EarthCaches are there for us to learn and see, and up here there is plenty to see, a great viewpoint across Calderdale. Beacon hill is typical of the local geology, laid down during the Carboniferous period, the local rocks are formed by sedimentation, during the Carboniferous period, when the rocks that lie underneath the valleys and hills of parts of the north of England were formed millions of years ago at a time when the whole of what is now the North of England was covered by huge river deltas and lagoons. Sediments, mainly sands, silts and muds, were eroded from hills in an area that now includes Scandinavia and Greenland and were swept into vast river deltas and lagoons in a central basin in a position now occupied by the Pennines. The sediment settled to the bottom as the water slowed down in the deltas and lagoons. The nearest equivalent sediments of today are forming in huge river deltas such as the Mississippi delta. This sediment built up until it was hundreds of metres thick and was gradually compacted and cemented into the “sedimentary” rocks we know today. To geologists they form part of the Millstone Grit series. The overall thickness of sediments indicate infilling of a tremendous basin, yet features in the rocks, such as ripples like those on a beach, show shallow water conditions, so sediment infill must have kept pace with large-scale subsidence.
Whilst the general process that gave rise to sedimentary rocks was the same over the whole of the Pennines, conditions would vary from place to place giving rise to local variations in the type and sequence of rocks. Some rocks such as mudstone are softer than sandstone, so as the softer rocks eroded, you get the stepped appearance of the hills surrounding Calderdale.
Why is this area special?
I was up here one evening, looking out, at what Halifax has to offer, and just happended to look down, if you look about for a large flat slab of rock, you will notice evidence of aqeous movement of sediment in the form of ripple marks.
Ripple Marks
Ripple marks are sedimentary structures, and indicate agitation by water (current or waves) or wind. This being geology there are different types of ripples.
Straight ripples generate cross-laminae that all dip in the same direction, and lay in the same plane. These forms of ripples are constructed by unidirectional flow of the current.
Sinuous ripples generate cross-laminae that are curvy. They show a pattern of curving up and down as shown in picture. Sinuous ripples produce trough cross lamination. All laminae formed under this type of ripple dip at an angle to the flow as well as downstream. These are also formed by unidirectional flow of current.
Catenary ripples generate cross-laminae that are curvy but have a unidirectional swoop. They show a pattern similar to what a repeated "W" would look like. Like the sinuous ripples, this form of ripple is created by unidirectional flow with the dip at an angle to the flow as well as downstream.
Linguoid ripples have lee slope surfaces that are curved generating a laminae similar to caternary and sinuous ripples. Linguoid ripples generate an angle to the flow as well as downstream. Linguoid ripples have a random shape rather than a "W" shape, as described in the catenary description.
This being an earthcache, in order to log it, I ask that you answer some questions. Please send them to me, and do not include them in your log. You can send them to me by using the message facility or email, both of which can be found by looking at my profile.
1. Generally what colour is the large slab, what does it feel like, get down on your hands and knees, shut your eyes and just rub your hands over it?
2. Find the ripple marked stone, what type are the ripples?
3. How big is the slab which has the ripple marks, and in what direction in degrees do the ripples orientate?