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Modeling Abiotic Influences on Disease Dynamics for the Complex Life Cycle of the Myxozoan ... PDF

198 Pages·2013·2.82 MB·English
by  RayRobert
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AN ABSTRACT OF THE DISSERTATION OF Robert Adam Ray for the degree of Doctor of Philosophy in Fisheries Science presented on September 26th, 2013. Title: Modeling Abiotic Influences on Disease Dynamics for the Complex Life Cycle of the Myxozoan Parasite Ceratomyxa shasta. Abstract approved: Jerri L. Bartholomew Most parasites and their hosts live in a balance within their environment; however a disease outbreak can occur when either the parasite, host, or environment, are perturbed. Myxozoan parasites are associated with a wide variety of cultured and wild fish populations. Most myxozoans are relatively benign to their vertebrate host; however some cause dramatic population level effects on both cultured and wild fish populations. These parasites have a complex life cycle involving a vertebrate host (fish), an invertebrate host (annelid), and two spore stages (actinospore and myxospore). Interactions between these parasites and their hosts can be strongly influenced by environmental factors, most notably by water temperature and water velocity. Given the complex life cycle of myxozoan parasites and the lack of any chemical treatments or preventatives, controlling infections and disease caused by these parasites is challenging, especially for wild populations. The myxozoan Ceratomyxa shasta is endemic to many of the major rivers of the Pacific Northwest and infects all species of Pacific salmon. In the Klamath River, CA, USA, C. shasta infection is associated with decreased returns of adult Chinook salmon (Oncorhynchus tshawytscha). The goals of this dissertation were to 1) quantify the effect that elevated water temperature has on C. shasta-induced disease severity and mortality rate for both Chinook and coho (O. kitsch) salmon, 2) identify transmission patterns and quantify transmission rates of the actinospore stage to the salmon host, 3) develop an epidemiological model of this host-parasite life cycle and assess the sensitivity of specific parameters that may act as suitable management strategies, and 4) utilize a mixture cure model, an alternative survival analysis method, to quantify the effects water temperature and discharge on the total and rate of C. shasta-induced mortality of both Chinook and coho salmon. I found that, similar to disease progression naïve salmon species (i.e. from waters where C. shasta is absent), elevated water temperature increases the rate and overall mortality for salmon species from river systems where the parasite is endemic. Elevated water temperatures also increase the transmission rate of the actinospore stage to the salmon host. The transmission rate of the actinospore stage to the salmon host was inversely related to water velocity, and I identified a potential velocity threshold of ~0.3m/sec, above which transmission was greatly reduced. From the epidemiological model I sensitivity analyses and identified that reduction of the myxospore transmission rate from the adult salmon to the polychaete host during the winter may be the most effective management action to reduce C. shasta-related disease in the Klamath River. This action could potentially be achieved by increasing discharge during the winter to minimize contact between the polychaete host and myxospore stage. Lastly, I applied the mixture cure models to quantify how the daily survival rates of Chinook and coho salmon change over time after the fish become infected with C. shasta. Although varied in approach, the output from both of the models presented in this dissertation can be used to guide management and conservation actions for fish populations affected by myxozoan parasites. © Copyright by Robert Adam Ray September 26, 2013 All Rights Reserved Modeling Abiotic Influences on Disease Dynamics for the Complex Life Cycle of the Myxozoan Parasite Ceratomyxa shasta. by Robert Adam Ray A DISSERTATION Submitted to Oregon State University In partial fulfillment of the requirements for the degree of Doctor of Philosophy Presented September 26, 2013 Commencement June 2014 Doctor of Philosophy dissertation of Robert Adam Ray presented on September 26, 2013. APPROVED: Major Professor, representing Fisheries Science Head of the Department of Fisheries and Wildlife Dean of the Graduate School I understand that my dissertation will become part of the permanent collection of Oregon State University libraries. My signature below authorizes release of my dissertation to any reader upon request. Robert Adam Ray, Author ACKNOWLEDGEMENTS I would like to thank my advisor Dr. Jerri Bartholomew for letting me work on this engaging project and providing constant feedback, support, and encouragement. Thank you to everyone in the Bartholomew lab for making the past 6 years an enjoyable and memorable experience. I would also like to thank Dr. Rich Holt, Dr. Sascha Hallett, Dr. Julie Alexander, and Gerri Buckles for allowing me to pester them with my questions and taking the time to share their experiences and knowledge with me. Thank you to Dr. Russell Perry and Dr. Nicholas Som for guiding and nurturing me in all things statistical. Lastly, I would like to thank my parents and my family (Katie, Kaleb and Sydney) for their support and companionship throughout. CONTRIBUTION OF AUTHORS Dr. Jerri Bartholomew served as the major advisor and was involved in all aspects of the research presented in this dissertation. Dr. Richard A. Holt assisted with experimental design, field and laboratory data collection, and provided editorial feedback of Chapter 2. Dr. Nicholas A. Som and Dr. Russell W. Perry assisted with model development, analysis, and writing of Chapter 5. TABLE OF CONTENTS Page Chapter 1: Introduction.......................................................................................... 1 Disease ecology: parasites, hosts, and environment.................................. 1 Myxozoan parasites..................................................................................... 4 Environmental influences on myxozoan infection......................... 5 Ceratomyxa shasta..................................................................................... 8 Environmental influence on Ceratomyxa shasta infection............ 9 Epidemiological models............................................................................. 10 Survival analysis......................................................................................... 12 Research objectives.................................................................................... 14 References.................................................................................................. 17 Chapter 2: Relationship between temperature and C. shasta–induced mortality in Klamath River salmonids......................................................................................... 24 Abstract........................................................................................................ 25 Introduction................................................................................................. 27 Methods and Materials................................................................................. 30 Results.......................................................................................................... 34 Discussion..................................................................................................... 38 Acknowledgements...................................................................................... 44 Literature cited.............................................................................................. 45 Chapter 3: Estimation of Transmission Dynamics of the Ceratomyxa shasta Actinospore Stage to the Salmonid Host.................................................................. 54

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Title: Modeling Abiotic Influences on Disease Dynamics for the Complex Life Cycle of the Myxozoan Temperature is the most influential abiotic factor and affects both the aquatic host and the parasite's spore Pietrock, M. & Marcogliese, D.J. (2003) Free-living endohelminth stages: at the mercy of.
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