Skolithos
Skolithos is a common trace fossil ichnogenus that is, or was originally, an approximately vertical cylindrical burrow with a distinct lining. It was produced globally by a variety of organisms, mostly in shallow marine environments, and appears as linear features in sedimentary rocks.
Depositional environments
Skolithos ranges in age from early Cambrian to the present and is found throughout the world. They occur in sediments and sedimentary rocks, primarily sands and sandstones. They are typically marine in origin, and are commonly associated with high-energy environments close to the shoreline. They have also been reported from freshwater lacustrine settings, but have rarely been described from carbonate rocks. Vertical Skolithos can also occur in alluvial sediments such as braided river deposits, where the periodic fluctuation of water is an important factor in the formation of this structure. This periodic water fluctuation corresponds to tidal activity in shallow marine environments, but also occurs over longer time intervals in alluvial deposits.Classification and history
The ichnogenus Skolithos was first described as a subgenus of the supposed seaweed Fucoides in 1840, by Samuel Stehman Haldeman, a renowned Pennsylvania naturalist in the early 19th century, who labeled the structure as the “oldest fossil in the state”. He named the trace fossil Skolithos, meaning “worm-stone”, suggesting its morphologic similarity to a worm. James Hall published the first illustrations of Haldeman’s discovery in his journal Paleontology of New York Volume I, changing the name to Scolithus. 1943 marked the revival of Haldeman’s research as Benjamin Howell reported the occurrence of the trace fossil in the Hardyston Formation in Pennsylvania. Howell restored the name Skolithos in accordance with the International Code of Zoological Nomenclature. In the 1960s structural geologists discovered the use of the trace fossil as a strain marker by which it could record rotation and strain in highly deformed rocks. This led to a series of experiments that extend to present-day analyses to determine the extent of the strain marking properties of Skolithos. Skolithos linearis, found in the Blue Ridge Mountain region, is the oldest known trace fossil in Virginia. Trypanites is superficially similar in form but is a boring excavated in hard substrates, and lacks the diagnostic lining of Skolithos.Structure and use as a strain marker
''Skolithos'' structure
The structure of the trace fossil is cylindrical and elongated in shape, usually at a perpendicular angle to the surface where it has been deposited. They can reach lengths of up to about and diameters of up to about. The vertical burrows are composed of the same mineralogy as its surrounding matrix which allow it to deform homogenously with the parent rock. Variations in observed Skolithos structures include burrow curvature, angle to the plane of deposition, and size of the fossil’s aperture. Funnel-shaped apertures of Skolithos reflect the filter- and suspension-feeding habits of burrowing genera. The high intensity of bioturbation of these organisms indicate the shallow water paleoenvironment in which the Skolithos burrows formed shortly after the deposition of the bed.Using ''Skolithos'' to evaluate strain
Unstrained Skolithos structures are normal to the plane of the bed. In zones where tectonic deformation is intense, such as thrust zones, the deformed Skolithos burrow can be used to evaluate the local strain on the region. This technique is performed by comparing the angle between the specimen and the bedding surface, with the original 90o geometric relationship. Since the trace fossil shares similar material properties to the surrounding matrix, they are inferred to deform by the same mechanism. This technique can be applied in areas where other strain markers may have been destroyed by tectonic activity or cataclastic flow.Unit strain ɛ can also be defined using the elongation of the structure:
where
• ɛ is the unit strain due to elongation
• l is the deformed length of the structure
• lo is the initial length of the structure
The structure length and orientation may be influenced by the directional behaviour of the burrowing organism, therefore observing the widths of the burrow may provide a more precise strain estimation.