2021
Grindrod, P.M., J.M. Davis, S.J. Conway, and T. de Haas (2021), Active Boulder Falls in Terra Sirenum, Mars: Constraints on Timing and Causes, Geophys. Res. Lett., (accepted).
Magnarini, G., T.M. Mitchell, P.M. Grindrod, H.H. Schmitt and N.E. Petro (2021), Scaling Relationship Between the Wavelength of Longitudinal Ridges and the Thickness of Long Runout Landslides on the Moon, J. Geophys. Res., (accepted).
Fawdon, P., P.M. Grindrod, C. Orgel, E. Sefton-Nash, S. Adeli, M. Balme, G. Cremonese, J. Davis, A. Frigeri, E. Hauber, L. Le Deit, D. Loizeau, A. Nass, A. Parkes-Bowen, C. Quantin-Nataf, N. Thomas, J.L. Vago, and M. Volat (2021), The geography of Oxia Planum, J. Maps, 17:2, 752-768(OPEN ACCESS).
Magnarini, G., T.M. Mitchell, L. Goren, P.M. Grindrod, and J. Browning (2021), Implications of longitudinal ridges for the mechanics of ice-free long runout landslides, Earth Planet. Sci. Lett., 574, 117177 (DOI).
Halim, S.H., et al. (including S.J. Boaman) (2021), Numerical modeling of the formation of Shackleton crater at the lunar south pole, Icarus, 354, 113992 (OPEN ACCESS)
Guimpier, A., et al. (including P.M. Grindrod, J.M. Davis) (2021), Dynamics of recent landslides (<20 My) on Mars: Insights from high-resolution topography on Earth and Mars and numerical modelling, Plan. Space Sci., 206, 105303 (DOI).
Sholes, S.F., Z.I. Dickeson, D.R. Montgomery, and D.C. Catling (2021). Where are Mars’ hypothesized ocean shorelines? Large lateral and topographic offsets between different versions of paleoshoreline maps, J. Geophys. Res., 126, e2020JE006486 (DOI)
Davis, J.M., P.M. Grindrod, S.G. Banham, N.H. Warner, S.J. Conway, S.J. Boazman, and S. Gupta (2021), Syn-Tectonic Sedimentation Recorded by Perched Alluvial Fans Deposits in Valles Marineris, Mars, Geology, 49, 1250–1254 (OPEN ACCESS).
Boazman, S.J., J.M. Davis, P.M. Grindrod, M.R. Balme, P. Vermeesch, and T. Baird (2021), Measuring Ripple and Dune Migration in Coprates Chasma, Valles Marineris: A Source to Sink Aeolian System on Mars? J. Geophys. Res., 126, e2020JE006608 (DOI).
Favaro, E.A., M.R. Balme, J.M. Davis, P.M. Grindrod, P. Fawdon, A.M. Barrett, and S.R. Lewis (2021), The Aeolian Environment of the Landing Site for the ExoMars Rosalind Franklin Rover in Oxia Planum, Mars, J. Geophys. Res., 6, e2020JE006723 (OPEN ACCESS).
Quantin-Nataf, C., et al. (including P.M. Grindrod, J.M. Davis) (2021), Oxia Planum - the landing site for the ExoMars “Rosalind Franklin” Rover Mission: geological context and pre-landing interpretation, Astrobiology, (OPEN ACCESS).
2020
Davis, J.M., S.G. Banham, P.M. Grindrod, S.J. Boazman, and M.R. Balme (2020), Morphology, development, and sediment dynamics of elongating linear dunes on Mars, Geophys. Res. Lett., 47, e2020GL088456 (OPEN ACCESS).
Dickeson, Z.I., and J.M. Davis (2020), Ancient oceans on Mars: Current morphological observations and future questions, Astronomy and Geophysics, 61, 3.11-3.17 (DOI)
Salese, F., W.J. McMahon, M.R. Balme, V. Ansan, J.M. Davis, and M.G. Kleinhans (2020), Evidence of sustained Noachian river deposition in the martian sedimentary record, Nature Communications, 11:2067 (DOI)
Balme, M.R., S. Gupta, J.M. Davis, P. Fawdon, P.M. Grindrod, J.C. Bridges, E. Sefton-Nash, and R.M.E Williams (2020), Aram Dorsum: an extensive Noachian-age fluvial depositional system in Arabia Terra, Mars, J. Geophys. Res., 125, e2019JE006244 (OPEN ACCESS).
