Kenneth L. Tanaka Thomas Platz James A. Skinner 2014 <p><span>Consistently mappable units critical to distinguishing the style and interplay of geologic processes through time are sparse in the Martian lowlands. This study identifies a previously unmapped Middle Amazonian (ca. 1 Ga) unit (Middle Amazonian lowland unit, mAl) that postdates the Late Hesperian and Early Amazonian lowland plains by &gt;2 b.y. The unit is regionally defined by subtle marginal scarps and slopes, has a mean thickness of 32 m, and extends &gt;3.1 &times; 10</span><span>6</span><span>&nbsp;km</span><span>2</span><span>&nbsp;between lat 35&deg;N and 80&deg;N. Pedestal-type craterforms and nested, arcuate ridges (thumbprint terrain) tend to occur adjacent to unit mAl outcrops, suggesting that current outcrops are vestiges of a more extensive deposit that previously covered &sim;16 &times; 10</span><span>6</span><span>&nbsp;km</span><span>2</span><span>. Exposed layers, surface pits, and the draping of subjacent landforms allude to a sedimentary origin, perhaps as a loess-like deposit emplaced rhythmically through atmospheric fallout. We propose that unit mAl accumulated coevally with, and at the expense of, the erosion of the north polar basal units, identifying a major episode of Middle Amazonian climate-driven sedimentation in the lowlands. This work links ancient sedimentary processes to climate change that occurred well before those implied by current orbital and spin axis models.</span></p> application/pdf 10.1130/G33513.1 en Geological Society of America Widespread loess-like deposit in the Martian northern lowlands identifies Middle Amazonian climate change article