This is the mander account for @[email protected]
mod of....
Aww thank you!
I'm glad you enjoyed it... I worked quite long and hard on it, trying to find tricks that were suitable and hopefully a bit different, as well as some beautiful treats scattered in the minefield π
π Nudibranch Halloween Special! π
Click on a spoiler below to get a......
TRICK or a TREAT!
Leave a comment and tell us what you got!
spoiler
π π» π π© βΌοΈ TRICK βΌοΈ π© π π» π
[!](https://mander.xyz/pictrs/image/d16dc4ab-83aa-4a4f-ae69-fd45a921f12f.jpeg)
Above, Bot Fly Larvae! by Marcel Rawady
spoiler
π β¨ π¬ π TREAT π π¬ β¨ π
[!](https://mander.xyz/pictrs/image/4b52ae71-4b38-4e47-ba18-557926a01602.jpeg)
Above, Glossodoris coi by David Henshaw
spoiler
π β¨ π¬ π TREAT π π¬ β¨ π
[!](https://mander.xyz/pictrs/image/5e9e39a9-3725-4291-bd2b-89780c0ae39d.jpeg)
Above, Chromodoris willani by eunice khoo
spoiler
π π» π π© βΌοΈ TRICK βΌοΈ π© π π» π
[!](https://mander.xyz/pictrs/image/2a4532b8-2a37-412c-8252-f8146f6fa6c7.jpeg)
Above, parasitoid larva! by Bonnie Ott
spoiler
π π» π π© βΌοΈ TRICK βΌοΈ π© π π» π
[!](https://mander.xyz/pictrs/image/b6eeb6dc-2df8-4b58-8f3a-ea2cc488bc09.jpeg)
Above, Lice on eyelashes! From here
spoiler
π β¨ π¬ π TREAT π π¬ β¨ π
[!](https://mander.xyz/pictrs/image/8738564a-ab1a-4a02-9668-0f895a1b685e.jpeg)
Above, Phyllodesmium serratum by Matt Tworkowski
spoiler
π π» π π© βΌοΈ TRICK βΌοΈ π© π π» π
[!](https://mander.xyz/pictrs/image/b981b13b-66d4-4370-aa4a-b7d0ad087fb4.jpeg)
Above, Leucochloridium paradoxum! by Stevie Smith >An intriguing parasite which invades the eyestalks of some snail species. It then alters the snails behaviour to seek out light, where the infected eyes appear as moving worms which attract, then are eaten by birds, where they mature and lay eggs in the birds rectum, being then passed out to begin the lifecycle again through the snail host.
spoiler
π β¨ π¬ π TREAT π π¬ β¨ π
[!](https://mander.xyz/pictrs/image/ed7c3834-495e-436e-a1c8-0f322336c05f.jpeg)
Above, Kunes Chromodoris by Matt Tworkowski
spoiler
π β¨ π¬ π TREAT π π¬ β¨ π
[!](https://mander.xyz/pictrs/image/30dfe590-91c4-49d6-8068-ce3145a4a748.jpeg)
Above, Digidentis arbuta by Matt Tworkowski
spoiler
π π» π π© βΌοΈ TRICK βΌοΈ π© π π» π
[!](https://mander.xyz/pictrs/image/a084097d-3638-4634-b278-09094b59272f.jpeg)
Above, Fly pooping! by Henry Lallianzuala
spoiler
π β¨ π¬ π TREAT π π¬ β¨ π
[!](https://mander.xyz/pictrs/image/8642fde8-e362-4dbe-aa60-b917dcdf3000.jpeg)
Above, Nembrotha lineolata by David Henshaw
spoiler
π β¨ π¬ π TREAT π π¬ β¨ π
[!](https://mander.xyz/pictrs/image/6b086010-0030-4213-b96e-ebeeae1db598.jpeg)
Above, Janolus sp. by digidiverdeb
spoiler
π π» π π© βΌοΈ TRICK βΌοΈ π© π π» π
[!](https://mander.xyz/pictrs/image/a41cbd3f-0a2d-4534-ae2e-b770d58e6f55.jpeg)
Above, Tick! by scubaluna
spoiler
π β¨ π¬ π TREAT π π¬ β¨ π
[!](https://mander.xyz/pictrs/image/e95fc51b-e867-409d-90f0-9a56777d0644.jpeg)
Above, Chromodoris alcalai by Brian Mayes
spoiler
π π» π π© βΌοΈ TRICK βΌοΈ π© π π» π
[!](https://mander.xyz/pictrs/image/c4fb46eb-7fdd-4866-89a4-a3d1a71007f9.jpeg)
Above, Fly Anus! by greffeb
spoiler
π π» π π© βΌοΈTRICK βΌοΈ π© π π» π
[!](https://mander.xyz/pictrs/image/fcdf6c07-1ec7-47a7-b9be-9e1c64e38813.jpeg)
Above, Poison fangs of a centipede! by Walter A. Piorkowski
spoiler
π β¨ π¬ π TREAT π π¬ β¨ π
[!](https://mander.xyz/pictrs/image/3c362a65-26d8-424d-a825-e44150a70c44.jpeg)
Above, Chromodoris kuniei by Marco Waagmeester
spoiler
π β¨ π¬ π TREAT π π¬ β¨ π
[!](https://mander.xyz/pictrs/image/6b636404-a455-4124-b55f-95b0a54fb634.jpeg)
Above, Chromodoris quadricolor by Rafi Amar
spoiler
π π» π π© βΌοΈ TRICK βΌοΈ π© π π» π
[!](https://mander.xyz/pictrs/image/2fe83e72-496a-4a58-8360-e9569d2a26dc.jpeg)
Above, Taenia solium (tapeworm)! by Teresa Zgoda
spoiler
π β¨ π¬ π TREAT π π¬ β¨ π
[!](https://mander.xyz/pictrs/image/606341e0-35ca-4f80-b9de-5400211d8a79.jpeg)
Above, Pteraeolidia ianthina by Brian Mayes
spoiler
π π» π π© βΌοΈ TRICK βΌοΈ π© π π» π
[!](https://mander.xyz/pictrs/image/42d18335-6f60-4e50-8e33-8eb3c111c1a6.jpeg)
Above, Naegleria fowleri aka The Brain Eating Ameoba! source
. . . . . . . .
