Dayton Dove scite author profile

Marine spatial planning and conservation need underpinning with sufficiently detailed and accurate seabed substrate and habitat maps. Although multibeam echosounders enable us to map the seabed with high resolution and spatial accuracy, there is still a lack of fit-for-purpose seabed maps. This is due to the high costs involved in carrying out systematic seabed mapping programmes and the fact that the development of validated, repeatable, quantitative and objective methods of swath acoustic data interpretation is still in its infancy. We compared a wide spectrum of approaches including manual interpretation, geostatistics, object-based image analysis and machine-learning to gain further insights into the accuracy and comparability of acoustic data interpretation approaches based on multibeam echosounder data (bathymetry, backscatter and derivatives) and seabed samples with the aim to derive seabed substrate maps. Sample data were split into a training and validation data set to allow us to carry out an accuracy assessment. Overall thematic classification accuracy ranged from 67% to 76% and Cohen's kappa varied between 0.34 and 0.52. However, these differences were not statistically significant at the 5% level. Misclassifications were mainly associated with uncommon classes, which were rarely sampled. Map outputs were between 68% and 87% identical. To improve classification accuracy in seabed mapping, we suggest that more studies on the effects of factors affecting the classification performance as well as comparative studies testing the performance of different approaches need to be carried out with a view to developing guidelines for selecting an appropriate method for a given dataset. In the meantime, classification accuracy might be improved by combining different techniques to hybrid approaches and multi-method ensembles.

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Cosmogenic exposure age constraints on deglaciation and flow behaviour of a marine-based ice stream in western Scotland, 21–16 ka

Small

Benetti

Dove

et al. 2017

Quaternary Science Reviews

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Widespread, multi-source glacial erosion on the Chukchi margin, Arctic Ocean

Dove¹,

Polyak²,

Coakley³

2014

Quaternary Science Reviews

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Abstractsuggests stepwise deglacial retreat towards the shelf, backing up the broad bathymetric trough at 20 the eastern side of the Rise. Glacigenic features other than extensive iceberg scouring cannot be 21 identified above 350-m depth, and no glacigenic bedforms are present on the current-swept shallow 22shelf. Despite the resulting uncertainty with the southern extent of the glaciation, the data suggest a 23 widespread grounded-ice presence on the northern Chukchi Shelf, which makes it an important, 24 previously underestimated component of the Arctic paleo-glacial system. 25

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The evolution of the Dogger Bank, North Sea: A complex history of terrestrial, glacial and marine environmental change

Cotterill

Phillips

James³

et al. 2017

Quaternary Science Reviews

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This paper presents a summary of the results of a detailed multidisciplinary study of the near surface geology of the Dogger Bank in the southern central North Sea, forming part of a site investigation for a major windfarm development undertaken by the Forewind consortium. It has revealed that the Dogger Bank is internally complex rather than comprising a simple "layer cake" of the Quaternary sediments as previously thought. Regional and high-resolution seismic surveys have enabled a revised stratigraphic framework to be established for the upper part of this sequence which comprises the Eem (oldest), Dogger Bank, Bolders Bank formations, Volans Member and Botney Cut Formation (youngest), overlain by a typically thin Holocene sequence. Detailed mapping of key horizons identified on the high-resolution seismic profiles has led to the recognition of a series of buried palaeo-landsystems which are characterised by a range of features including; glacial, glacifluvial and fluvial channels, a large-scale glacitectonic thrust-moraine complex with intervening ice-marginal basins, a lacustrine basin and marine ravinement surfaces. Interpretation of these buried landscapes has enabled the development of an environmental change model to explain the evolution of the Dogger Bank. This evolution was driven by the complex interplay between climate change, ice sheet dynamics and sea level change associated with the growth and subsequent demise of the British and Irish and Fennoscandian ice sheets during the Weichselian glaciation. Following the decay of these ice sheets the Dogger Bank entered a period of significant climatic and environmental 2 flux which saw a terrestrial landscape being progressively inundated as sea levels rose during the Holocene. Keywords-Dogger Bank; North Sea; stratigraphy; 2D seismic data; glacial and marine environmental change Highlights • Detailed multidisciplinary study of the Quaternary of the Dogger Bank, North Sea • A revised stratigraphic framework of the Dogger Bank has been established • A number of buried, terrestrial palaeo-landscapes have been identified • A model involving ice sheet dynamics, climate and sea level change is proposed

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Dayton Dove

Arctic Ocean glacial history

Mapping seabed sediments: Comparison of manual, geostatistical, object-based image analysis and machine learning approaches

Cosmogenic exposure age constraints on deglaciation and flow behaviour of a marine-based ice stream in western Scotland, 21–16 ka

Widespread, multi-source glacial erosion on the Chukchi margin, Arctic Ocean

The evolution of the Dogger Bank, North Sea: A complex history of terrestrial, glacial and marine environmental change

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