Literature detail

Toward a Mechanistic Understanding of Environmentally Forced Zoonotic Disease Emergence: Sin Nombre Hantavirus.

Scott Carver¹ James N Mills¹ Cheryl A Parmenter¹ Robert R Parmenter¹ Kyle S Richardson¹ Rachel L Harris¹ Richard J Douglass¹ Amy J Kuenzi¹ Angela D Luis¹

Affiliations 1 institutions

Scott Carver ( [email protected] ) and Rachel L. Harris are affiliated with the School of Biological Sciences at the University of Tasmania, in Hobart, Tasmania, Australia. James N. Mills is affiliated with the Special Pathogens Branch of the Division of Viral and Rickettsial Diseases at the Centers for Disease Control and Prevention and the Population Biology, Ecology, and Evolution Group at Emory University, in Atlanta, Georgia. Cheryl A. Parmenter is affiliated with the Museum of Southwestern Biology in the Department of Biology at the University of New Mexico, in Albuquerque. Robert R. Parmenter is affiliated with the Department of the Interior (National Park Service), in Jemez Springs, New Mexico. Kyle Richardson is affiliated with the Hopkirk Research Institute, at Massey University, in Palmerston North, New Zealand. SC, KR, Richard J. Douglass, and Amy J. Kuenzi are affiliated with the Department of Biology at Montana Tech of the University of Montana, in Butte. Angela D. Luis is affiliated with the College of Forestry and Conservation at the University of Montana, in Missoula.

PMID 26955081 2015 Bioscience eng ppublish

PubMed DOI Browse context

Article

Publication summary

Understanding the environmental drivers of zoonotic reservoir and human interactions is crucial to understanding disease risk, but these drivers are poorly predicted. We propose a mechanistic understanding of human-reservoir interactions, using hantavirus pulmonary syndrome as a case study. Crucial processes underpinning the disease's incidence remain poorly studied, including the connectivity among natural and peridomestic deer mouse host activity, virus transmission, and human exposure. We found that disease cases were greatest in arid states and declined exponentially with increasing precipitation. Within arid environments, relatively rare climatic conditions (e.g., El Niño) are associated with increased rainfall and reservoir abundance, producing more frequent virus transmission and host dispersal. We suggest that deer mice increase their occupancy of peridomestic structures during spring-summer, amplifying intraspecific transmission and human infection risk. Disease incidence in arid states may increase with predicted climatic changes. Mechanistic approaches incorporating reservoir behavior, reservoir-human interactions, and pathogen spillover could enhance our understanding of global hantavirus ecology, with applications to other directly transmitted zoonoses.

emerging infectious disease hantavirus pulmonary syndrome human–reservoir interactions Peromyscus maniculatus Sin Nombre virus

Structured evidence records

Evidence records

2 total

Reservoir Ecology 1 records

Reservoir Ecology Extraction confidence 0.95

Key finding

Sin Nombre virus dynamics are influenced by arid climate and El Niño-driven rainfall, which increase deer mouse abundance and peridomestic activity, facilitating viral transmission and potential human exposure.

Virus

Host

Location

Supporting text

Within arid environments, relatively rare climatic conditions (e.g., El Niño) are associated with increased rainfall and reservoir abundance, producing more frequent virus transmission and host dispersal. We suggest that deer mice increase their occupancy of peridomestic structures during spring-summer, amplifying intraspecific transmission and human infection risk.

Geographic raw: arid environments

Spillover Event 1 records

Spillover Event Extraction confidence 0.90

Key finding

Deer mice (Peromyscus maniculatus) carrying Sin Nombre hantavirus transmit the virus to humans, causing hantavirus pulmonary syndrome, with spillover risk influenced by environmental factors.

Virus

Host

Location

Supporting text

We propose a mechanistic understanding of human-reservoir interactions, using hantavirus pulmonary syndrome as a case study...deer mice increase their occupancy of peridomestic structures...amplifying intraspecific transmission and human infection risk.

Study design: ecological modeling
Transmission direction: animal-to-human
Geographic raw: arid states

Citation context

References

68 references

Reference network

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162 nodes · 172 links

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Evidence overview

Evidence 2

Types 2

Virus 1

Host 2

Evidence types

Reservoir Ecology 1 Spillover Event 1

Linked entities

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Publication metadata

Journal: Bioscience
Volume / Issue / Pages: 65 / 7 / 651-666
ISSN: 0006-3568
Journal country: England
DOI: 10.1093/biosci/biv047