Tag Archives: taxidermy

The Ichthyologist’s Garden

By Didi van Trijp  and Robbert Striekwold

On a gloriously sunny day in May we rang the doorbell of ichthyologist Martien van Oijen’s home in Leiden for a rather peculiar project. Even though the original plan had been to carry it out in a laboratory setting, on account of the beautiful weather we all agreed to move the project outside. In his garden, Martien had set up a table on which had been placed an array of equipment for dissection together with some specimens of red seabream that he had bought at the fish market that morning. The reason for all this? The replication of an eighteenth-century recipe for preserving fish skins.

The freshly bought breams. All images courtesy of the authors.
The freshly bought breams. All images courtesy of the authors.

This method was developed by Johan Frederic Gronovius (1690–1762), a physician and botanist based in Leiden. He boasted an extensive cabinet with all sorts of naturalia ordered according to the Linnaean system. In his quest for collecting specimens he developed a method for drying and compressing fish skins that would allow one to glue them to the pages of a book – much like dried plants in a herbarium. He described this method in a letter to Peter Collinson, who read it at a meeting of the Royal Society and had it published in the Philosophical Transactions in 1742.[1] Compared to other ways of preserving fishes Gronovius’ method was quite easy and affordable, as few materials were needed. The only requirements were a pair of scissors, wooden plates, a linen cloth, ‘minikin pins’, and cartridge paper. Thus, according to Gronovius, “in the space of 24 hours, the fish is prepared.”

We set out to replicate Gronovius’ method step by step, carefully documenting each act with photographs and taking extensive notes along the way.[2] The first order of business was to cut the fish open with a pair of scissors, while making sure that the fins were not accidentally destroyed.

Cutting the fish open. All images courtesy of the authors.
Cutting the fish open. All images courtesy of the authors.

Then most of its right half and all of the intestines were removed, which resulted in a rather gruesome sight.

Completely dissected. All images courtesy of the authors.
Completely dissected. All images courtesy of the authors.

Then we washed the left half and patted it dry with a linen cloth. After spreading the fins with pins, we exposed the half fish to the sun so that it could dry further (in the absence of sun, Gronovius recommended exposing it to the hearth).

Spreading the fins. All images courtesy of the authors.
Spreading the fins. All images courtesy of the authors.

We noticed fairly soon that some of the steps were not entirely clear to us. For one, what to do about the impressive swarm of flies that instantly flocked to the carcass once it was laid out to dry?

Swarming flies. All images courtesy of the authors.
Swarming flies. All images courtesy of the authors.

Most importantly, although Gronovius said the skin could be separated from the flesh “with very little trouble” after the drying step, it took considerable effort to do so. This may have to do with the fact that some of the steps are described in a somewhat ambiguous manner. We interpreted the step telling us the “back-bones are then to be cut asunder” to mean that the backbone should be cut but not removed.

Drying the inside of the fish. All images courtesy of the authors.
Drying the inside of the fish. All images courtesy of the authors.

After drying, however, these bones were very hard to remove, so we now think the entire backbone should be discarded before the drying step. Subsequent attempts with new specimens should shed more light on these issues.

The replication of this method is proving to be very insightful by giving us first-hand experience with a pertinent aspect of our respective projects: the preservation of fish specimens so that they could be collected, circulated, stored and classified. Fishes were notoriously difficult to preserve, losing their shapes, colours, textures, and often spoiling despite the collector’s best efforts to prevent these processes. So far, Gronovius’ method has indeed proven to be very quick and remarkably doable, and it appears to preserve the fish in very good shape, although we are not quite done with it yet.

After removing the dried flesh, the skin was placed between paper and left under a press overnight.

Pressing of fish skin between paper. All images courtesy of the authors.
Pressing of fish skin between paper. All images courtesy of the authors.

The next morning an elegantly flattened half-fish came out that would have done Gronovius proud.

Result (sans varnish). All images courtesy of the authors.
Result (sans varnish). All images courtesy of the authors.

Unfortunately, it did not smell quite as good as it looked. Our next step will be to use the recipe for a particular varnish that has been written up by Gronovius in a letter to one of his correspondents after having received a number of rotting fish skins. If all goes well, this should remedy the stench of the specimen – now safely stored in the freezer awaiting further treatment – and keep it in its current unspoilt state for many decades.

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1
J.F. Gronovius, ‘A Method of preparing Specimens of Fish, by drying their Skins, as practised by John Frid. Gronovius M.D. in Leyden’ in Philosophical Transactions 42 (1742) 57-58.

[2] Robbert did the dissecting, Didi the documentation.

A forgotten chapter in natural history: the taxidermy of man

By Marieke Hendriksen

Having written a book on eighteenth-century anatomical collections, I know a thing or two about historical techniques for preserving (parts of) the human body. As I am interested in natural history collections more generally, I also did some research on the preservation of animal bodies, and even took a taxidermy course myself. However, recently I realised that the preservation of human and animal bodies were historically even closer connected than I had imagined. Yet ideas about which parts of the human body could and should be preserved, and how, diverged greatly, particularly when it comes to skin, or taxidermy. Taxidermy, from the Greek τάξις (taxis) and  δέρμα (derma – I am adding those for people who may not read Greek script), literally means ‘the arranging of skin’.