Main image by unknown (found searching for 'Halloween question mark image' and has a dead link)
I love the Cambrian Era fossils, so many strange creatures. I've not read Wonderful Life mainly because I'd like an up to date version with the newer discoveries and interpretations....
Have you ever checked out the Chinese fossils? They are so well preserved the detail is astonishing, often complete with soft tissues! I managed to score a book from Amazon which was massively reduced because of a bit of damage to it
Just found this which could tick the box for me
It's like a sentient sock
Is it fluffy on the top as opposed to being slimey?
Don't get too excited, it may turn out to be crap, but fingers crossed!
Hope you subscribed for more nudibrach fun π
Not ugly... it's just the highly infectious 'Steve Irwin uncontained enthusiasm' of wanting to get up close and personal, and finding out whilst you're doing it that you probably shouldn't have
I miss Steve
A lot of nudis seem to be cannibals, I don't know whether this is from preference or accidentally hoovering up the much smaller ones, probably worth investigating
Also the man o wars definitely need a post of their own, I love how some sea creatures look like individuals but are giant colonies... then again we have slime molds terrestrially and us humans, and we're a bit like a giant colony of bacteria wearing a person trench coat
I'm glad to have learned a bit about your favourite nudi, they're stunning creatures in every way (btw I have a special nudi post for Halloween, something fun and not very serious) π
Beautifully written, much better than my attempt to describe the camouflage from the different viewpoints, thank you! π
and steal the stinging cells from them to make their own attack and defense.... pretty hardcore
Thank you, check out invertebrates for some of my other posts π
Agreed....
[They have] a painful sting and symptoms similar to those of its prey [Portuguese man oβ war]. These include nausea, vomiting, and pain. source
Beautiful, but no touching
BEHOLD..... The Beautiful Blue Glaucus!
Main Photo by paulhypnos
Meet the deeply fabulous Blue Glaucus, or Glaucus atlanticus... aka Blue Dragon, Sea Swallow, Blue Angel, Blue Sea Slug, Blue Ocean Slug and Lizard Nudibranch!
[!](https://mander.xyz/pictrs/image/6d967b92-4e86-43da-8ce2-6822155b5984.jpeg)
Photo by Atli Arnarson
They free float (upside down) and drift in currents by swallowing air bubbles and storing them in a gas-filled sac to maintain buoyancy!
As they drift in the ocean currents they are vulnerable to being washed up on beaches after storms...
[!](https://mander.xyz/pictrs/image/0b0a949f-8262-4ffe-8e4c-01d5d2995092.jpeg)
Photo by M Hooper
[!](https://mander.xyz/pictrs/image/b2699fff-aeda-4532-bafe-9b0aed7f4bab.jpeg)
Photo by csm2mk RTW
They are found in temperate and tropical ocean waters worldwide, specifically the Atlantic, Pacific, and Indian oceans! Although they have been found east and south coasts of South Africa, in European waters, near Mozambique, and off Australiaβs east coast.
It's beautiful colouring help them to camouflage with the ocean and sky!
Their body has a form of coloration known as countershading. The dorsal side (facing downward) is silvery grey, camouflaging it against the seas bright surface. While the ventral area (facing upwards) is dark and pale blue, and its head is covered with dark blue stripes, camouflaging against the seas blue colour!
[!](https://mander.xyz/pictrs/image/c452ca4c-53a4-40cd-a5ec-94cc1eaec72a.jpeg)
Photo found here
This combination of colours and the countershading on its body gives it protection from predators above and below!
They grow to around 3cm when mature, and live between 1 month to up to a year!
Always a good idea to handle a poisonous creature! [!](https://mander.xyz/pictrs/image/d19e9deb-4cbf-4c40-bece-abdd4f3b7732.jpeg)
Photo by Zekoo1
Their bodies are flattened, and tapered and sport six appendages that branch out into 84 finger-like cerata.
[!](https://mander.xyz/pictrs/image/632b3f88-9219-4696-ab77-59eb9b47dbd9.jpeg)
Photo by Sylke Rohrlach
They are voracious predators, their favoured prey is the Portuguese man oβ war. This looks like a jellyfish, but is actually a cnidarian and has numerous stinging cells (nematocysts) in its tentacles
[!](https://mander.xyz/pictrs/image/da69e802-946b-464e-bbbb-d625918f8daa.jpeg)
Portuguese man o' war (Physalia physalis Photo by Helene Hoffman
They transfer undigested nematocysts (stinging cells) from their prey to the cerata to use them to sting when hunting, or if it feels threatened!
Sexual reproduction could be problematic for a creature with a deadly sting....Fortunately, they have long, curved S-shape bends in their penises to avoid injury!
Blue Glaucus Party!! [!](https://mander.xyz/pictrs/image/004b98b8-482c-4292-a652-34e940a9b89e.jpeg)
Photo found here
They lay strings of 12-20 eggs, which they deposit on the carcasses of their prey, or left on any other floating mass they encounter!
[!](https://mander.xyz/pictrs/image/a66e9eb5-9400-4c55-a4a7-c0e7d2161b05.jpeg)
Photo by Todd Aki
As well as the Portuguese man o' war, they will also eat by-the-wind-sailor velella, the Blue Button, and the violet snail.... as well as each other!
[!](https://mander.xyz/pictrs/image/0c125e1f-851f-4987-b150-be7b10d69d2b.jpeg)
Porpita porpita- Blue Button Photo by paulhypnos
Stalking a Blue Button.... [!](https://mander.xyz/pictrs/image/9bde13fb-6d95-4624-b2a2-653a58740991.jpeg)
Photo by paulhypnos
Apart from cannibalism, the Loggerhead Sea Turtle is one of the main predators of the Blue Glaucus.
