Ecological correlates of risk and incidence of West Nile virus in the United States

Brian F. Allan; R. Brian Langerhans; Wade A. Ryberg; William J. Landesman; Nicholas W. Griffin; Rachael S. Katz; Brad J. Oberle; Michele R. Schutzenhofer; Kristina N. Smyth; Annabelle De St. Maurice; Larry Clark; Kevin R. Crooks; Daniel E. Hernandez; Robert G. McLean; Richard S. Ostfeld; Jonathan M. Chase

doi:10.1007/s00442-008-1169-9

Ecological correlates of risk and incidence of West Nile virus in the United States

Brian F. Allan, R. Brian Langerhans, Wade A. Ryberg, William J. Landesman, Nicholas W. Griffin, Rachael S. Katz, Brad J. Oberle, Michele R. Schutzenhofer, Kristina N. Smyth, Annabelle De St. Maurice, Larry Clark, Kevin R. Crooks, Daniel E. Hernandez, Robert G. McLean, Richard S. Ostfeld, Jonathan M. Chase

Research output: Contribution to journal › Article › peer-review

Abstract

West Nile virus, which was recently introduced to North America, is a mosquito-borne pathogen that infects a wide range of vertebrate hosts, including humans. Several species of birds appear to be the primary reservoir hosts, whereas other bird species, as well as other vertebrate species, can be infected but are less competent reservoirs. One hypothesis regarding the transmission dynamics of West Nile virus suggests that high bird diversity reduces West Nile virus transmission because mosquito blood-meals are distributed across a wide range of bird species, many of which have low reservoir competence. One mechanism by which this hypothesis can operate is that high-diversity bird communities might have lower community-competence, defined as the sum of the product of each species' abundance and its reservoir competence index value. Additional hypotheses posit that West Nile virus transmission will be reduced when either: (1) abundance of mosquito vectors is low; or (2) human population density is low. We assessed these hypotheses at two spatial scales: a regional scale near Saint Louis, MO, and a national scale (continental USA). We found that prevalence of West Nile virus infection in mosquito vectors and in humans increased with decreasing bird diversity and with increasing reservoir competence of the bird community. Our results suggest that conservation of avian diversity might help ameliorate the current West Nile virus epidemic in the USA.

Original language	English (US)
Pages (from-to)	699-708
Number of pages	10
Journal	Oecologia
Volume	158
Issue number	4
DOIs	https://doi.org/10.1007/s00442-008-1169-9
State	Published - Jan 2009
Externally published	Yes

Keywords

Dilution effect
Disease ecology
Ecosystem service
Emerging infectious diseases

ASJC Scopus subject areas

Ecology, Evolution, Behavior and Systematics

Online availability

10.1007/s00442-008-1169-9

Library availability

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Allan, B. F., Langerhans, R. B., Ryberg, W. A., Landesman, W. J., Griffin, N. W., Katz, R. S., Oberle, B. J., Schutzenhofer, M. R., Smyth, K. N., De St. Maurice, A., Clark, L., Crooks, K. R., Hernandez, D. E., McLean, R. G., Ostfeld, R. S., & Chase, J. M. (2009). Ecological correlates of risk and incidence of West Nile virus in the United States. Oecologia, 158(4), 699-708. https://doi.org/10.1007/s00442-008-1169-9

Allan, BF, Langerhans, RB, Ryberg, WA, Landesman, WJ, Griffin, NW, Katz, RS, Oberle, BJ, Schutzenhofer, MR, Smyth, KN, De St. Maurice, A, Clark, L, Crooks, KR, Hernandez, DE, McLean, RG, Ostfeld, RS & Chase, JM 2009, 'Ecological correlates of risk and incidence of West Nile virus in the United States', Oecologia, vol. 158, no. 4, pp. 699-708. https://doi.org/10.1007/s00442-008-1169-9

@article{9c236eda4b974c6092190bf53472307b,

title = "Ecological correlates of risk and incidence of West Nile virus in the United States",

abstract = "West Nile virus, which was recently introduced to North America, is a mosquito-borne pathogen that infects a wide range of vertebrate hosts, including humans. Several species of birds appear to be the primary reservoir hosts, whereas other bird species, as well as other vertebrate species, can be infected but are less competent reservoirs. One hypothesis regarding the transmission dynamics of West Nile virus suggests that high bird diversity reduces West Nile virus transmission because mosquito blood-meals are distributed across a wide range of bird species, many of which have low reservoir competence. One mechanism by which this hypothesis can operate is that high-diversity bird communities might have lower community-competence, defined as the sum of the product of each species' abundance and its reservoir competence index value. Additional hypotheses posit that West Nile virus transmission will be reduced when either: (1) abundance of mosquito vectors is low; or (2) human population density is low. We assessed these hypotheses at two spatial scales: a regional scale near Saint Louis, MO, and a national scale (continental USA). We found that prevalence of West Nile virus infection in mosquito vectors and in humans increased with decreasing bird diversity and with increasing reservoir competence of the bird community. Our results suggest that conservation of avian diversity might help ameliorate the current West Nile virus epidemic in the USA.",

