Excerpt of a 1:50,000 published soil map. (c) Cranfield University Many countries place great importance in mapping their soil resources, as this provides invaluable information about the types of soil present, their distribution, and formation.

Soil maps are used by a wide range of individuals, including farmers, town and country planners, conservationists, foresters, teachers and students to name but a few.

Generally, soil maps are used to simply identify soils and their properties, but are sometimes required for more specific purposes, such as determining the suitability of a soil for particular crops, or the land drainage capabilities of an area.

Like all maps, soil maps can be created in different scales. Small scale maps (which show less-detail) provide an overview of a region, whilst Large scale maps (which show high-detail) can be prepared where necessary for a local area such as a wildlife reserve or a farm.

Mapping information can be produced in paper form, or increasingly in digital mapping form through the use of a Geographical Information System (GIS), which uses the computer to store and manipulate data about soils and other related themes.

Soil Maps

Excerpt of a 1:250,000 published soil map. (c) Cranfield University Producing maps to help to explain, understand and record the world around us is a very old art indeed. Mapmakers, or cartographers, draw a representation of the world - or some aspect of the world using different symbols, line styles and shadings. Maps are produced at a range of different scales depending on the map's anticipated use.

Once drawn up, maps can be printed off on large printing presses, folded up and made widely available. There are many organisations responsible for producing mapping in England and Wales. Notably the Ordnance Survey (or OS), being the national mapping agency, who produce a whole series of maps at different scales for differing purposes - from touristic maps, to land use maps to general purpose mapping. Other organisations produce maps along more specialist lines. The National Soil Resources Institute at Cranfield University is made responsible by Government for mapping the soils of England and Wales, just as the British Geological Survey is responsible for mapping the geology.

Soil Classification and Mapping

Excerpt of a published soil map legend, or key. (c) Cranfield University The natural landscape changes around us in many dimensions; vertically down through different characteristics of soil (horizons), and laterally from one place to another. Soils can also vary in time - throughout a year, or gradually over longer time periods. Changes in soil characteristics can occur in all these dimensions making soil classification very complex.

In order to create a soil map, this complexity must be simplified. To do this soil classifications are used which place groups of like-characteristics together. There are many differing classifications, both historical and in use today. Because soils vary so much from place to place, many countries have developed their own classifications. There are several important international soil classifications also.

Maps can be created which represent the soils of a country or a region based on a classification system. Maps may also be made which represent some property or characteristic of soil, for example a map of how sandy the soils are in an area. Special maps may also be made which combine the properties of soil, together with other environmental characteristics such as rainfall patterns, for example a map of likely flood risk in an area.

Maps can be made to be of general widespread use. A general soil map of soil types across a county is an example. Such a map can be put to many uses. Maps can also be made for very specific purposes. Here the map helps to represent a particular understanding rather than to tell a general story. An example could be a map designed to show how suitable the land of an area is for growing a certain agricultural crop.

Map Scale

Excerpt of a 1:63,000 published soil map. (c) Cranfield University All cartographical maps have scales. The scale determines how much detail can be shown on the map. For example, with a map at a scale of 1:50 000, a distance of 1 km is represented by one of 2 cm on the map; with a map at a scale of 1:250 000 1 km become 0.4cm. In describing mapscales, the greater the number of the mapscale (e.g. 1:250 000 map), we say the 'smaller' the mapscale is. Equally, the smaller the number of the mapscale (e.g. 1:50 000 map), we say the 'larger' the mapscale is. This sounds confusing at first and people do often confuse the terms, but it relates to the ratio between the length of real-world objects and those same objects drawn on the map.

Small-scale soil maps (e.g. 1:250 000) then cannot show as much detail on the ground as large-scale maps (e.g. 1:50 000). Because of this, in small-scale maps, individual soil types may often be grouped together. British soil maps at 1:250 000 show boundaries for soil 'associations' - which just means groups of soil types that typically occur in the same area. A large-scale map could show boundaries for actual soil types as they can fit into the map more easily. The use of computer mapping tools such as a Geographical Information System allows maps of different scales to be displayed on the computer screen.