Dinner...... [!](https://mander.xyz/pictrs/image/e44b6a07-2d4d-4392-9e14-07fc635f8669.jpeg)
Photo by J_turner6
Info via American Ocean and Treehugger
You're very welcome, I enjoyed looking through the many pictures of Velvet Worms, they're beautiful creatures with interesting lives.... they really should get more love and appreciation π
Meet the Velvet Worm.... Ferocious Predator, and Living Fossil! MEGA POST
Main image, by Eoperipatus sumatranus, Mok Youn Fai
[!](https://mander.xyz/pictrs/image/15391355-3db9-424d-963f-02a9174c8d93.jpeg)
Above, Peripatus sp, by Susan Myers
There are around 180 species of Velvet Worm
[!](https://mander.xyz/pictrs/image/a2f2d25b-1029-476b-a9c5-6e5e12fd631f.jpeg)
Above, A selection of velvet worm species from Australia. Original photographs by Jenny Norman, Noel Tait and Paul Sunnucks, from here
They live in moist, dark places in the tropics, as well as Australia and New Zealand
[!](https://mander.xyz/pictrs/image/047b970d-77e8-46bb-9b59-a8fa5aa971ae.jpeg)
Above, Velvet worm (Peripatoides novaezealandiae), by Frupus
Velvet Worms have changed little in the last 500 million years with fossils of marine versions being found from Cambrian Era rocks (Burgess Shale, Canada 505 years ago, and the Chengjiang formation, China (520 million years ago))
[!](https://mander.xyz/pictrs/image/f92b8691-77ef-4ab5-aa40-1d6f8af00aff.jpeg)
Above, Euperipatoides sp, by Edward Evans
They have hydrostatic skeletons, comprised of muscle layers and the body wall. It's body cavity is filled with fluid, which is pressurised and keeps the body rigid!
[!](https://mander.xyz/pictrs/image/66646052-59d1-4fbb-a607-6824fc9483f2.jpeg)
Above, Peripatus sp, by Paul
They move by alternating the internal fluid pressure in its limbs as they extend and contract along its body!
Their skin is waterproof and is covered with papillae- tiny protrusions with bristles which are sensitive to touch and smell!
[!](https://mander.xyz/pictrs/image/a1a81abd-1947-4539-a620-8168423105ae.jpeg)
Above, Velvet worm (Eoperipatus sp.) by Nicky Bay
The papillae are composed of overlapping scales, which gives the Velvet Worm its velvety appearance!
[!](https://mander.xyz/pictrs/image/c47b3b87-c9c5-4d65-926f-dafc751f3bb0.jpeg)
Above, Skin of Euperipatoides rowelli, by Andras Keszei
Their feet are described as conical, baggy appendages. At the end of each foot is a hooked claw made of chitin, the Velvet Worms scientific name is Onychophora, meaning 'claw bearers'
[!](https://mander.xyz/pictrs/image/c5829fe9-6d56-476e-9d8e-c28db7f675cd.jpeg)
Above, Onychophoran legs and claws, by alexselemba
[!](https://mander.xyz/pictrs/image/d15843e0-9161-40cf-a044-bbbd1a45756b.jpeg)
Above, Onychophora, by Nicky Bay
They only use the claws on their feet when walking on uneven surfaces, they can retract these claws and use its foot cushion at the base of the claw
Depending on the species, a velvet worm can have between 13 and 43 pairs of feet. The feet are hollow, fluid-filled, and have no joints.
[!](https://mander.xyz/pictrs/image/d91d935e-4bd1-4522-b0b0-a142b996b0af.jpeg)
Above, Peripatoides novaezealandiae, by Frupus
Velvet Worm species can vary in length from 10mm long to ones in excess of 20cm
[!](https://mander.xyz/pictrs/image/83f3ef58-612d-4a14-b937-01ab6f96652f.jpeg)
Above, velvet worm to scale, by Andras Keszei
They have a pair of sensory antennae on their heads, and small eyes. The mouth has a set of jaws, and is flanked by two papillae
[!](https://mander.xyz/pictrs/image/8a822622-a499-4b09-9c63-7e4778da04b9.jpeg)
Above, photo by melvyn yeo
They prefer to live in moist areas, hiding in the soil, or under rocks and rotting wood... and they like to come out at night and during wet weather
[!](https://mander.xyz/pictrs/image/eddc4de8-6f89-4072-8db4-853dc417f597.jpeg)
Above, Ooperipatellus species, by Simon Grove
They hunt at night for small invertebrates, and are ambush predators. They have a pair of glands on their heads near to the antennae which squirts out a sticky, quick hardening slime!
[!](https://mander.xyz/pictrs/image/c5f6a2db-7ba6-4c50-a25d-fb70d23a9f67.jpeg)
Above, Eoperipatus sumatranus? by Nicky Bay
[!](https://mander.xyz/pictrs/image/fc96e36b-ea3b-4835-b746-43564b0a88b1.gif)
Above, via Daily Dot
The slime ensnares their prey, allowing the Velvet Worm to inject a digestive saliva through its bite... this liquefies insides of its prey making it easier to eat! It will also eat any left over slime as it is energetically costly for it to produce
[!](https://mander.xyz/pictrs/image/e3ae69b3-ea4c-4d3c-b2f7-cb99674b007f.jpeg)
Above, by Miguel "Siu"
One species (Euperipatoides rowelli) is social! It lives in groups of up to 15 individuals, and has a strict social hierarchy with a dominant female!
[!](https://mander.xyz/pictrs/image/2859d4be-bc55-4a44-af2a-858514d54c86.jpeg)
Above, Velvet worms (Euperipatoides rowelli)- Captive individuals. A couple babies can be seen in this image, by Jackson Nugent
After a kill the dominant female feeds first, then the other females, the males, and finally the young... the hierarchy is strictly enforced and maintained via aggression (biting, chasing, kicking and crawling over subordinates!)
All Velvet Worms reproduce sexually except Epiperipatus imthurni which reproduces via parthenogenesis! No males have ever been found... only females!
[!](https://mander.xyz/pictrs/image/83b55c99-1dac-4dd6-a7c8-51aa1c3cd2f4.jpeg)
Above photo (Epiperipatus imthurni), by Geoff Gallice
Sexual reproduction can be quite varied amongst the species of Velvet Worms.... some males will deposit their spermatophores directly into the female's genital opening. Other use a special structures on the head, whilst some use spikes, spines, or pits to either hold their sperm or transfer it to the female!
