Add to ORKGProcesses that operate at planetary surfaces have the potential to record a history of planetary evolution in the form of sedimentary rocks. This is important because our experience on Earth shows that sediments and sedimentary rocks are the dominant archive of high-resolution proxies of present and past tectonic, climatic, and biological processes. Our understanding of the evolution of Earth’s very ancient climate and paleobiological records derives from detailed examination of the mineralogical, textural, and geochemical signatures preserved in the sedimentary rock record. Sedimentary rocks were first recognized on Mars less than a decade ago (Malin and Edgett, 2000). Recent interpretations of data collected by the Mars Express ...
The NASA Curiosity rover has investigated a diverse stratigraphic record at Gale crater, Mars, rangi...
The strategy for locating and sampling possible fossilized Martian organisms benefits from our exper...
High-resolution orbital and in situ observations acquired of the Martian surface during the past two...
Processes that operate at planetary surfaces have the potential to record a history of planetary ev...
Mars has a sedimentary history that spans billions of years. Orbital images have allowed for the ide...
Two decades of intensive research have demonstrated that early Mars (2 Gyr) had an active sedimentar...
Over the last decade, orbital and landed missions have revealed a diverse and extensive sedimentary ...
Sedimentary rocks on Mars provide insight into past aqueous and atmospheric processes, climate regim...
Seeking the signs of life on Mars is often considered the "first among equal" objectives for any pot...
Over the past few decades, orbiters, landers, and rovers have significantly expanded our understandi...
Anticipated human missions to Mars require a methodical understanding of the unconsolidated bulk sed...
This work combines several studies related to the sedimentary rock record of Mars. Data from severa...
The history of surface processes on Mars is recorded in the sedimentary rock record. Sedimentary roc...
Sedimentary rocks provide records of past surface and subsurface processes and environments. The fir...
Although present Martian surface conditions appear unfavorable for life as we know it, there is comp...
The NASA Curiosity rover has investigated a diverse stratigraphic record at Gale crater, Mars, rangi...
The strategy for locating and sampling possible fossilized Martian organisms benefits from our exper...
High-resolution orbital and in situ observations acquired of the Martian surface during the past two...
Processes that operate at planetary surfaces have the potential to record a history of planetary ev...
Mars has a sedimentary history that spans billions of years. Orbital images have allowed for the ide...
Two decades of intensive research have demonstrated that early Mars (2 Gyr) had an active sedimentar...
Over the last decade, orbital and landed missions have revealed a diverse and extensive sedimentary ...
Sedimentary rocks on Mars provide insight into past aqueous and atmospheric processes, climate regim...
Seeking the signs of life on Mars is often considered the "first among equal" objectives for any pot...
Over the past few decades, orbiters, landers, and rovers have significantly expanded our understandi...
Anticipated human missions to Mars require a methodical understanding of the unconsolidated bulk sed...
This work combines several studies related to the sedimentary rock record of Mars. Data from severa...
The history of surface processes on Mars is recorded in the sedimentary rock record. Sedimentary roc...
Sedimentary rocks provide records of past surface and subsurface processes and environments. The fir...
Although present Martian surface conditions appear unfavorable for life as we know it, there is comp...
The NASA Curiosity rover has investigated a diverse stratigraphic record at Gale crater, Mars, rangi...
The strategy for locating and sampling possible fossilized Martian organisms benefits from our exper...
High-resolution orbital and in situ observations acquired of the Martian surface during the past two...