quinacridone

Remnants of prehistoric worm Radnorscolex latus, unearthed in Herefordshire. Photograph: Richie Howard/Luke Parry/National History Museum/PA

An ancient worm unearthed in Herefordshire was a carnivorous predator that shoved its throat out to catch and eat prey, according to scientists.

The creature, named Radnorscolex latus, was found at a disused Victorian quarry site in the village of Leintwardine, near the Welsh border.

This marine worm is believed to have lived on the ocean floor about 425m years ago, when the region was under water. Analysis suggests it had a retractable throat that could extend out on to the seabed to capture prey hidden within the sediment.

According to Dr Richie Howard, curator of fossil arthropods at the Natural History Museum, Radnorscolex is reminiscent of giant worms in the Hollywood blockbuster Dune.

Howard said: “We think they weren’t too picky when it came to feeding and likely just shoved their throat out into the mud and grabbed anything they could find.

“They certainly make you think of the sandworms in Dune in that respect.”

Although fossil remains of Radnorscolex were first discovered a century ago, the technology was not advanced enough to allow palaeontologists to examine these in great detail.

Experts from the Natural History Museum in London used state-of-the-art imaging techniques to analyse the remnants.

Findings showed Radnorscolex had rows of sharp teeth and hooks on its head, which it would have used to anchor itself to the ground and drag its body forward to move.

Despite being a predator, analysis suggests the creature only grew to be about 8cm long.

The researchers said Radnorscolex belongs to a group of extinct worm-like animals known as Palaeoscolecids, which were wiped out completely about 400m years ago due to rapid climate and sea level change.

The findings are published in the journal Papers in Palaeontology.

Image and text from the original article in The Guardian

Main photo, Halgerda batangas by Gerhard Batz

Firstly, the vast majority of photos are taken at depth so it's probably a good idea to be able to scuba dive.....and also most nudibranchs tend to look like this without the use of special lighting set ups

Above, by McChuckerson

Above by Go Zilla

(Please note, I'm not criticizing or taking the piss out of these photos or the photographers, I just want to show how nudis look under normal lighting)

A lot of nudi photos have black backgrounds which are created by using a strobe lighting set up configured like this...

Above, 'This is how... (Bryan Chus) setup looks to get a successful test shot on land, using my 60mm macro lens (120 mm full frame equivalent).'

Above, 'Non-lit test subject using black background settings (1/320 sec, f/14, ISO 100).'

Above, 'Properly lit test subject with inward facing strobes.'

The photos give results like these...

Above, Janolus nudibranch

Above, 'Oxynoe jordani feeds on Caulerpa taxilfolia Canon 5DSr 100mm Lens ISO100 1/250 f/25' by Jenna Szerlag

Above by Andrey torchuck

Of course there's slightly more to getting an amazing photograph than just having the right set up....

Composition, highlighting natural features, symmetry, depth of field, background contrast, animal behaviour all play their role

Above, 'Showing nudibranch symmetry works well, like with this shot of a Nebrotha kuberyani. [Mike Bartick] particularly like[s] to shoot these guys because of their interesting facial features, texture and vibrant colors.'

Above, 'Chromodoris leopardis. Laying eggs is always a very interesting behavior to capture. The eggs are often brightly colored and textured. If eggs are found alone, inspect them, as other nudibranchs often feed on them.'

Above, 'Nembrotha chamberlaini. If there is an anomaly of some sorts that sets your subject apart for the norm be sure that this anomaly is the center of the viewers’ attention.'

Above, 'Extreme depth of field isn’t always necessary, but on a larger subject its hard to resist, especially when one is as colorful as this Hypseledoris. Backing away from your subject is an easy way to slightly increase your DOF when working with nudibranchs.'

Above, 'Using a quality diopter of +10 or greater will dramatically increase the size of very small subjects and allow you to fill the frame with very little cropping. These Castosiella kuroshimae are miniscule and nearly impossible to detect. Look on small algae on sandy dive sites.'

Above, 'Nembrotha lineota. Get low, get close and shoot up. Use negative space and be sure your subject's Rhinophores are sharp.'