Gastineau, R., S. Conway, A. Johnsson, J. Eichel, N. Mangold, P.M. Grindrod, and T. Izquierdo (2020), Small-scale lobate hillslope features on Mars: A comparative 3D morphological study with terrestrial solifluction lobes and zebra stripe lobes, Icarus, 342, 113606 (DOI).
Davis, J.M., P.M. Grindrod, S.J. Boazman, P. Vermeesch, and T. Baird (2020), Quantified Aeolian Dune Changes on Mars Derived from Repeat Context Camera Images, Earth Space Sci., 7, e2019EA000874 (OPEN ACCESS).
Pan, L., C. Quantin, B. Tauzin, C. Michaut, M. Golombek, P. Lognonné, P.M. Grindrod, B. Langlais, T. Gudkova, I. Stepanova, S. Rodriguez, and A. Lucas (2020), Crust stratigraphy and heterogeneities of the first kilometers at the dichotomy boundary in western Elysium Planitia and Implications for InSight lander, Icarus, 338, 113511(DOI).
2019
Magnarini, G., T.M. Mitchell, P.M. Grindrod, L. Goren, and H. Schmitt (2019), Longitudinal ridges imparted by high-speed granular flow mechanisms in Martian landslides, Nature Comms., 10, 4711 (DOI).
de Haas, T., B.W. McArdell, S.J. Conway, J.N. McElwaine, M.G. Kleinhans, F. Salese, and P.M. Grindrod (2019), Initiation and flow conditions of contemporary flows in Martian gullies, J. Geophys. Res., 124, 2246–2271 (DOI).
Davis, J.M., S. Gupta, M. Balme, P.M. Grindrod, P. Fawdon, Z. I Dickeson, and R.M.E. Williams (2019), A Diverse Array of Fluvial Depositional Systems in Arabia Terra: Evidence for mid-Noachian to Early Hesperian Rivers on Mars, J. Geophys. Res., 124, 1913-1934 (OPEN ACCESS).
Kite, E.S., D.P. Mayer, S.A. Wilson, J.M. Davis, A.S. Lucas, & G. Stucky de Quay (2019), Persistence of intense, climate-driven runoff late in Mars history, Science Advances, 5, eaav7710 (DOI)
Kneller, B.D., G.P. Roberts, and P.M. Grindrod (2019), Correlation between graben orientation, channel direction change and lithospheric loads: The Elysium Province, Mars, J. Geophys. Res., 124, 652-680 (DOI).
Balme, M.R., et al. (including P.M. Grindrod, J.M. Davis) (2019), The 2016 UK Space Agency Mars Utah Rover Field Rover Investigation (MURFI), Plan. Space Sci., 165, 31-56 (DOI).
Adler, J., J.F. Bell, P. Fawdon, J.M Davis, N. Warner, E. Sefton-Nash, & T. Harrison (2019), Hypotheses for the Origin of the Hypanis Fan-Shaped Deposit at the Edge of the Chryse Escarpment, Mars: Is it a Delta? Icarus, 319, 885-908 (DOI)
2018
Davis, J.M., P.M. Grindrod, P. Fawdon, R.M.E. Williams, S. Gupta, and M. Balme (2018), Episodic and Declining Fluvial Processes in Southwest Melas Chasma, Valles Marineris, Mars, J. Geophys. Res., 123, 2527– 2549 (OPEN ACCESS)
Fawdon, P. , S. Gupta, J.M. Davis, N.H. Warner, J.B. Adler, M.R. Balme, J.F. Bell, P.M. Grindrod, E. Sefton-Nash (2018), The Hypanis Valles Delta: The last hightand of a sea on early Mars? Earth Plan. Sci. Lett., 500, 225-241 (OPEN ACCESS)
Grindrod, P.M., J. Hollingsworth, F. Ayoub, and S. Hunt, The Search for Active Marsquakes Using Subpixel Coregistration and Correlation: First Results and Best Practices, J. Geophys. Res., J. Geophys. Res., 123, 1881–1900 (OPEN ACCESS).
Conway, S.J., F. Butcher, T. de Haas, A.J. Deijns, P.M. Grindrod, and J.M. Davis (2018) Glacial and gully erosion on Mars: A terrestrial perspective, Geomorph., 318, 26-57 (DOI).
Harris, J.K. and P.M. Grindrod, Hapke mixture modelling applied to VNIR spectra of mafic mineral mixtures and shergottites: Implications for quantitative analysis of satellite data, Meteorit. Planet. Sci., 53, 1179-1206 (OPEN ACCESS).
Grindrod, P.M., N.H. Warner, D.E.J. Hobley, C. Schwartz, and S. Gupta (2018), Stepped fans and facies-equivalent phyllosilicates in Coprates Catena, Mars, Icarus, 307, 260-280 (OPEN ACCESS).
