Ice-marginal forced regressive deltas in glacial lakebasins: geomorphology, facies variability and large-scale depositional architecture

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  • Leibniz Institute for Applied Geophysics (LIAG)
  • Federal Institute for Geosciences and Natural Resources (BGR)
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Original languageEnglish
Pages (from-to)973-1002
Number of pages30
JournalBoreas
Volume47
Issue number4
Publication statusPublished - 19 Sept 2018

Abstract

This study presents a synthesis of the geomorphology, facies variability and depositional architecture of ice-marginal deltas affected by rapid lake-level change. The integration of digital elevation models, outcrop, borehole, ground-penetrating radar and high-resolution shear-wave seismic data allows for a comprehensive analysis of these delta systems and provides information about the distinct types of deltaic facies and geometries generated under different lake-level trends. The exposed delta sediments record mainly the phase of maximum lake level and subsequent lake drainage. The stair-stepped profiles of the delta systems reflect the progressive basinward lobe deposition during forced regression when the lakes successively drained. Depending on the rate and magnitude of lake-level fall, fan-shaped, lobate or more digitate tongue-like delta morphologies developed. Deposits of the stair-stepped transgressive delta bodies are buried, downlapped and onlapped by the younger forced regressive deposits. The delta styles comprise both Gilbert-type deltas and shoal-water deltas. The sedimentary facies of the steep Gilbert-type delta foresets include a wide range of gravity-flow deposits. Delta deposits of the forced-regressive phase are commonly dominated by coarse-grained debrisflow deposits, indicating strong upslope erosion and cannibalization of older delta deposits. Deposits of supercritical turbidity currents are particularly common in sand-rich Gilbert-type deltas that formed during slow rises in lake level and during highstands. Foreset beds consist typically of laterally and vertically stacked deposits of antidunes and cyclic steps. The trigger mechanisms for these supercritical turbidity currents were both hyperpycnal meltwater flows and slope-failure events. Shoal-water deltas formed at low water depths during both low rates of lake-level rise and forced regression. Deposition occurred from tractional flows. Transgressive mouthbars form laterally extensive sand-rich delta bodies with a digitate, multi-tongue morphology. In contrast, forced regressive gravelly shoal-water deltas show a high dispersion of flow directions and form laterally overlapping delta lobes. Deformation structures in the forced-regressive ice-marginal deltas are mainly extensional features, including normal faults, small graben or half-graben structures and shear-deformation bands, which are related to gravitational delta tectonics, postglacial faulting during glacial-isostatic adjustment, and crestal collapse above salt domes. A neotectonic component cannot be ruled out in some cases.

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Ice-marginal forced regressive deltas in glacial lakebasins: geomorphology, facies variability and large-scale depositional architecture. / Winsemann, Jutta; Lang, Jörg; Polom, Ulrich et al.
In: Boreas, Vol. 47, No. 4, 19.09.2018, p. 973-1002.

