Life on the edge: incubation behaviour and physiological performance of squat lobsters in oxygen-minimum conditions

Gallardo, Maria D,; Rojas, I.; Brokordt, K.; Lovrich, G.; Nuñez, V.; Paschke, K.; Thiel, M.; Yannicelli, B.

Abstract

Squat lobsters frequently inhabit low-oxygen waters, facing particular physiological challenges. Pleuroncodes monodon inhabits one of the most extreme oxygen minimum zones in the world’s oceans at low temperatures, but avoids high temperature hypoxic waters. The present study aimed to determine whether the maternally dependent reproductive outcome is compromised under realistic oxygen/temperature conditions (normoxia and 0.7 mg l–1 at 11° and 15°C) and to evaluate some potential metabolic bases. Females incubated for a significantly longer time at low as compared to high temperatures, but reproductive success was only compromised under hypoxic conditions. Brood viability and synchrony were affected by temperature and its interaction with oxygen concentration (especially under hypoxic conditions and 15°C). Non-viable larvae were hatched at hypoxia-15°C, and larvae hatched in hypoxia-11°C did not survived until molting. Under normoxic conditions, ventilation of the brood mass decreased with advancing embryo development, but remained high or increased under hypoxic conditions, especially at high temperatures. After releasing their broods, females from all treatments had developing oocytes in their ovaries, but the proportion of oocytes in secondary vitellogenesis was larger at 15°C. The diameter of oocytes in secondary vitellogenesis was significantly smaller in hypoxia treatments. Oxygen consumption of ovigerous P. monodon was generally higher at 15°C, especially at normoxia, and their critical point was significantly larger at 15°C. Under hypoxic conditions ovigerous females compensated their energetic requirements using anaerobic pathways (increase of PK/CS ratio and lactate). This suggests that this and other species living in hypoxic waters might suffer severe challenges in a warming ocean.

Más información

Título de la Revista: MARINE ECOLOGY PROGRESS SERIES
Editorial: INTER-RESEARCH
Fecha de publicación: 2019