2017
Durrant, L., M.R. Balme, P.A. Carling, and P.M. Grindrod (2017), Aqueous dune-like bedforms in Athabasca Valles and neighbouring locations utilized in palaeoflood reconstruction, Plan. Space Sci., 148, 45-55 (doi link).
de Haas, T., S.J. Conway, F.E.G. Butcher, J. Levy, P.M. Grindrod, T.A. Goudge, and M.R. Balme (2017), Time will tell: temporal evolution of Martian gullies and paleoclimatic implications, In: Conway, S.J., Carrivick, J.L., Carling, P.A., de Haas, T., Harrison, T.N. (Eds.), Martian Gullies and their Earth Analogues, Geol. Soc. London, Sp. Pub., 467 (doi link).
Coates, A.J., et al. (including P.M. Grindrod) (2016), The PanCam instrument for the ExoMars rover, Astrobiology, 17, 6 + 7 (doi link).
Middleton, C.A., P.M. Grindrod, and P.R. Sammonds (2017), The effect of rock particles and D2O replacement on the flow behaviour of ice, Phil. Trans. R. Soc. A., 375, 20150349 (OPEN ACCESS).
2016
Davis, J.M., M. Balme, P.M Grindrod, R.M.E. Williams, and S. Gupta (2016), Extensive Noachian fluvial systems in Arabia Terra: Implications for early Martian climate, Geology, (OPEN ACCESS).
Harris, J.K., C.R. Cousins, and M.W. Claire (2016), Spectral identification and quantification of salts in the Atacama Desert, Proc. SPIE 10005, Earth Resources and Environmental Remote Sensing/GIS Applications VII, 100050I (doi link).
Diot, X., M.R. El-Maarry, F. Schlunegger, K.P. Norton, N. Thomas, P.M. Grindrod, and M. Chojnacki (2016), Complex geomorphologic assemblage of terrains in association with the banded terrain in Hellas basin, Mars, Plan. Space Sci., 121, 36-52 (doi link).
Bugiolacchi, R. S. Bamford, P. Tar, N. Thacker, I.A. Crawford, K.H. Joy, P.M. Grindrod, and C. Lintott (2015), The Moon Zoo citizen science project: Preliminary results for the Apollo 17 landing site, Icarus, 271, 30-48 (OPEN ACCESS).
2015
Diot, X., M.R. El-Maarry, L. Guallini, F. Schlunegger, K.P. Norton, N. Thomas, S. Sutton, and P.M. Grindrod (2015), An ice-rich flow origin for the banded terrain in the Hellas Basin, Mars, J. Geophys. Res., 120,2258–2276 (doi link).
Brough, S., B. Hubbard, C. Souness, P.M. Grindrod, and J.M. Davis (2015), Landscapes of polyphase glaciation: Eastern Hellas Planitia, Mars, J. Maps, v2015, 1-13, (doi link) .
Harris, J.K., C.R. Cousins, M. Gunn, P.M. Grindrod, D. Barnes, I.A Crawford, and A.J. Coates (2015), Remote detection of past habitability at Mars-analogue hydrothermal 1 alteration terrains using an ExoMars Panoramic Camera Emulator, Icarus, 252, 284-300 (OPEN ACCESS).
Warner, N.H., S. Gupta, F. Calef, P.M. Grindrod, N. Boll, and K. Goddard (2014), Minimum Effective Area for High Resolution Crater Counting of Martian Terrains: Assessment and Recommendations, Icarus, 245, 198-240 (doi link)
2014
Grindrod, P.M., and N.H. Warner (2014), Erosion rate and previous extent of interior layered deposits on Mars revealed by obstructed landslides, Geology, 42, 795-798 (OPEN ACCESS).
Diot, X., M.R. El-Maarry, F. Schlunegger, K.P Norton, N. Thomas, P.M. Grindrod (2014), The geomorphology and morphometry of the banded terrain in Hellas basin, Mars, Plan. Space Sci., 101, 118-134 (doi link)
Poole, W., J.-P. Muller, S. Gupta, and P.M. Grindrod (2014), Calibrating Mars Orbiter Laser Altimeter Pulse widths at Mars Science Laboratory Candidate landing sites, Plan. Space Sci., 99, 118-227 (doi link).
2013
Soare, R.J., S.J. Conway, G.D. Pearce, J.M. Dohm, and P.M. Grindrod (2013), Possible crater-based pingos, paleolakes and periglacial landscapes in the high latitudes of Utopia Planitia, Mars, Icarus, 225, 971-981 (doi link).
