November Collection Update

I was slightly delayed in composing this, but a number of things have occurred in my collection. For starters, there was the golden orb-weaver exchange detailed in a previous post. Also, I received a large order from Bugs in Cyberspace in the middle of October. This order included three species of roaches, two millipede species, and a baby tarantula, which happens to be my very first one. I had been wanting to acquire some of the roaches in the genus Therea for quite a while, but I had not yet acquired any. This order included two species: the question mark roach (T. olegrandjeani) and the domino roach (T. petiveriana). The question marks require USDA permits to own, and I have the permits to receive and own this species. The domino roach was deregulated as part of a previously mentioned deregulation of roaches, and no USDA permits are needed to own this species. The individuals I received of this species were young nymphs and will take a while to mature, but the adults are beautiful.

The middle marking gives Therea olegrandjeani its common name as it somewhat resembles a question mark.
This adult female domino roach lays small oothecae (egg cases) that are about a centimeter long and differs from roach species that have live young.

The third species of roach from the order was the yellow morph of the Gyna lurida. This species was another one on the aforementioned list of deregulated “plant pests”, and I had read it was a decently easy one to rear. The nymphs are still small, and I have yet to see the adults in person. I have never even seen the normal coloration of this species, other than maybe a few dead specimens, so I am looking forward to watching this species develop.

The nymphs have a very intricate pattern.

Since I have not seen this species before, I do not have any pictures of the adults. The Bugs in Cyberspace YouTube channel was made by Peter Clausen, who sent the shipment, and here is his video showing both color morphs of this species.

My next species from this shipment was the Florida ivory millipede (Chicobolus spinigerus). I acquired a breeding pair, but unfortunately, a couple weeks after the shipment, one, I think it was the male, died. There are plenty of droppings, so the other one has been eating. I am hoping that I am correct that this one is a female as she could still lay fertile eggs and start a colony.

Here is the pair shortly after they arrived and I transferred them to their permanent tank.

The other millipede species I acquired is an Oregon-native: Tylobolus uncigerus. Since Peter Clausen lives in Oregon, he collects this species himself. I acquired five adults, and I hope to breed this species. I am experimenting with keeping this species at cooler temperatures. Since it comes from a cooler region, this species should do better with the cooler temperatures. My only problem experimenting with this has been that the chamber I designed to cool the millipede tank has been malfunctioning. It runs on a thermoelectric device called a Peltier cooler and is controlled by a 12-volt thermostat. The problems arise from the power supply. The power supplies I have used have some sort of safety mechanism that shuts off power when the thermostat tries to modulate the power. I hope that trying a general purpose adapter will just output a steady current and let the thermostat and Peltier cooler do what they are intended to do.

T. uncigerus are not that unique in coloration, but it is an elegant species.

My last acquisition from this shipment was a curly hair tarantula (Tliltocatl albopilosum). This species used to be in the more familiar Brachypelma genus, but it was recently reclassified. My little spider has been eating fairly well, and I have been using rice flour beetle larvae (Tribolium confusum) as feeders. The current enclosure I am using is an approximately 3 ounce, clear vial with coconut fiber substrate. I put an artificial leaf as a hide, yet the spider is quite audacious and just made a burrow against the side of the enclosure. I am looking forward to raising this little tarantula.

My little spider loves these tiny beetle larvae.

On November 8th, I was volunteering at a insectarium, and I was able to take home some extra larva from their Eleodes tank. They recently put a good substrate of mixed organic matter, and these beetles have been breeding out of control. I took a cup of larvae home, and put them in a ten-gallon fish tank filled with rearing substrate comprised of coco fiber, leaf litter, and some decaying organic matter. In addition, I have been adding ground fish pellets to the top of the substrate for protein. It has only be a couple weeks, but the larvae seem to be thriving.

Just a quick peek under a piece of wood in the insectarium’s tank reveals several larvae. There are hundreds more deeper in the substrate.
The larva would not cooperate for a photo and kept trying to burrow into my hand.

