The water abundance in Jupiter's equatorial zone

TL;DR

This study estimates Jupiter's equatorial water abundance using Juno data, suggesting a value around 2.5x10^3 ppm, which has implications for the planet's formation and composition.

Contribution

First measurement of Jupiter's equatorial water abundance from Juno data, providing new insights into planetary formation models.

Findings

Water abundance at equator: approximately 2.5x10^3 ppm

Deep atmosphere shows latitude-dependent variability

Implications for Jupiter's formation and composition

Abstract

Oxygen is the most common element after hydrogen and helium in Jupiter's atmosphere, and may have been the primary condensable (as water ice) in the protoplanetary disk. Prior to the Juno mission, in situ measurements of Jupiter's water abundance were obtained from the Galileo Probe, which dropped into a meteorologically anomalous site. The findings of the Galileo Probe were inconclusive because the concentration of water was still increasing when the probe died. Here, we initially report on the water abundance in the equatorial region, from 0 to 4 degrees north latitude, based on 1.25 to 22 GHz data from Juno Microwave radiometer probing approximately 0.7 to 30 bars pressure. Because Juno discovered the deep atmosphere to be surprisingly variable as a function of latitude, it remains to confirm whether the equatorial abundance represents Jupiter's global water abundance. The water abundance at the equatorial region is inferred to be $2.5_{-1.6}^{+2.2}\times10^3$ ppm, or $2.7_{-1.7}^{+2.4}$ times the protosolar oxygen elemental ratio to H (1$\sigma$ uncertainties). If reflective of the global water abundance, the result suggests that the planetesimals formed Jupiter are unlikely to be water-rich clathrate hydrates.