2012
De Rosa, D., et al. (including P.M. Grindrod) (2012), Characterisation of Potential Landing Sites for the European Space Agency’s Lunar Lander Project, Plan. Space Sci., 74, 224-246 (doi link).
Sefton-Nash, E., D.C. Catling, S.E. Wood, and P.M. Grindrod (2012), Topographic, spectral and thermal inertia analysis of layered deposits in Iani Chaos, Icarus, 221, 20-42 (doi link).
Grindrod, P.M., M. West, N.H. Warner, S. Gupta (2012), Formation of an Hesperian-aged sedimentary basin containing phyllosilicates and sulfates in Coprates Catena, Mars, Icarus, 218, 178-195 (doi link).
2011
Grindrod, P.M., and S.E. Fawcett (2011), Possible climate-related signals in high-resolution topography of lobate debris aprons in Tempe Terra, Mars, Geophys. Res. Lett., 38, L19201 (doi link).
Conway, S.J., M.R. Balme, M.C. Towner, J.B. Murray, C. Okubo, and P.M. Grindrod (2011), The indication of martian gully formation processes by slope-area analysis, In: Balme, M.R., Bargery, A.S., Gallagher, C.J., and Gupta, S. (Eds.), Martian Geomorphology, Geol. Soc. London, Sp. Pub., 356, 171-201.
Gowen, R.A., et al. (including P.M. Grindrod) (2011), Micro-penetrators for in-situ sub-surface investigations of Europa, Advances Space Res., 48, 725-742 (doi link).
Joy, K. I. Crawford, P.M. Grindrod, C. Lintott, S. Bamford, A. Smith, A. Cook, Moon Zoo Team (2011), Moon Zoo: citizen science in lunar exploration, Astron. & Geophys., 52, 2.10-2.12 (doi link).
2010
Gallagher, C., M.R. Balme, S.J. Conway, and P.M. Grindrod (2010), Sorted clastic stripes, lobes and associated gullies in high-latitude craters on Mars; landforms indicative of very recent, polycyclic ground-ice thaw and liquid flows, Icarus, 211, 458-471 (doi link).
Grindrod, P.M., E.R. Stofan, and J.E. Guest (2010), Volcanism and resurfacing on Venus at the full resolution of Magellan SAR data, Geophys. Res. Lett., 37, L13202 (doi link).
Grindrod, P.M., and M.R. Balme (2010), Groundwater Processes in Hebes Chasma, Mars, Geophys. Res. Lett., 37, L13202 (doi link).
Grindrod, P.M., M.J. Heap, A.D. Fortes, P.G. Meredith, I.G. Wood, F. Trippetta, and P.R. Sammonds (2010), Experimental Investigation of the Mechanical Properties of Synthetic Magnesium Sulfate Hydrates: Implications for the Strength of Hydrated Deposits on Mars, J. Geophys. Res., 115, E06012 (doi link).
2008
Grindrod, P.M., A.D. Fortes, F. Nimmo, D.L. Feltham, J.P. Brodholt and L. Vocadlo (2008),The long-term stability of a possible aqueous ammonium sulfate ocean inside Titan, Icarus, 197, 137-151 (doi link).
2007
Fortes, A.D., P.M. Grindrod, S.K. Trickett and L. Vocadlo (2007), Ammonium sulfate on Titan: possible origin and role in cryovolcanism, Icarus, 188, 139-153 (doi link).
2006
Grindrod, P.M., and J.E. Guest (2006), 1:1,500,000 geological map of the Aglaonice region on Venus, J. Maps, v2006, 103-117 (doi link).
Grindrod, P.M., and T. Hoogenboom (2006), Venus: the corona conundrum, Astron. & Geophys., 47, 3.16-3.21 (doi link).
Fortes, A.D., and P.M. Grindrod (2006), Modelling of possible mud volcanism on Titan, Icarus, 182, 550-558 (doi link).
Grindrod, P.M., E.R. Stofan, A.W. Brian and J.E. Guest (2006), The Geological Evolution of Atai Mons, Venus: A Volcano-Corona ‘Hybrid’, J. Geol. Soc., 163, 365-275 (doi link).
2005
Grindrod, P.M., F. Nimmo, E.R. Stofan and J.E. Guest (2005), Strain at Radially-Fractured Centers on Venus, J. Geophys. Res., 110, E12002 (doi link).
2001
Stofan E.R., S.W. Tapper, J.E. Guest, S.E. Smrekar and P.M. Grindrod (2001), Preliminary analysis of an expanded corona database for Venus, Geophys. Res. Lett., 28, 4267-4270 (doi link).