|Measuring the dip|
We walked over slate, crossed a slither of sandstone (and a bit of yellow tuff / volcanic ash) and were introduced to a dolerite intrusion; magma at high temperature and under high pressure, which had been squeezed between sedimentary rock and solidified slowly, deep underground. This rock has no slaty cleavage, tends to be blocky (breaking up into blocks) and covered in vegetation such as lichens.
|Clive explains the process of bedding in sandstone|
Dolerite was butted up against sandstone and, whereas in the past I would have called them all rocks, I like to think that I could now tell the difference. Sandstone is built from layers of sediment accumulating underwater and this was obvious to see with larger granules in places, where stronger currents had carried heavier bits. On the face of some rocks we could see the ripple effect, with heavier granules on the ridges and finer sediments in the troughs.
This area is obviously a well used outdoor classroom; every now and again we would notice a chipped off piece of rock where budding geologists had taken a sample. Newly exposed rock is a very different colour to the weathered rock.
|Not a contact lens but a fossil!|
From the shores of Llyn Llagi we stood on a hollow-sounding structure of slate in the middle of a bog which we surmised to be a platform for drying peat. But who wanted the peat up here? It was handy to have Kathy Laws in our party, the archaeologist from the National Trust, to point out the site of an iron-age settlement just a hundred metres or so away – maybe they would have needed a supply of peat.
The buoys in Llyn Llagi are part of the monitoring of this and 20 other lakes in Britain to measure acidity. Since 1988 the acidity of Llyn Llagi has fallen with PH rising from about 5.3 to about 5.9 – the main factor being the reduction of acid rain caused by sulphur dioxide from coal-fired power stations. The other lake monitored in Snowdonia is Llyn Cwm Mynach.
From here we walked to the top of a microgranite sill to eat our lunch beside a dolerite erratic. I’m not sure I could identify microgranite – it’s like dolerite but formed with the addition of quartz. On a sunny day it made for a great picnic site.
Our last mission was to climb to the top of Castell, a rhyolite intrusion - a ‘volcanic plug’. Clive explained the different viscosity of lava (which is magma that has broken through the earth’s surface). Volcanoes erupting on, or close to the edges of continents have sticky lava whereas in the open seas they have thin, fast flowing lava, which is why Hawaii is the shape it is. When lava spewed out of Castell it was the sticky stuff that stayed upright and slowly moulded over time. The rhyolite was a light, whitish colour with lots of fragments solidified in wavy bands.
|On top of the volcano|
Clive Hudson is an enthusiast for local pre-history and maybe organising a day school to look into subjects such as: flint technology and lime bast string and other cordage. Another possibility is the extraction of birch bark tar which was the glue to stick flint onto shafts; Clive’s prototype involves a biscuit tin and a baked bean tin in a fire! If you would like to know more or take part in an interesting day please contact Clive at email@example.com
|How it all happened over millions of years|