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An integrated sequence stratigraphic analysis of the early Marsdenian substage of the Millstone Grit Group, Central Pennines, UK
3D seismic interpretation and fault slip potential analysis from hydraulic fracturing in the Bowland Shale, UK
Provenance of Carboniferous sandstones in the central and southern parts of the Pennine Basin, UK: evidence from detrital zircon ages
Abstract One of the geohazards associated with coal mining is subsidence. Coal was originally extracted where it outcropped, then mining became progressively deeper via shallow workings including bell pits, which later developed into room-and-pillar workings. By the middle of the 1900s, coal was mined in larger open pits and underground by longwall mining methods. The mining of coal can often result in the subsidence of the ground surface. Generally, there are two main types of subsidence associated with coal mining. The first is the generation of crown holes caused by the collapse of mine entries and mine roadway intersections and the consolidation of shallow voids. The second is where longwall mining encourages the roof to fail to relieve the strains on the working face and this generates a subsidence trough. The ground movement migrates upwards and outwards from the seam being mined and ultimately causes the subsidence and deformation of the ground surface. Methods are available to predict mining subsidence so that existing or proposed structures and land developments may be safeguarded. Ground investigative methods and geotechnical engineering options are also available for sites that have been or may be adversely affected by coal mining subsidence.
On the distinction of pollen grains of early varieties of Hordeum from Glyceria species: addressing the early cereal cultivation problem in palynology
The upper Permian Cadeby Formation in the Boston Spa area, West Yorkshire, UK
Geology of Caphouse Colliery, Wakefield, Yorkshire, UK
A reappraisal of Pecopteris miltonii (Artis) Brongniart, a mid-Westphalian (Early–Mid Pennsylvanian) fern
The contribution of maps to appreciating physical landscape: examples from Derbyshire’s Peak District
Abstract It is only in the last 100 years or so that most of Britain has been covered by accurate, published, topographic and geological maps. Although travellers’ guides were available from the late seventeenth century, they lacked adequate maps. Whilst fairly accurate maps of the major roads were published in the early seventeenth century as strip maps, topographic maps were not generally available until the nineteenth century. Cartographers, usually when preparing county maps, struggled with the representation of Britain’s varied topography. In the nineteenth century, medium-scale (1-inch-to-the-mile) topographic maps initially developed through the agency of the prizes offered by the Royal Society of Arts but primarily due to the Ordnance Survey. Geological maps benefitted from improved base maps – those of John Cary and the Ordnance Survey. This paper especially explores and illustrates the development of maps and the role they played in the depiction and understanding of landscape and promotion of the major early geotourism region of the Peak District from 1780 to 1930.