RT @NatureGeosci: NGeo: Valley formation on early Mars by subglacial and fluvial erosion @agraugal @drcrater @SESEASU @UBCeoas @westernuSp…
RT @RocksNRockets: A massive CONGRATS to @agraugal (@SESEASU), @drcrater (@westernuSpace) & Dr. Mark Jellinek (@UBCeoas) for this work! ❄️🥳…
RT @NatureGeosci: NGeo: Valley formation on early Mars by subglacial and fluvial erosion @agraugal @drcrater @SESEASU @UBCeoas @westernuSp…
RT @CommsEarth: Ice sheets may have covered the southern highlands of Mars according to this study in @NatureGeosci which suggests valleys…
RT @CommsEarth: Ice sheets may have covered the southern highlands of Mars according to this study in @NatureGeosci which suggests valleys…
RT @NatureGeosci: NGeo: Valley formation on early Mars by subglacial and fluvial erosion @agraugal @drcrater @SESEASU @UBCeoas @westernuSp…
RT @NatureGeosci: NGeo: Valley formation on early Mars by subglacial and fluvial erosion @agraugal @drcrater @SESEASU @UBCeoas @westernuSp…
Ice sheets may have covered the southern highlands of Mars according to this study in @NatureGeosci which suggests valleys formed by subglacial processes are widespread on the surface @agraugal @drcrater https://t.co/OeCHiGFC5l https://t.co/EcHMfwAJ58
RT @NatureGeosci: NGeo: Valley formation on early Mars by subglacial and fluvial erosion @agraugal @drcrater @SESEASU @UBCeoas @westernuSp…
RT @drcrater: Very excited to see our paper published in @NatureGeosci in which we propose that many valley networks on early #Mars formed…
RT @drcrater: Very excited to see our paper published in @NatureGeosci in which we propose that many valley networks on early #Mars formed…
RT @NatureGeosci: NGeo: Valley formation on early Mars by subglacial and fluvial erosion @agraugal @drcrater @SESEASU @UBCeoas @westernuSp…
RT @NatureGeosci: NGeo: Valley formation on early Mars by subglacial and fluvial erosion @agraugal @drcrater @SESEASU @UBCeoas @westernuSp…
RT @drcrater: Very excited to see our paper published in @NatureGeosci in which we propose that many valley networks on early #Mars formed…
RT @drcrater: Very excited to see our paper published in @NatureGeosci in which we propose that many valley networks on early #Mars formed…
RT @drcrater: Very excited to see our paper published in @NatureGeosci in which we propose that many valley networks on early #Mars formed…
RT @drcrater: Very excited to see our paper published in @NatureGeosci in which we propose that many valley networks on early #Mars formed…
RT @NatureGeosci: NGeo: Valley formation on early Mars by subglacial and fluvial erosion @agraugal @drcrater @SESEASU @UBCeoas @westernuSp…
RT @drcrater: Very excited to see our paper published in @NatureGeosci in which we propose that many valley networks on early #Mars formed…
RT @NatureGeosci: NGeo: Valley formation on early Mars by subglacial and fluvial erosion @agraugal @drcrater @SESEASU @UBCeoas @westernuSp…
RT @NatureGeosci: NGeo: Valley formation on early Mars by subglacial and fluvial erosion @agraugal @drcrater @SESEASU @UBCeoas @westernuSp…
RT @NatureGeosci: NGeo: Valley formation on early Mars by subglacial and fluvial erosion @agraugal @drcrater @SESEASU @UBCeoas @westernuSp…
RT @drcrater: Very excited to see our paper published in @NatureGeosci in which we propose that many valley networks on early #Mars formed…
Very excited to see our paper published in @NatureGeosci in which we propose that many valley networks on early #Mars formed beneath ice sheets! @westernuSpace @westernuEarth #teamdrcrater
RT @NatureGeosci: NGeo: Valley formation on early Mars by subglacial and fluvial erosion @agraugal @drcrater @SESEASU @UBCeoas @westernuSp…
RT @NatureGeosci: NGeo: Valley formation on early Mars by subglacial and fluvial erosion @agraugal @drcrater @SESEASU @UBCeoas @westernuSp…
NGeo: Valley formation on early Mars by subglacial and fluvial erosion @agraugal @drcrater @SESEASU @UBCeoas @westernuSpace https://t.co/AjcNzlgPzu https://t.co/JVbYu2P5PT