• Title of article

    Influence of estuarine hypoxia on feeding and sound production by two sympatric pipefish species (Syngnathidae)

  • Author/Authors

    Jennifer L. Ripley، نويسنده , , Christy M. Foran، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2007
  • Pages
    18
  • From page
    350
  • To page
    367
  • Abstract
    This research utilizes the acoustic behavior of two sympatric pipefish species to assess the impact of hypoxia on feeding. We collected northern, Syngnathus fuscus, and dusky pipefishes, Syngnathus floridae, from the relatively pristine Chincoteague Bay, Virginia, USA and audiovisually recorded behavior in the laboratory of fish held in normoxic (>5 mg/L O2) and hypoxic (2 and 1 mg/L O2) conditions. Both species produced high frequency ( 0.9–1.4 kHz), short duration (3–22 msec) clicks. Feeding strikes were significantly correlated with both wet weight of ingested food and click production. Thus, sound production serves as an accurate measure of feeding activity. In hypoxic conditions, reduced food intake corresponded with decreased sound production. Significant declines in both behaviors were evident after 1 day and continued as long as hypoxic conditions were maintained. Interspecific differences in sensitivity were detected. Specifically, S. floridae showed a tendency to perform head snaps at the surface. S. fuscus exhibited a breakdown in the coupling of sound production with food intake in 2 mg/L O2 with clicks produced in other contexts, particularly choking and food expulsion. Reductions in feeding will ultimately impact growth, health, and eventually reproduction as resources are devoted to survival instead of gamete production and courtship. This work suggests acoustic monitoring of field sites with adverse environmental conditions may reflect changes in feeding behavior in addition to population dispersal.
  • Keywords
    Hypoxia , feeding , sound production , Syngnathus Xoridae , Syngnathus fuscus
  • Journal title
    Marine Environmental Research
  • Serial Year
    2007
  • Journal title
    Marine Environmental Research
  • Record number

    924024