Above, 'Miamira tenue aka Ceratasoma tenue can grow to impressive sizes. Some are large enough to sport accessories like this emperor shrimp that lives a symbiotic lifestyle with its host. Keeping its hosts gills cleaned and rummaging for food as the nudi moves along the substrate is priority number 1 for the shrimp, and getting photos of them on the nudi are great behavioral images.'

Above, 'Mimicry is another behavior that an entire article could be written about, especially with these amazing Lobiger sp. Sap suckers live on algae that resembles green grapes. This image was shot in very shallow water in broad daylight. Using a high shutter speed will enable you to control the incoming light, even on the sunniest days. When a subject is tall, try turning your camera to the portrait position.'

Above, 'Glossodoris cincta. These larger nudis will fill your frame easily with or without a diopter. Paying close attention to the camber of your subject's Rhinophores will help with head-on composition. The gills of the cincta actually vibrate as they move and are fun to watch.'

Not all photographers use black backgrounds for their photos and the results are just as beautiful....

Above photo Thorunna australis, by elebe.foto

Above photo Hypselodoris bullockii laying eggs by Sonja Ooms

Above photo of Oxynoe olivacea by Jose Salmerón

Beautiful photo that pops with contasting colours of Elysia marginata by elebe.foto

And also lets not forget the role of the computer in adding the final touches to a well composed and well lit photograph

Some photos may need a bit of work to either remove debris in the foreground or background that distract from the main focus point...

Others need work in making them pop more. Of course images can suffer through too much retouching, and also no amount of photoshop can save a poorly composed image....both sides of the debate are discussed here

Above, 'Here's how to make Texture, Clarity and Dehaze work for you.' photo by Erin Quigley

And finally a Super Pro photo by David Hall, below

"Imagine a bull kelp forest in which the plants are completely covered with ghostlike animals expanding and contracting rhythmically,” photographer David Hall writes of shooting the hooded nudibranch, Melibe leonine, for his award-winning book Beneath Cold Seas: The Underwater Wilderness of the Pacific Northwest.

HOW HE GOT THE SHOT Hall used a Nikonos RS camera with a 50mm lens, two Ikelite SS-50 strobes and Fujichrome Velvia 50 film. Hooded nudibranchs are transparent, like jellyfish, and correct exposure can be difficult to estimate, so Hall bracketed the exposure generously. here

All information from here and here, unless otherwise stated

As always I'm not an expert, and certainly not one in underwater photography (I'm still trying to get to grips with terrestrial photography)

Main photo 'A giant dendronotid nudibranch swimming in mid-water'

Above, 'The opalescent nudibranch is a predatory mollusk with no shell'

Above, 'Hooded Nudibranchs on Kelp'

Above, 'Hooded Nudibranchs'

Above, 'Hooded Nudibranch, Melibe leonina - British Columbia, Canada'

Above, 'Opalescent nudibranchs and ascidians'

Above, 'Sea Lemon Nudibranch, Anisodoris nobilis - British Columbia, Canada'

Above, 'Nudibranchs (Nembrotha kubaryana) feeding on stalked ascidians. All nudibranchs are carnivorous, mostly preying upon sessile invertebrates such as ascidians, sponges, bryozoans and cnidarians (hydroids, corals, anemones). (Komodo, Indonesia) (photo: Gayle Jamison)'

Above, 'Nudibranch, Miamira magnifica - Izu, Japan'

Above, 'Hypselodoris infucata; Lembeh Strait, Indonesia'

Selected underwater photography here, more nudibranchs, and his books

Title photo by Doug Anderson

More photos of Emperor shrimp (Periclimenes imperator) riding on various nudibranch hosts...

Solo riding....

Above photo of Ceratosoma trilobatum, by Jack

.....or with a pal....

Above photo of Ceratosoma trilobatum, by Jack

...Tandem....

Above photo by Stefano Scortegagna

Above photo of Ceratosoma gracillimum with eggs by Pauline Walsh Jacobson

Above photo of Ceratosoma tenue by Eric Cheng

Above photo of Nembrotha lineolata, by Colin Salmon

Above photo by Doug Anderson

Above photo by Michel Duchayne

Above photo of Dendrodoris tuberculosa, by Brian Mayes

Above photo of ceratosoma nudibranch, by KIYOSHI OKADA

Above photo of Ceratosoma tenue, by Gomen S

Above photo by Colin Robson

.... Hail The Emperor!

