Why are Brighton & Hove Museums talking about the ocean? Our museums are intimately connected to the sea. Objects in the museum collections reflect how generations of people have been living off the sea, enjoying the sea and using the sea for health benefits.
Exhibits at the Booth Museum of Natural History can tell the story of the biodiversity of life in Sussex seas. We hold several hundred thousand marine specimens including incredibly detailed Sussex chalk fossils, marine molluscs, bryozoans, mammal skeletons, microscopic foraminifera and a significant collection of seaweeds. These collections give an insight into Sussex seas of the past and can help us to gain an understanding of how we protect the seas of the future.
Over the coming months, we will use our collections online to highlight how oceans are threatened by human intervention, such as plastic pollution, climate change and industrial overfishing. Working with our specialist partners in Sussex, we hope to show you that many people are trying to combat the ocean crisis to ensure it is is protected for future generations.
Use our spyglass viewer to take a closer look at Mr. Booth’s seabird cases. The displays were made to reflect exactly what Booth had seen and noted when watching then in the field. Can you see what he described?
In his diary notes, Booth appears to be both fascinated and disgusted by Gannets, one of the UKs most distinctive looking sea birds.
“While they are in their infancy they are the most peevish little wretches, snapping, quarreling and fighting with the utmost ferocity. Though the personal injury that they inflict on one another is generally small, their battles are not unfrequently attended with fatal results, as one or perhaps both of the combatants lose their balance, and, falling from their ledge, are dashed to pieces on the rocks below…” – Mr. Edward Thomas Booth.
Click on the + and – buttons to zoom in and out of the display in the spyglass viewer.
Can you see the gannets squawking and squabbling at each other as described in Booth’s diary?
Gannet – (Mature and Nestlings) Case 153.
Common tern Case 197
When viewing Common terns in the field, Booth noted that at breeding stations birds at every stage are seen together. And, even though he noted their decline, still decided to take one of each for his collection.
Are Common terns in decline today?
“During fine still weather, early in May, the first arrivals of these birds may be looked for. Their breeding-stations, which are still (though rapidly decreasing) numerous in many parts of great Britain, present a most animated appearance by the beginning of July. Young birds of every age and stage may then be seen together with the old ones, busily attending to their wants; the whole group affording a sight…”
Marine and coastal life has changed dramatically over the past century. But how do we know this? And why is this useful to us now? Pieces of this puzzle can be put together through delving into our natural history collections from the past 100 years.
Many organisms that live today have barely changed their body shape in millions of years and look extremely similar to their ancestors. With the help of Sussex Wildlife Trust we have compared some of our Sussex chalk fossils, which are around 100 million years old, with modern animals that live in UK seas today.
Fossil Sea Urchin, Stereocidaris sceptrifera
Like many modern types living on the seabed, these sea urchins had spines as protection against hungry fish. This fossil is lacking it’s spines but you can still see where they would have been held.
Fossil of Stereocidaris sceptrifera, an ancient species of sea-urchin (or Echinoid). Photo by Bob Foreman
Common sea urchin, Echinus esculentus
Also known as the edible sea urchin. A large, round sea-urchin up to 15cm across with short, strong spines. Usually brick-orange in colour, with white bumps which the orange spines are attached to. Lives amongst seaweed and rocks, where it grazes on algae and small shellfish
Found on rocky shores, particularly around the north and west.
An edible species, eaten particularly in Spain and Portugal.
Fossil fish,Ctenothrissa radians sp.
Fossil fish, Ctenothrissa radians sp., this is a rare complete example of this beautiful scaly fish which was found by Charles Potter in the late 19th Century.
Black seabream, Spondyliosoma cantharus
The black sea bream, also known as a Porgy, is an omnivorous fish, eating seaweeds and small invertebrates.
Black sea bream breed in the Kingmere Marine Conservation Zone in Sussex between April and May. The males excavate a small shallow in the seabed, moving the gravel or sand around the edge to create a sort of crater into which the female lays her eggs. The male then protects the eggs until they hatch. He will fan them with his tail to keep them clear of sand or debris and wards off hungry predators, including smaller bream, wrasse and even whelks!
How to identify:
A large silvery fish, with an oval shape. Shaded bands running along the length of the upper flanks. It has a long single dorsal and anal fin and a small mouth. The tail is large and forked displaying a black band on it, most obviously noticeable on juveniles.
Juveniles usually have numerous broken yellow stripes running along the body. Spawning males are nearly completely black in colour, except for vertical white bars.
Found off south west Britain the Irish Sea and the English Channel.
All black sea breams are born female! They change to males when they reach 30cm. All fish over 40cm are male.
This rare fossil lobster was found in the Lower Chalk, Clayton, East Sussex and is from the Upper Cretaceous era. It has been preserved in wonderful detail. First drawings of this fossil appeared in scientific journals in 1850. Collected by Henry Willet.
