Wildlife disease elimination and density dependence

Disease control by managers is a crucial response to emerging wildlife epidemics, yet the means of control may be limited by the method of disease transmission. In particular, it is widely held that population reduction, while effective for controlling diseases that are subject to density-dependent...

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Published in	Proceedings of the Royal Society. B, Biological sciences Vol. 279; no. 1741; pp. 3139 - 3145
Main Authors	Potapov, Alex, Merrill, Evelyn, Lewis, Mark A.
Format	Journal Article
Language	English
Published	England The Royal Society 22.08.2012
Subjects	Animals Animals, Wild Chronic Wasting Disease Deer Disease eradication Disease Eradication - methods Disease Management Disease Modelling Disease models Disease transmission Epidemics Epidemiology Frequency-Dependent Transmission Models, Biological Population Dynamics Population size Prevalence Prion diseases Vaccination Wasting Disease, Chronic - epidemiology Wasting Disease, Chronic - prevention & control Wasting Disease, Chronic - transmission Wasting syndrome
Online Access	Get full text
ISSN	0962-8452 1471-2954 1471-2945 1471-2954
DOI	10.1098/rspb.2012.0520

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Abstract	Disease control by managers is a crucial response to emerging wildlife epidemics, yet the means of control may be limited by the method of disease transmission. In particular, it is widely held that population reduction, while effective for controlling diseases that are subject to density-dependent (DD) transmission, is ineffective for controlling diseases that are subject to frequency-dependent (FD) transmission. We investigate control for horizontally transmitted diseases with FD transmission where the control is via culling or harvest that is non-selective with respect to infection and the population can compensate through DD recruitment or survival. Using a mathematical model, we show that culling or harvesting can eradicate the disease, even when transmission dynamics are FD. Eradication can be achieved under FD transmission when DD birth or recruitment induces compensatory growth of new, healthy individuals, which has the net effect of reducing disease prevalence by dilution. We also show that if harvest is used simultaneously with vaccination, and there is high enough transmission coefficient, application of both controls may be less efficient than vaccination alone. We illustrate the effects of these control approaches on disease prevalence for chronic wasting disease in deer where the disease is transmitted directly among deer and through the environment.
AbstractList	Disease control by managers is a crucial response to emerging wildlife epidemics, yet the means of control may be limited by the method of disease transmission. In particular, it is widely held that population reduction, while effective for controlling diseases that are subject to density-dependent (DD) transmission, is ineffective for controlling diseases that are subject to frequency-dependent (FD) transmission. We investigate control for horizontally transmitted diseases with FD transmission where the control is via culling or harvest that is non-selective with respect to infection and the population can compensate through DD recruitment or survival. Using a mathematical model, we show that culling or harvesting can eradicate the disease, even when transmission dynamics are FD. Eradication can be achieved under FD transmission when DD birth or recruitment induces compensatory growth of new, healthy individuals, which has the net effect of reducing disease prevalence by dilution. We also show that if harvest is used simultaneously with vaccination, and there is high enough transmission coefficient, application of both controls may be less efficient than vaccination alone. We illustrate the effects of these control approaches on disease prevalence for chronic wasting disease in deer where the disease is transmitted directly among deer and through the environment. Disease control by managers is a crucial response to emerging wildlife epidemics, yet the means of control may be limited by the method of disease transmission. In particular, it is widely held that population reduction, while effective for controlling diseases that are subject to density-dependent (DD) transmission, is ineffective for controlling diseases that are subject to frequency-dependent (FD) transmission. We investigate control for horizontally transmitted diseases with FD transmission where the control is via culling or harvest that is non-selective with respect to infection and the population can compensate through DD recruitment or survival. Using a mathematical model, we show that culling or harvesting can eradicate the disease, even when transmission dynamics are FD. Eradication can be achieved under FD transmission when DD birth or recruitment induces compensatory growth of new, healthy individuals, which has the net effect of reducing disease prevalence by dilution. We also show that if harvest is used simultaneously with vaccination, and there is high enough transmission coefficient, application of both controls may be less efficient than vaccination alone. We illustrate the effects of these control approaches on disease prevalence for chronic wasting disease in deer where the disease is transmitted directly among deer and through the environment.Disease control by managers is a crucial response to emerging wildlife epidemics, yet the means of control may be limited by the method of disease transmission. In particular, it is widely held that population reduction, while effective for controlling diseases that are subject to density-dependent (DD) transmission, is ineffective for controlling diseases that are subject to frequency-dependent (FD) transmission. We investigate control for horizontally transmitted diseases with FD transmission where the control is via culling or harvest that is non-selective with respect to infection and the population can compensate through DD recruitment or survival. Using a mathematical model, we show that culling or harvesting can eradicate the disease, even when transmission dynamics are FD. Eradication can be achieved under FD transmission when DD birth or recruitment induces compensatory growth of new, healthy individuals, which has the net effect of reducing disease prevalence by dilution. We also show that if harvest is used simultaneously with vaccination, and there is high enough transmission coefficient, application of both controls may be less efficient than vaccination alone. We illustrate the effects of these control approaches on disease prevalence for chronic wasting disease in deer where the disease is transmitted directly among deer and through the environment.
Author	Merrill, Evelyn Potapov, Alex Lewis, Mark A.
AuthorAffiliation	1 Department of Biological Sciences , University of Alberta , Edmonton, Alberta , Canada T6G 2G1 3 Department of Mathematical and Statistical Sciences , University of Alberta , Edmonton, Alberta , Canada T6G 2G1 2 Centre for Mathematical Biology , University of Alberta , Edmonton, Alberta , Canada T6G 2G1
AuthorAffiliation_xml	– name: 2 Centre for Mathematical Biology , University of Alberta , Edmonton, Alberta , Canada T6G 2G1 – name: 3 Department of Mathematical and Statistical Sciences , University of Alberta , Edmonton, Alberta , Canada T6G 2G1 – name: 1 Department of Biological Sciences , University of Alberta , Edmonton, Alberta , Canada T6G 2G1
Author_xml	– sequence: 1 givenname: Alex surname: Potapov fullname: Potapov, Alex email: apotapov@ualberta.ca organization: Department of Biological Sciences, University of Alberta, Edmonton, Alberta, Canada T6G 2G1 – sequence: 2 givenname: Evelyn surname: Merrill fullname: Merrill, Evelyn organization: Department of Biological Sciences, University of Alberta, Edmonton, Alberta, Canada T6G 2G1 – sequence: 3 givenname: Mark A. surname: Lewis fullname: Lewis, Mark A. organization: Department of Biological Sciences, University of Alberta, Edmonton, Alberta, Canada T6G 2G1
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SubjectTerms	Animals Animals, Wild Chronic Wasting Disease Deer Disease eradication Disease Eradication - methods Disease Management Disease Modelling Disease models Disease transmission Epidemics Epidemiology Frequency-Dependent Transmission Models, Biological Population Dynamics Population size Prevalence Prion diseases Vaccination Wasting Disease, Chronic - epidemiology Wasting Disease, Chronic - prevention & control Wasting Disease, Chronic - transmission Wasting syndrome
Title	Wildlife disease elimination and density dependence
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