Above photo of Hypselodoris infucata, by Anilao~Critters

Title photo by Todd Aki

• Nudibranchs are hermaphrodites (having both male and female sex organs), but they still require a mate in order to reproduce as they cannot self fertilize

Above nudibranch reproductive system by Carissa Shipman, found here

• The reproductive organs are usually next to each other inside the nudibranchs body, and the exterior reproductive opening being on its right lateral side

Above, 'External anatomy of a Tambja verconis nudibranch (by wadeangeliart) found here

• Being simultaneous hermaphrodites increases their opportunities to find a mate, as both partners will transfer sperm, and lay eggs, via reciprocal reproduction.....although there are some exceptions as we will discover!

Above photo Bennett's nudibranchs Mating' by John Turnbull

• Nudibranchs will follow the scent trail left by potential partner. When they catch up with them they start courtship which involves the gentle touching of each other

Above photo by ilan Lubitz

• Depending on the species, the nudibranchs will then orientate their bodies so that their reproductive openings are facing, allowing their swollen gonopores to connect

Above photo of Nembrotha chamberlaini mating, by Jim Greenfield

Above photo of Nembrotha purpureolineata, by Brian Mayes

• Nudibranchs will take every opportunity they can to mate when finding a partner. One quirk of their anatomical development whilst maturing into adults is that the male reproductive organs will grow, and be functional before their female organs. This is called protandry....

Above photo of Hypselodoris bullocki mating, by Coppertane....a possible protandry mating, due to size difference

• They can still take the opportunity to mate though as a 'male'..... It has been suggested that any sperm passed to the 'male' partner, can be stored within their bodies until their female organs have matured. It will then use the stored sperm to fertilize its eggs!

Above photo of pelagic nudibranchs mating by Rajiv Bhambri

• Mating duration depends on species, and can vary from brief encounters to several hours!

Above photo by Tony Wu

• There are 3 basic mating positions depending on species- right side to right side..... (see photo below)

Above, Nembrotha chamberlaini, by Andrew Wu

• .....Head to head.....(see photo below)......

Above, Lobiger viridis, from here

• ......And head to tail, which is either a reciprocal, or a unilateral process depending upon flexibility of the species, or even partner aggression......(see photo below)...

Above, Mariaglaja inornata, from here. The genitals are separate in this species- the penis is in the head, and the vagina in the tail

[Above] The gastropterid sea slug Sagaminopteron ornatum will sometimes form a circle of two to achieve reciprocal mating, or at other times as illustrated here, act unilaterally as a male by approaching from behind to copulate with another acting as a female. source

• Hypodermic Insemination is the preferred method used by some species. The penis has a sharp point which is used to stab the partner in order to deliver a packet of sperm. This can be done either as a mutual act, or happening unilaterally with one nudibranch taking advantage to inseminate another....This can occur amongst some of the sacoglassans

Above photo of Costasiella usagi, by eunice khoo....not as cute as I originally thought....

• Goniobranchus reticulatus is an unusual nudibranch as after it has mated the external part of its penis detaches! And within 24 hours it grows back.....!

Scientists think this mating strategy has evolved so the sperm of rival nudibranchs stored in the vagina of their mate will not accidentally get passed on to future mates source

Above photo of Goniobranchus reticulatus by Bernard Picton...with or without penis...(Schrodinger's penis?)

...And finally a shrimp jockey on a pair of mating nudis....

Above photo by Ludovic

Information from-

here

here

and the fantastic Nudibranch Domain

As always, I'm not an expert...any errors let me know in the comments, and I'll edit my post!

Main photo by Dusan Beno

Above, 'Chrysis semicincta' by Jessica JOACHIM

Above, 'Cotinis Mutabilis, also known as the Figeater Beetle' by Cotinis Mutabilis

Above photo by philux66

Above, 'Green Tortoise Beetle, Cassida viridis' by Duncan Cooke

Length; 7 - 10mm.

