Striped Bass Exercise and Handling Stress in Freshwater: Physiological Responses to Recovery Environment
作者:
JosephJ. Cech,
StevenD. Bartholow,
PacienciaS. Young,
ToddE. Hopkins,
期刊:
Transactions of the American Fisheries Society
(Taylor Available online 1996)
卷期:
Volume 125,
issue 2
页码: 308-320
ISSN:0002-8487
年代: 1996
DOI:10.1577/1548-8659(1996)125<0308:SBEAHS>2.3.CO;2
出版商: Taylor & Francis Group
数据来源: Taylor
摘要:
Freshwater-acclimated subadult striped bassMorone saxatilisthat had undergone cannulation of the dorsal aorta were exercised against a water current at 100 cm·sec−1(2–3 fork lengths·sec−1) for 5 min in freshwater and placed in flow-through holding boxes in a recovery tank at 25°C. Recovery tanks contained water with either 0 (freshwater, FW), 10 (brackish water, BW), or 30 (seawater, SW) g NaCl·L−1or 10 mM NaHCO3−·L−1(buffered freshwater, BFW). A postexercise metabolic acidosis (decreased postexercise blood pH and increased blood lactate) was compensated within 2–4 h in all recovery environments except SW. Arterial O2tension and cortisol, glucose, and hemoglobin concentrations transiently increased immediately after exercise, and arterial CO2tension and HCO3−generally decreased. Plasma Cl−did not change until 2–4 h postexercise, when decreases (FW and BFW), an increase (SW), or no change (BW) indicated passive fluid or Cl−exchanges with the recovery environment. Increasing plasma Cl−in the SW recovery environment inhibited HCO3−retention or uptake, which slowed pH compensation. In summary, postexercise acidoses were corrected and ionic imbalances were minimized by recovery in brackish water (10 g NaCl·L−1).
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