Amphibian populations are undergoing extensive declines globally. The fungal disease chytridiomycosis, caused by the pathogenic fungus Batrachochytrium…”
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Null expectations for disease dynamics in shrinking habitat: dilution or amplification? by Faust, Christina L., Dobson, Andrew P., Gottdenker, Nicole, Bloomfield, Laura S. P., McCallum, Hamish I., Gillespie, Thomas R., Diuk-Wasser, Maria, Plowright, Raina K.

“…As biodiversity declines with anthropogenic land-use change, it is increasingly important to understand how changing biodiversity affects infectious disease…”
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Adaptive potential in the face of a transmissible cancer in Tasmanian devils by Strickland, Kasha, Jones, Menna E., Storfer, Andrew, Hamede, Rodrigo K., Hohenlohe, Paul A., Margres, Mark J., McCallum, Hamish I., Comte, Sebastien, Lachish, Shelly, Kruuk, Loeske E. B.

“…Emerging infectious diseases (EIDs) not only cause catastrophic declines in wildlife populations but also generate selective pressures that may result in rapid…”
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Infection of the fittest: devil facial tumour disease has greatest effect on individuals with highest reproductive output by Wells, Konstans, Hamede, Rodrigo K., Kerlin, Douglas H., Storfer, Andrew, Hohenlohe, Paul A., Jones, Menna E., McCallum, Hamish I., Ezenwa, Vanessa

“…Emerging infectious diseases rarely affect all members of a population equally and determining how individuals’ susceptibility to infection is related to other…”
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Context-dependent conservation responses to emerging wildlife diseases by Langwig, Kate E, Voyles, Jamie, Wilber, Mark Q, Frick, Winifred F, Murray, Kris A, Bolker, Benjamin M, Collins, James P, Cheng, Tina L, Fisher, Matthew C, Hoyt, Joseph R, Lindner, Daniel L, McCallum, Hamish I, Puschendorf, Robert, Rosenblum, Erica Bree, Toothman, Mary, Willis, Craig KR, Briggs, Cheryl J, Kilpatrick, A Marm

“…Emerging infectious diseases pose an important threat to wildlife. While established protocols exist for combating outbreaks of human and agricultural…”
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Intergenomic signatures of coevolution between Tasmanian devils and an infectious cancer by Gallinson, Dylan G, Kozakiewicz, Christopher P, Rautsaw, Rhett M, Beer, Marc A, Ruiz-Aravena, Manuel, Comte, Sebastien, Hamilton, David G, Kerlin, Douglas H, McCallum, Hamish I, Hamede, Rodrigo, Jones, Menna E, Storfer, Andrew, McMinds, Ryan, Margres, Mark J

“…Coevolution is common and frequently governs host-pathogen interaction outcomes. Phenotypes underlying these interactions often manifest as the combined…”
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Will Wallace’s Line Save Australia from Avian Influenza? by McCallum, Hamish I., Roshier, David A., Tracey, John P., Joseph, Leo, Heinsohn, Robert

“…Australia is separated from the Asian faunal realm by Wallace’s Line, across which there is relatively little avian migration. Although this does diminish the…”
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