AI Article Synopsis
- Respiratory plasticity in red drum fish allows them to adapt beneficially to chronic low oxygen levels encountered in their natural Gulf of Mexico habitat.
- A study exposed red drum embryos to either low or normal oxygen levels for three days post-fertilization, revealing no immediate differences in survival or size.
- After being reared in normoxic conditions, hypoxia-exposed fish showed improved aerobic capacity but also increased sensitivity to hypoxia, indicating a complex impact of early hypoxic exposure on their future swimming performance and metabolic efficiency.
Article Abstract
Respiratory plasticity is a beneficial response to chronic hypoxia in fish. Red drum, a teleost that commonly experiences hypoxia in the Gulf of Mexico, have shown respiratory plasticity following sublethal hypoxia exposure as juveniles, but implications of hypoxia exposure during development are unknown. We exposed red drum embryos to hypoxia (40% air saturation) or normoxia (100% air saturation) for 3 days post fertilization (dpf). This time frame encompasses hatch and exogenous feeding. At 3 dpf, there was no difference in survival or changes in size. After the 3-day hypoxia exposure, all larvae were moved and reared in common normoxic conditions. Fish were reared for ∼3 months and effects of the developmental hypoxia exposure on swim performance and whole-animal aerobic metabolism were measured. We used a cross design wherein fish from normoxia (N=24) were exercised in swim tunnels in both hypoxia (40%, n=12) and normoxia (100%, n=12) conditions, and likewise for hypoxia-exposed fish (n=10 in each group). Oxygen consumption, critical swim speed (Ucrit), critical oxygen threshold (Pcrit) and mitochondrial respiration were measured. Hypoxia-exposed fish had higher aerobic scope, maximum metabolic rate, and higher liver mitochondrial efficiency relative to control fish in normoxia. Interestingly, hypoxia-exposed fish showed increased hypoxia sensitivity (higher Pcrit) and recruited burst swimming at lower swim speeds relative to control fish. These data provide evidence that early hypoxia exposure leads to a complex response in later life.
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| http://dx.doi.org/10.1242/jeb.247618 | DOI Listing |
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