A Fluvio-Lacustrine Environment Preserved in the Jezero Crater Inlet Channel, Neretva Vallis, Mars

Alexander J. Jones; Robert Barnes; Sanjeev Gupta; Gerhard Paar; Joel Hurowitz; Brittan V. Wogsland; Adrian Broz; Hemani Kalucha; Athanasios Klidaras; Kathryn M. Stack; Patrick Russell; Briony Horgan; Bradley Garczynski; Melissa Rice; James F. Bell; Jusin N. Maki; Svein Erik Hamran; Alicia Vaughan; Justin I. Simon; Oak Kanine; Stephanie A. Connell; Henry Manelski; Ashley Murphy; Olivier Beyssac; Nicolas Mangold; Olivier Gasnault; Christoph Traxler; Adrian Brown; David Flannery; Nicolas Randazzo; Jesús Martínez-Frías; Kenneth A. Farley

doi:10.1029/2025JE009420

A Fluvio-Lacustrine Environment Preserved in the Jezero Crater Inlet Channel, Neretva Vallis, Mars

Alexander J. Jones
, Robert Barnes
, Sanjeev Gupta
, Gerhard Paar
, Joel Hurowitz
, Brittan V. Wogsland
, Adrian Broz
, Hemani Kalucha
, Athanasios Klidaras
, Kathryn M. Stack
, Patrick Russell
, Briony Horgan
, Bradley Garczynski
, Melissa Rice
, James F. Bell
, Jusin N. Maki
, Svein Erik Hamran
, Alicia Vaughan
, Justin I. Simon
, Oak Kanine

Stephanie A. Connell, Henry Manelski, Ashley Murphy, Olivier Beyssac, Nicolas Mangold, Olivier Gasnault, Christoph Traxler, Adrian Brown, David Flannery, Nicolas Randazzo, Jesús Martínez-Frías, Kenneth A. Farley

Geosciences

Imperial College London
Joanneum Research
University of Tennessee
Purdue University
California Institute of Technology
University of California at Los Angeles
Western Washington University
Arizona State University
University of Oslo
Apogee Engineering
NASA Johnson Space Center
Planetary Science Institute
Sorbonne Université
Nantes Université
Institute de Recherche en Astrophysique et Planétologie
VRVis Research Center for Virtual Reality and Visualization
Plancius Research
Queensland University of Technology
University of Alberta
CSIC-UCM - Instituto de Geociencias (IGEO)

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Martian fluvial valleys provide evidence for the surface flow of liquid water, making them a key target for rover-based investigations of ancient habitability. The Mars 2020 Perseverance rover spent ∼85 sols exploring the Bright Angel formation, exposed across the floor of Neretva Vallis: the western inlet channel of Jezero crater. This study documents the sedimentology and stratigraphy of the Bright Angel formation to reconstruct its depositional setting. The unit preserves a concave-up bedding structure consistent with a young channel-fill deposit, rather than an older unit exposed by incision of Neretva Vallis. The lower stratigraphy displays a fining-up sequence from coarse-grained sediments up to pebble-conglomerates (the Tuff Cliff member) into a ≥10-m-thick succession of laminated mudstone (the Walhalla Glades member), interpreted as a transgressive sequence recording the onset of lacustrine conditions in Neretva Vallis. Lenses of matrix-supported granule-conglomerate adjacent to the valley wall (the Fern Glen Rapids member) may preserve locally derived debris flows entering the lake. These are overlain by a polymict, matrix-supported, boulder-conglomerate (the Mount Spoonhead member), interpreted as a high-energy debrite derived from the watershed. The sequence is capped by cross-stratified sediments (the Serpentine Rapids member), preserving lake margin deposits. The Bright Angel lacustrine sequence occurs ∼10–50 m higher in elevation than the lake level anticipated for the Jezero western delta, requiring an additional period of lacustrine activity. The structure and spatial distribution of the unit leads us to propose that a late-stage blockage of Neretva Vallis may have facilitated the formation of a perched, valley-confined lake upstream.

