Misty Jane
Bow Fiddle Rock
The Bow Fiddle Rock is so called because it resembles the very tip of a bow. It was formed by erosion of a rock called Cullen Quartzite. This is one of many different quartzites found in Scotland. The quartzite is about 2500 metres (8000 feet) thick and makes up the coastline from Buckpool (the west end of Buckie) to Logie Head, the main headland east of Cullen.
Quartzite is a metamorphic rock, which means that it has been altered in nature by heat or by pressure. It was originally sandstone laid down in layers under the sea around 750 million years ago. More and more sediment piled up on top until the sandstone was buried several kilometres down, and as the pressure from overlying rocks built up, and heat from the centre of the Earth rose into the crust, the grains of silica in the sandstone were crushed and welded together to form the much harder rock called quartzite.
Over millions of years the overlying rocks were eroded away again, and the Cullen Quartzite became exposed at the surface, where the sea and the weather began to attack weaker spots in the rock and carve out the arch we see today. The sloping layers can be traced on to the land from which you first see the Rock. From further east along the clifftop, you get a completely different view, where you can see that the Rock is a long sloping slab of rock.
Bow Fiddle Rock
The Bow Fiddle Rock is so called because it resembles the very tip of a bow. It was formed by erosion of a rock called Cullen Quartzite. This is one of many different quartzites found in Scotland. The quartzite is about 2500 metres (8000 feet) thick and makes up the coastline from Buckpool (the west end of Buckie) to Logie Head, the main headland east of Cullen.
Quartzite is a metamorphic rock, which means that it has been altered in nature by heat or by pressure. It was originally sandstone laid down in layers under the sea around 750 million years ago. More and more sediment piled up on top until the sandstone was buried several kilometres down, and as the pressure from overlying rocks built up, and heat from the centre of the Earth rose into the crust, the grains of silica in the sandstone were crushed and welded together to form the much harder rock called quartzite.
Over millions of years the overlying rocks were eroded away again, and the Cullen Quartzite became exposed at the surface, where the sea and the weather began to attack weaker spots in the rock and carve out the arch we see today. The sloping layers can be traced on to the land from which you first see the Rock. From further east along the clifftop, you get a completely different view, where you can see that the Rock is a long sloping slab of rock.