keywords = "Dilution effect, Disease ecology, Ecosystem service, Emerging infectious diseases",

author = "Allan, {Brian F.} and Langerhans, {R. Brian} and Ryberg, {Wade A.} and Landesman, {William J.} and Griffin, {Nicholas W.} and Katz, {Rachael S.} and Oberle, {Brad J.} and Schutzenhofer, {Michele R.} and Smyth, {Kristina N.} and {De St. Maurice}, Annabelle and Larry Clark and Crooks, {Kevin R.} and Hernandez, {Daniel E.} and McLean, {Robert G.} and Ostfeld, {Richard S.} and Chase, {Jonathan M.}",

note = "Funding Information: Acknowledgments We thank D. Allan, L. Blaustein, J. Bradford, S. Crawford, C. Frazier, P. Green, F. Keesing, T. Knight, B. McCauley, P. Morin, C. Osenberg, K. Schmidt, J. Scott, G. Storch, D. Tulloch, K. Yates, the Chase lab group, the Rutgers Center for Remote Sensing & Spatial Analysis laboratory and two anonymous reviewers for discussions, comments, and logistical support. The cooperation of numerous private land owners and public land managers made this project feasible, as did logistical support from Washington University and the Tyson Research Center. Financial support was provided by Washington University (to J.M.C.), and the Webster Groves Nature Study Society and Saint Louis Audubon Society (to B.F.A.). The authors declare that the studies described herein comply with the laws of the USA.",

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doi = "10.1007/s00442-008-1169-9",

language = "English (US)",

volume = "158",

pages = "699--708",

journal = "Oecologia",

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T1 - Ecological correlates of risk and incidence of West Nile virus in the United States

AU - Allan, Brian F.

AU - Langerhans, R. Brian

AU - Ryberg, Wade A.

AU - Landesman, William J.

AU - Griffin, Nicholas W.

AU - Katz, Rachael S.

AU - Oberle, Brad J.

AU - Schutzenhofer, Michele R.

AU - Smyth, Kristina N.

AU - De St. Maurice, Annabelle

AU - Clark, Larry

AU - Crooks, Kevin R.

AU - Hernandez, Daniel E.

AU - McLean, Robert G.

AU - Ostfeld, Richard S.

AU - Chase, Jonathan M.

N1 - Funding Information: Acknowledgments We thank D. Allan, L. Blaustein, J. Bradford, S. Crawford, C. Frazier, P. Green, F. Keesing, T. Knight, B. McCauley, P. Morin, C. Osenberg, K. Schmidt, J. Scott, G. Storch, D. Tulloch, K. Yates, the Chase lab group, the Rutgers Center for Remote Sensing & Spatial Analysis laboratory and two anonymous reviewers for discussions, comments, and logistical support. The cooperation of numerous private land owners and public land managers made this project feasible, as did logistical support from Washington University and the Tyson Research Center. Financial support was provided by Washington University (to J.M.C.), and the Webster Groves Nature Study Society and Saint Louis Audubon Society (to B.F.A.). The authors declare that the studies described herein comply with the laws of the USA.

PY - 2009/1

Y1 - 2009/1

N2 - West Nile virus, which was recently introduced to North America, is a mosquito-borne pathogen that infects a wide range of vertebrate hosts, including humans. Several species of birds appear to be the primary reservoir hosts, whereas other bird species, as well as other vertebrate species, can be infected but are less competent reservoirs. One hypothesis regarding the transmission dynamics of West Nile virus suggests that high bird diversity reduces West Nile virus transmission because mosquito blood-meals are distributed across a wide range of bird species, many of which have low reservoir competence. One mechanism by which this hypothesis can operate is that high-diversity bird communities might have lower community-competence, defined as the sum of the product of each species' abundance and its reservoir competence index value. Additional hypotheses posit that West Nile virus transmission will be reduced when either: (1) abundance of mosquito vectors is low; or (2) human population density is low. We assessed these hypotheses at two spatial scales: a regional scale near Saint Louis, MO, and a national scale (continental USA). We found that prevalence of West Nile virus infection in mosquito vectors and in humans increased with decreasing bird diversity and with increasing reservoir competence of the bird community. Our results suggest that conservation of avian diversity might help ameliorate the current West Nile virus epidemic in the USA.

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KW - Dilution effect

KW - Disease ecology

KW - Ecosystem service

KW - Emerging infectious diseases

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JO - Oecologia

JF - Oecologia

IS - 4

ER -

Ecological correlates of risk and incidence of West Nile virus in the United States

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