Interdisciplinary approaches to understanding disease emergence: the past, present, and future drivers of Nipah virus emergence. - Wikidata - wikimedia - TriplyDB

Interdisciplinary approaches to understanding disease emergence: the past, present, and future drivers of Nipah virus emergence.

Interdisciplinary approaches to understanding disease emergence: the past, present, and future drivers of Nipah virus emergence.

http://www.wikidata.org/entity/Q30560162

about

Mapping the zoonotic niche of Lassa fever in Africa Active targeted drug delivery for microbes using nano-carriers Bats and zoonotic viruses: can we confidently link bats with emerging deadly viruses?Drivers of Emerging Infectious Disease Events as a Framework for Digital Detection Escherichia coli Population Structure and Antibiotic Resistance at a Buffalo/Cattle Interface in Southern Africa.Potential for introduction of bat-borne zoonotic viruses into the EU: a review Preventing pandemics via international development: a systems approach.Back to the future: using historical climate variation to project near-term shifts in habitat suitable for coast redwood.Determinants and Drivers of Infectious Disease Threat Events in Europe Evaluation of the impacts of climate change on disease vectors through ecological niche modelling.Epidemiology of pathogenic enterobacteria in humans, livestock, and peridomestic rodents in rural Madagascar.Climatic suitability influences species specific abundance patterns of Australian flying foxes and risk of Hendra virus spillover.Evidence for henipavirus spillover into human populations in Africa.A Bayesian ensemble approach for epidemiological projections.Timing is everything: Fine-tuned molecular machines orchestrate paramyxovirus entry.Integrating interdisciplinary methodologies for One Health: goat farm re-implicated as the probable source of an urban Q fever outbreak, the Netherlands, 2009 Seasonal Variation in Biting Rates of Simulium damnosum sensu lato, Vector of Onchocerca volvulus, in Two Sudanese Foci.Global change, parasite transmission and disease control: lessons from ecology.Fostering advances in interdisciplinary climate science Human ecology in pathogenic landscapes: two hypotheses on how land use change drives viral emergence.Infectious diseases associated with livestock production: mitigating future risks.Immobilization of the N-terminal helix stabilizes prefusion paramyxovirus fusion proteins.Toward proof of concept of a one health approach to disease prediction and control Roosting behaviour and habitat selection of Pteropus giganteus reveals potential links to Nipah virus epidemiology.Convergence of Humans, Bats, Trees, and Culture in Nipah Virus Transmission, Bangladesh.The impact of human population pressure on flying fox niches and the potential consequences for Hendra virus spillover.[Bats and Viruses: complex relationships].Zoonotic Potential of Emerging Paramyxoviruses: Knowns and Unknowns.Mapping the risk of Nipah virus spillover into human populations in South and Southeast Asia.Emerging infectious diseases: opportunities at the human-animal-environment interface.One Health Approach to Disease Prediction and Control.Mapping risk of Nipah virus transmission across Asia and across Bangladesh.Characterizing uncertainty in species distribution models derived from interpolated weather station data Toward a global platform for linking soil biodiversity data Tracking the distribution and impacts of diseases with biological records and distribution modelling High-resolution GPS tracking of Lyle's flying fox between temples and orchards in central Thailand

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Interdisciplinary approaches to understanding disease emergence: the past, present, and future drivers of Nipah virus emergence.

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Proceedings of the National Academy of Sciences of the United States of America

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Interdisciplinary approaches t ...... vers of Nipah virus emergence.

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Carlos Zambrana-Torrelio

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Healy Hamilton

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Kris A Murray

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Miguel Fernandez

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P2860

High GUD incidence in the early 20 century created a particularly permissive time window for the origin and initial spread of epidemic HIV strains

Climate change and risk of leishmaniasis in north america: predictions from ecological niche models of vector and reservoir species

The velocity of climate change

Ecologic and geographic distribution of filovirus disease

Global trends in emerging infectious diseases

Nipah virus-associated encephalitis outbreak, Siliguri, India

Climate change and the global malaria recession

Reproduction and nutritional stress are risk factors for Hendra virus infection in little red flying foxes (Pteropus scapulatus)

Climate change and the effects of temperature extremes on Australian flying-foxes

Climate variability and change in the United States: potential impacts on vector- and rodent-borne diseases.

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Supplement_1

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110 Suppl 1

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Jonathan H. Epstein

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2012-08-30T00:00:00Z

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230768820

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