Original language	English
Article number	e2025JE009420
Journal	Journal of Geophysical Research: Planets
Volume	131
Issue number	1
DOIs	https://doi.org/10.1029/2025JE009420
State	Published - Jan 2026

Keywords

Jezero crater
Mars
habitability
lacustrine
sedimentology
stratigraphy

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10.1029/2025JE009420

Cite this

Jones, A. J., Barnes, R., Gupta, S., Paar, G., Hurowitz, J., Wogsland, B. V., Broz, A., Kalucha, H., Klidaras, A., Stack, K. M., Russell, P., Horgan, B., Garczynski, B., Rice, M., Bell, J. F., Maki, J. N., Hamran, S. E., Vaughan, A., Simon, J. I., ... Farley, K. A. (2026). A Fluvio-Lacustrine Environment Preserved in the Jezero Crater Inlet Channel, Neretva Vallis, Mars. Journal of Geophysical Research: Planets, 131(1), Article e2025JE009420. https://doi.org/10.1029/2025JE009420

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title = "A Fluvio-Lacustrine Environment Preserved in the Jezero Crater Inlet Channel, Neretva Vallis, Mars",

abstract = "Martian fluvial valleys provide evidence for the surface flow of liquid water, making them a key target for rover-based investigations of ancient habitability. The Mars 2020 Perseverance rover spent ∼85 sols exploring the Bright Angel formation, exposed across the floor of Neretva Vallis: the western inlet channel of Jezero crater. This study documents the sedimentology and stratigraphy of the Bright Angel formation to reconstruct its depositional setting. The unit preserves a concave-up bedding structure consistent with a young channel-fill deposit, rather than an older unit exposed by incision of Neretva Vallis. The lower stratigraphy displays a fining-up sequence from coarse-grained sediments up to pebble-conglomerates (the Tuff Cliff member) into a ≥10-m-thick succession of laminated mudstone (the Walhalla Glades member), interpreted as a transgressive sequence recording the onset of lacustrine conditions in Neretva Vallis. Lenses of matrix-supported granule-conglomerate adjacent to the valley wall (the Fern Glen Rapids member) may preserve locally derived debris flows entering the lake. These are overlain by a polymict, matrix-supported, boulder-conglomerate (the Mount Spoonhead member), interpreted as a high-energy debrite derived from the watershed. The sequence is capped by cross-stratified sediments (the Serpentine Rapids member), preserving lake margin deposits. The Bright Angel lacustrine sequence occurs ∼10–50 m higher in elevation than the lake level anticipated for the Jezero western delta, requiring an additional period of lacustrine activity. The structure and spatial distribution of the unit leads us to propose that a late-stage blockage of Neretva Vallis may have facilitated the formation of a perched, valley-confined lake upstream.",

keywords = "Jezero crater, Mars, habitability, lacustrine, sedimentology, stratigraphy",

author = "Jones, \{Alexander J.\} and Robert Barnes and Sanjeev Gupta and Gerhard Paar and Joel Hurowitz and Wogsland, \{Brittan V.\} and Adrian Broz and Hemani Kalucha and Athanasios Klidaras and Stack, \{Kathryn M.\} and Patrick Russell and Briony Horgan and Bradley Garczynski and Melissa Rice and Bell, \{James F.\} and Maki, \{Jusin N.\} and Hamran, \{Svein Erik\} and Alicia Vaughan and Simon, \{Justin I.\} and Oak Kanine and Connell, \{Stephanie A.\} and Henry Manelski and Ashley Murphy and Olivier Beyssac and Nicolas Mangold and Olivier Gasnault and Christoph Traxler and Adrian Brown and David Flannery and Nicolas Randazzo and Jes{\'u}s Mart{\'i}nez-Fr{\'i}as and Farley, \{Kenneth A.\}",

note = "Publisher Copyright: {\textcopyright} 2026. The Author(s).",

year = "2026",

month = jan,

doi = "10.1029/2025JE009420",

language = "English",

volume = "131",

journal = "Journal of Geophysical Research: Planets",

issn = "2169-9097",

number = "1",

}

Jones, AJ, Barnes, R, Gupta, S, Paar, G, Hurowitz, J, Wogsland, BV, Broz, A, Kalucha, H, Klidaras, A, Stack, KM, Russell, P, Horgan, B, Garczynski, B, Rice, M, Bell, JF, Maki, JN, Hamran, SE, Vaughan, A, Simon, JI, Kanine, O, Connell, SA, Manelski, H, Murphy, A, Beyssac, O, Mangold, N, Gasnault, O, Traxler, C, Brown, A, Flannery, D, Randazzo, N, Martínez-Frías, J & Farley, KA 2026, 'A Fluvio-Lacustrine Environment Preserved in the Jezero Crater Inlet Channel, Neretva Vallis, Mars', Journal of Geophysical Research: Planets, vol. 131, no. 1, e2025JE009420. https://doi.org/10.1029/2025JE009420

TY - JOUR

T1 - A Fluvio-Lacustrine Environment Preserved in the Jezero Crater Inlet Channel, Neretva Vallis, Mars

AU - Jones, Alexander J.

AU - Barnes, Robert

AU - Gupta, Sanjeev

AU - Paar, Gerhard

AU - Hurowitz, Joel

AU - Wogsland, Brittan V.

AU - Broz, Adrian

AU - Kalucha, Hemani

AU - Klidaras, Athanasios

AU - Stack, Kathryn M.