Fragment of an engraving of the anatomical theatre of Leiden University, early 17th century, showing visitors who appear to discuss a human skin. Contemporary engraving by Willem Swanenburgh; drawing by Jan van ‘t Woudt (Johannes Woudanus).

There are a few known cases of attempts to preserve human skins in their entirety before 1800 – for example, there was a human skin in the Leiden anatomical theatre in the seventeenth century – but that wasn’t stuffed, and such attempts appear to have been altogether unsuccessful. If human skin was preserved, it was mostly small pieces, which were used to study things like skin colour and structure, tattoos, or pathologies. By the end of the eighteenth century, the preservation of an entire human skin in a lifelike pose was of little interest to anatomists. Normal internal anatomy would be studied through dissection and the creation of preparations and skeletons, and pathologies of the skin could be preserved by making preparations of small sections of skin. As healthy skin can be studied perfectly easily in live subjects, there was little reason to pursue the taxidermy of man. This is reflected in anatomical handbooks like Thomas Pole’s 1790 Anatomical Instructor (reprinted in 1813), which gave detailed directions for numerous methods to preserve parts of the human and animal body, including entire heads and foetuses, but did not say anything about how to preserve only skin. On the contrary, Pole advised to remove the cuticle from a head that was to be preserved,  as this would give ‘a brightness to the complexion’.[1]

Jeremy Bentham’s ‘preserved’ head is not on display, but stored in an environmentally controlled safe. Copyright: UCL.

However, with the growing popularity of taxidermy – the mounting of animal skins in lifelike poses – and the rise of physical anthropology in the early nineteenth century, there were a number of experiments with human taxidermy, the most famous of which was probably Jeremy Bentham’s unsuccessful attempt to have his body made into an ‘auto-icon’ after this death. Then there was ‘el negro’ or ‘the negro of Banyoles’, whose faith was described by Dutch author Frank Westerman in his 2004 book El Negro en ik (‘El negro and I’). The remains of this young African San man were stuffed by two taxidermists, the French Verreaux brothers, in the 1830s, and remained on display in a local Museum in Banyoles, Spain, until 1997. Eventually his remains were send for burial in Botswana in 2000. Jules Pierre (1807-1837) and Jean Baptiste Édouard (1810-1868) Verreaux created taxidermy specimens of exotic animals for their father’s Parisian shop in natural historical objects, Maison Verreaux, and, as ‘el negro’ shows, used human bones for his models.

The head of the figure in ‘Arab Courier attacked by lions’ sits detached from the rest of the diorama during restoration work. Copyright: Nate Smallwood | Tribune – Review

For a long time, ‘el negro’ was the only known case of nineteenth-century human taxidermy. However, a recent discovery suggests that the Verreaux brothers used human remains more frequently. In 2016, a human skull was discovered in a mannequin that was part of an ensemble made by the Verreaux studio. Formerly known as “Arab Courier Attacked by Lions”, it was restored and returned to display at the Carnegie Museum of Natural History in Pittsburgh under the title “Lion Attacking a Dromedary”. Although apparently no attempt was made to use human skin in the Pittsburgh diorama, these cases show that there was little reticence when it came to using human materials for taxidermy displays in the nineteenth century, particularly when the human in question was considered ‘exotic’. This is supported by the fact that a popular contemporary taxidermy manual, aimed specifically at museums and travelers, opened with a paragraph on the impossibility of applying taxidermy to man successfully. The book, written by the naturalist Sarah Bowdich (née Wallis, later Lee, 1791-1856) saw six editions – the first in 1820, the last in 1843.

After listing the necessary tools and giving a number of recipes for the cleansing and preservation fluids used in taxidermy, Bowdich opened the section on ‘the preparation of mammalia’ with a somewhat disappointed-sounding statement:

1. Of man 

All the efforts of man to restore the skin of his fellow creature to its natural form and beauty, have hitherto been fruitless: the trials which have been made have only produced mis-shapen, hideous objects, and so unlike nature, that they have never found a place in our collections.

Bowdich went on to discuss the life-like wet preparations made by Amsterdam anatomist Frederik Ruysch (1638  – 1731) as ‘without doubt (…) very useful to science’, before switching to a description of a more successful practice – the preservation of skeletons. Given the tragic history of ‘el negro’ and many other violently obtained human remains in museum collections, it is a cold comfort that the naturalists of the nineteenth century failed at the taxidermy of their ‘fellow creature’.

[1] Pole, Thomas. The Anatomical Instructor ; or an Illustration of the Modern and Most Approved Methods of Preparing and Preserving the Different Parts of the Human Body and of Quadrupeds by Injection, Corrosion, Maceration, Distention, Articulation, Modelling, &C. London: Couchman & Fry, 1790: p.84.