Distribution; Widespread in England and Wales, although sparse in the north and rarer in Scotland.

Habitat; Grassland, Heathland & Moorland, Farmland, Wetlands, Woodland & Gardens.

Found; April to October.

The Green Tortoise Beetle is one of a group of several closely related beetles. Host plants include White Dead-nettle, Hemp Nettles, Hedge Woundwort, Gypsywort and Water Mint and is often found in gardens. When disturbed, the adults behave just like tortoises, retracting their antennae and feet, and pulling their 'shell' tight down around them as they grip tightly on to the leaf they are.

The Green tortoise beetle is round, flattened and lime green. Tortoise beetles are easy to identify as a group, but there are several closely related species that are very difficult to tell apart. the Green Tortoise Beetle is entirely green and generally lacks the markings of other species. Cassida viridis is similar to Cassida rubiginosa but can be distinguished by the rounded rear corners of the pronotum which are sharp in C. rubiginosa. It is also usually more apple green in colour.

Adults spend a few weeks feeding on host foliage and possibly also pollen before mating in April and May and ovipositing from May to July. Between 1 and 10 eggs laid in firm-walled and distinctive egg cases which are stuck to stems or under lower leaves and covered with frass and leaf fragments. They hatch within 6 to 10 days and the larvae initially feed below the leaves, moving to the upper surface as they grow, they pass through 5 instars and develop rapidly. They are fully grown within 4 to 6 weeks.

Pupation occurs from June to September. The fully grown larvae move to stems and petioles and become attached by a secretion before they pupate. This stage is also brief, generally lasting about a week, and new generation adults emerge from July to October.

Above 'Green vegetable or Shield bug' by Bernard Spragg. NZ

Nezara viridula, commonly known as the southern green stink bug, southern green shield bug or green vegetable bug, is a plant-feeding stink bug. Believed to have originated in Ethiopia, it can now be found around the world.

Above, 'Golden Beetle' by Ivan Anisimov

-Leeches are found all across the world, except Antarctica, so far around 700 species of leech have been described. Approximately 100 are marine, 480 freshwater and the remainder are terrestrial different species…. All of these are divided into 2 major infraclasses

1. Euhirudinea: the 'true' leeches – marine, freshwater and terrestrial – which have suckers at both ends and lack chaetae (bristles)

2. Acanthobdellida: a small northern hemisphere infraclass ectoparasitic on salmoniid fish, which lack an anterior sucker and retain chaetae.

The Euhirudinea is further divided into two orders:

1. Rhynchobdellida: jawless marine and freshwater leeches with a protrusible proboscis and true vascular system

2. Arynchobdellida: jawed and jawless freshwater and terrestrial leeches with a non-protrusible muscular pharynx and a haemo-coelomic system. source

Above image from here

-Leeches are segmented parasitic or predatory worms, and are closely related to earthworms

-They have suckers at both ends of their bodies and use them to travel around by ‘looping’ or ‘crawling.’ Some species can also swim like an eel

Above image by Chiswick Chap via wikipedia

-All leeches are hermaphrodites, although they prefer to find a mate to exchange sperm packets with…..

-They can live in both fresh and salt water, and there are some which are terrestrial, living on the ground or on low growing plants waiting for a meal to brush past

-Some species can even survive extremely dry conditions by burrowing into the soil where they can stay without any water. Their bodies contract, becoming dry and rigid, but within 10 minutes of water contact they emerge, ready to go!

-The most famous type of leech is probably the European medicinal leech (Hirudo medicinalis), which was used extensively in the past (the first recorded case being Ancient Egypt 3500 years ago). Its populations in the wild have dropped significantly due to over exploitation for the medical industry

Photo by Neil Phillips

-Manchester Royal Infirmary used 50,000 leeches in one year in 1831, but use of the medicinal leech started to decline during the late 19th century. However, since the 1970’s they have made a comeback due to their use in micro surgery. Their anti coagulant saliva allows blood to keep flowing, and wounds to stay open during reattachment and reconstructive surgery!

