Effect of water depth and water velocity upon the surfacing frequency of the bimodally respiring freshwater turtle, Rheodytes leukops


Autoria(s): Gordos, M. A.; Franklin, C. E.; Limpus, C.
Contribuinte(s)

H. Hoppeler

Data(s)

01/01/2004

Resumo

This study examines the effect of increasing water depth and water velocity upon the surfacing behaviour of the bimodally respiring turtle, Rheodytes leukops. Surfacing frequency was recorded for R. leukops at varying water depths (50, 100, 150 cm) and water velocities (5, 15, 30 cm s(-1)) during independent trials to provide an indirect cost-benefit analysis of aquatic versus pulmonary respiration. With increasing water velocity, R. leukops decreased its surfacing frequency twentyfold, thus suggesting a heightened reliance upon aquatic gas exchange. An elevated reliance upon aquatic respiration, which presumably translates into a decreased air-breathing frequency, may be metabolically more efficient for R. leukops compared to the expenditure (i.e. time and energy) associated with air-breathing within fast-flowing riffle zones. Additionally, R. leukops at higher water velocities preferentially selected low-velocity microhabitats, presumably to avoid the metabolic expenditure associated with high water flow. Alternatively, increasing water depth had no effect upon the surfacing frequency of R. leukops, suggesting little to no change in the respiratory partitioning of the species across treatment settings. Routinely long dives (>90 min) recorded for R. leukops indicate a high reliance upon aquatic O-2 uptake regardless of water depth. Moreover, metabolic and temporal costs attributed to pulmonary gas exchange within a pool-like environment were likely minimal for R. leukops, irrespective of water depth.

Identificador

http://espace.library.uq.edu.au/view/UQ:70464

Idioma(s)

eng

Publicador

The Company of Biologists Ltd

Palavras-Chave #Biology #Turtle #Rheodytes Leukops #Diving #Bimodal Respiration #Aquatic Respiration #Corydoras-aeneus Callichthyidae #American Stream Fishes #Chrysemys-picta-bellii #Air-breathing Catfish #Aquatic Oxygen-uptake #Diving Behavior #Respiratory Behavior #Aerial Respiration #Gas-exchange #Acid-base #C1 #270603 Animal Physiology - Systems #780105 Biological sciences #06 Biological Sciences
Tipo

Journal Article