The Earth Story

Siccar point by drone. Original caption:

Siccar Point

The US Geological Survey’s Landsat 8 satellite captured this image of Siccar Point in Scotland, perhaps the most famous angular unconformity on Earth. At this site, naturalist James Hutton recognized that the presence of an angular unconformity required millions of years of Earth history – the first layer of rocks had to be formed, tilted, and eroded, before another layer could be deposited on top. What I particularly like about this image is that if you look along the shoreline to the west of Siccar point, you can actually see the pattern created by the dipping beds of the Old Red Sandstone. There are linear outcrops all along the shoreline that outline the intersection of those beds with the surface – that direction is what geologists call the strike. It even looks like one of the creeks follows that direction for a short distance. To the right of Siccar point, you can no longer see this pattern, as the older and steeper beds strike in a different direction.

JBB

For more on Siccar point, see our previous posts: https://tmblr.co/Zyv2Js11Z9mNF https://tmblr.co/Zyv2Js1R6HJsL https://tmblr.co/Zyv2Js221GUwo

Image credit: https://earthobservatory.nasa.gov/images/92598/the-abyss-of-time

Siccar Point: where modern geology started.

Located on the East coast of Scotland, this location is the most important site in the history of geology. James Hutton, widely seen as our founding father (see http://tinyurl.com/kwz2543) had a revelatory moment here in 1788 that opened his eyes to the existence of deep time, recognising in a flash of inspiration the story that these rocks had to tell us. He used this inspiration to prove his uniformitarian theory, that processes had remained the same throughout geological history and that immense cycles of time were represented by the rock record that was then being explored and discovered for the first time.

At this promontory in Berwickshire, one the site of an ancient hill fort, an angular unconformity, recording a time in geological history when no rocks were deposited because erosion was occurring, reveals some pretty astounding facts of Scottish geology. Here, near horizontal layers of 345 million year old Devonian old red sandstone overlay highly folded, near vertical, 425 Ma Silurian greywackes. At the junction, a basal conglomerate containing clasts of greywacke testifies to the erosion that preceded the deposition of the land sedimented desert sandstone. Higher up the cliff the conglomerate is absent, indicating palaeotopography, where a Devonian hill and valley sat side by side, with the hill shedding the clasts into the valley below where they eventually formed the pudding stone.

The greywackes were deposited off an ancient coastline into the Iapetus Ocean, and were once also horizontal. As this ancient sea gradually closed during the formation of the supercontinent Pangaea they were folded, thrust up and tilted to their current near vertical state. Six separate events of folding and uplifting have been discerned in the rocks. The mountain range then gradually eroded before the great Pangaean desert formed, depositing the aeolian (wind borne) desert sandstone above the already ancient and tilted rocks.

Hutton presented his findings in his books Annals of the Former World and Theory of the Earth, in which he stated "From the present state of things, we have it in our power to reason from effect to cause, and read the annals of a former earth", and while discussing his new vision of deep time "I see no vestige of a beginning (of our world), no prospect of an end". The site has now been designated a site of special scientific interest, and remains a pilgrimage for university students and geologists worldwide.

Loz

Image credit: David Souza

http://www.geopoem.com/2013/06/unconformities.html http://www.electricscotland.com/mcintyre/index_f/menu_f/geology_f/siccar_point.htm http://all-geo.org/highlyallochthonous/2011/01/the-making-of-an-angular-unconformity-huttons-unconformity-at-siccar-point/ http://www.geos.ed.ac.uk/undergraduate/field/siccarpoint/ http://www.geowalks.co.uk/isiccar.html http://www.geowalks.co.uk/isiccartours.html

Double rainbow above Siccar Point and Hutton’s unconformity, Scotland!

Unconformities

A while back we wrote about one of the founding fathers of Geology, eighteenth century Scottish scientist, James Hutton. The concepts that Hutton developed, of deep time and the underlying constancy of physical laws and processes, came from careful observations of the outcrops around him. Some of the most famous are Hutton's 'unconformities'. At a number of places across Scotland, Hutton identified that the rock record revealed gaps in time, with much older rocks directly overlain by younger rocks that must have been deposited many millions of years later. This demonstrated to him the scale of geological time, and how it can be identified in the geological landscape.

The key to the gap in time came from the geometric relations that Hutton observed. The clearest example is at Siccar Point, on the east coast of Scotland, near Edinburgh. Here, Devonian sandstones, deposited 345 million years ago on the arid landscape of the Euramerican supercontinent lie in almost horizontal beds, dipping shallowly out to the current-day sea. But the rocks directly beneath lie with their bedding near vertical. They were deposited on the floor of a Silurian ocean, 425 million years ago, and must have been tilted through 90˚ since they were deposited. A chunk of time, amounting to around 80 million years, is missing from the rock record. Hutton recognised (qualitatively) that gap and the order of events from the relative geometries of the beds. The Silurian marine sediments had lithified, were then uplifted and tilted, and turned on end. Although he could not say much about the gap in time, it follows that erosion formed a land surface, on which the later Devonian sandstones were deposited. The boundary between the basal conglomerate and the Silurian sediments is the unconformity recognised by Hutton.