[!](https://mander.xyz/pictrs/image/c63c3d9e-9522-48e7-b7bc-b1b26a640a2e.jpeg)
Above, Metaperipatus inae, by Art
Male Peripatopsis Velvet Worms will deposit their spermatophore on random areas of the females body. The sperm causes a small, localised breakdown of her skin, allowing the sperm to enter her body. It then migrates to her ovaries, and fertilisation takes place!
Birth can be as varied as reproduction. Some species lay eggs. Peripatopsis mothers retain eggs in their uteri and supply nourishment to their embryos, but without any placenta....Most velvet worms however, give birth to live young after a period of gestation their via a placenta. All young are born/hatch fully developed, and look like mini adults!
[!](https://mander.xyz/pictrs/image/16a99b76-8829-4227-ad84-7e8511192278.jpeg)
Above, Peripatus-sp, by Pedro Bernardo (Peripatus mothers supply nourishment to their embryos through a placenta)
[!](https://mander.xyz/pictrs/image/623b35b0-1ad9-431c-a47e-b9958f6ccf02.jpeg)
>Euperipatoides rowelli just "born" (not sure what the term is for oviviparous animals), still in the egg membrane it developed in inside it's mother. The egg is approximately 2mm in diameter
Above, Euperipatoides rowelli, Andras Keszei
Goodbye, Velvet Worm!
[!](https://mander.xyz/pictrs/image/a8709875-6cb3-4d4c-b228-e086956dd7fa.jpeg)
Above, Eoperipatus sp, by Nicky Bay
Info via wired and wikipedia here and here
As always my usual disclaimer.... I'm no expert, I just like learning and sharing information, any mistakes will be mine and I'll correct them if you leave a comment π
Meet the Four-colour Nudibranch!
Main photo, Four-colour Nudibranch - Godiva quadricolor, by Rafi Amar
Godiva quadricolor is found on the South African coast from the Cape Peninsula to East London, and is an aeolid nudibranch!
[!](https://mander.xyz/pictrs/image/bcfe4168-7624-488b-90f5-dc3a3f31d4e1.jpeg)
Above, by Gary Cobb and David Mullin
It grows between 35-58mm in length and lives at depths up to 20 m!
[!](https://mander.xyz/pictrs/image/31c5670a-e5b6-4892-b54f-aa2c9e478d58.jpeg)
Above, by Gary Cobb and David Mullin
It feeds on anemones and transfers its stinging cells to the cerata on its back giving it protection from predators....
[!](https://mander.xyz/pictrs/image/adbb61d0-34bb-4759-8bac-8382456a528f.png)
Above, via Science Photo Library
......It will also eat other nudibranchs!
[!](https://mander.xyz/pictrs/image/832f085a-359b-4ee0-adb4-d88c8cee0afb.jpeg)
Above photo, by Guido Villani
It has also been reported from the Mediterranean, off western Australia and West Africa (although the ones found in Australia differ in colour, and may be another species)
....Here it is laying eggs!
[!](https://mander.xyz/pictrs/image/135d6691-3e77-4458-9cd0-4fc7419f67e8.jpeg)
Above, photo by Guido Villani
Info via wikipedia, here, and here!
edit- I forgot to do the image pop out thing yet again
The Pikachu Nudibranch!
Main image, Pikachu Nudibranch - Thecacera pacifica, by Rafi Amar
Thecacera pacifica is a species of Dorid nudibranch, It is also known as the Pikachu nudibranch!
[!](https://mander.xyz/pictrs/image/f4e834ee-feb0-441b-9b29-57eea73830bd.jpeg)
Above, Photo by Connie Chen
It is found on the African coast of the Indian Ocean (Mozambique), Indonesia and Vanuatu. It has also been found on the Gulf of Mexico!
[!](https://mander.xyz/pictrs/image/b7a401c0-61ab-4c3f-8d10-f95546d1156d.jpeg)
Above, Photo by Brian Mayes
They grow to around 2-3cm in length, and live underneath loose rock and sand!
A video of one wobbling around in the sea!
They also seem to have some variety in colour and patterning....!
[!](https://mander.xyz/pictrs/image/560ba4c4-5471-4af6-a209-2472a313e96d.jpeg)
Above, Photo by Francis Lau
[!](https://mander.xyz/pictrs/image/a8d8d96b-ded4-412e-92ad-99b6774ab658.jpeg)
Above, Photo by Ludovic
Info via wikipedia, and seaslugforum
edit- Once again I forgot to do the pop out image thing
Fabulous. Frilly. Flying. Flatworms!
Main image, While Gotham sleeps........ by Michael Gerber
RED...
[!](https://mander.xyz/pictrs/image/66b8e645-e63b-416b-bf94-b9896b876bb0.jpeg)
Above, Pseudoceros ferrugineus, by Benjamin Naden
PINK...
[!](https://mander.xyz/pictrs/image/4b3a9c62-e275-4769-a3c7-23c848788263.jpeg)
Above, Protheceraeus roseus, by JoΓ£o Pedro Silva
YELLOW...
[!](https://mander.xyz/pictrs/image/e12af1e9-66d5-40b2-afe8-0c7af2c61c9f.jpeg)
Above, Eurylepta sp. by Karen Honeycutt
ORANGE...
[!](https://mander.xyz/pictrs/image/481479c1-5abf-4141-a476-70bdfeacc5e2.jpeg)
Above, Pseudoceros sp. by Rafi Amar
BLUE...
[!](https://mander.xyz/pictrs/image/b4282c4c-7dbb-4321-9079-0d6c277bbb2b.jpeg)
Above, Racing Stripe Flatworm - Pseudoceros liparus, by Rafi Amar
PURPLE...
[!](https://mander.xyz/pictrs/image/84ffd5fd-da2f-4b50-8761-32a47958b3b8.jpeg)
Above, Linda's Flatworm - Pseudoceros lindae, by Rafi Amar
BROWN...
[!](https://mander.xyz/pictrs/image/58be34a1-b3bc-4897-a0d3-a574b6c9a7c4.jpeg)
Above, Photo by Nick Hobgood
TRANSPARENT...
