Identification of Marine Crabs

Xanthid Crab

From hairy to pointy and brown to neon orange, marine crabs vary spectacularly! However, they are omnivorous and opportunistic feeders, so monitoring should be utilized in all cases where the crabs are housed along with fish, snails, corals, or other undesirable food sources. If they are not fed adequately, they will resort to eating what they can find. These characteristics should highlight the importance of proper identification and selection of marine crabs. Additionally, crabs grow by molting, so it is not uncommon to see what appears to be a dead crab in the aquarium with the real crab hiding within corals or the rocks to protect its soft new shell. Scroll down to read more about the wide variety of crabs frequently encountered in the marine aquarium hobby. Note: There are several species included here that are not technically true “crabs” taxonomically, but they are grouped as such for hobbyist-level information.

Hermit Crabs:

Paguristes cadenati (Scarlet/Red Legged Crab): Reef Safe

Scarlet Red Legged Hermit Crab

Red legged crabs are great scavengers by feeding on algae, remaining fish food, and detritus. However, if the food supply gets too low (or they like a snail’s shell better than theirs), then they will kill snails. Because of this, keep enough food for the crabs (which is usually not a problem in most aquariums) and an available supply of various size/color shells.

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Clibanarius vittatus (Green/Thin Striped Hermit Crab): Not Reef Safe

Thin-Striped Hermit Crab

We named this little fellow, “Godzilla,” for his tremendous strength and bulldozing capabilities. These crabs are not reef safe (at least in my opinion, but others disagree) since they grow quite large and will eat just about anything (including ripping one of my corals to shreds to eat the food the coral caught). However, these are great scavengers for a non-reef tank without predators, as they are able to survive a wide variety of temperature and salinity ranges. Plus, they’re a lot of fun to just watch!

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Clibanarius tricolor (Blue legged crab): Reef Safe

Blue Legged Hermit Crab

Out of all crabs available for a cleanup crew, these are the only ones I feel at all comfortable recommending. They are great scavengers, and their small size allows them to maneuver throughout the aquarium rather well. They eat many types of algae, detritus, and leftover fish food. Provide plenty of extra shells in various sizes and colors so the crabs will not kill snails for their shells.

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Calcinus elegans (Electric Blue Hermit Crab): Reef Safe

Electric Blue Hermit Crab

Although similar in size and shape to the more common blue-legged crabs, the Electric Blue hermit crabs are much more brilliant. They are also somewhat more aggressive, in my experience. But, like the blue-leegged crabs, they are still great scavengers, and their small size allows them to maneuver throughout the aquarium rather well. They eat many types of algae, detritus, and leftover fish food. Provide plenty of extra shells in various sizes and colors so the crabs will not kill snails for their shells.

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Dardanus megistos (White Spot Reef Hermit Crab): Not Reef Safe

Giant Crab

This beautiful (and massive) hermit crab is far from reef safe as it can grow extremely large, be extremely predatorial, and also be very destructive. It is best kept in a fish-only (species limited to those that will co-exist, of course) or in a species-specific aquarium. They can also be housed in larger sumps with regular feedings.

White Spot Reef Hermit Crab

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Manucomplanus varians (Staghorn Crab): Not Reef Safe

Staghorn Crab

This neat crab has a symbiotic relationship with its shell. The shell is composed of stinging creatures (similar to jellyfish), called hydroids and bryozoans. The shell of hydroids/ bryozoans protects the crab from predators. When the crab eats, pieces of food remnants are often caught by the hydroids/ bryozoans. As the shell grows, the crab trims the opening with its claws.

Although this is a very unique crab, it is not recommended for most reef aquariums as the shell itself requires special care. The organisms on the shell may die if the aquarium is not mature and stable enough. Additionally, these stinging creatures may harm corals, or corals may harm it. Lastly, due to the unique shape of the shell, the crab may not be able to right itself if it falls over.