Photo by Armando Caldas

-Hirudo medicinalis are ‘jawed’ leeches (Gnathobdellida). They have 3 jaws resembling rotary saws which have around 100 sharp edges used to incise the host which leaves a Y shape wound on the skin. They are so tiny their bite is virtually painless. Blood suckers are only one type of leech though...

-Other species of jawed leeches can have between 1 and 3 jaws. Detrivorous species use their jaws for chewing and swallowing soft food particles, whilst the carnivores use them to cut a hole in the body walls of invertebrate prey (molluscs, worms, insect larvae), in order to suck out the soft innards.

Photo by Manuel Krueger-Krusche

-The largest fresh water leech in the world is Haementeria ghilianii, (the Amazon giant leech) which can grow up to 450mm long and 100mm wide. One end of the leech contains its head, and the other the proboscis, which is 10cm long and like a hypodermic needle. It is capable of feeding on humans, rabbits, cattle and horses and a report from 1899 claims it could feed in such numbers that it could kill cattle and birds

Photo by Anonyme973

-Its male reproductive parts can weigh 3-5 grams, and the female parts weigh in at 10 grams, they are capable of producing egg clutches ranging from 60 to 500 eggs

-It was thought to be extinct in 1893, however during the 1970s Dr Roy Sawyer discovered 2 specimens in a pond in French Guiana. One of these was transferred to the UC Berkeley where it was part of a ‘breeding’ program. Named ‘Grandma Moses’ it managed to produce 750 offspring over 3 years, and helped to bring the Amazon Giant Leech back from the brink of extinction

Dr. Roy Sawyer and friend photographed by Timothy Branning

-When it died, ‘Grandma Moses’ was given to the Smithsonian National Invertebrate Collection where it still resides preserved in alcohol!

The Grandma Moses leech

-A small minority of leech species have no jaws or teeth (these are the worm leeches or Pharyngobdellida). Instead they swallow their prey, usually small invertebrates, whole!

-The Kinabalu giant red leech (Mimobdella buettikoferi) is probably one of the longest leeches, growing over 50cm.

Above photo from here

-It lives only on Mt Kinabalu, Borneo and feeds on an equal giant prey, the Kinabalu giant earthworm (Pheretima darnleiensis)

Kinabalu giant earthworm, Photo by Chien Lee

Kinabalu giant earthworm, Photo by Ivan Kwan

-It lives among the leaf litter and soil, and both leech and worm are usually seen during or after a downpour….

Found here

A hungry leech is very responsive to light and mechanical stimuli. It tends to change position frequently, and explore by head movement and body waving. It also assumes an alert posture, extending to full length and remaining motionless. This is thought to maximise the function of the sensory structures in the skin. source

Photo from here

-When it finds a worm it begins to grope towards an end, then it begins to suck…..

Here is a delightful film of just that!

Also on youtube

Above photos by Paul Williams

-Almost all leeches have at least one pair of tiny eyes, however some can have up to 16, these are arranged in patterns although their vision may only be able to detect light and dark.

Photo by Paul

-Glossiphoniid leeches demonstrate exceptional parental care for their offspring, which is the most highly developed for the annelids (the worm species). They produce a membranous bag in which they keep their eggs, this is carried on the underside of their bodies. When the young hatch they attach onto their parents belly (but not with a feeding bite) and the parent carries them to their first meal!

Above photo by Maralee Joos

Above photo by Duncan Cooke

Above photo by Duncan Cooke

Helobdella, which have a world-wide distribution, display the most highly developed parental care system: they not only protect but also feed the young they carry. This results in the young being much larger when they leave the parent and, presumably, in higher subsequent survival. source

Above photo by Dick Todd

-Leeches are quite hardy, some can survive in low oxygen environments, others at low ocean depth such as….