AU - Russell, Patrick

AU - Horgan, Briony

AU - Garczynski, Bradley

AU - Rice, Melissa

AU - Bell, James F.

AU - Maki, Jusin N.

AU - Hamran, Svein Erik

AU - Vaughan, Alicia

AU - Simon, Justin I.

AU - Kanine, Oak

AU - Connell, Stephanie A.

AU - Manelski, Henry

AU - Murphy, Ashley

AU - Beyssac, Olivier

AU - Mangold, Nicolas

AU - Gasnault, Olivier

AU - Traxler, Christoph

AU - Brown, Adrian

AU - Flannery, David

AU - Randazzo, Nicolas

AU - Martínez-Frías, Jesús

AU - Farley, Kenneth A.

PY - 2026/1

Y1 - 2026/1

N2 - Martian fluvial valleys provide evidence for the surface flow of liquid water, making them a key target for rover-based investigations of ancient habitability. The Mars 2020 Perseverance rover spent ∼85 sols exploring the Bright Angel formation, exposed across the floor of Neretva Vallis: the western inlet channel of Jezero crater. This study documents the sedimentology and stratigraphy of the Bright Angel formation to reconstruct its depositional setting. The unit preserves a concave-up bedding structure consistent with a young channel-fill deposit, rather than an older unit exposed by incision of Neretva Vallis. The lower stratigraphy displays a fining-up sequence from coarse-grained sediments up to pebble-conglomerates (the Tuff Cliff member) into a ≥10-m-thick succession of laminated mudstone (the Walhalla Glades member), interpreted as a transgressive sequence recording the onset of lacustrine conditions in Neretva Vallis. Lenses of matrix-supported granule-conglomerate adjacent to the valley wall (the Fern Glen Rapids member) may preserve locally derived debris flows entering the lake. These are overlain by a polymict, matrix-supported, boulder-conglomerate (the Mount Spoonhead member), interpreted as a high-energy debrite derived from the watershed. The sequence is capped by cross-stratified sediments (the Serpentine Rapids member), preserving lake margin deposits. The Bright Angel lacustrine sequence occurs ∼10–50 m higher in elevation than the lake level anticipated for the Jezero western delta, requiring an additional period of lacustrine activity. The structure and spatial distribution of the unit leads us to propose that a late-stage blockage of Neretva Vallis may have facilitated the formation of a perched, valley-confined lake upstream.

AB - Martian fluvial valleys provide evidence for the surface flow of liquid water, making them a key target for rover-based investigations of ancient habitability. The Mars 2020 Perseverance rover spent ∼85 sols exploring the Bright Angel formation, exposed across the floor of Neretva Vallis: the western inlet channel of Jezero crater. This study documents the sedimentology and stratigraphy of the Bright Angel formation to reconstruct its depositional setting. The unit preserves a concave-up bedding structure consistent with a young channel-fill deposit, rather than an older unit exposed by incision of Neretva Vallis. The lower stratigraphy displays a fining-up sequence from coarse-grained sediments up to pebble-conglomerates (the Tuff Cliff member) into a ≥10-m-thick succession of laminated mudstone (the Walhalla Glades member), interpreted as a transgressive sequence recording the onset of lacustrine conditions in Neretva Vallis. Lenses of matrix-supported granule-conglomerate adjacent to the valley wall (the Fern Glen Rapids member) may preserve locally derived debris flows entering the lake. These are overlain by a polymict, matrix-supported, boulder-conglomerate (the Mount Spoonhead member), interpreted as a high-energy debrite derived from the watershed. The sequence is capped by cross-stratified sediments (the Serpentine Rapids member), preserving lake margin deposits. The Bright Angel lacustrine sequence occurs ∼10–50 m higher in elevation than the lake level anticipated for the Jezero western delta, requiring an additional period of lacustrine activity. The structure and spatial distribution of the unit leads us to propose that a late-stage blockage of Neretva Vallis may have facilitated the formation of a perched, valley-confined lake upstream.

KW - Jezero crater

KW - Mars

KW - habitability

KW - lacustrine

KW - sedimentology

KW - stratigraphy

UR - https://www.scopus.com/pages/publications/105027231329

U2 - 10.1029/2025JE009420

DO - 10.1029/2025JE009420

M3 - Article

AN - SCOPUS:105027231329

SN - 2169-9097

VL - 131

JO - Journal of Geophysical Research: Planets

JF - Journal of Geophysical Research: Planets

IS - 1

M1 - e2025JE009420

ER -

A Fluvio-Lacustrine Environment Preserved in the Jezero Crater Inlet Channel, Neretva Vallis, Mars

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Keywords

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