Research output: Contribution to journalArticleResearchpeer review

Winsemann J, Lang J, Polom U, Loewer M, Igel J, Pollok L et al. Ice-marginal forced regressive deltas in glacial lakebasins: geomorphology, facies variability and large-scale depositional architecture. Boreas. 2018 Sept 19;47(4):973-1002. doi: 10.1111/bor.12317, 10.15488/3348
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@article{10b90c4f5b254a7f9b5f1e7996988a05,
title = "Ice-marginal forced regressive deltas in glacial lakebasins: geomorphology, facies variability and large-scale depositional architecture",
abstract = "This study presents a synthesis of the geomorphology, facies variability and depositional architecture of ice-marginal deltas affected by rapid lake-level change. The integration of digital elevation models, outcrop, borehole, ground-penetrating radar and high-resolution shear-wave seismic data allows for a comprehensive analysis of these delta systems and provides information about the distinct types of deltaic facies and geometries generated under different lake-level trends. The exposed delta sediments record mainly the phase of maximum lake level and subsequent lake drainage. The stair-stepped profiles of the delta systems reflect the progressive basinward lobe deposition during forced regression when the lakes successively drained. Depending on the rate and magnitude of lake-level fall, fan-shaped, lobate or more digitate tongue-like delta morphologies developed. Deposits of the stair-stepped transgressive delta bodies are buried, downlapped and onlapped by the younger forced regressive deposits. The delta styles comprise both Gilbert-type deltas and shoal-water deltas. The sedimentary facies of the steep Gilbert-type delta foresets include a wide range of gravity-flow deposits. Delta deposits of the forced-regressive phase are commonly dominated by coarse-grained debrisflow deposits, indicating strong upslope erosion and cannibalization of older delta deposits. Deposits of supercritical turbidity currents are particularly common in sand-rich Gilbert-type deltas that formed during slow rises in lake level and during highstands. Foreset beds consist typically of laterally and vertically stacked deposits of antidunes and cyclic steps. The trigger mechanisms for these supercritical turbidity currents were both hyperpycnal meltwater flows and slope-failure events. Shoal-water deltas formed at low water depths during both low rates of lake-level rise and forced regression. Deposition occurred from tractional flows. Transgressive mouthbars form laterally extensive sand-rich delta bodies with a digitate, multi-tongue morphology. In contrast, forced regressive gravelly shoal-water deltas show a high dispersion of flow directions and form laterally overlapping delta lobes. Deformation structures in the forced-regressive ice-marginal deltas are mainly extensional features, including normal faults, small graben or half-graben structures and shear-deformation bands, which are related to gravitational delta tectonics, postglacial faulting during glacial-isostatic adjustment, and crestal collapse above salt domes. A neotectonic component cannot be ruled out in some cases.",
author = "Jutta Winsemann and J{\"o}rg Lang and Ulrich Polom and Markus Loewer and Jan Igel and Lukas Pollok and Christian Brandes",
note = "Funding information: We thank W. Nemec, an anonymous reviewer and editor J. A. Piotrowski for constructive comments, which helped to improve the manuscript. S. Cramm, D. Epping, S. Gr{\"u}neberg, R. Meyer, W. Rode and D. Vogel (all LIAG) supported the seismic and ground-penetrating radar surveys. Borehole data were provided by LBEG (Hannover) and digital elevation models by the LGN Hannover and Bezirksregierung K{\"o}ln. Fugro Consult GmbH provided GeODin software for data management. We thank A. Osman, J. Roskosch, H. Th{\"o}le, M. Wahle and A. Weitkamp for discussion and help with fieldwork. F. Busch carried out GIS work. Special thanks go to the owners of the open-pits for the permission to work on their properties. Partial funding of the research work by MWK Niedersachsen (Project 11.2-76202-17-7/08) and Leibniz Forschungsinitiative FI:GEO (Leibniz Universit{\"a}t Hannover) is greatly appreciated.",
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doi = "10.1111/bor.12317",
language = "English",
volume = "47",
pages = "973--1002",
journal = "Boreas",
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TY - JOUR

T1 - Ice-marginal forced regressive deltas in glacial lakebasins: geomorphology, facies variability and large-scale depositional architecture

AU - Winsemann, Jutta

AU - Lang, Jörg

AU - Polom, Ulrich

AU - Loewer, Markus

AU - Igel, Jan

AU - Pollok, Lukas

AU - Brandes, Christian

N1 - Funding information: We thank W. Nemec, an anonymous reviewer and editor J. A. Piotrowski for constructive comments, which helped to improve the manuscript. S. Cramm, D. Epping, S. Grüneberg, R. Meyer, W. Rode and D. Vogel (all LIAG) supported the seismic and ground-penetrating radar surveys. Borehole data were provided by LBEG (Hannover) and digital elevation models by the LGN Hannover and Bezirksregierung Köln. Fugro Consult GmbH provided GeODin software for data management. We thank A. Osman, J. Roskosch, H. Thöle, M. Wahle and A. Weitkamp for discussion and help with fieldwork. F. Busch carried out GIS work. Special thanks go to the owners of the open-pits for the permission to work on their properties. Partial funding of the research work by MWK Niedersachsen (Project 11.2-76202-17-7/08) and Leibniz Forschungsinitiative FI:GEO (Leibniz Universität Hannover) is greatly appreciated.

