| Ptiliidae | |
|---|---|
_(3232041856).jpg) | |
| Ptenidium pusillum | |
Scientific classification | |
| Kingdom: | Animalia |
| Phylum: | Arthropoda |
| Class: | Insecta |
| Order: | Coleoptera |
| Suborder: | Polyphaga |
| Infraorder: | Staphyliniformia |
| Superfamily: | Staphylinoidea |
| Family: | Ptiliidae Erichson, 1845[1] |
| Subfamilies | |
| Synonyms | |
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Ptiliidae (Ptenidium pusillum) is afamily of very tinybeetles (including the smallest of all beetles) with acosmopolitan distribution. They are colloquially calledfeatherwing beetles, because thehindwings are narrow and feathery.[2]
There are approximately 600 describedspecies in 80genera,[2] but large numbers of specimens in collections await description and the true number of species is likely to be much higher than this.[3]
The family is divided into 3subfamilies:[2]
This family contains the smallest of all beetles,[3] with a length when fully grown of 0.3–4.0 millimetres (0.01–0.16 in).[2] The weight is approximately 0.4 milligrams.[4] Ptillid wings are feathery due to the much higher effective viscosity of air at small body sizes, which makes normal insect wings much less efficient. Unlike other small insects with feathery wings, such as parasitic wasps likefairyflies, ptillids do not fly using aclap and fling motion, but instead fly using a figure of eight pattern where the wings clap at the apex of the upward and downward strokes. They are capable of flying at speeds comparable to their larger relatives.[5]
The small size has forced many species to sacrifice some of their anatomy, like the heart, crop, and gizzard. While the exoskeleton and respiration system of the insects seems to be the major limiting factors regarding how large they can get, the limit for how small they can become appears to be related to the space required for their nervous and reproductive systems.[6]
Many species (e.g. inPtinella,Pteryx, andPtinellodes) arepolymorphic, with two morphs so distinct that they appear to be different species or genera. There is a normal morph with well-developed eyes, wings and pigmentation, and also a vestigial morph in which these features are reduced or lacking. The vestigial morph is more common, making up 90% or more of individuals.
The featherwing beetles areholometabolous organism. They reproduce sexually & likely will mate in microhabitats. The family opportunistically mates, so the courtship behavior isn't high.[7] Ptiliidae have three larvalinstars & a short life cycle with an egg-adult time of 32–45 days observed for three British species ofPtinella. The adults usually live weeks up to a few months.[8] They can reproduce continuously under favourable conditions, with larvae often co-occurring with bothteneral and fully hardened adults at different times of the year. Due to how large the eggs are, only one egg receives nourishment and matures in the abdomen, the egg itself is about half the size of the female. Some featherwing beetles have also recorded a high occurrence ofThelytokous parthenogenesis. A few species have populations that are female-only. Five of seven species of the genus Bambara are known specifically for being female-only.[8]
Ptiliidae have functional constraints that come with their generally small size, specifically for wings. Miniaturization leads to changes in wing structure & the number of veins.[9]
In the featherwing beetles, there's a presence of dysmorphia in the number of veins in the wings based on size; larger individuals have at least 5 veins present meanwhile the smaller featherwings have 3 or less. There's a reduction in the venation as the size of the Pitiliidae decreases. As the body size decreases more, wings showadaptations to allow for more efficient & effective flying; regardless of their small size and moderate-high winds.[9]
The number of marginalsetae (mini-feathers) on the wings differs amongst large and tiny ptiliids. Bigger featherwings have around 200-300 setae and smaller ones have about 40 of them. For bigger featherwings, the wings are more solid during flight which allow for stronger lift & better flight control. However, they're heavier and require more energy for flight. On the other hand, smaller beetles have lighter & more porous wings that require less energy to use and is perfectly suited for their body. Although, these wings give the ptiliid less control during flight and a weaker lift.[9]
Adults and larvae aremicrophagous, feeding on the spores and hyphae of fungi, as well as other organic detritus. They are found in a wide variety of habitats, including rotting and fungus infested wood, tree holes, under kelp along shorelines and within or near ant and termite nests.[10]
Fossil ptiliids have been recorded from theOligocene, roughly 30million years ago[2] from theEocene, 46.2–43.5 million years ago, and from theCretaceousLebanese andBurmese amber, dated to 125 and 99 million years ago, respectively.[11]
Data related toPtiliidae at Wikispecies