Xanthid Crabs

Xanthidae Crab:  Not Reef Safe

Xanthid Crab

Since there are several hundred species in the family Xanthidae, identifying this particular crab to the species level is rather difficult.  However, black-tipped claws are a good indicator that this crab is bad news (not all black-tipped crabs are bad though).  Xanthid crabs typically enter the aquarium world by hitchhiking on live rock or corals.  They use their strong claws to enlarge hiding spots in the rock, which ultimately weakens the rock.  Even worse is if they decide to nest in a coral since they will carve out a hole and destroy the surrounding tissue.  Xanthid crabs are known to eat almost anything and are very destructive in the process.  Recommend removal from a reef aquarium as soon as possible.  Occasionally soda bottle traps work, but typically homemade spears work best.  If removed safely from the reef aquarium, I recommend keeping these crabs in a species-specific tank or suitable sump as they are very interesting to watch.

Possibly Pilumnus vespertillo (Gorilla Crab):  Not Reef Safe

Gorilla Crab

This is another example of a Xanthid crab (the black-tipped claws are hidden under its body.)  This is one of the many crabs that falls under the generic name, “gorilla crab”.  Recommend relocation from a reef aquarium to a suitable sump or species-specific tank.  See above for more information.

Possibly Polydectus cupulifer (Teddy Bear Crab):  Not Reef Safe

Teddy Bear Crab

This is another example of a Xanthid crab, and this is one crab that frequently falls under the common name, “Teddy Bear Crab.”  It is also frequently called a “Gorilla Crab”.  See above for more details/warnings on Xanthid crabs.

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Miscellaneous Crabs

Mithraculus sculptus (Emerald/Ruby Crab): Reef Safe with Caution

Emerald Crab

Like many crabs for the home aquarium, the emerald Mithrax crab may become overly aggressive as it grows. While small, the emerald crab is another great scavenger, and is one of the few crabs known for removing bubble algae (Valonia) (some eat it more readily than others). The emerald crab may also damage SPS corals as it
becomes larger by literally taking out chunks to eat. If you have a mature reef, you may not notice the damage, but if your tank is full of small coral fragments, the damage may be tremendous. Although the emerald crab is mostly available in green (hence the name), a red Mithrax variety is also sometimes available.

Red Mithrax Crab

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Stenorhynchus seticornis (Arrow Crab): Reef Safe with Caution

Arrow Crab

The arrow crab is quite unique and is ok for a reef aquarium without small fish (arrow crabs are known to catch small fish). Additionally, arrow crabs are known to eat the occasional bristle worm and may help control the population.

In the wild, I typically see them with corkscrew anemones (Bartholomea annulata) or branching anemonees (Lebrunia sp.), and sometimes even with Pederson shrimp.

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Lybia tessellata (Pom Pom Crab):  Arguably Reef Safe

Pom Pom Crab

Pom Pom Crabs are… well… just awesome.  They are beautifully colored, carry anemones for protection, and act like boxers about to take a swing.  They carry tiny anemones on the tips of their claws for protection.  If they feel threatened, they will sway their arms out and occasionally strike an opponent with the stinging anemone.  In exchange for the anemone’s protection for the crab, the crab helps feed the anemones.  The crab’s anemones may sting and damage typical reef inhabitants (e.g., corals, crabs, fish), so caution is urged.  However, this crab can be rather secretive, so potential damage is limited.

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Percnon gibbesi (Sally Lightfoot Crab):  Reef Safe with Caution

Sally Lightfoot Crab

The Sally Lightfoot Crab is a scavenger and looks for detritus and dying matter to eat.  Its body shape allows it to fit into very tight places in the rocks and to run quickly to safety.  While the crab is great when smaller, as it grows it becomes more aggressive and may prey on small fish.  Keep in mind how hard this crab will be to catch as it grows if it becomes a problem.

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Zebrida sp. (Zebra Urchin/ Thorn Crab): Expert Only with Special Setup

Porcelain Crab

The Zebra Urchin Crab, also known as the Zebra Thorn Crab, is an obligate symbiont of sea urchins. This means that both depend on each other for long-term survival.

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Cryptochiridae sp. (Gall Crab): Arguably Reef Safe

Gall Crab

Here is a female gall crab (notice the yellow eggs). Typically the females burrow into a coral and live out their lives in a small tunnel or hole (see image below with the red circle), while the males roam free. I often find these associated with struggling corals (as in the example shown), but I am not convinced that they cause the coral’s decline. The female does burrow and create a small amount of damage, which may lead to a bit of stress in the coral. However, a healthy coral should be able to tolerate this. I guess the jury is still out, but until then, I’ll appreciate the diversity they bring to a reef.

