Late last year on the fossil forum (www.thefossilforum.com) where I help identify fossils for amateur collectors, I saw a photo of a pinniped tooth collected by my good friend and Tate Museum preparator JP Cavigelli from the Sharktooth Hill bonebed. It looked like it had a few too many cusps to represent any pinniped other than
Pelagiarctos thomasi, so I asked JP to take a few measurements - and sure enough, the tooth is huge, and double the size of the smaller walrus
Neotherium mirum. The additional cusps and presence of a cuspate lingual cingulum (cingulum is a ridge of enamel just above the base of the crown, and lingual means the tongue side of the tooth) are unique among walruses to
Pelagiarctos and
Imagotaria.
Imagotaria is far younger (late Miocene, rather than middle Miocene). JP was kind enough to donate the specimen to the Tate museum where he worked, and Morgan Churchill and I actually referred the specimen to
Pelagiarctos thomasi in our PLoS article on
Pelagiarctos.
The new specimen of Pelagiarctos thomasi (TATE 2694) collected by J.P. Cavigelli in 2012.
Preparator Sophie sculpts a pedestal onto the broken root of the tooth.
Morgan is down here in New Zealand and Australia for a two month EAPSI (East Asia and Pacific Summer Institute) fellowship, with the intent to utilize a statistical analysis to test the phylogenetic position of the problematic Pleistocene sea lion
Neophoca palatina from New Zealand. About two months ago my labmate Carolina Loch-Silva suggested Morgan bring a
Pelagiarctos tooth with him in order to secure an enamel fragment to examine its enamel structure - possibly as a way to take another stab at the feeding ecology of
Pelagiarctos. To recap, Larry Barnes (1988) originally hypothesized
Pelagiarctos to be a macrophagous 'killer' walrus, although our reevaluation of the data (Boessenecker and Churchill 2013) suggests that it was a dietary generalist like most modern pinnipeds, including robust sea lions.
The tooth on its pedestal.
Even though Carolina's sampling method will not remove much of a tooth fragment, I was still interested in molding and casting the specimen. There are less than a dozen teeth of
Pelagiarctos in museum collections (many more exist in private hands, which us researchers have to ignore for all intents and purposes), it would be useful to provide casts of the specimen to various west coast museums such as UCMP, LACM, the San Diego NHM, and the Cooper Center; casts of the specimen will also be sent back to the Tate Museum, the Smithsonian, and the National Museum of Nature and Science in Tokyo.
Mixing silicone and silicone catalyst requires careful measuring on a scale.
The tooth on its pedestal and base, with a single coat of silicone painted on to capture fine detail. Unfortunately, this coat never cured - we're using somewhat expired silicone, and it can be finicky when it cures, often requiring extra catalyst. We ended up pulling the rubber off and redoing it as a single pour.
For an easy small fossil like a tooth, comparably fewer steps are necessary for molding and casting. Firstly, in order to keep silicone (or latex for that matter) from invading small pores and cracks and pulling out fragments of bone, a consolidant such as vinac or PVB needs to be painted on the specimen. For a small specimen like this, there are three ways to mold it: 1) with latex, paint several layers on to make a sleeve, which can be pulled off the tooth (or cast) and inverted; 2) a two part mold, or 3) a single pour 'plug' mold. For small specimens, my friend and fellow student at MSU Denver Fowler suggested cutting up older latex molds, pouring the fragments in to a film canister, embedding the small fossil within said latex clippings, and then pouring in latex to fill the voids and form a nice plug; after enough casts are made, you recycle the latex and do it again with another specimen. We decided to do a similar single pour mold. Instead of using a film canister, Sophie made a small cylinder of clay as a base, planted it on a flat sheet of clay, and then taped a cylinder of plastic sheet and planted that into the clay to act as a dam. We first tried to paint a layer of silicone onto the tooth to capture fine details, but for whatever reason it never cured properly, so Sophie stripped that layer off and we mixed up some more silicone for a single pour. We ended up having too much silicone mixed up, and asked Ewan if he had anything handy which we could mold, so he gave us a small squalodontid tooth.
The squalodontid tooth showing the acetate sheet dam. At this stage, once the silicone is mixed, it can be poured directly into the tube.
Both plug molds, with dental plaster freshly poured and waiting to cure.
Next up: pouring plaster and resin casts.