What do geologists do?

Geologists work to understand the history of our planet. The better they can understand Earth’s history, the better they can foresee how events and processes of the past might influence the future. Here are some examples:

• Geologists study Earth processes:   Many processes such as landslides, earthquakes, floods, and volcanic eruptions can be hazardous to people. Geologists work to understand these processes well enough to avoid building important structures where they might be damaged. If geologists can prepare maps of areas that have flooded in the past, they can prepare maps of areas that might be flooded in the future. These maps can be used to guide the development of communities and determine where flood protection or flood insurance is needed.

• Geologists study Earth materials:   People use Earth materials every day. They use oil that is produced from wells, metals that are produced from mines, and water that has been drawn from streams or from underground. Geologists conduct studies that locate rocks that contain important metals, plan the mines that produce them and the methods used to remove the metals from the rocks. They do similar work to locate and produce oil, natural gas, and groundwater.

• Geologists study Earth history:   Today we are concerned about climate change. Many geologists are working to learn about the past climates of Earth and how they have changed across time. This historical geology news information is valuable to understand how our current climate is changing and what the results might be.

Geologist are employed in a diverse range of jobs in many different industries. Some work in the field, some in offices and other have a mixture of both. In a nutshell, Geologist work to better understand the Earth, but what do they accully do?

Below are some examples of the tasks Geologist carry out in their respective industries:

Mapping & Fieldwork

This is a field-based task many geologists undertake. Different types of field mapping will look for different aspects of the rocks of a particular area.

• Field mapping looks at the particular rock types and geological structures of an area and how they all relate to one another – the aim is to produce a ‘geological map’. It is undertaken by geology students and geoscientists who work for universities, mining and exploration companies or some oil and gas companies.

• Sampling trips are common for researchers and geological exploration companies.

• Geotechnical mapping assesses the engineering properties of a rock and its stability prior to undertaking any sort of construction or modification of the rocks (such as building a tunnel).

Logging

Again, this is often a field-based activity undertaken with geological drilling. Geologists describe rock extracted by drills to understand the geology below the surface. Logging of sedimentary or volcanic rocks above ground is also used to study past environmental changes or accurately record sampling locations.

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Some types of logging include:

• Rock core logging (or rock chip logging) for mining and exploration companies
• Mud logging is undertaken for oil and gas exploration
• Geotechnical logging – this assesses how strong or weak rocks are below the ground using rock core.

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Laboratory work

Many geologists undertake laboratory work in their careers. A lot of what we know about the geology of the world and other planets has been discovered in laboratories. Researchers and those who work for some geology-related companies work in laboratories. There are also some geoscientists employed specifically in commercial laboratories that a huge number of geology-related companies (e.g. mining, oil & gas, engineering and environmental companies) use to acquire data.

Laboratory work can include:

• Microscope work looking at very fine details of rocks and fossils
• Geochemical analyses – using chemical methods to reveal details about samples (such as their metal content or the quality of oil).
• Geomechanical tests – testing the strength of rocks.

Computer-based work

All geologists will do a lot of their work on computer, often using specialist software, mostly in offices but field-based computer work is becoming more common. 

This can include:

• Geographical Information Systems (GIS) – essentially, this is field mapping on computers – producing a digital database of the field data acquired by geologists.

• Database management – Geologists spend a lot of time ensuring databases are up to date. This can be vital for the modelling processes described below.

• Modelling programs – this has become increasingly important for geologists, both those who do research and in commercial companies. This means many geologists are trained in specialist

  

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  software or programming. Geologists produce and maintain these for a range of purposes:
• Modelling geological processes (often for research purposes)
• Producing a 3-D model of a mineral deposit, oil field or aquifer.
• Modelling the subsurface geology that an engineering project will modify.

  

Report Writing

Summarising all the findings from all the tasks mentioned above in a concise yet comprehensive manner is crucial for all scientists, and geologists are no different. Reports can range from short daily updates to supervisors or colleagues (such as drilling progress reports) all the way to some very hefty documents of several hundred pages (such as PhD dissertations or economic assessments for turning exploration targets into active oil fields or mines).

Carrier in Geology is discussed later posts

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