Invasion Ability and Disease Dynamics of Environmentally Growing Opportunistic Pathogens under Outside-Host Competition

6533b839fe1ef96bd12a65e1

RESEARCH PRODUCT

Invasion Ability and Disease Dynamics of Environmentally Growing Opportunistic Pathogens under Outside-Host Competition

Jouni Laakso Jouni Laakso Ilona Merikanto Ilona Merikanto Veijo Kaitala

subject

Bacterial Diseases 0106 biological sciences Population Modeling Disease 01 natural sciences Theoretical Ecology Medicine and Health Sciences Pathogen POPULATION media_common 0303 health sciences education.field_of_study PREDATION Multidisciplinary Ecology Transmission (medicine)Ecology Simulation and Modeling Q R CHANNEL CATFISH EVOLUTIONARY DYNAMICS COMMUNITY Infectious Diseases Host-Pathogen Interactions 1181 Ecology evolutionary biology Medicine Algorithms Research Article TRANSMISSION Science media_common.quotation_subject education Population Virulence Opportunistic Infections Biology Research and Analysis Methods 010603 evolutionary biology Competition (biology)03 medical and health sciences 14. Life underwater Parasite Evolution education Evolutionary dynamics ta413 030304 developmental biology Evolutionary Biology Mathematical Modeling STABILITY MORTALITY Ecology and Environmental Sciences Biology and Life Sciences Computational Biology FLAVOBACTERIUM-COLUMNARE Outbreak Models Theoretical Emerging Infectious Diseases Evolutionary Ecology ta1181 VIRULENCE Parasitology Infectious Disease Modeling

description

Most theories of the evolution of virulence concentrate on obligatory host-pathogen relationship. Yet, many pathogens replicate in the environment outside-host where they compete with non-pathogenic forms. Thus, replication and competition in the outside-host environment may have profound influence on the evolution of virulence and disease dynamics. These environmentally growing opportunistic pathogens are also a logical step towards obligatory pathogenicity. Efficient treatment methods against these diseases, such as columnaris disease in fishes, are lacking because of their opportunist nature. We present a novel epidemiological model in which replication and competition in the outside-host environment influences the invasion ability of a novel pathogen. We also analyze the long-term host-pathogen dynamics. Model parameterization is based on the columnaris disease, a bacterial fresh water fish disease that causes major losses in fish farms worldwide. Our model demonstrates that strong competition in the outside-host environment can prevent the invasion of a new environmentally growing opportunist pathogen and long-term disease outbreaks.

year	journal	country	edition	language
2014-01-01	PLoS ONE

https://doi.org/10.1371/journal.pone.0113436