Environmentally transmitted parasites: Host-jumping in a heterogeneous environment

Groups of chronically infected reservoir-hosts contaminate resource patches by shedding a parasite׳s free-living stage. Novel-host groups visit the same patches, where they are exposed to infection. We treat arrival at patches, levels of parasite deposition, and infection of the novel host as stocha...

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Published in:Journal of theoretical biology 2016-05, Vol.397, p.33-42
Main Authors: Caraco, Thomas, Cizauskas, Carrie A., Wang, Ing-Nang
Format: Article
Language:English
Subjects:
Acacia - parasitology
Algorithms
Animals
Disease Reservoirs - parasitology
Endoparasite
Environment
Host group size
Host-Parasite Interactions
Models, Biological
Monkey Diseases - parasitology
Monkey Diseases - transmission
Nematoda - pathogenicity
Nematoda - physiology
Nematode Infections - parasitology
Nematode Infections - transmission
Papio cynocephalus - parasitology
Parasites - pathogenicity
Parasites - physiology
Parasitic Diseases, Animal - parasitology
Parasitic Diseases, Animal - transmission
Plant Diseases - parasitology
Population Density
Shot-noise process
Stochastic Processes
Virulence
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cited_by cdi_FETCH-LOGICAL-c356t-e6782d7aa19469a83e7e3e2b6bd07169c36ddd1e5b6420fe935dd965a8b018863
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container_title Journal of theoretical biology
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creator Caraco, Thomas
Cizauskas, Carrie A.
Wang, Ing-Nang
description Groups of chronically infected reservoir-hosts contaminate resource patches by shedding a parasite׳s free-living stage. Novel-host groups visit the same patches, where they are exposed to infection. We treat arrival at patches, levels of parasite deposition, and infection of the novel host as stochastic processes, and derive the expected time elapsing until a host-jump (initial infection of a novel host) occurs. At stationarity, mean parasite densities are independent of reservoir-host group size. But within-patch parasite-density variances increase with reservoir group size. The probability of infecting a novel host declines with parasite-density variance; consequently larger reservoir groups extend the mean waiting time for host-jumping. Larger novel-host groups increase the probability of a host-jump during any single patch visit, but also reduce the total number of visits per unit time. Interaction of these effects implies that the waiting time for the first infection increases with the novel-host group size. If the reservoir-host uses resource patches in any non-uniform manner, reduced spatial overlap between host species increases the waiting time for host-jumping. •We model the expected time elapsing for an environmentally transmitted parasite to jump from a reservoir host to a novel host.•Mean parasite density in the environment does not depend on reservoir host group size, but the variance increases with group size.•Increasing the novel host׳s group size increases the expected waiting time for the first infection.
doi_str_mv 10.1016/j.jtbi.2016.02.025
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1095-8541
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source Elsevier
subjects Acacia - parasitology
Algorithms
Animals
Disease Reservoirs - parasitology
Endoparasite
Environment
Host group size
Host-Parasite Interactions
Models, Biological
Monkey Diseases - parasitology
Monkey Diseases - transmission
Nematoda - pathogenicity
Nematoda - physiology
Nematode Infections - parasitology
Nematode Infections - transmission
Papio cynocephalus - parasitology
Parasites - pathogenicity
Parasites - physiology
Parasitic Diseases, Animal - parasitology
Parasitic Diseases, Animal - transmission
Plant Diseases - parasitology
Population Density
Shot-noise process
Stochastic Processes
Virulence
title Environmentally transmitted parasites: Host-jumping in a heterogeneous environment
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