Effects of nest type and sex on blood saccharide profiles in Humboldt penguins (Spheniscus humboldti): Implications for habitat conservation.

Reproductive success of endangered Humboldt penguin (Spheniscus humboldti) colonies in Peru has been associated with nesting habitat type, presumably due to differences in environmental exposure and activity patterns that may affect energy demands and metabolism. Gas chromatography and mass spectrometry were used to determine serum concentrations of 19 saccharides from 30 Humboldt penguins nesting at Punta San Juan, Peru in order to evaluate differences in metabolic state between penguins nesting in a sheltered burrow or crevice (n = 17) and those in exposed surface nests (n = 13). Univariate and multivariate statistical analyses identified serum saccharides (arabinose, maltose, glucose-6-phosphate, and levoglucosenone in particular) that were nest-dimorphic with substantial differences between surface- and sheltered-nesting penguins. Four sugars (arabinose, xylose, fructose-6-phosphate, and sucrose) had ≥ 2-fold difference in concentration between nest types. Seven saccharides were in the top five subsets generated by discriminant analysis; four of these are simple sugars (D-glucopyranose, α ⇄ β; D-glucose; D-maltose; and D-mannose) and three are derivatives (glucose 6-phosphate, levoglucosenone, and N-acetylglucosamine). D-ribose had the highest information values (generated from weight-of-evidence values) followed by glucose 6-phosphate, levoglucosenone, and D-galactose. Sex was not a significant predictor of saccharide concentration. Levoglucosenone, which is a metabolite of the environmental contaminant levoglucosan, was significantly higher in surface-nesting penguins, reflecting a higher rate of exposure in non-sheltered penguins. Differences in the saccharide profiles of surface- and sheltered-nesting Humboldt penguins likely reflect increased metabolic requirements of surface-nesters at Punta San Juan. Conservation of appropriate sheltered-nesting habitat for penguins is essential for sustained reproductive success and colony health

Evaluation of a pressure sensitive walkway for objective gait analysis in normal and arthritic domestic ducks (Cairina moschata domestica).

Objective gait evaluation with a pressure sensitive walkway (PSW) has been used to assess welfare of poultry and to assess lameness and response to therapy in domestic mammals. Objective gait analysis of birds with lameness due to pododermatitis, osteoarthritis, and other common diseases could provide non-biased assessment and therapeutic monitoring for zoo clinicians. The objective of this study was to evaluate the use of a PSW for objective gait analysis in normal domestic ducks (Cairina moschata domestica) and those with experimentally induced arthritis. Eighteen healthy adult ducks walked across the PSW four times in each experiment at each time point. For experiment 1, gait parameters (step and stride distances and velocities, maximum force, impulse, and peak pressure) were calculated for each foot in each duck (time 0). For experiment 2, six of these ducks were randomly selected, anesthetized, and administered a unilateral intra-tarsal injection of monosodium urate solution to induce arthritis. Serial PSW trials were repeated at 1, 2, 3, 4, 8, and 24 hours post-injection. Gait parameters were calculated and compared at each time point, including baseline at time 0. Among the normal ducks, there were no significant differences between right and left feet for any gait parameter. Maximum force and impulse were significantly lower for the affected limb at the 3- and 4-hour time points in ducks with unilateral induced arthritis. This asymmetry was resolved by 8 hours post injection. This PSW transient arthritis model allows for objective assessment of lameness in domestic ducks with maximum force and impulse serving as the most sensitive gait parameters for lameness detection. This method has potential as a model to assess analgesic efficacy for zoo-housed waterfowl and other avian species

SERUM ACUTE-PHASE PROTEINS IN BOTTLENOSE DOLPHINS ( TURSIOPS TRUNCATUS ) AND CORRELATION WITH COMMONLY UTILIZED INFLAMMATORY INDICES

Acute-phase proteins (APP) are the foundation to the innate immune response and valuable biomarkers that increase with inflammation, infection, neoplasia, stress, and trauma. Little is known about the acute-phase response in cetaceans and if these proteins can be used for health monitoring in individuals and free-ranging populations. The purpose of this study was to characterize serum concentrations of haptoglobin (Hp) and serum amyloid A (SAA), as well as electrophoretic profiles of common bottlenose dolphins ( ) in free-ranging ( = 33) and professional care ( = 27) settings. Results were correlated to commonly utilized inflammatory indices including erythrocyte sedimentation rate (ESR), fibrinogen, total white blood cell count (WBC), and absolute neutrophil count. SAA levels, measured with a dolphin-specific enzyme linked immunosorbent assay (ELISA), were significantly higher ( = 0.05) in free-ranging dolphins (mean = 4.26; SE = 1.12) when compared with those under professional care (mean = 1.82; SE = 0.45). For dolphins under professional care, a statistically significant correlation was identified between ESR and Hp ( < 0.001; = 0.69), ESR and SAA ( < 0.001; = 0.67), fibrinogen and Hp ( = 0.001; = 0.58), and fibrinogen and SAA ( = 0.002; = 0.56). In addition, there was a significant correlation between WBC and SAA ( = 0.01; = 0.38) and absolute neutrophil count and SAA ( = 0.04; = 0.32). There were no significant correlations between study variables observed in free-ranging dolphins. The variable correlation of APPs with commonly utilized inflammatory indices demonstrates that these proteins are independent measures of inflammation with unique sensitivity, specificity, and timeline of expression. The results of this study contribute to improved health monitoring of dolphins and have the potential to assist in identification of compromised health