Abstract
Scanning electron microscope (SEM) imaging of fossils allows unlocking ultrastructural information about their skeletal tissues, but sample preparation of biominerals forming their skeletons requires time, patience, and knowledge. SEM and associated analytical methods allow the observation of internal microstructure, shedding light on function, growth and chemistry. Sample preparation is the process by which material is fixed within a medium (e.g. epoxy resin), a transect created and surface defects removed. This step is arguably the most important in any SEM-based analysis, allowing for the acquisition of reliable, high quality data sets. When conducting any SEM-based technique, the presence of a flat surface is needed to collect consistent and reliable data. Surfaces with topography will both induce charging effects but will also compromise the reliability of data acquired. Techniques from material science are continuously adapted to palaeontological applications, in particular with respect to calcareous microfossils. However, similar studies have not been extensively conducted on bioapatite, owing in part to the difficulties faced in sample preparation alongside its susceptibility to electron beam damage. This case study focuses on conodonts, a marine vertebrate group ranging from the late Cambrian to the Late Triassic. They have been chosen as a model due to the abundance of material, complexity of internal tissues and previous work focused on histological features. With these phosphatic microfossils, we attempt to outline the process of sample preparation and provide information on how to avoid and overcome common pitfalls.
| Original language | English |
|---|---|
| Article number | 102924 |
| Journal | Micron |
| Volume | 138 |
| DOIs | |
| Publication status | Published - Nov 2020 |
Bibliographical note
Funding Information:We would like to thank first Birgit Leipner-Mata (FAU, Erlangen) for her help with sample preparation and resin selection and Christian Schulbert (FAU, Erlangen) for his help with the SEM. We would like to thank Dr. Femke Holwerda (Royal Tyrrell Museum, Drumheller) and Emma Shirley (FAU, Erlangen) for their contribution by assisting in the production of the Spinosaurus specimen. We would also like to thank Madleen Grohganz (FAU, Erlangen) for allowing use her images of thelodont scales. Barnacles have been provided by Marco Taviani (CNR-ISMAR, Bologna) and SEM imaged at GZN together with Matthias López Correa (CNR-ISMAR, Bologna). This study was supported by the Deutsche Forschungsgemeinschaft (grant no JA 2718/3-1 & grant no BE 2413/3-1).
Funding Information:
We would like to thank first Birgit Leipner-Mata (FAU, Erlangen) for her help with sample preparation and resin selection and Christian Schulbert (FAU, Erlangen) for his help with the SEM. We would like to thank Dr. Femke Holwerda (Royal Tyrrell Museum, Drumheller) and Emma Shirley (FAU, Erlangen) for their contribution by assisting in the production of the Spinosaurus specimen. We would also like to thank Madleen Grohganz (FAU, Erlangen) for allowing use her images of thelodont scales. Barnacles have been provided by Marco Taviani (CNR-ISMAR, Bologna) and SEM imaged at GZN together with Matthias L?pez Correa (CNR-ISMAR, Bologna). This study was supported by the Deutsche Forschungsgemeinschaft (grant no JA 2718/3-1 & grant no BE 2413/3-1).
Publisher Copyright:
© 2020 Elsevier Ltd
Funding
We would like to thank first Birgit Leipner-Mata (FAU, Erlangen) for her help with sample preparation and resin selection and Christian Schulbert (FAU, Erlangen) for his help with the SEM. We would like to thank Dr. Femke Holwerda (Royal Tyrrell Museum, Drumheller) and Emma Shirley (FAU, Erlangen) for their contribution by assisting in the production of the Spinosaurus specimen. We would also like to thank Madleen Grohganz (FAU, Erlangen) for allowing use her images of thelodont scales. Barnacles have been provided by Marco Taviani (CNR-ISMAR, Bologna) and SEM imaged at GZN together with Matthias López Correa (CNR-ISMAR, Bologna). This study was supported by the Deutsche Forschungsgemeinschaft (grant no JA 2718/3-1 & grant no BE 2413/3-1). We would like to thank first Birgit Leipner-Mata (FAU, Erlangen) for her help with sample preparation and resin selection and Christian Schulbert (FAU, Erlangen) for his help with the SEM. We would like to thank Dr. Femke Holwerda (Royal Tyrrell Museum, Drumheller) and Emma Shirley (FAU, Erlangen) for their contribution by assisting in the production of the Spinosaurus specimen. We would also like to thank Madleen Grohganz (FAU, Erlangen) for allowing use her images of thelodont scales. Barnacles have been provided by Marco Taviani (CNR-ISMAR, Bologna) and SEM imaged at GZN together with Matthias L?pez Correa (CNR-ISMAR, Bologna). This study was supported by the Deutsche Forschungsgemeinschaft (grant no JA 2718/3-1 & grant no BE 2413/3-1).
Keywords
- Conodont
- Microanalysis
- Preparation
- Scanning electron microscopy
- Ultrastructure
