Under pressure: the extraordinary survival of seal lice in the depth of the sea

LEONARDI, MARIA SOLEDAD; CRESPO, JOSÉ E.; SOTO, FLORENCIA A.; VERA, RICARDO B.; RUA, JULIO C.; LAZZARI, CLAUDIO R.

JOURNAL OF EXPERIMENTAL BIOLOGY

COMPANY OF BIOLOGISTS LTD

Año: 2020 vol. 223

0022-0949

Lice from pinnipeds, i.e. sea lions, seals, and walruses, are the only insects capable of surviving marine dives. Along their evolutionary history, they adapted to tolerate hypoxia, high salinity, low temperature and, in particular, to tolerate conditions of high hydrostatic pressure. To understand the limits of the capacity of lice to survive during host deep dives, we conducted a series of controlled experiments in the laboratory. We collected lice from elephant seals and submitted the different life stages to high pressure conditions. Lice were first exposed to one of four hydrostatic pressures: (a) 30 Kg/cm2; (b) 80 Kg/cm2; (c) 150 Kg/cm2, or (d) 200 Kg/cm2. They were then exposed a second time to higher or lower hydrostatic pressure conditions to test for the impact of the first experience, which could either be deleterious or trigger physiological adaption, allowing them a better tolerance to high pressure. We found that lice from elephant seals can tolerate hydrostatic pressures higher than 200 Kg/cm2 (close to 200 atm), equivalent to 2000 m depth. Adults exhibited lower recovery times than nymphs after immersion at high hydrostatic pressure. Our findings show that lice developed unique adaptations to endure extreme marine conditions. We discuss these extreme performances as related to the morphological characteristics and physiological responses to diving in these insects.