Johannes Krüger scite author profile

Johannes Krüger

2Publications

219Citation Statements Received

45Citation Statements Given

How they've been cited

215

209

How they cite others

Affiliations

Geocenter Denmark, University of Copenhagen, Johannes Gutenberg University Mainz

Publications

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Origin, chronology and climatological significance of annual-moraine ridges at Myrdalsjökull, Iceland

Krüger

1995

The Holocene

109

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Minor, transverse moraine ridges have formed annually at the retreating north margin of Myrdalsjökull, 550-600 m a.s.l., in south Iceland during the period 1928-1981. They are composed of slabs of clast-paved lodgement till and their formation at the glacier edge results from subglacial freezing-on of sediment slabs during winter and the annual cycle of ice-front activity. This type of annual-moraine ridge is likely to be characteristic of retreating temperate glaciers where the glacier toe is thin and winters are cold. The speed of glacier retreat is finely balanced with changes in mean summer temperature suggesting that the short-term ice-front fluctuations are climatically induced and not a result of surge activity.

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The final phase of dead‐ice moraine development: processes and sediment architecture, Kötlujökull, Iceland

2001

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Consecutive phases of de‐icing of ice‐cored moraines and the formation of dead‐ice moraine were monitored over a 4‐year period at the terminus of the Kötlujökull glacier, Iceland. Particularly, the transition from partially ice‐cored moraine with isolated dead‐ice blocks to the ice‐free landscape receives attention in this paper in order to link the final melting processes to the architecture of the sedimentary end product. In the current humid sub‐polar climate of south Iceland de‐icing of partially ice‐cored moraines results chiefly from melting along the bottom surface of ice‐cores with an annual average rate of 25 cm. The final de‐icing is associated with an interrelated group of re‐sedimentation processes and surface features. Series of sinkholes evolve at the toe of dead‐ice blocks, which initiate retrogressive rotational sliding or backslumping of the ice‐cored slopes and the formation of distinct edges and fractures in the adjacent basins. Although backslumping is the dominant process in this phase of re‐sedimentation, structures resulting from this process are rarely recognized in the ice‐free landscape. As ice‐cores gradually diminish the effect of the latest re‐sedimentation events will overprint or destroy most existing sedimentary characteristics. Thus, in the ice‐free landscape, structures mainly related to the formation of sinkholes and fractures remain imprinted on the sediment succession. Generally, no inversion of the topography occurs during the final phase of de‐icing. The overall topography recognized in the late phase of the fully ice‐cored terrain is merely lowered and the amplitude of the relief reduced as de‐icing progresses. The sediment architecture of the ice‐free landscape is characterized by heterogeneous and often slumped diamict sediments with variable thickness and lateral distribution; clast orientation is related to the direction of slopes, and boulders are found in isolated groups or in linear arrangements.

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