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2. Methods in health assessment of freshwater mussels, Amblema plicata and Quadrula spp

Author

Valentine, K. Hope

Subjects
Veterinary Services, Water Resource Management, Wildlife Conservation, Wildlife Management, Zoology, Bivalve health, Freshwater mussels, Amblema plicata, Quadrula quarula, Quadrula pustulosa, Hemocytes, Hemolymph
Abstract

Health monitoring that is non-invasive, repeatable, and sensitive is a critical need for North America’s most endangered animal, the freshwater mussel. Ohio is home to a large proportion of these threatened animals and in response has established a captive flow through facility for research and propagation. Currently there is gap in knowledge of mussel physiology and health requirements in the wild and in captivity, representing an urgent need for health assessment methods. Hemolymph, the circulatory fluid of bivalves, and the cellular portion called hemocytes, are just beginning to be investigated in freshwater mussels. Recent studies have shown that hemolymph can be safely and repeatedly drawn. In addition, a schematic for freshwater mussels’ hemocytes was developed using L-cysteine as a novel anticoagulant. Following trends in hemolymph biochemistry and cellular differentials may be a way to monitor the health of freshwater mussel populations in the wild and in captivity; however, current handling protocols for transport of hemolymph are unknown. This thesis aimed to develop hemolymph handling protocols to preserve cellular integrity and function over time and during transport; to develop baseline biochemical and hematologic reference ranges in a population of wild mussels; and to describe population trends in biochemical and hematological parameters over one year following translocation of animals into captivity. Due to the marked physiological differences between invertebrate and vertebrate species, handling protocols for hemolymph and cell enumeration cannot be inferred from mammalian based research. Given that the majority of laboratories are 1-4 hours away from the wild locations or captive facility, handling protocols during transport to minimize in-vitro effects were developed. The second chapter of this thesis investigated processing temperatures for hemolymph, the ideal pH for reconstitution of the anticoagulant L-cysteine, and the effects of prolonged exposure to L-cysteine in-vitro. Towards an optimal method for hemocyte enumeration, cytochalasin B, genistein, and a lower dose of formalin than previously published were evaluated. Total hemocyte count, percentage of viable cells, and presence or absence of cellular debris as an indicator of cell lysis and degranulation were compared for each experiment. Chapter 2 found that exposure of hemocytes to temperatures below 10 degrees Celsius increased cellular aggregation in-vitro and decreased cellular viability. Only formalin treatments were found to increase total cell counts. Treatment of hemocytes with formalin, L-cysteine, cytochalasin B, and genistein resulted in a marked production of cellular debris at one hour post exposure. Untreated hemocytes at ambient temperature can maintain a high level of viability (80-93%) for up to 24 hours. Therefore, hemocytes should be transported without fixative or anticoagulant at ambient temperature. It is recommended that hemocytes only be exposed to L-cysteine (25mg/ml, pH 8.0) just prior to slide preparations for morphological analysis. Hemolymph chemistry may be a useful non-lethal indicator of bivalve physiological processes once reference ranges are established to differentiate normal from abnormal fluctuations in health. Chapter 3 aimed to establish reference ranges for the following measurable components in hemolymph: sodium, chloride, magnesium, phosphorus, potassium, calcium, glucose, and isoenzymes alanine aminotransferase (ALT), aspartate aminotransferase (AST), and alkaline phosphatase (ALP) in a population of mussels in the wild and follow changes in the biochemistry of hemolymph from the same population translocated into captivity over one year. Hemolymph from forty animals of three species, Amblema plicata, Quadrula quadrula, and Quadrula pustulosa was collected in July of 2008 from the Muskingum River in Devola, Ohio to develop baseline reference ranges. Thirty of those forty animals were translocated into captivity, with nine captive controls. Animals were sampled biweekly for the first month and then quarterly over one year. Significant differences in sodium, potassium, chloride, magnesium, ALT, AST, and ALP were found between genera, A. plicata and Quadrula spp. at baseline (p In mammalian medicine, a complete blood cell count is a crucial piece of the minimal health database for diagnosis of potential disease or routine health checkups. Recent development of a standardized method for hemocyte characterization in freshwater mussels has paved the way for application of this technique to monitor freshwater mussels in the wild and in captivity. However, before interpretations of normal and abnormal fluctuations in cell type can take place, reference ranges need to be developed. This study aimed to provide preliminary baseline reference ranges from two common freshwater mussel genera, Amblema and Quadrula in the wild during the peak summer field season, then translocated animals into captivity for monitoring of hemocytology trends in a captivity over one year. Cell differentials were found to be genus-specific at baseline and for the first month in captivity (p< 0.05). Total hemocyte counts between genera differed significantly at 2wks and in November (p

Published
2011

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