Female Gall Crab Coral Home
Female Gall Crab Coral Home

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Majoidea superfamily (Decorator Crab): Reef Safe with Caution

Decorator Crab

Do you see it? Good, neither do I. The Decorator Crab uses whatever is available (e.g., sponges, corals, anemones, rocks, shells, food) to adorn the small hairs covering its body as camouflage and protection. This crab can be reef-safe, depending on how it decorates. But, do not be surprised if small frags go missing, as this crab may take zoanthid polyps, pieces of leather coral, or other small snippets for personal use.

Decorator Crab in the wild, covered with algae

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References:

  1. Britayev, Temir & Bratova, Olga & Dgebuadze, Polina. (2013). Symbiotic assemblage associated with the tropical sea urchin, Salmacis bicolor (Echinoidea:Temnopleuridae) in the An Thoi archipelago, Vietnam. Symbiosis. 61. 10.1007/s13199-013-0263-x.
  2. Saravanan, R., Ramamoorthy, N., Sadiq, I. Syed, et al. (2015). A note on the obligate symbiotic association between crab Zebrida adamsii White, 1847 (Decapoda: Pilumnidae) and Flower Urchin Toxopneustes pileolus (Larmarck, 1816) (Camarodonta: Toxopneustidae) from the Gulf of Mannar, India. Journal of Threatened Taxa. 7(10): 7726-7728.

Black Bug and Gray Bug Acropora Parasites

Alteuthellopsis corallina parasite

In my years of reefkeeping, I’ve seen some odd stuff. But, back in 2013, I was stumped. My corals were receding like something was eating them, but no matter how long I watched the corals at 3 a.m., I couldn’t find the culprit. I had heard of Acropora “black bug” parasites, but I couldn’t find any pictures of them. I really wasn’t convinced they actually existed in the hobby, or if they did, that I had them.

Speck on Acropora Coral

Alteuthellopsis corallina parasite on Acropora Coral

One day, I noticed the tiniest gray speck of movement on an Acropora coral. I watched it for a while, but I wasn’t sure what I was seeing. It definitely wasn’t a red bug (Tegastes acroporanus), but it also did not seem like random detritus movement. I decided to err on the side of caution and dip the coral. (You see it, right??)

Alteuthellopsis corallina parasite on Acropora Coral
Alteuthellopsis corallina parasite on Acropora Coral
Bleached Acropora Coral

First, I started with Coral Rx, but the speck didn’t fall off. In fact, I couldn’t move the speck with a pick. When I grabbed a magnifying glass, I realized the tiny “pod” had lodged itself in the coral’s tissue and was still very much alive.

Alteuthellopsis corallina parasite

I then dipped the coral in a different dip, and the speck fell off. This is what I found under the microscope. Sorry for the poor quality – this was back in my sub-par microscope days.

Alteuthellopsis corallina or “Black Bug” Acropora Parasites:

Although I am not certain, I believe the parasites were Alteuthellopsis corallina (so we’re going to go with that assumption for the remainder of this post). These parasites are coral predators, and according to this article, they are known to infect Acropora, Merulina, Pocillopora, and other stony corals.

How to Identify:

While corals affected with red bugs tend to “brown out,” the corals infected with A. corallina appeared bleached and as though something was eating them. A. corallina are only a little larger than 0.5 mm, so they’re extremely difficult to see due to size and color. As mentioned above, this species seems to have an ability to lodge themselves into coral tissue. These parasites are more gray than black, but most reefkeeping websites reference odd pods as being black. In the hopes of providing the most information possible on Acropora parasites, A. corallina is associated with both gray and black bugs here.

In order to determine the presence of any sort of unusual pods, I typically use a magnifying glass to inspect the corals prior to placement in a quarantine system. After that, I observe the coral daily for a week. I also take a photo of the coral and zoom in to look for anything I missed.

If you suspect you have a pod problem, I recommend ruling out all other options (e.g., water quality, large pests, flow problems) Next, inspect the coral for movement since the human eye can spot movement somewhat better than a 0.5 mm stationary speck. Even if you can’t spot anything, a quick dip may indicate pest presence.

Treatment Options:

It appears likely that typical red bug treatments will work on the black/gray bugs, but I have been unsuccessful photographing or studying them further. Thankfully, in 14+ years of reefkeeping, I have only encountered these once.