Bathybdella sawyeri occurs at 2447–2623 m depth at the Galápagos Rift and the Southeast Pacific Rise and Galatheabdella bruuni has been found at depths of 3880–4400 m in the Tasman Sea (Richardson and Meyer, 1973; Burreson, 1981; Burreson and Segonzac, 2006). However, the leech that occurs at the greatest depth is Johanssonia extrema described by Utevsky et al. (2019) that was collected at a depth of 8728.8 m in the Kuril-Kamchatka Trench. Occurring at that depth, J. extrema withstands pressure that is over 870 times greater than that at sea level. source

-Some species have evolved to live within the extreme dark of caves, others to withstand the extreme cold of arctic waters, one lives in waters of high alkalinity with the addition of arsenic at levels >110mg/L

Members of Praobdellidae are characterized by feeding primarily from mucous membranes [mouth, throat, nasal passages, and under the eyelids] particularly of mammals, but also from the skin of amphibians. This behavior is considered equally unnerving by both academic and public audiences. source

-A backpacker returning from Vietnam discovered she had also brought home a leech passenger that was attached inside her nostril "At one point, I could feel him up at my eyebrow," she said. It was removed at Liverpool Hospital, before it could reach her brain…. She than kept the leech named ‘Mr Curly’ as a pet…. delightful!

-One other leech has evolved to live in another type of orifice...a hippos anus!

…...Placobdelloides jaegerskioeldi inhabits one of the most extreme environments of all of the leeches that invade orifices, the rectum of the hippopotamus (Oosthuizen and Davies, 1994). Adult P. jaegerskioeldi have papilla-bearing tubercules that are postulated to provide traction against the anal-wall of the hippopotamus (Oosthuizen and Davies, 1994). This species is also one of the few glossiphoniid leeches that can actively swim and swims (even upstream) to its hippopotamus host (Oosthuizen and Davies, 1994). source

As always, I’m not and expert I just like finding and sharing fun things I find on the internet. Any mistakes or errors, let me know in the comments and I’ll edit my post!

All information via wikipedia-

Leech

Giant Amazon Leech

Medicinal Leech

Kinabalu Giant Leech

Glossiphoniidae

Except these-

Bogleech

Smithsonian Magazine

Australian Museum

buzzfeed

Leeches in the extreme: Morphological, physiological, and behavioral adaptations to inhospitable habitats

mentalfloss

The Evolution of Parental Care in Freshwater Leeches

Main photo 'Wasp' by Joshua Coogler

Above, 'Pachyrrhynchus ocelatus' by Raúl García Navarro

Above, 'Mite SP' by Harry Sterken

Above, 'Golofa claviger - Giant rhinoceros beetle' by André De Kesel

Above, 'Jumping spider SP (male)' by Harry Sterken

Above, 'Alcidodes Ocellatus' by Raúl García Navarro

Main photo..........Spanish Dancer Nudibranch. Photograph by David Doubilet

There are more than 3,000 known nudibranch species, and scientists estimate there are another 3,000 yet to be discovered. So-called Spanish dancers, like this one off the coast of New South Wales, Australia, boast some distinctions over other nudibranchs: First, they can be enormous, reaching a foot and a half (46 centimeters) long. Most nudibranchs are finger-size. Second, it can swim, a skill most of its cousins lack.

Above, Tritonia Nudibranch. Photograph by Jeffrey de Guzman

Members of the mollusk family, nudibranchs abandoned their shells millions of years ago. Their scientific name, Nudibranchia, means "naked gills," and describes the feathery gills and horns that most, like this Tritonia species, wear on their backs.

Above, Nudibranch, Philippines. Photograph by Libor Spacek

Nudibranchs, nicknamed "nudis," are best known for the impossible array of colors and designs they sport. They derive coloring, as well as toxicity, from the food they eat. Their wild hues tell potential predators, "You'd best look elsewhere for a meal."

Above, Nudibranch, Palau. Photograph by Ernie Collier

Though partial to tropical climes, nudibranchs thrive throughout the oceans, in warm water and cold, from sandy shallows and reefs to the murky seabed a mile down. Chromodoris nudibranchs, like this one photographed near Palau, are generally a warm-water species.

Above, Egg-Laying Nudibranch. Photograph by Jeffrey de Guzman

Nudibranchs are hermaphroditic, carrying both male and female reproductive organs. Mating pairs fertilize one another and lay up to two million eggs in coils, ribbons, or tangled clumps, as this purple-painted Hypselodoris is doing.

