sample_processing
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| - | ==== Sample | + | ==== Sample |
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| + | All studies in biostratigraphy, | ||
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| + | //Samples in commercial biostratigraphy normally originate from the drilling process. However, other sample types are also analysed for biostratigraphy including outcrop samples and sea-bed cores or " | ||
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| + | //What can effect sample quality from drilled sediments? The choice of drill-bit, mud-type and method of drilling can affect the recovery potential of microfossils from the samples and thus influence data quality.// | ||
| The three main microfossil groupings – in addition to the scientific differences between them – are each also distinguished by the basic processing methods used to liberate the microfossil specimens from the rock matrix, although there are various other detailed differences within the main three methods depending on additional factors. One of the most important factors which determines the likelihood of good microfossil recovery is sample lithology: | The three main microfossil groupings – in addition to the scientific differences between them – are each also distinguished by the basic processing methods used to liberate the microfossil specimens from the rock matrix, although there are various other detailed differences within the main three methods depending on additional factors. One of the most important factors which determines the likelihood of good microfossil recovery is sample lithology: | ||
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| As a general guide – the finer the grain size, the more microfossils can expect to be recovered. | As a general guide – the finer the grain size, the more microfossils can expect to be recovered. | ||
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| + | Sample spacing also has an influence on, for example, the degree of biostratigraphic resolution that can be achieved. As particle-physicists will tell you - "One can only resolve objects down to the wavelength of the light that is shone upon them." | ||
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| The most common forms of sample processing techniques are: | The most common forms of sample processing techniques are: | ||
| - | Disaggregation – commonly used for calcareous, siliceous and phosphatic microfossils (e.g. forams, ostracods, conodonts, some diatoms and radiolaria) from un- or semi-consolidated sediments using one or more sieves. The bulk of the lithological matrix is washed away, or separated, leaving a residue in which the microfossils are concentrated. A moderate amount of chemical digestion (e.g. the use of hydrogen peroxide or weak acetic acid) may also be applied. | + | * Disaggregation – commonly used for calcareous, siliceous and phosphatic microfossils (e.g. forams, ostracods, conodonts, some diatoms and radiolaria) from un- or semi-consolidated sediments using one or more sieves. The bulk of the lithological matrix is washed away, or separated, leaving a residue in which the microfossils are concentrated. A moderate amount of chemical digestion (e.g. the use of hydrogen peroxide or weak acetic acid) may also be applied. |
| * Thin-section – used for various microfossils in hard limestones. Specimens are visible only in two dimensions but identification is possible if the section crosses the central part of the fossil. Such techniques require a specialist approach. | * Thin-section – used for various microfossils in hard limestones. Specimens are visible only in two dimensions but identification is possible if the section crosses the central part of the fossil. Such techniques require a specialist approach. | ||
| * “Smearing” – a quick method for preparing nannofossils which literally smears a thin lithological dust residue onto a slide. Some of the smaller diatom species may also be visible this way | * “Smearing” – a quick method for preparing nannofossils which literally smears a thin lithological dust residue onto a slide. Some of the smaller diatom species may also be visible this way | ||
| * Suspension – a slower but more precise method for preparing nannofossils involving a suspension of lithic dust in water and allowing it to settle (or be centrifuged) before placing on a slide. Some of the smaller diatom species may also be visible this way | * Suspension – a slower but more precise method for preparing nannofossils involving a suspension of lithic dust in water and allowing it to settle (or be centrifuged) before placing on a slide. Some of the smaller diatom species may also be visible this way | ||
| * Chemical extraction – a means of extracting organic-walled microfossils (palynomorphs) essentially by dissolving away siliceous rock from un-, semi- and fully-consolidated sediments and then oxidising the residues to make the palynomorphs visible. Several different toxic and corrosive chemicals are used which requires a specialist laboratory to perform. | * Chemical extraction – a means of extracting organic-walled microfossils (palynomorphs) essentially by dissolving away siliceous rock from un-, semi- and fully-consolidated sediments and then oxidising the residues to make the palynomorphs visible. Several different toxic and corrosive chemicals are used which requires a specialist laboratory to perform. | ||
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sample_processing.1678819104.txt.gz · Last modified: 14/03/2023 18:38 by mike_gss