Classify Sedimentary Rocks

Description

Undergraduate Geology - Part 2 (Sedimentary Processes and Products) Note on Classify Sedimentary Rocks, created by siobhan.quirk on 18/05/2013.
siobhan.quirk
Note by siobhan.quirk, updated more than 1 year ago
siobhan.quirk
Created by siobhan.quirk over 11 years ago
250
0

Resource summary

Page 1

Three groups of sedimentary rocksMost sedimentary rocks are formed from clasts produced as a result of weathering and erosion. Clasts can range in size from boulders to clay and include solid fragments called pyroclasts that have been ejected from volcanoes. The erosion, transport and deposition of clasts are by mechanical processes and they are described as mechanically formed sedimentary rocks.The products of chemical weathering always include ions in solution. They are transported in solution in rivers and the sea. A change in the chemical environment can lead to their deposition, for example, where sea water is evaporated and CaCo3 crystals are precipitated. The weathering transport and deposition of these rocks is by chemical processes and they are called chemically formed sedimentary rocks.Biologically formed sedimentary rocks result when organisms, such as sea creatures or trees, extract ions that are in solution in sea water or groundwater and turn them into organic tissue, such as shells or wood. When the organism dies, its remains will be deposited and may be buried to form sedimentary rocks. Often the remains are transported and become broken up. Shell fragments are an example of this. Rocks composed of these fragments are described as bioclastic.ClassificationClassification of sedimentary rocks involves examining them in the field, in hand specimen, through photos and thin sections. The three main groups are classified more precisely by using grain size, grain shape, mineral composition and fossil content. Grain size is used to divide up the mechanically formed sedimentary rocks. Grain shape is used to distinguish between conglomerate, which has rounded clasts and breccia which has angular clasts. Grain size is not so useful in classifying chemically and biologically forming sedimentary rocks, but mineral composition and fossil content are, A rock containning more than 50% calcium carbonate is limestone. This is usually in the form of the mineral calcite. It is easy to recognise as it reacts strongly with dilute HCl. There are several different types of limestone, based on their fossil content and type of grain.Mechanically formed: transported terrestrial sediment formed by weathering, erosion and transport. Transported volcanic material. clastic (subdivided by grain size and composition). Pyroclastic Boulders, cobbles, pebbles, gravel, sand, silt, clay. Ash and lapilli. Blocks and bombs. >2mm - conglomerates and breccias 2 - 0.0625mm - sandstones <0.0625mm - mudstone, shale, clay, siltstone Tuff. Agglomerate Biologically formed: formed by activity of living organisms biogenic and bioclastic reef organisms, shell fragments of calcareous organisms, terrestrial plant matter, calcareous algae (coccoliths), microorganism oozes crinoidal, reef, bioclastic limestone, coal, chalk, chert Chemically formed: formed by evaporation of water and precipitation of minerals chemical evaporite minerals (subdivided by composition), ooliths, calcareous (lime) mud, iron minerals evaporites dolomite, gypsum, halite, K salts, oolitic limestone, micritic limestone, ironstones

New Page

Show full summary Hide full summary

Similar

Hot Desert Environments
siobhan.quirk
Deep Marine Basin Environments
siobhan.quirk
Clastic Shallow Seas
siobhan.quirk
Clear Shallow Seas
siobhan.quirk
Identifying Non-clastic Rocks
siobhan.quirk
Deltaic Environments
siobhan.quirk
Fluvial Environment
siobhan.quirk
Weathering
siobhan.quirk
Identifying Clastic Sedimentary Rocks
siobhan.quirk
Marine Evaporites
siobhan.quirk
Sediment Transport
siobhan.quirk