[!](https://mander.xyz/pictrs/image/ea774573-e0e3-46c7-bd45-6213c9c1470e.jpeg)
Above, Paraplanocera sp. by Rafi Amar
SALAD...
[!](https://mander.xyz/pictrs/image/490d5dee-3ecc-4593-a9a3-ef34c1c410f8.jpeg)
Above, Cryptic Flatworm - Pseudobiceros kryptos, by Rafi Amar
GOTH...
[!](https://mander.xyz/pictrs/image/df00fcad-1746-4ca0-83a3-c7b2d01bf81c.jpeg)
Above, Photo by Bettydiver
NEON...
[!](https://mander.xyz/pictrs/image/54247cf6-dd80-4ad1-beda-2d79162d1b5b.jpeg)
Above, Pseudoceros dimidiatus, by Richard Ling
STARRY...
[!](https://mander.xyz/pictrs/image/7de46483-fc15-4da4-a577-af9ace0cfc46.jpeg)
Above, Thysanozoon nigropapillosum, by Patomarazul
TRIPPY...
[!](https://mander.xyz/pictrs/image/e20c53cf-ec8a-40d7-8070-8d7d1bf26294.jpeg)
Above, Persian Carpet Flatworm - Pseudobiceros bedfordi, by Rafi Amar
GLITTERY...
[!](https://mander.xyz/pictrs/image/b36860e4-886a-4d50-a088-aa3d1200b7c6.jpeg)
Above, Photo by eunice khoo
FRILLY...
[!](https://mander.xyz/pictrs/image/a8a80a94-d454-4e1b-8b7f-f1216494680d.jpeg)
Above, Glorious Flatworm - Pseudobiceros gloriosus, by Rafi Amar
STRIPEY...
[!](https://mander.xyz/pictrs/image/e01e35ec-ecf7-4434-b603-d614264a22ad.jpeg)
Above, Pseudoceros zebra, by Marina Poddubetskaia
SPOTTY...
[!](https://mander.xyz/pictrs/image/74e7b08c-e545-4764-87f2-27d1ca2e23d2.jpeg)
Above, Pseudoceros scintillatus, by ilan Lubitz
VEINY...
[!](https://mander.xyz/pictrs/image/001ff75a-5a15-49d5-b4ba-a568b78a11e1.jpeg)
Above, Eurylepta californica, by Robin Gwen Agarwal
BRAINY...
[!](https://mander.xyz/pictrs/image/849f279b-4580-425a-80b7-fcc39a5f2d6d.jpeg)
Above, Maritigrella fuscopunctata, by Rafi Amar
SANDY...
[!](https://mander.xyz/pictrs/image/de07b242-5dc2-4cac-8433-3dc7c873fba0.jpeg)
Above, Pseudobiceros damawan, by Rafi Amar
CAKEY...
[!](https://mander.xyz/pictrs/image/72effc20-1748-41a9-ac8e-1d91679059f5.jpeg)
Above, Lizard Island Flatworm - Tytthosoceros lizardensis, by Rafi Amar
CAMOUFLAGEY...
[!](https://mander.xyz/pictrs/image/4121f3da-f381-4068-ae19-4707bce7c9d2.jpeg)
Above, Flatworm - Paraplanocera sp. by Rafi Amar
HOLSTEIN-FRIESIANY...
[!](https://mander.xyz/pictrs/image/be51cfe5-9bdc-4f6e-94dd-282d37d90ccf.png)
Above, Eurylepta sp.1, by Rafi Amar
AMBUSH RUG...
[!](https://mander.xyz/pictrs/image/4411659d-24c1-463d-bd9d-98718ab21c54.jpeg)
Above, Photo by eunice khoo
GOODBYE, FLYING FLATWORM!
[!](https://mander.xyz/pictrs/image/c99ac87e-705b-4fa8-ba47-89e63701d595.jpeg)
Above, Persian Carpet Flatworm - Pseudobiceros bedfordi, by Rafi Amar
edit- Forgot to do the thing that makes the image pop out when you click on it.....
Mantis eyes would be great, especially if they could pop out on stalks!
I wish my eyes could stand having water drops (or eye drops in general) in them..... I can't open my eyes underwater or in the shower, it's deeply unpleasant.
Maybe I need to evolve compound eyes? Ideally something iridescent for the bling factor
Weird and Wonderful..... Caterpillars!
Main image, Oleander Hawk Moth Caterpillar (Daphnis nerii, Sphingidae), by itchydogimages
>Startled? Alarmed? Did I hear you mutter "WTF?" under your breath? > >Then evolution wins again. Imagine if you were confronted by the same sight if you were a bird or a praying mantis or a snake for that matter. Eyespots (markings that resemble vertebrate eyes) have evolved many times in Lepidopterans (butterflies and moths). The fact that this adaptation has arisen independently so often in this group indicates the general effectiveness of this anti-predator defence. itchydogimages
Above, Walking forest, by Gabriela F. Ruellan
Above, Moth Caterpillar - Cerura vinula, by Lukas Jonaitis
>I took this photo last summer. This caterpillar is one of the most beautifull caterpillars in Lithuania. I think it is very photogenic caterpillar because of its green colour and red tails which are visible only when caterpillar is scared. He has very nice face. :) Lukas Jonaitis
Above, Saturnia Pyri, by Jano De Cesare
>This is a beautiful larva of a Saturnia Pyri, a butterfly which is around 16cm in maximum dimension at its mature state. Jano De Cesare
Above, Stinging Nettle Slug Caterpillar (Cup Moth, Setora baibarana, Limacodidae) "The Jester" by itchydogimages
>First-in-line to the throne of the brilliant Yunnan lineage of Limacodid caterpillars, together with its alternate colour form, "The Clown", "The Jester's" livery is almost fluorescent. itchydogimages
Above, Stinging Nettle Slug Caterpillar, Limacodidae, by Andreas Kay
Above, 3rd Instar Cecropia, by Barb Sendelbach !
