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    Home»Space»NASA’s Mars Perseverance Rover: Sampling Strategy for the Delta Front Campaign
    Space

    NASA’s Mars Perseverance Rover: Sampling Strategy for the Delta Front Campaign

    By Rachel Kronyak, NASA/JPLMay 25, 2022No Comments3 Mins Read
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    Mars Perseverance Sol 439
    Mars Perseverance Sol 439 – Right Navigation Camera: Navcam image looking behind the rover along our drive path. Credit: NASA/JPL-Caltech

    Perseverance is exploring the Jezero delta, adjusting its sampling approach along Hawksbill Gap to collect the most valuable rock cores during the descent based on initial proximity science data.

    The past few weeks have been exciting ones for the NASA Perseverance science team. At the “Enchanted Lake” site, we took our first look at what appears to be some of the bottommost sedimentary layers that make up the Jezero crater delta.

    We’ve since retraced our tracks back towards “Three Forks” and have begun the ascent of the delta near “Hawksbill Gap.” It’s along this Hawksbill Gap route where we nominally intend to perform the majority of sampling activities as part of our Delta Front Campaign.

    As a reminder, Perseverance is carrying 8 rock core samples that were collected during our crater floor campaign. These cores are contained in sealed sample tubes and stored inside Perseverance’s belly for safekeeping. Perseverance’s sampling strategy involves following a carefully choreographed sequence of events that we refer to as our ‘sampling sol path.’ During the crater floor campaign, we carried out the entirety of the sampling sol path at each sampling site – this includes abrasion, proximity, and remote science, and collecting a pair of rock core samples – in one fell swoop.

    Modified Sampling Approach at Hawksbill Gap

    At Hawksbill Gap, however, we may instead carry out the first portion of the sampling sol path (which includes abrasion and collecting observations using our proximity science instruments) at up to 5 locations along our ascent. After that, we’ll turn around and begin a descent back down Hawksbill Gap and collect rock core samples at 3 of our abrasion locations.

    This modified sampling strategy is intended to provide the team with valuable contextual information as we climb Hawksbill Gap and interpret the delta stratigraphy around us. With proximity science data in hand, we can down-select our sampling sites to ensure we’ll be collecting the most scientifically valuable cores along our descent. Of course, we still maintain the option of collecting sample cores at any point during our ascent, if the team decides a particular abrasion site warrants immediate sampling. In the upcoming days and weeks, we hope to begin our abrasion activities at Hawksbill Gap and get our first real taste of the delta!

    Written by Rachel Kronyak, Systems Engineer at NASA/JPL

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