Above, Green-and-Orange Nudibranch. Photograph by Jeffrey de Guzman

Nudibranchs are blind to their own beauty, their tiny eyes discerning little more than light and dark. Instead the animals smell, taste, and feel their world using head-mounted sensory appendages called rhinophores and oral tentacles.

All text and photos from National Geographic

Title photo by David Guillemet

I've only just discovered that this exists...

Orangutan crab (Achaeus japonicus)

.....it has relatively long arms, which are thickly covered with fine hairs, red or reddish brown in colour, and often laden with small bits of debris for further camouflage....

....frequently, but not always, found in association with the bubble coral wikipedia

Above photo by scubaluna

-They're found in the Indo-Pacific region, have a naturally shaggy pelt, and like to decorate themselves with debris, small plants, sedentary animals, shells and gravel to enhance their natural camouflage!

Above photo by Bruce Versteegh

-During the day like to hang out in Bubble Coral, which swells its bubble-like structures to maximise its intake of light....

Above photo by Niall Deiraniya

-At night the coral 'deflates' and the Orangutan crab wanders off in search of food

Above photo by Dennis Young

The last 2 photos made me piss myself laughing....it looks like a fuzzy little muppet!

Info from wikipedia and here

Title photo Emperor shrimp on glossodoris nudibranch, by Ludovic

Above photo by Eric Cheng

-The Emperor Shrimp (Periclimenes imperator) is a species of shrimp with a wide distribution across the Indo-Pacific

Above, Nudibranch (Dermatobranchus ornatus), with Emperor Shrimp by Brian Mayes

-It lives commensally on a number of hosts (this is a long term symbiosis where one species gains benefits, while the other doesn't benefit, but is otherwise unharmed)

Above photo by EcoDivers1

-It will hitchhike on slow moving invertebrates including sea cucumbers, starfish (rare), molluscs...and also nudibranchs!

Above, Emperor shrimp on Nembrotha nudibranch by Roberta Cipressi

-The shrimp is only 19mm, and from it's vantage point it gains access to a stream of nutrients while perched on it's host

Photo by Jessie Weng

-The shrimps vibrant colours advertise the fact that it is unpalatable and help it camouflage on its host

Above, 'Ceratosoma tenue & Emperor Shrimp' by Allen Lee

Spot the shrimp.....Above, '(Jorunna funebris), actually two of them copulating. And an Emperor Shrimp...is attached!' photo by Ülar Tikk

-They also help by removing parasites and dead tissue from their host

Above, '(Periclimenes imperator) on a Glossodoris cincta Nudibranch' by Scott Rettig

Above, Tambja morosa with Periclimenes imperator by Benjamin Naden

-They live approx 2-3 years, and will often change hosts. Having a host is essential for the shrimps survival

Above photo by Brian Mayes 'I was surprised to see the shrimp change hosts and leave his small companion behind

-The shrimps are protandrous hermaphrodites. They are born with male reproductive organs and can change their sex to become female as they age and mature

Above photo by Georgette Douwma

-Finding a partner for reproduction can be complex as their dependence on their hosts can impact mating opportunities

Above, '(Periclimenes imperator) takes a ride on a Bumpy Mexichromis (Mexichromis multituberculata)' by David Guillemet

-After finding a suitable mate the female shrimp releases her eggs into the oceans current....

Above, 'Emperor shrimp on ceratosoma nudibranch' by KIYOSHI OKADA

-When the eggs hatch the small larvae will go through several life stages and molts, until eventually finding a companion to ride on....

Above photo by Brian Mayes

....reminds me of being sat on the sofa with my dog.....

Above photo by REINHARD DIRSCHERL

All info from wikipedia and also here and here

Above, 'Zenopontonia rex with Nembrotha milleri' by élanarchist

Above, '(Periclimenes imperator) with a Ceratosoma Tenue nudibranch as its commensal host' by Jun V Lao

I'm not an expert, if there are any mistakes let me know in the comments and I'll edit my post!

Title photo by Dotted Yeti

Travel back in time to the Cambrian Era, a period famous for the diversity of its life forms!

