RT Conference Proceedings
T1 The effects of the onset of convection and thermal diapirism for latent biology in the ice shell of Europa
A1 Ruiz Pérez, Javier
A1 Montoya, Lilia
A1 López, Valle
A1 Amils Samalot, Ricardo Ignacio
AB Europa’s chaos and lenticulae may have been originated in relation to thermal diapirs linked to convective upwellings. Thermal convection and diapirism starts if the ice shell is thicker than a critical value (with details depending on the dominant ice rheology, grain size, and intensity of tidal straining). Previously to the onset of convection, possible biological forms living in, or close to, the shell/ocean interphase could result trapped and dormant in ice, due to satellite cooling and thickening of the ice shell. Some biological substances are used to optimize cellular functioning under low water activity conditions, such as low temperature and high osmotic conditions. Trehalose is an example that is frequent in halophilic microorganisms, which could be present on Europa. This kind of compounds can reduce the water melting point to ~230 K, a temperature similar to that at the stagnant lid base. Thus, the onset of thermal diapirism could cause an event of reactivation of dormant biological forms close to the base of the stagnant lid, since diapirs may warm the neighbor ice by tens of thousand of years.
PB Mary Ann Liebert, Inc.
SN 1557-8070
YR 2006
FD 2006
LK https://hdl.handle.net/20.500.14352/54011
UL https://hdl.handle.net/20.500.14352/54011
LA eng
DS Docta Complutense
RD 4 abr 2025