Method 1: Control

Based on my experience with A. corallina, I can’t recommend natural controls. These pods can really lodge themselves into the coral tissue, and any pod predator would probably cause significant damage to the coral. Regardless, I advise against natural control methods for aquarists who plan to sell/trade their corals.

Method 2: Coral Dips

Coral dips often help stun the pests so they can be blown off gently with a pipette or powerhead. For live bearer parasites, this may be a one-shot treatment. Unfortunately, I don’t know how these parasites reproduce, so if you dip, I still recommend quarantine. Red bugs are live bearers, but I wouldn’t take any chances regarding applicability to A. corallina.

As mentioned above, CoralRx did not cause any noticeable harm to A. corallina at the manufacturer’s recommended dosage. It may work on other similar parasites, at higher dosages, or longer time, but I did not have enough pods to test this on. Other dips will likely work, as a different dip was successful for me.

Since a succession of coral dips work for Acropora-eating flatworms and red bugs, I dip all Acropora corals daily the first week. After that, I dip all Acropora corals every other day the second week, every third day the third week, and then once a week for weeks four through six. I have not lost a single coral with this method, and it saves me the hassle of treating with different medications for different parasites at different times.

Note: I have never found a pest after week two, but I still go the full six weeks, since the lifecycle of AEFW is quite long (and I always treat Acropora corals for both AEFW and red bugs). Also, some dips can be extremely damaging to smooth-skinned corals, so please use caution if you plan to utilize a coral dip.

WARNING: Some aquarists use Bayer Advanced Insecticide as a coral dip. Per Bayer Advanced Insecticide’s labeling, “It is a violation of Federal law to use this product in a manner inconsistent with its labeling.” Due to this warning, this website does not cover Bayer use as a coral dip.

Coral Dip Treatment Protocol for A. corallina Parasites:

Follow dip manufacturer instructions.

Method 3: Prescription Flea Medications

Hobbyists considered Interceptor (milbemycin oxime), a prescription canine flea medication, as the golden standard for red bug parasite treatment. At least, they did before the manufacturer discontinued it. Even then it was not the easiest solution. Aquarists had to remove all shrimp, crabs, and other crustaceans before dosing. This die-off would spike ammonia levels, so reefkeepers also had to prepare for a water change and to run carbon. Additionally, many people had difficulty obtaining Interceptor from their veterinarians, since this is an off-label use. Eventually, the Veterinary Information Network published information on red bug parasites for reference.

Once Interceptor was no longer available, reefkeepers began searching for a replacement. Currently, Milbemax is the most often recommended replacement. It is a prescription combination of milbemycin and praziquantel. The latter medication is commonly used for fluke treatment in reef tanks (e.g., PraziPro); however, it is a much lower dose than would be effective for common marine flukes.

Providing proof of infection to a veterinarian and asking him/her to look up red bugs on the VIN may be enough to justify the medication for gray/black bugs. Some veterinarians have recommended different medications with different treatment protocol (e.g., MilbeMite Otic), so those individual cases are not discussed here.

Unfortunately, many aquarists are finding some red bugs have a resistance to Milbemycin, so gray/black bugs may as well. If you try it with no success, work with your veterinarian to find an alternate medication, or consider one of the alternate methods described here. See the red bug page for more information on reference dosing protocols for both Interceptor and Milbemax.

Method 4: Temperature Adjustment

Many aquarists (including myself) have noticed red bugs die at lower temperatures, and this may be an acceptable treatment for gray/black bugs as well. A temperature of 72°F may be adequate to control/reduce the population. Use caution with this method as it can cause coral stress if the temperature drops too suddenly or if the oxygen level drops.


Due to a six-hour power outage in Utah, my quarantine tank dropped to 65 degrees. Afterward, there was no sign of red bugs on a known infested Acropora. Note: this is experimental, and there is not enough data to determine if this treatment works 100% or with gray/black bugs. Use with caution!

Conclusion:

Healthy Acropora Coral

It is truly terrifying and amazing what a 0.5mm speck of a pod can do to a coral. It is likewise amazing and rewarding how the Acropora coral can recover. With this sort of risk, a good quarantine is absolutely essential, but there are a few viable treatment options available.

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