James Hutton had recorded similar relations in different rocks a year earlier, in 1787, at Newton Point on the island of Arran, west Scotland. Here once more shallowly dipping red sandstones, formed in an arid terrestrial environment, lie on top of steeply-dipping and cleaved grey rocks. The underlying rocks here go by the name of Dalradian, after that of an ancient native tribe. Low-grade metasediments, they were deposited from a continental shelf into a late Precambrian ocean and have subsequently undergone regional scale deformation. The overlying red sandstone conglomerate belongs to the late Devonian and early Carboniferous. Indeed, at Newton Point geologists have subsequently identified a Devonian unconformity, the land surface in the late Devonian formed from tilted and eroded Precambrian basement, and a further disconformity. This represents a gap in time, but with no erosive-tectonic disturbance in the sedimentary sequence, before the subsequent lower Carboniferous conglomerates were deposited.

We take students to Newton Point every spring, to discover for themselves the first steps in reading the rocks. Here is part of this year's group, enjoying Hutton's unconformity at the end of a long day in the field.

~SATR

Image: Newton Point, first year field trip.

More here: http://www.geopoem.com/2013/06/unconformities.html — with 張博翔.

Old Red Sandstone

These sedimentary grains are a tiny slice of the Old Red Sandstone, one of the most famous geologic units in Great Britain. The sandstone was deposited in the Devonian and Silurian in basins that formed as the Caledonian Mountain Range grew and eroded. Sediments of similar age are found on the opposite side of the Atlantic, showing that these rocks relate to a continental scale collision between Europe (Baltica) and North America (Laurentia).

This unit sits atop the unconformity at Siccar Point, Scotland, where geologist James Hutton recognized that the contact between this unit and a lower, tilted and eroded unit, had to represent tens of millions of years of time (https://tmblr.co/Zyv2Js1R6HJsL).

The centimeter sized, rounded pebbles are quartz and chert grains. Mostly, these grains represent sedimentary units deposited in the Paleozoic that were uplifted and eroded as the mountains grew. The large space between these pebble grains shows that this is an example of a “matrix supported” rock – there are finer grains of sand with the occasional large grain, but those large grains aren’t abundant enough for them to actually touch.

The nickname “Old Red Sandstone” distinguishes this geologic unit from a younger sandstone produced hundreds of millions of years later during the orogeny at the time the Atlantic Ocean finally closed to form Pangaea.

-JBB

Image credit: http://bit.ly/2gqnbEX

Read more: http://bit.ly/2hgCXie http://bit.ly/2gxKGtR http://jncc.defra.gov.uk/pdf/gcrdb/v31chap1.pdf http://www.bgs.ac.uk/lexicon/lexicon.cfm?pub=NRS

Ooh, the British Geological Survey presents this excellent video of a trip to Siccar Point, home of Hutton’s Unconformity and one of the most famous outcrops in geoscience. This outcrop helped forge the idea of geologic time.

Siccar Point, Scotland Scotland should hold a place of reverence in the heart of everyone who works in the Geosciences. Another of Scotland’s geologic gems; this outcrop literally led to the science of geology. This is the famous outcrop at Siccar Point, where James Hutton first put together the idea of geologic time as incredibly long, as having “that we find no vestige of a beginning, no prospect of an end”. This outcrop is a classic example of an angular unconformity. Hutton reasoned that the formation of this outcrop required immense amounts of time, geologic time. The rocks in the lower layer were deposited as sediments, lithified, tilted, and eroded over immense time. After that, an entire new package of rocks was deposited on top. Out in the world we can see snapshots of some of these processes; rocks being tilted by faulting, sediments being deposited, rocks being eroded after uplift, but they all take enormous amounts of time. This outcrop simply can’t be formed quickly by any rapid process. Today’s election results will be available in a blink of an eye compared to the time represented by this outcrop, but the legacy of both will endure. -JBB Image credit: Anne Burgess http://en.wikipedia.org/wiki/Geology_of_Scotland#mediaviewer/File:Siccar_Point.jpg Read more: http://www.scottishgeology.com/geo/regional-geology/southern-uplands/siccar-point/ Have you been missing out on our posts lately? If so, it is due to changes in Facebook's filtering system. To find out how you can enjoy reading our posts more often click here: http://tinyurl.com/ll9wd7l.

Geological Unconformity. An unconformity is shown in the rock record as an erosional surface separating two periods of geological time with a gap in-between (The erosional surface represents the missing time). The term is usually used to describe any period of missing rock in the sedimentary record, and the overlying rock is always the younger unit, unless through tectonic activity the sequence has been overturned, and then other methods such has biostratigraphy or way-up features are used to ascertain eh order of the rocks.  An angular unconformity refers to the older rocks being tilted before erosion with the younger rocks laid on top horizontally. The most famous example of this is “Hutton’s Unconformity” described by James Hutton in the 18th century. Hutton’s Unconformity laid evidence to Hutton’s theories about uniformitarianism and the age of the Earth. The image below shows “Hutton’s Unconformity” at Siccar Point in Scotland. A disconformity refers to an unconformity between two layers of parallel sedimentary rocks, and there can often be evidence of channels or palaesoils in the rock record from this type of unconformity. A non conformity if an unconformity that exists between a layer of sedimentary rock and an layer of igneous or metamorphic rock. For example, if a sedimentary rock is deposited above a lava flow that has already been exposed to weathering and erosion, the unconformity is described as a non-conformity.  For more examples and information head to the links below. -LL Links; http://www.indiana.edu/~geol105b/images/gaia_chapter_6/unconformities.htm http://www.nature.com/nature/journal/v484/n7394/full/nature10969.html http://www.snh.org.uk/publications/on-line/geology/elothian_borders/hutton.asp Image; Dave Souza