%0 Generic %A Jarman, David %A Wilson, Peter %D 2016 %T Anomalous terrain at Dove Crags ‘cirqueform’ and Gasgale Gill asymmetric valley, English Lake District, attributed to large-scale rock slope failure of pre-LGM origins %U https://geolsoc.figshare.com/articles/dataset/Anomalous_terrain_at_Dove_Crags_cirqueform_and_Gasgale_Gill_asymmetric_valley_English_Lake_District_attributed_to_large-scale___rock_slope_failure_of_pre-LGM_origins/3454142 %R 10.6084/m9.figshare.3454142.v1 %2 https://ndownloader.figshare.com/files/5425085 %2 https://ndownloader.figshare.com/files/5425088 %K rock slope failure %K fluvial side valley %K cavity %K English Lake District %K origin %K m 3 %K landscape %K LGM valley glacier %K RSF %K Geology %X

An unusually bold, cirque-like cavity, above a small, apparently fluvial side valley rich in landscape anomalies, is evaluated as a large-scale (c. 1 km2) rock slope failure (RSF) with possible pre-Last Glacial Maximum (LGM) origins. Although the failed mass is much subdued, field evidence includes dry gullies and a tarnless hollow; a sharp flank scarp and a high cutbank toe suggest reactivation. Indirect support is provided by a pioneering (in Britain) schematic reconstruction of a whole-valley pre-RSF landscape, employing a ‘clone-stamping’ procedure, which resolves the main terrain anomalies. The RSF interpretation is satisfactorily tested by: (1) compatible proxy cavity and slipmass volumes of 35 and 25 million m3 respectively, with the deficit attributed to trimming by an LGM valley glacier; (2) comparisons with other RSFs by area, cavity parameters, and a total extant volume (derived from an inferred balanced long section) of c. 50 million m3; and (3) a proposed ‘zone of crush’ model that allows a large failed mass, c. 100–200 m thick, to descend incrementally by c. 300 m without disintegrating. A landscape paradox is identified whereby the valley now has an asymmetric, quasi-fluvial profile, with till covering the slope below the cirqueform cavity, yet is inferred to have had a pre-RSF glacial form and an LGM glacier. This is resolved by envisaging: (a) that a pre-LGM RSF created a cavity that was exploited by cirque glaciers on at least two occasions; (b) that the RSF was pared back by an LGM valley glacier; and (c) that it subsequently re-descended to the valley floor after the LGM. A pre-LGM origin for the RSF would account for the till-covered slipmass. It also allows time for excavation of the present cirque headwall by 50–100 m, and for the opposite valleyside to erode back by c. 50 m in response to a progressively displacing river and valley glacier. If this proposition is correct, Dove Crags would be one of the first substantial pre-LGM RSFs to be recognized in the glaciated mountains of Britain and Ireland, implying that others ought to be present.

%I Geological Society of London