The cost of this four day course was held at £250 for the four days. The course covered
all aspects of fluid preservation and conservation of fluid-preserved specimens.
The course comprised powerpoint presentations each day for about 1 hour and the rest of the day was
entirely practical work.
Members of NatSCA could apply for bursaries to help cover costs.
For information about this and forthcoming courses please contact Simon Moore:
c o u t e a u f i n @ b t i n t e r n e t . c o m
Full handouts (including risk assessments) are included in the cost but not accommodation.
Here is a genuine unsolicited comment about a recent fluid preservation course, from John Simmons of Museologica, Pennsylvania, USA:
'I participated in Simon's fluid preservation course at the Horniman in November 2010 and I personally encourage everyone who is interested in fluid preserved collections--particularly those of you who work with old collections--to take this workshop if you can. Simon is a terrific instructor and the Horniman facilities are excellent. You will learn a lot of very useful things. A write-up about the course is due to appear in the upcoming SPNHC Newsletter'.
Schedule & course content for the Four-Day Fluid Preservation Course:
10.00 start. Introduction (incl. local logistics, fire-exits, risks, allergies).
Power-point 1: overview of course technology and histological effects of fluid preservation.
Questions and tea-break, discussion about the importance of fluid collections, fixation versus pseudo-fixation.
Compounding of sealant/s (gelatine, Acrifix, bitumen)
Glass cutting, grinding, drilling demonstrations and participation (demonstration & practical)
Rehydrations started (d & p)
Relevance of injecting fresh material with fixative
13.00 - 14.00. Lunch.
Preparation of jars (checking, grinding out blemishes – d & p)
Dehydration/ Hydration ladders start (d & p)
Thread mounting of specimens (d & p).
Celloidin mounting of snails to specimens and labels (d & p)
Check rehydrating specimens and fix + inject if they are ready, else leave (unheated) overnight (d & p).
09.00 start. Power-point 2: narcotisation, historical sealants, pelagic (jellyfish) mounts, botanical preservatives.
Check of previous day’s work, analyse and correct problems. Move specimens in ladders (d & p)
Changing fluids in sealed jars (d & p).
Making glass needles and their use in specimen repair (d & p)
Celloidin specimen repair (d & p)
Releasing vacuum in Visijars (talk if none available)
Thread mounting of specimens (continuation) including jellyfish on acetate discs (d & p).
13.00 – 14.00 Lunch.
Move specimens in ladders (d & p)
Unsealing jars containing specimens requiring treatment (d & p)
Other types of sealant including historical sealants (d only)
Sealing of jars that are ready (d & p)
09.00 start. Power-point 3: preservatives, lipids, copper wire staining
Checking of previous day’s seals (d & p).
Assessing problems: evaporation and dilution
What has happened if your Hirst is ‘off-colour’?
Dealing with lipids and other contaminants including fungal growth
Copper salts staining specimens, from being mounted on copper wire.
Detecting preserving fluids and auto-dilution problems: use of map pins and Dries van Dam’s ‘pills’ - Making your own specific gravity detector (d & p) Which preservatives should you use? (on hand-outs)
Problems of mixing fluids (exothermic due to binary azeotropy and leading to air bubble formation).
Buffering and pH levels (d & p).
13.00 - 14.00. Lunch.
How to deal with air bubbles, especially those trapped inside rehydrated specimens; (small portable vacuum pump required: d & p)
Stretching polypropylene rod (Bunsen burner/s required: d & p)
Topping up sealed jars, ‘corking’ and sealing.
Checking for problems and why they may have occurred.
09.00 start. Power-point 4: Transparencies, labels, tubes in jars, jar types, storage areas. Maybe transporting and posting loan specimens if time allows.
Check of nearly-finished jars, are they leaking? If so, why, what has caused this – understanding how and why problems can occur and why deadlines can be difficult to meet! (d & p).
Dealing with transparencies – keeping fluids including glycerol, propylene glycol, methyl benzoate and turpentine and problems associated with these.
Sending fluid-preserved specimens by post or courier, worldwide policies changing year to year.
Which jars are best for your collection?
How to store such collections so that they need minimum monitoring and maintenance.
Labels and their problems, which paper/s to use. Internal or external labels?
13.00 - 14.00. Lunch.
Tubes in jars – how to seal, invert or not?
Storage areas. Plastination – ethics.
- 16.00 - Time overspill & Final questions.
An article from a recent SPNHC (Society for the Preservation of Natural History Collections) Newsletter about this course:
For more details about what we can do for you, or for a quote, please contact:
We are members of the United Kingdom Institute for Conservation of Historic and Artistic Works
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