PY - 2018/9/19

Y1 - 2018/9/19

N2 - This study presents a synthesis of the geomorphology, facies variability and depositional architecture of ice-marginal deltas affected by rapid lake-level change. The integration of digital elevation models, outcrop, borehole, ground-penetrating radar and high-resolution shear-wave seismic data allows for a comprehensive analysis of these delta systems and provides information about the distinct types of deltaic facies and geometries generated under different lake-level trends. The exposed delta sediments record mainly the phase of maximum lake level and subsequent lake drainage. The stair-stepped profiles of the delta systems reflect the progressive basinward lobe deposition during forced regression when the lakes successively drained. Depending on the rate and magnitude of lake-level fall, fan-shaped, lobate or more digitate tongue-like delta morphologies developed. Deposits of the stair-stepped transgressive delta bodies are buried, downlapped and onlapped by the younger forced regressive deposits. The delta styles comprise both Gilbert-type deltas and shoal-water deltas. The sedimentary facies of the steep Gilbert-type delta foresets include a wide range of gravity-flow deposits. Delta deposits of the forced-regressive phase are commonly dominated by coarse-grained debrisflow deposits, indicating strong upslope erosion and cannibalization of older delta deposits. Deposits of supercritical turbidity currents are particularly common in sand-rich Gilbert-type deltas that formed during slow rises in lake level and during highstands. Foreset beds consist typically of laterally and vertically stacked deposits of antidunes and cyclic steps. The trigger mechanisms for these supercritical turbidity currents were both hyperpycnal meltwater flows and slope-failure events. Shoal-water deltas formed at low water depths during both low rates of lake-level rise and forced regression. Deposition occurred from tractional flows. Transgressive mouthbars form laterally extensive sand-rich delta bodies with a digitate, multi-tongue morphology. In contrast, forced regressive gravelly shoal-water deltas show a high dispersion of flow directions and form laterally overlapping delta lobes. Deformation structures in the forced-regressive ice-marginal deltas are mainly extensional features, including normal faults, small graben or half-graben structures and shear-deformation bands, which are related to gravitational delta tectonics, postglacial faulting during glacial-isostatic adjustment, and crestal collapse above salt domes. A neotectonic component cannot be ruled out in some cases.

AB - This study presents a synthesis of the geomorphology, facies variability and depositional architecture of ice-marginal deltas affected by rapid lake-level change. The integration of digital elevation models, outcrop, borehole, ground-penetrating radar and high-resolution shear-wave seismic data allows for a comprehensive analysis of these delta systems and provides information about the distinct types of deltaic facies and geometries generated under different lake-level trends. The exposed delta sediments record mainly the phase of maximum lake level and subsequent lake drainage. The stair-stepped profiles of the delta systems reflect the progressive basinward lobe deposition during forced regression when the lakes successively drained. Depending on the rate and magnitude of lake-level fall, fan-shaped, lobate or more digitate tongue-like delta morphologies developed. Deposits of the stair-stepped transgressive delta bodies are buried, downlapped and onlapped by the younger forced regressive deposits. The delta styles comprise both Gilbert-type deltas and shoal-water deltas. The sedimentary facies of the steep Gilbert-type delta foresets include a wide range of gravity-flow deposits. Delta deposits of the forced-regressive phase are commonly dominated by coarse-grained debrisflow deposits, indicating strong upslope erosion and cannibalization of older delta deposits. Deposits of supercritical turbidity currents are particularly common in sand-rich Gilbert-type deltas that formed during slow rises in lake level and during highstands. Foreset beds consist typically of laterally and vertically stacked deposits of antidunes and cyclic steps. The trigger mechanisms for these supercritical turbidity currents were both hyperpycnal meltwater flows and slope-failure events. Shoal-water deltas formed at low water depths during both low rates of lake-level rise and forced regression. Deposition occurred from tractional flows. Transgressive mouthbars form laterally extensive sand-rich delta bodies with a digitate, multi-tongue morphology. In contrast, forced regressive gravelly shoal-water deltas show a high dispersion of flow directions and form laterally overlapping delta lobes. Deformation structures in the forced-regressive ice-marginal deltas are mainly extensional features, including normal faults, small graben or half-graben structures and shear-deformation bands, which are related to gravitational delta tectonics, postglacial faulting during glacial-isostatic adjustment, and crestal collapse above salt domes. A neotectonic component cannot be ruled out in some cases.

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