I mentioned the Abacion magnum millipedes in my last Collection Update, and I have learned quite a bit more about their nature since then. Talking to a renowned hobbyist, who owns the Invertebrate Dude blog, I learned that this species of millipede might be the Goliathus of millipedes. For those who do not get the reference, Goliathus grubs are carnivorous, whereas most of their relatives are detritivores. Regardless, the hobbyist forwarded the information from a millipede expert, who suspected this millipede species might require a higher protein diet. I am now feeding these millipedes with a fish pellet designed for carnivorous cichlids, and they are eagerly consuming the pellets. This suggests that higher protein may be what this species requires.

This species has minutely detailed ridges.
Within a couple hours of adding the pellets, the millipedes had munched considerable holes in them.

My next species is a common polydesmid in my area: Apheloria tigana. I want to breed this species in captivity as it has a beautiful contrasting colors of yellow and black. I am currently using my basic millipede substrate. I have heard some of the large polydesmids benefit from cooler temperatures, so once I fix the aforementioned glitches with the thermoelectric chamber, these millipedes will join the Tylobolus in the chamber. If I can get these to breed, then I am looking forward to having a large colony in a display tank.

My last find to describe is an unusual centipede. It appears to be in the order Geophilomorpha, but beyond that, I have not be able to narrow it down. If anyone recognizes it from the following photo, then let me know.

I am still working on some new pages and resources on my website. I will be updating my collection list with these new species. I am working on incorporating a guide to the USDA regulations into my website, but there is a reason that this does not really exist as it is hard to address all the complexities and exceptions in even a common taxon, such as Tettigoniidae. Eventually, I will finish this and publish it for people to use.

Deregulated Goodies

As I mentioned in a previous post, the USDA recently finalized a rule that deregulated many species of plant pests, including some insects. Quite a few of the species on the list are relatively uninteresting for hobbyists and are used in laboratories for various experiments or as feeders for other laboratory animals. Nevertheless, there are some nice species in the feeder roach section. One of them is Blaberus giganteus, which just happens to be the longest species of cockroach available in the hobby. Before this deregulation, the permits for this species required a containment facility. I had tried to obtain the permits for this species multiple times, but I was denied every time. After the official deregulation went into effect on August 9th, I was able to obtain a decent size colony.

I enjoy B. giganteus for several reasons. For starters, they are unable to climb smooth surfaces, so I do not feel the need to put them in the high-security gasket bins I use for many roaches. (The largest gasket bin is only 20 gallons, and especially for such a large species, I like to have more space for my colony to grow.) Another aspect is feeding. These things are little gluttons, and it is entertaining to watch the nymphs running off with little pieces of cat food to eat in peace only to have it stolen by nymphs who were making their way to the food dish. They will also swarm apple, banana, oranges, or other fruits. These roaches also have the funny habit of hopping off my hand. It would make them difficult to handle in front of a crowd, but it is cute nonetheless. I have also noticed that they almost seem to recognize their tank, and if they see it, then they will jump into it and hide. I doubt this is actually any recognition and attachment to their tank on their part. They probably just see the dark-colored coconut fiber in the tank contrasting with my cream-colored floor, think the tank is a hole, and therefore try to hide in it. Regardless, they are active, entertaining little pets.

This was about 60 seconds after I refilled their dish of cat food. You can see some nymphs fighting over some cat food on the left edge of the picture.
I managed to capture a short, slow-motion video of this roach hopping/gliding.

As far as care, these roaches are fairly simple. The first time I kept them a few years ago, I had a simple tank with a layer of coconut fiber and nothing for them to climb. I would not recommend this type of setup. It worked alright for my adults and the tiny babies, but later instars, especially subadults molting to adulthood, might not have been okay. I have researched a bit, and I now think that having a surface, such as cork bark, for them to climb is quite beneficial. Not only does something like cork bark provide a sturdy place to molt, it also increases the surface area of the tank, allowing more roaches to fit in a tank comfortably. The substrate also is important. Unlike some feeder roach species, this species does well with a substrate. They are from tropical regions ranging from Mexico down to northern South America, and the humidity from a substrate such as coconut fiber is appreciated. Despite the warm climates they inhabit, in my experience, these roaches breed well at room temperature (75-degrees Fahrenheit). It is possible that, since this species occasionally inhabits caves, it is used to cooler microclimates within a generally tropical region. Once a colony is established, these roaches are fairly adaptable and hardy.