Pholad borings

Pholad borings are tubular burrows in firm clay and soft rock that have been created by bivalve molluscs (boring clams) in the family Pholadidae. The common names of clams in this family are "pholads", "piddocks", and "angel wings"; the latter because their shells are white, elongated and tend to be shaped like a wing and have sculpture somewhat reminiscent of a wing.^[1]

Pholads are unusual bivalves capable of boring into various kinds of rock, firm clay and peat, and they live permanently in the burrows they create. These clams use a set of ridges or "teeth" on the outer anterior surfaces of their shells to grind into suitable substrate, creating a non-branching burrow. Pholad burrows are typically narrower at the entrance of the burrow than they are across the interior.^[2]

Ancient, sand-filled pholad borings are a distinctive type of trace fossil known as Gastrochaenolites that are found in some limestones, dolomites and lithified mudstones. They are assigned to the Trypanites ichnofacies,^[3] and evidence submarine hardgrounds that formed soon after deposition, typically during episodes of non-sedimentation, with subsequent infilling of the burrow and burial when sedimentation resumed.^[4]^[5]

Pholad burrow trace fossils are not to be confused with specimens of the Trypanites ichnogenus, which are toothpick-sized masses of holes that characterize some hardgrounds. Trypanites probably result from a combination of mechanical abrasion and acid dissolution by the organism, whereas pholad borings are thought to be purely mechanical in origin.^[6]

References[edit]

^ Hill, J.M. (2006). "Pholas dactylus Common piddock". Marine Life Information Network: Biology and Sensitivity Key Information Reviews [on-line]. Plymouth: Marine Biological Association of the United Kingdom. Retrieved 10 October 2020.
^ Kelly, S.R.A. & Bromley, R.G. (1984). "Ichnological nomenclature of clavate borings". Palaeontology. 27: 793–807.
^ Frey, R.W. & Pemberton, S.G. (1984). "Trace fossil facies models". In Walker, R. (ed.). Facies Models. Toronto, Ontario: Geological Association of Canada. pp. 189–207.
^ Bromley, R.G. (1975). "Trace fossils at omission surfaces". In Frey, R.W. (ed.). The study of trace fossils. New York: Springer-Verlag. pp. 399–428.
^ Warme, J.E. & McHuron, E.J. (1978). "Marine borers: trace fossils and geological significance". In Basan, P.N. (ed.). Trace fossil concepts - Short Course 5. Tulsa, Oklahoma: Society Economic Paleontologists and Mineralogists. pp. 77–131.
^ Seilacher, A. (2007). Trace Fossil Analysis. Springer-Verlag. p. 204. ISBN 9783540472254.

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[hill2006-1] Hill, J.M. (2006). "Pholas dactylus Common piddock". Marine Life Information Network: Biology and Sensitivity Key Information Reviews [on-line]. Plymouth: Marine Biological Association of the United Kingdom. Retrieved 10 October 2020.

[kelly1984-2] Kelly, S.R.A. & Bromley, R.G. (1984). "Ichnological nomenclature of clavate borings". Palaeontology. 27: 793–807.

[frey1984-3] Frey, R.W. & Pemberton, S.G. (1984). "Trace fossil facies models". In Walker, R. (ed.). Facies Models. Toronto, Ontario: Geological Association of Canada. pp. 189–207.

[bromley1975-4] Bromley, R.G. (1975). "Trace fossils at omission surfaces". In Frey, R.W. (ed.). The study of trace fossils. New York: Springer-Verlag. pp. 399–428.

[warme1978-5] Warme, J.E. & McHuron, E.J. (1978). "Marine borers: trace fossils and geological significance". In Basan, P.N. (ed.). Trace fossil concepts - Short Course 5. Tulsa, Oklahoma: Society Economic Paleontologists and Mineralogists. pp. 77–131.

[seilacher2008-6] Seilacher, A. (2007). Trace Fossil Analysis. Springer-Verlag. p. 204. ISBN 9783540472254.

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