Literature detail

Environmental drivers of spatiotemporal foraging intensity in fruit bats and implications for Hendra virus ecology.

John R Giles^1,2 Peggy Eby³ Hazel Parry⁴ Alison J Peel⁵ Raina K Plowright⁶ David A Westcott⁷ Hamish McCallum⁵

Affiliations 7 institutions

Johns Hopkins University Bloomberg School of Public Health, Department of Epidemiology, Baltimore, MD, USA. [email protected].
Environmental Futures Research Institute, Griffith University, Brisbane, QLD, Australia. [email protected].
School of Biological, Earth, and Environmental Sciences, University of New South Wales, Sydney, NSW, Australia.
CSIRO Health and Biosecurity, Brisbane, Queensland, 4001, Australia.
Johns Hopkins University Bloomberg School of Public Health, Department of Epidemiology, Baltimore, MD, USA.
Department of Microbiology and Immunology, Montana State University, Bozeman, MT, USA.
CSIRO Land and Water, Atherton, Queensland, 4883, Australia.

PMID 29934514 2018 Sci Rep eng epublish

Article

Publication summary

In the Australian subtropics, flying-foxes (family Pteropididae) play a fundamental ecological role as forest pollinators. Flying-foxes are also reservoirs of the fatal zoonosis, Hendra virus. Understanding flying fox foraging ecology, particularly in agricultural areas during winter, is critical to determine their role in transmitting Hendra virus to horses and humans. We developed a spatiotemporal model of flying-fox foraging intensity based on foraging patterns of 37 grey-headed flying-foxes (Pteropus poliocephalus) using GPS tracking devices and boosted regression trees. We validated the model with independent population counts and summarized temporal patterns in terms of spatial resource concentration. We found that spatial resource concentration was highest in late-summer and lowest in winter, with lowest values in winter 2011, the same year an unprecedented cluster of spillover events occurred in Queensland and New South Wales. Spatial resource concentration was positively correlated with El Niño Southern Oscillation at 3-8 month time lags. Based on shared foraging traits with the primary reservoir of Hendra virus (Pteropus alecto), we used our results to develop hypotheses on how regional climatic history, eucalypt phenology, and foraging behaviour may contribute to the predominance of winter spillovers, and how these phenomena connote foraging habitat conservation as a public health intervention.

Behavior, Animal Environment Models, Statistical Spatio-Temporal Analysis Animals Chiroptera Hendra Virus

Structured evidence records

Evidence records

1 total

Reservoir Ecology 1 records

Reservoir Ecology Extraction confidence 0.95

Key finding

Seasonal variation in flying-fox foraging intensity, linked to resource concentration and climate patterns, influences Hendra virus reservoir dynamics and temporal patterns of spillover.

Virus

Host

Location

Supporting text

We developed a spatiotemporal model of flying-fox foraging intensity based on foraging patterns of 37 grey-headed flying-foxes (Pteropus poliocephalus) using GPS tracking devices and boosted regression trees. Spatial resource concentration was highest in late-summer and lowest in winter, with lowest values in winter 2011, the same year an unprecedented cluster of spillover events occurred in Queensland and New South Wales.

Method: GPS tracking; boosted regression trees; spatiotemporal modeling
Geographic raw: Queensland and New South Wales
Country inferred: Australia

Citation context

References

75 references

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Evidence overview

Evidence 1

Types 1

Virus 1

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Evidence types

Reservoir Ecology 1

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Publication metadata

Journal: Scientific reports
Volume / Issue / Pages: 8 / 1 / 9555
ISSN: 2045-2322
Journal country: England
DOI: 10.1038/s41598-018-27859-3