Above, Big Foot (Cecropia), by MaggieDu
Above, Photo by Frank Starmer
Above, Dalceridae moth caterpillar, by Gerardo Aizpuru
>Dubbed the 'jewel caterpillar', this lovely, translucent larva belongs to a family of moths known as Dalceridae. Although scientists are still unsure about the exact function of the caterpillar's translucent, gooey attributes, the leading theory is that the slimy stickiness helps to deter predators. According to Scientific American, the jelly-like 'cones' that cover the body break off easily (sort of like a lizard's tail), helping the caterpillar slip out of a predator's clutches. source
Above, Flannel moth caterpillar, by Drriss & Marrionn found here
>It may look like Donald Trump's misplaced toupee (it's actually been dubbed the 'Donald Trump caterpillar'), but this flannel moth larva is actually not covered with hair at all. Those silky-looking threads are actually venomous spines that can cause intense, burning pain when touched, making the caterpillar one of the most venomous in the US. source
European Paper Wasp - Polistes dominula, by Heath McDonald
European Paper Wasp - Polistes dominula, by Heath McDonald
>Whilst looking for the Bee Flies I came across a solitary male Paper Wasp on a dead leaf, it wasnβt the best angle, whilst moving the camera gear it started to be aware of me and moved to this position which looked even more awkward side one but from the front, gave a great position for a portrait, managed a few shots before it started moving again so left it alone at that point. > >Best viewed very large
Antiopella cristata, by Jose SalmerΓ³n
Antiopella cristata, by Jose SalmerΓ³n
>It is a gift from the sea to find it, for me the most beautiful nudibranch in the Mediterranean. > >I like to investigate the origin of the names of the species and I especially liked the one of this nudi price: > >"Antiopella" the fact that it is a marine animal and in particular a nudibranch suggests that it is Antiope, the daughter of the guardian of the winds Aeolus and Enarete, lover of Poseidon, there it isππ > >cristata: from Latin [cristatus, a, um] = crested, crested, related to the caruncle among the rhinophores.
Janolus by Sergi Garcia
Janolus by Sergi Garcia
>Nudibranchs in particular are especially popular with divers and underwater photographers because of their often vibrant and beautiful color patterns. The coloration is useful for more than just a pretty photo, however. Bright colors warn predators that these nudibranchs would make a bad meal because they are armed with toxins and other defenses Smithsonian
edit- had to re-upload the photo
Thank you π
BEHOLD!!! The Sea Squirt, Our Closest Invertebrate Relatives! Photos and Fun Facts!
Main Image of....
>....three species of tunicates ("sea squirts") - Polycarpa aurata is purple and orange, Atriolum robustum is green, and the blue is from the genus Rhopalaea. (Nick Hobgood)
There are around 3000 species of Sea Squirts aka Tunicates!
[!](https://mander.xyz/pictrs/image/b98cbf28-a417-4672-a54f-9b651e57bdbb.jpeg)
Above, Corella parallelogramma by Mark N Thomas
They are found in salt water throughout the world!
They are our closest invertebrate relatives!
[!](https://mander.xyz/pictrs/image/8ba1f59d-746f-49f0-aa53-1e2b76822b27.jpeg)
Above, Photo by Chas Anderson
They are called Sea Squirts because if they are touched or alarmed the muscle will suddenly contract forcing the water inside to shoot out!
Sea Squirt larvae look like frog tadpoles!
[!](https://mander.xyz/pictrs/image/32779f94-f549-49ce-8c06-901a8f79c83e.webp)
Above-
> A deep-water larvacean (aka βsea tadpoleβ) inside its mucous βhouse,β which concentrates food from the water prior to reaching the animalβs mouth. (Hidden Ocean 2005, NOAA)
As larvae they swim around in the ocean current, and when they find a food rich environment they use sucker to attach to a rock, dead coral, boat dock, or mollusk shell!
[!](https://mander.xyz/pictrs/image/b8ee19ca-9773-4f72-856f-087128182c9c.jpeg)
Above, Photo by prilfish
Then they begin metamorphosis!
[!](https://mander.xyz/pictrs/image/18f59a8e-8ae3-4c41-bc0e-ade78562d391.webp)
Above-
>Tunicate larvae resemble tadpoles (developing frogs). (Van Name, 1945)
Their notochord begins to shrink and is absorbed into the body, the tunic forms as the transformation continues and finally it becomes an adult Sea Squirt!
As an adult it will now feed on tiny particles found in the water, primarily bacteria!
[!](https://mander.xyz/pictrs/image/314d0f8e-5f92-43dc-962d-9f07dfd4d300.jpeg)
Above, Blue Bell Sea Squirt (or Tunicate) - Perophora namei by Jim Greenfield
There are two types of sea squirts- solitary and colonial!
Both have 2 siphons. The Oral Siphon receives the nutrient content in the water, and the Atrial siphon excretes the waste!
Colonies are formed when a newly settled larvae changes into an adult. It then splits or 'buds' producing new individuals!
[!](https://mander.xyz/pictrs/image/6c5f9076-74be-4f77-be57-5649d65094ae.jpeg)
Above, Clavelina sp. by Jim Greenfield
Colonies can range from a few centimetres to several metres depending on food supply and predation!
Colonial Sea Squirts share a common tunic and sometimes and also sometimes share the atrial siphon!
They have a digestive system similar to ours, complete with an esophagus, stomach, intestines and a rectum!
Sea Squirts act as ocean purifiers, as they consume bacteria. They can also absorb zinc and vanadium, indicating heavy metal presence within their ecosystem!
[!](https://mander.xyz/pictrs/image/a832bd55-0fe1-4d5a-87bf-ea4aa584ea19.jpeg)
Above [An obligatory Nudibranch!], Striped sea slug snacks while strolling on a sea squirt by Nick Hobgood
All photos and info found here, except where indicated!
And as always my usual disclaimer- I'm not an expert in anything, I just enjoying finding and sharing interesting things.... Any mistakes are mine and I'll correct them if you let me know in the comments π
edit re-uploaded main image as it wasn't showing
edit 2 changed 'ancestors' to 'relatives' in the title
Blue Dragon by Bill Kuiper
Blue Dragon by Bill Kuiper
>Blue Dragon nudibranchs are very common to the southeast coast of Australia and have a few color variations. Juveniles are white with blue rhinophores, and adults vary from dark purple to lavender to golden brown. I have seen these grow to a length of approximately 4 inches...