Common Lobster, Homarus gammarus
A large crustacean, that grows up to 1 metre long, although more typically to about 50cm in lenght. Lobsters are a deep purplish-blue colour, with red antennae. They live in crevices and caves amongst rocks from the low tide mark and deeper. Their first pair of legs have massive grabbing pincers.
Written by John Cooper, Keeper Emeritus, The Booth Museum of Natural History
Booth’s valuable library contains important illustrated works in 3 large volumes: Rough Notes on the birds observed during 25 years’ shooting and collecting in the British Islands. These expensive books contain descriptions of all the species he encountered, accompanied by beautiful hand-painted pictures of the birds he chose to illustrate. However, he was not the artist; instead, he chose to ask the painter Edward Neale to prepare paintings for reproduction. Until recently very little was known about Neale, but during the last few years John Cooper, Emeritus Keeper of Natural Sciences at the Booth Museum has been digging into Neale’s background and the results of his research were recently published1.
Neale’s abilities were at some point recognised by Edward Booth who asked him to take on the task of painting plates for his Rough Notes, modelled on the cases of stuffed birds that filled his Museum. Neale was tasked by Booth to illustrate the whole of his large work and in the end produced 114 hand-coloured lithographed folio-sized plates. Booth’s collection also contains 4 watercolours by Neale, all of eagles. Before working for Booth, Neale had mostly painted game birds such as ptarmigan, pheasants, quail and ruffs, so working on many more varied species must have been a very welcome opportunity for a change.
This gallery displays fossil bivalve shells from our collection. They are from the Lower Cretaceous period and around 85 million years old. Bivalves first appeared in the fossil record around 500 million years ago. They are animals that belong to the mollusc group and have two hinged shells and 15,000 species still live in our seas today including clams, mussels and scallops.
With the help of Sussex Wildlife Trust we compared some of our fossil animal teeth from 85 million years ago to jaws of animals that live in UK seas today.
Shark fossil teeth, Ptychodus sp.
Originally this ray-like shark would have used a battery of such teeth for crushing molluscs and crustaceans.
These teeth look quite similar to a tropical species of ray’s teeth – the Cow nosed ray, however these live in tropical shallow seas. The UK species of ray that we have chosen as an equivalent is the Thornback ray.
Thornback Ray, Raja clavate
Thornback rays are regularly seen by divers. They have flattened bodies covered in blotches of colour to help them camouflage into the sand or mud or gravel. They have a long thorned tail. The males are smaller than the females.
How to identify:
Flat bodies with yellow and brown patches on their backs. Long thorny tail and protruding eye sockets.
Found all around the UK coast.
Females can lay up to 150 egg cases every year. When the babies hatch, these cases are often washed up onto the beach.
Pipe fish jaw
These teeth would have belonged to a long-snouted slender fish, one of many similar bony fish that lived in the Chalk Seas of NW Europe.
Greater Pipefish, Syngnathus acus
The pipefish has a long, segmented body, about 45 cm long. It lives in seaweed and seagrass and feeds on small prawns and mysid shrimp.
How to identify:
Thin segmented body with a long snout and a hump just behind the eyes
Commonly seen around the southwest coast and welsh coastlines.
Just like seahorses, the males (not the females) look after the eggs in a brood pouch until they are ready to hatch.
…and finally we couldn’t resist adding our favourite sea creature which is protected in our Sussex Marine Conservation Zones…
Short-snouted seahorse, Hippocampus hippocampus
Seahorses prefer to live in seagrass and shallow estuaries.
How to identify:
Distinctive horse like head with snout and a curling tail which is uses for holding onto things
Has been recorded along the south and southwest coasts of the UK.
Seahorses usually mate for life and perform a courtship dance with their partner every morning. The male seahorses get pregnant and give birth to the young.
View more Monster Jaws from the Booth Museum’s in our Monster Jaw gallery
Ray-finned fish (Actinopterygii) evolved over 400 million years ago and are so-called because their fins have a web of skin between several spines. Today, they are the most diverse group of vertebrates with more than 30,000 species which is around half of all living vertebrates on Earth.
The specimens in this gallery are around 85 million years old. By this time, evolution had produced many sorts of fish, types like these being similar in many ways to modern fish. Many specimens of these species have been found which tell us that they probably swam in large schools.
Lobsters swam in our ancient warm Sussex seas around 100-85 million years ago. Lobsters are grouped within the Crustaceans which include crabs, shrimps, prawns and barnacles. They first evolved in the Cambrian period around 509 to 497 million years ago. Click the images to discover more.
Sea stars, sea lilies and sea urchins are all Echinoderms. The name Echinoderm comes from the Greek word meaning ‘spiny skin’. They first appeared in the fossil record in the early Cambrian period around 542-488 million years ago. The fossils in this gallery are between 100 – 85 million years old.
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