Subject: "Ranavirus" / Journal: EcoHealth / Subject: Ranavirus / Text Availability: Citation in PubAg

Author:: Veronica L. Urgiles; Ervin R. Ramírez; Cristian I. Villalta; David C. Siddons; Anna E. Savage
Source:: EcoHealth 2021 v.18 no.4 pp. 451-464
ISSN:: 1612-9202
Subject:: Ranavirus, etc ; Batrachochytrium dendrobatidis; Perkinsea; biodiversity; data collection; environmental health; monitoring; pathogens; Andes region; Ecuador; Show all 10 Subjects
Abstract:: ... Three infectious pathogens Batrachochytrium dendrobatidis (Bd), Ranavirus (Rv) and Perkinsea (Pr) are associated with widespread and ongoing amphibian population declines. Although their geographic and host ranges vary widely, recent studies have suggested that the occurrence of these pathogens could be more common than previously thought, even in direct-developing terrestrial species traditionall ...
DOI:: 10.1007/s10393-021-01570-8
: https://doi.org/10.1007/s10393-021-01570-8

Author:: Steven J. A. Kimble; April J. Johnson; Rod N. Williams; Jason T. Hoverman
Source:: EcoHealth 2017 v.14 no.4 pp. 810-815
ISSN:: 1612-9202
Subject:: Ranavirus, etc ; Terrapene; adaptive immunity; captive animals; clinical examination; mortality; nose; quantitative polymerase chain reaction; Show all 8 Subjects
Abstract:: ... A Ranavirus outbreak in a captive population of wild-caught individuals was monitored using clinical evaluations and real-time PCR in 317 wild box turtles held in captivity during translocation. During the 2-year study period, the population experienced 71.6% mortality, suggesting that ranaviruses can rapidly attenuate populations. Wide variation in infection rate (7–94% per sampling period) was o ...
DOI:: 10.1007/s10393-017-1263-8
: https://doi.org/10.1007/s10393-017-1263-8

Author:: Brenda Rivera; Katrina Cook; Kimberly Andrews; Matthew S. Atkinson; Anna E. Savage
Source:: EcoHealth 2019 v.16 no.2 pp. 222-234
ISSN:: 1612-9202
Subject:: Ranavirus, etc ; Batrachochytrium dendrobatidis; Eleutherodactylus; Hyla; Iridovirus; Rana; autumn; coasts; emerging diseases; frogs; fungi; indigenous species; invasive species; islands; monitoring; pathogens; polymerase chain reaction; population dynamics; rain; surveys; wildlife; Georgia; Show all 22 Subjects
Abstract:: ... Emerging infectious diseases threaten the survival of wildlife populations and species around the world. In particular, amphibians are experiencing population declines and species extinctions primarily in response to two pathogens, the fungus Batrachochytrium dendrobatidis (Bd) and the iridovirus Ranavirus (Rv). Here, we use field surveys and quantitative (q)PCR to compare infection intensity and ...
DOI:: 10.1007/s10393-019-01432-4
: https://doi.org/10.1007/s10393-019-01432-4

Author:: Steven J. A. Kimble; Ajit K. Karna; April J. Johnson; Jason T. Hoverman; Rod N. Williams
Source:: EcoHealth 2015 v.12 no.2 pp. 334-338
ISSN:: 1612-9202
Subject:: Ranavirus, etc ; Aedes; DNA; amphibians; fish; herpetofauna; hosts; mortality; pathogens; quantitative polymerase chain reaction; turtles; virus transmission; viruses; Indiana; Show all 14 Subjects
Abstract:: ... Ranaviruses are significant pathogens of amphibians, reptiles, and fishes, contributing to mass mortality events worldwide. Despite an increasing focus on ranavirus ecology, our understanding of ranavirus transmission, especially among reptilian hosts, remains limited. For example, experimental evidence for oral transmission of the virus in chelonians is mixed. Consequently, vector-borne transmiss ...
DOI:: 10.1007/s10393-014-0974-3
: https://doi.org/10.1007/s10393-014-0974-3

Author:: Julia E. Earl; Matthew J. Gray
Source:: EcoHealth 2014 v.11 no.4 pp. 581-592
ISSN:: 1612-9202
Subject:: Ranavirus, etc ; Lithobates sylvaticus; risk analysis; models; eggs; extinction; larvae; frogs; pathogens; Show all 9 Subjects
Abstract:: ... Amphibian declines and extinction have been attributed to many causes, including disease such as chytridiomycosis. Other pathogens may also contribute to declines, with ranavirus as the most likely candidate given reoccurring die-offs observed in the wild. We were interested in whether it is possible for ranavirus to cause extinction of a local, closed population of amphibians. We used susceptibil ...
DOI:: 10.1007/s10393-014-0950-y
: https://doi.org/10.1007/s10393-014-0950-y

Author:: William B. Sutton; Matthew J. Gray; Jason T. Hoverman; Richard G. Secrist; Paul E. Super; Rebecca H. Hardman; Jennifer L. Tucker; Debra L. Miller
Source:: EcoHealth 2015 v.12 no.2 pp. 320-329
ISSN:: 1612-9202
Subject:: Ranavirus, etc ; Plethodontidae; aquatic environment; body condition; drought; life history; national parks; pathogens; salamanders and newts; Great Smoky Mountain region; United States; Show all 11 Subjects
Abstract:: ... Emerging pathogens are a potential contributor to global amphibian declines. Ranaviruses, which infect ectothermic vertebrates and are common in aquatic environments, have been implicated in die-offs of at least 72 amphibian species worldwide. Most studies on the subject have focused on pool-breeding amphibians, and infection trends in other amphibian species assemblages have been understudied. Ou ...
DOI:: 10.1007/s10393-014-0994-z
: https://doi.org/10.1007/s10393-014-0994-z

Author:: Jason T. Hoverman; Matthew J. Gray; Debra L. Miller; Nathan A. Haislip
Source:: EcoHealth 2012 v.9 no.1 pp. 36-48
ISSN:: 1612-9202
Subject:: Ranavirus, etc ; Ranidae; ammonia; amphibians; breeding; breeding sites; cattle; farm ponds; landscapes; larvae; long term effects; monitoring; pathogen occurrence; population size; summer; turbidity; water quality; water temperature; wetlands; Tennessee; Show all 20 Subjects
Abstract:: ... Ranaviruses are an emerging threat for many amphibian populations, yet their distribution in amphibian communities and the association of infection with possible stressors and species is not fully understood due to historically sparse surveillance. Agricultural practices that reduce the water quality of amphibian breeding habitats (e.g., cattle access to wetlands) and environmental stressors (e.g. ...
DOI:: 10.1007/s10393-011-0731-9
PubMed:: 22173292
: https://doi.org/10.1007/s10393-011-0731-9

Main content area