Lasting approximately 53.4 million years from the end of the preceding Ediacaran period 538.8 million years ago (mya) to the beginning of the Ordovician period 485.4 mya. It is a period where the atmosphere had elevated concentrations of oxygen, and the global temperature increased-creating a temperate world

Geological timescale from here

Scientists believe that the higher oxygen levels, and warmer climate contributed to the incredible diversity of life that occurred in the oceans.

However, on land it was mostly barren...complex lifeforms were non-existent and would have been restricted to mollusks and arthropods emerging from the water to feed on microbes in slimy biofilms

The Cambrian is unique as it had unusually high deposits of Lagerstätte sedimentary deposits, these sites offer exceptional preservation of 'soft' organism parts, as well as their harder shells which means that the study and understanding of the fossilized life forms surpasses some of later periods

(above, from my previous post on Aysheaia)

Anomalocaris means 'unlike other shrimp' or 'abnormal shrimp' and is an extinct Cambrian arthropod belonging to the radiodonts (meaning, radius 'spoke of a wheel' and odoús 'tooth') and is thought to have been one of the top predators for it's time

The fossils that were discovered in The Burgess Shale in 1886 were of incomplete segments and were initially thought to be 3 separate individual species. The frontal appendages were thought to be the bodies of shrimp-like crustaceans.

Above, 'named Anomalocaris ("strange shrimp") by Walcott'

The circular mouth part was thought to be a jellyfish as it showed the same radial symmetry

Above, 'circular fossil from the Burgess Shale formation was described and named Peytoia'

In 1966 a comprehensive revision of the Burgess Shale fossils began, along with additional misinterpretations which proposed that the feeding appendages were legs, and the mouth parts were part of a sponge...

However, during the cleaning of one of the fossils a layer of stone was removed which linked the feeding appendages and the mouth parts as belonging to the same animal. Later specimens showed how the feeding appendages could be curled around prey and directed to the circular mouth part, as well as eyes on flexible stalks....It had taken over 100 years of misinterpretations to finally meet Anomalocaris

Above, previously thought as the 'body of a shrimp was one of a pair of spiny grasping arms..the rim of the mouth shows partially, as does one of the large eyes' source

Above, 'appendages could curl, enfolding around prey, which was pinned by the arm spines. The captured prey was then placed into the mouth, which was under the head between the eyes. The eyes were at the ends of flexible stalks.' source

In 2021 the compound eyes made up of 16,000 lenses were discovered, proving that Anomalocaris was definitely an arthropod, and indicating that complex eyes has evolved before jointed legs or exoskeletons

Above photo by John Paterson, 'One of the stalked eyes of Anomalocaris from South Australia with arrows pointing to the boundary between the stalk and visual surface, plus the intricate lenses preserved'

The Anomalocaris would have been huge for the Cambrian maybe up to 1 metre in length. It would have been able to swim through the water by undulating the flexible flaps on the sides of it's body chasing down prey. The compound eyes would have given it a 'high degree of visual acuity, and a well-developed brain to process that information' source

Above, Anomalocaris size via wikipedia

It's unusual mouth parts made of wrinkled structures and sharp teeth, plus grasping appendages would have been ideal to catch and eat soft bodied animals like worms or comb jellies

Above, Radiodonta oral cones wikipedia........looking rather like an anus with teeth, imo

Above image by Junnn11

Anomalocaris fossils have been discovered in Canada (Burgess Shale), Australia (Emu Bay Shale), China and the US and include species

-A. canadensis Whiteaves, 1892

=A. whiteavesi Walcott, 1908

=A. gigantea Walcott, 1912

=A. cranbrookensis Resser, 1929

-A. daleyae Paterson, García-Bellidob & Edgecombe, 2023 wikipedia

Plus 8 other species including

• Anomalocaris saron, from the Chengjiang lagerstatten in China source

Above, Anomalocaris saron, a Radiodonta from the Chengjiang Biota, China

The Anomalocaris died off towards the end of the Cambrian, during the Great Permian Extiction along with up to 90% of all other life forms

Above image by Dotted Yeti

All info from wikipedia, and also here, here and here

As always, I am not an expert, I just enjoy learning and sharing interesting things....Any mistakes- leave a comment and I'll edit my post