Text from here
'Experience: a leech lived up my nose for a month... ...I recoiled in horror: I could see a thick black body hanging out of my nostril'
Lovely story from The Guardian
>It was September 2014. Iβd just started working front of house in a fancy hotel in Edinburgh. I spent most of my shifts with a paper napkin pressed to my nostril, as I had been getting lots of nosebleeds. I would soon find out why. > >A few weeks earlier, Iβd been travelling in Vietnam. I had rented a moped and had the time of my life driving around. I soon crashed but luckily was wearing a helmet, so only got a small bump on my head. > >A few days afterwards, I started to intermittently spot blood from my right nostril. I assumed it was from the crash and didnβt think too much of it. I was 24 and too busy partying to take anything like that seriously. I danced the nights away while ignoring the persistent blockage in my nose. > >Reality came flooding back after returning to cold Glasgow. Nothing had changed with my nose, so I went to the GP. The doctor told me that it didnβt sound like anything to worry about. I was advised to use Vaseline on the area to keep the nostril lubricated and was sent on my way. > >A week later, I moved to Edinburgh for my job. Thatβs when I started to feel frustrated with my constantly stuffy nose. I wasnβt in pain, but sleeping was difficult. I would blow my nose to try to clear the blockage, but it would only lead to nosebleeds. Things started to get particularly weird when I was having showers. Through all the humidity, I could feel a thick, slimy thing moving down my nose. > >I had a day off work; it had been a month since I returned from abroad. My friend Jenny was coming from Glasgow to meet me for dinner. I was in the shower when I felt the all-too-familiar feeling, but this time I glimpsed something hanging out of my nostril. I jumped out and raced to the mirror, frantically wiping off the steam. I saw a clot hanging out β then recoiled in horror when I saw ridges running along a thick black body. > >I rushed out of the house to see my friend, screaming, βItβs a full-on worm!β Jenny knew about the problems Iβd been having with my nose, but she didnβt believe me at first. I stuck my nose in the air so that she could see for herself. Her mouth hung wide as she gaped and said: βYep, there really is a worm in there.β > >At first, it was the most hysterical thing that had ever happened to us. We couldnβt stop laughing. Because it had been in there for so long, I felt very blase about the whole thing. We rang the NHS helpline. The call adviser was crying tears of laughter over the phone, as it was the most bizarre thing sheβd heard. > >We went to A&E. Doctors were bewildered and didnβt take me too seriously at first. But once the nurse looked up my nose, she gasped. I was placed on a gurney as they stretched my nostril open with forceps. The doctors spent 30 minutes using different tools to try to prise the leech away. Leeches release an anaesthetic when they bite so they can stay on a body for longer, which is why I couldnβt feel the pain before β but it was agony when the doctors tried to pull it out. When they finally succeeded, I felt a wave of cold air shooting through the blocked nostril. It was like being in a nightmare, seeing the leech held up high, squirming. It was longer than my finger. > >Iβd swum a lot on holiday, so we guessed that it most likely came from there rather than having anything to do with the motorcycle accident. The leech was put in a jar and sent to a specialist hospital in London for further testing β they were worried that it may have passed on further diseases to me. Suddenly, something that was so funny seemed much more serious. > >Luckily, all of my tests came back clear, and I had no side-effects. I was given the leech back in a pot and told to dispose of it. The leech was rock hard because it had so much of my blood inside. It made me squirm just looking at it. > >Now, a decade later, the story of the leech and me has become a go-to anecdote whenever I meet someone new. I even had someone message me on LinkedIn recently asking about it. So while the leech was attached to me in a very physical sense, I guess weβre still attached metaphorically. But Iβm very glad itβs out.
Link to an earlier post about shrimp jockeys....
https://mander.xyz/post/11798834
....and a rather spiffy pic!
photo by Ludovic
I like how you're thinking.... also a shrimp jockey jauntily attached to the head at the side (like a head broach)
Fuch yeah! That is amazing!
So many possibilities..... Something frilly or sleak? Maybe neon/pearlescent? Spots, stripes? An Aeolid with a garnish of cerata, or a Dorid with a branchial plume? And don't forget a pair of magnificent rhinophores and optional Emperor shrimp jockey!
Holy shit I'm really excited for you! And I'm not the one making the costume or going to the party!
In fact as an autistic person I'd just spend hours of fun making a costume, and then not go to the party.... just wear it at home
You'll have to post your outfit when it's done π
Daily Nudibranch- Hello Doris!
Main image, Glossodoris Sedna by Cajo Producciones
Above Glossodoris stellatus by digidiverdeb
Above Glossodoris angasi by Brian Mayes
Above Glossodoris acosti by Rafi Amar
Above Glossodoris hikuerensis by @halimeda
Above Glossodoris atromarginata by Wisnu Purwanto
Above Glossodoris sedna by Guillem Mas
Above Colemans Glossodoris by Steve Gillespie
Above Glossodoris cincta by Luc L. Legrand (thanks for 7 M views)
Above Glossodoris rufomarginata by divemecressi
Above Gossodoris cincta by jack pokoj
Above Glossodoris atromarginata by divemecressi
Above Glossodoris rufomarginata mating by Ludovic
Above Glossodoris cruenta by Tavistock
Above Averns Glossodoris with a Colemans Glossodoris by Steve Gillespie
Above Glossodoris sp. 16
Above Glossodoris sibogae by Thomas Vignaud
Above Glossodoris sp. 10
Above Glossodoris electra
Above Glossodoris rubroannulata
Above Glossodoris buko by Bernard Picton
Daily Nudibranch- The Amazing, Self Decapitating Elysia marginata!
Main photo by ilan Lubitz
Elysia marginata are Sacoglassons (a type of sea slug) and are found in the Indo-Pacific ocean at depths of 0-10 metres
Above photo by budak
They eat algae and store the chloroplasts in its body. The chloroplasts continue to photosynthesize and provide its host with a source of food!
