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Publikationer av Benedict Reinardy

Refereegranskade

Artiklar

[1]
K. Horikawa et al., "Repeated major inland retreat of Thwaites and Pine Island glaciers (West Antarctica) during the Pliocene," Proceedings of the National Academy of Sciences of the United States of America, vol. 123, no. 1, 2026.
[2]
H. Watts, B. T. I. Reinardy och S. Lukas, "Evidence for an active ice margin during the last deglaciation : the Vimmerby Moraine, South Swedish Uplands," Boreas, vol. 54, no. 1, s. 86-104, 2025.
[3]
B. T. I. Reinardy et al., "The Pleistocene Witch Ground Ice Stream in the central North Sea," Journal of Quaternary Science, vol. 40, no. 2, s. 185-200, 2025.
[4]
S. Paul et al., "A shallow water numerical method for assessing impacts of hydrodynamics and nutrient transport processes on water quality values of Lake Victoria," Heliyon, vol. 10, no. 3, 2024.
[5]
M. E. Kylander et al., "Storm chasing : Tracking Holocene storminess in southern Sweden using mineral proxies from inland and coastal peat bogs," Quaternary Science Reviews, vol. 299, s. 107854, 2023.
[6]
H. Watts et al., "The sensitivity of seismic refraction velocity models to survey geometry errors, assessed using Monte Carlo analysis," Journal of Applied Geophysics, vol. 208, 2023.
[7]
H. Watts et al., "An Assessment of Geophysical Survey Techniques for Characterising the Subsurface Around Glacier Margins, and Recommendations for Future Applications," Frontiers in Earth Science, vol. 10, 2022.
[8]
T. Chauhan et al., "Chronology of Early to Mid-Pleistocene sediments in the northern North Sea : New evidence from amino acid and strontium isotope analyses," Quaternary Geochronology, vol. 71, s. 101336-101336, 2022.
[9]
J. Karstens et al., "Formation of the Figge Maar Seafloor Crater During the 1964 B1 Blowout in the German North Sea," Earth Science, Systems and Society, vol. 2, 2022.
[10]
K. Gohl et al., "Evidence for a Highly Dynamic West Antarctic Ice Sheet During the Pliocene," Geophysical Research Letters, vol. 48, no. 14, 2021.
[11]
K. Gohl et al., "Expedition 379 methods," Proceedings of the International Ocean Discovery Program, vol. 379, 2021.
[12]
K. Gohl et al., "Expedition 379 summary," Proceedings of the International Ocean Discovery Program, vol. 79, 2021.
[13]
A. H. Robinson et al., "Multiscale characterisation of chimneys/pipes: Fluid escape structures within sedimentary basins," International Journal of Greenhouse Gas Control, vol. 106, s. 103245-103245, 2021.
[14]
J. Wellner et al., "Site U1532," Proceedings of the International Ocean Discovery Program, vol. 379, 2021.
[15]
J. Wellner et al., "Site U1533," Proceedings of the International Ocean Discovery Program, vol. 379, 2021.
[16]
K. Gohl et al., "Expedition 379 Preliminary Report: Amundsen Sea West Antarctic Ice Sheet History," International Ocean Discovery Program Preliminary Report, 2019.
[17]
B. T. I. Reinardy et al., "Pervasive cold ice within a temperate glacier : implications for glacier thermal regimes, sediment transport and foreland geomorphology," The Cryosphere, vol. 13, no. 3, s. 827-843, 2019.
[18]
C. Böttner et al., "Pockmarks in the Witch Ground Basin, Central North Sea," Geochemistry Geophysics Geosystems, vol. 20, no. 4, s. 1698-1719, 2019.
[19]
S. F. Killingbeck et al., "Subglacial sediment distribution from constrained seismic inversion, using MuLTI software : examples from Midtdalsbreen, Norway," Annals of Glaciology, vol. 60, no. 79, s. 206-219, 2019.
[20]
B. T. I. Reinardy et al., "A Quaternary aminostratigraphy constraining chronology of depositional environments in the North Sea Basin," Marine Geology, vol. 402, s. 139-152, 2018.
[21]
B. T. I. Reinardy et al., "Late Pliocene-Pleistocene environments and glacial history of the northern North Sea," Quaternary Science Reviews, vol. 158, s. 107-126, 2017.
[22]
B. T. I. Reinardy et al., "Repeated advance and retreat of the East Antarctic Ice Sheet on the continental shelf during the early Pliocene warm period," Palaeogeography, Palaeoclimatology, Palaeoecology, vol. 422, s. 65-84, 2015.
[23]
S. Lukas et al., "Clast shape analysis and clast transport paths in glacial environments: A critical review of methods and the role of lithology," Earth-Science Reviews, vol. 121, s. 96-116, 2013.
[24]
B. T. I. Reinardy, I. Leighton och P. J. Marx, "Glacier thermal regime linked to processes of annual moraine formation at Midtdalsbreen, southern Norway," Boreas, vol. 42, no. 4, s. 896-911, 2013.
[25]
B. T. I. Reinardy et al., "Streaming flow of an Antarctic Peninsula palaeo-ice stream, both by basal sliding and deformation of substrate," Journal of Glaciology, vol. 57, no. 204, s. 596-608, 2011.
[26]
B. T. I. Reinardy et al., "Till genesis at the bed of an Antarctic Peninsula palaeo-ice stream as indicated by micromorphological analysis," Boreas, vol. 40, no. 3, s. 498-517, 2011.
[27]
B. T. I. Reinardy et al., "Contrasting sources for glacial and interglacial shelf sediments used to interpret changing ice flow directions in the Larsen Basin, Northern Antarctic Peninsula," Marine Geology, vol. 266, no. 1-4, s. 156-171, 2009.
[28]
B. T. I. Reinardy och S. Lukas, "The sedimentary signature of ice-contact sedimentation and deformation at macro- and micro-scale: A case study from NW Scotland," Sedimentary Geology, vol. 221, no. 1-4, s. 87-98, 2009.

Kapitel i böcker

[29]
B. T. I. Reinardy, "Sedimentation processes during gravity driven mass movement," i Micromorphology : a practical guide to the microscale analysis of glacial sediments and processes, Emrys Phillips & John Menzies red., 1. uppl. London : Quaternary Research Association, 2025, s. 204-237.
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2026-02-09 23:50:23 UTC