Above 'Pair of leaf slugs on algae. They feed on green algae and can grow from 3 to 8cm long. Photo by Wesley Oosthuizen.' source
They have the ability to regenerate a completely new body (including a new heart) from their head, after it detaches itself from its old body! (A process called autotomy- self amputation)
Above photo by Sonja Ooms
Their ability was discovered by Sayaka Mitoh, a doctoral student at Nara Women's University in Japan, who spotted the decapitated head of E. marginata circling its separated body in one of the tanks in the lab
Above 'This image shows the head and the body of Elysia cf. marginata, a day after autotomy.' (Image credit: Sayaka Mitoh) source
Quite naturally she thought the slug would soon die, however..
>"After a few days, the head started regenerating the body and I could see [the] beating of the heart. It was unbelievable," Mitoh told Live Science. "I was really happy and relieved when I found it could regenerate the body." source
[!](https://mander.xyz/pictrs/image/8e5bbdb4-7381-47f1-8ccc-64416d7fd0f2.png)
- A, Head and body of Elysia cf. marginata, just after autotomy (day 0), with the pericardium (heart) remaining in body section (arrow)
- B, day 7
- C, day 14
- D, day 22, showing whole-body regeneration.
- E, Head and body of Elysia atroviridis (individual no. 1) just after autotomy (day 0).
Above text and photo source
The head continued to grow its new body over the next 3 weeks, including all vital organs, reaching about 80% of its original size!
Above gif source
>"The [original] body continues to move and live for days to months," Mitoh said. "You can see the heart beating" inside them, she added. However, the decapitated bodies did not appear to be capable of growing new heads themselves. source
The old bodies remained active for several days to months, until they started to shrink, turn pale due to the chloroplast loss, and eventually died. The beating heart remained visible until the body had fully decomposed!
So, why such an extreme behaviour?
In other animals self amputation usually occurs when escaping a predator, however this may not be the case here....
Above photo by budak
The head can take several hours to detach from the body, so not exactly a quick get away from a predator
Instead it is suspected that it is a means of ridding itself of parasites. There is a slight groove towards the end of the head which acts as a breakage plane, and the similar head severing species Elysia atroviridis all had internal parasites when they detached from their bodies....
However, no parasites were detected in Elysia marginata that did the same.....
Above photo by Javier Diaz Frogmen
The ingested chloroplasts are thought to help in the regeneration of the new body and keep the head alive in the absence of the digestive system organs (which remain with the body).
One individual that was studied underwent autonomy and regeneration twice, which researches think is the limit...(which probably means it didn't survive the third time scientists went to work with a scalpel)
Interestingly this behaviour was only exhibited by young Elysia marginata. When older animals were decapitated their heads survived up to 10 days, and didn't regenerate before dying
Above photo by Antonio Venturelli
All information from wikipedia, here, here, here, here, here and here
As always I'm not an expert, any errors let me know in the comments and I'll edit
And I shall leave you all with a reprise of my current favourite gif....
You're welcome!
I had no idea they existed, coming across them by accident while looking for something else.... I was particularly delighted by their crab jockeys
Meet the Amazing Sea Pigs! Weird Creatures of the Deep
Main photo by Ocean Networks Canada
Above photo via MBARI
Sea Pigs (Scotoplanes) are a type of Sea Cucumber
They live in the deep sea, specifically on the abyssal plain up to depths of 5000m
They can grow up to 4-6 inches
They have 6 pairs of enlarged tubal 'feet', and use water cavities in their bodies to inflate and deflate them in order to move around, as well as ten buccal tentacles lining their oral cavity
Above photo via Ocean Networks Canada
They live on the sea floor feeding on delicious foods such as decaying animals, poo and mucus!
If they are disturbed they can swim! In fact some Sea Pigs spend most of their lives swimming around in the water column using their frontal and anal lobes to propel themselves around!
They will gather in large numbers around whale corpses to feed and perhaps find a mate
Above, a congregation of Sea Pigs feeding on a whale carcass via MBARI
Their reproductive system is unique, the males only have one testis, and the females one ovary!
Also their skin contains a toxin called holothurin which is poisonous to predators...
They have a poorly defined respiratory system, and have to breathe through their anus!
Above photo by Oceans Network Canada via Treehugger
As they have evolved at deep sea depths they would swell and burst if brought to the surface
They are hosts to several parasitic invertebrates, including snails and small crustaceans
But wait! What's this...?
Above Above photo via MBARI
What's that red thing hiding under the Sea Pig?
Above photo via wikipedia
It's a King Crab!
Above photo via MBARI
Peek-a-boo!
Above photo by Josi Taylor via MBARI
Why do King Crabs ride on Sea Pigs?
Usually King Crabs like to hide in rocks and seaweed from predators, but it is thought that these King Crabs were carried by the ocean current while they were small larvae and ended up in the deep sea....an area devoid of such hiding places!
>βItβs like looking for a port in the storm,β said James Barry, ecologist and lead author of the study at the Monterey Bay Aquarium Research Institute (MBARI) in Moss landing. Sea cucumbers are the ports or the biggest buildings to hide next to in an otherwise empty area.β Scientific American
Above, ' This photograph of the muddy seafloor offshore of Monterey Bay shows three Scotoplanes sea cucumbers, at least two of which are host to juvenile king crabs.' MBARI
>Barry and his team found a total of 600 juvenile crabs, 96 percent of which were either clinging onto sea cucumbers or hanging around right next to them. Sometimes the crabs were upside down holding onto the belly of the sea pig and other times they were crawling on its side. In some cases, the researchers found more than one crab on a sea cucumber. Of the nearly 2,600 sea cucumbers videotaped, 22 percent had at least one juvenile crab clinging to them
Goodbye Sea Pig, and your King Crab jockey!
Above photo via MBARI
edit- I completely forgot to add my sources.....wikipedia and MBARI, unless specified
Carnivorous predator Radnorscolex latus existed 425m years ago and caught prey with its retractable throat
>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: βWe think they werenβt too picky when it came to feeding and likely just shoved their throat out into the mud and grabbed anything they could find. > >βThey certainly make you think of the sandworms in Dune in that respect.β > >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
How do they do that? Photographing nudibranchs
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 viewersβ attention.'
Above, 'Extreme depth of field isnβt 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 SalmerΓ³n
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,β 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)
You're welcome, also do checkout the other underwater photos he has, they're full of beautiful things π