Anamorphidae
publication ID |
https://doi.org/ 10.1007/s13127-023-00622-x |
persistent identifier |
https://treatment.plazi.org/id/03D6327E-7677-4779-FF5D-269F99D06F10 |
treatment provided by |
Felipe |
scientific name |
Anamorphidae |
status |
|
Debris-cloaking in Anamorphidae View in CoL
The diversity of immature stages in Anamorphidae has been poorly documented. Of the 35 genera known in the family, larvae have been described for only five genera ( Shockley & Tomaszewska, 2007) and observations about behaviour and functional morphology are scarcer. Larval behaviour of C. laevissima was not observed, and though we now can place the unidentified larvae observed by Leschen and Carlton (1993) into Catapotia , this information assists little in developing a complete behavioural repertoire of loading and manipulation of debris onto the dorsal surface of the body, or whether behavioural traits are common throughout Anamorphidae . We can, however, confirm that the materials used are variable (exuviae, detritus, plant, and fungal tissue) and describe morphology associated with debris-cloaking.
Larval Catapotia View in CoL and Bystus View in CoL share a similar body form. The setose lateral thoracic lobes may function similarly with setae for capturing debris and centring it on the body. The dorsal setae, however, differ. Bystus decorator Leschen & Carlton, 1993 , and Catapotia spp. share the spoon-like apical structure of the setae, but a barbed shaft occurs only in Bystus View in CoL . Though Idiophyes niponensis retains exuviae and debris like Bystus View in CoL and Catapotia View in CoL , the setal structure was not described by Hayashi (1984). Contrary to lacewings where nude, non-camouflaged larvae lack textured setae ( Tauber et al., 2014), having barbed setae is not required for debris capture or retainment in anamorphids. It is worth noticing that the larvae of Symbiotes View in CoL , an anamorphid genus in which debris-cloaking has not been observed, lack the lateral thoracic lobes ( Shockley & Tomaszewska, 2007). This reinforces the idea that the presence of these lobes in Anamorphidae View in CoL is associated with debris manipulation.
How anamorphid larvae choose debris, manipulate the material onto their bodies, retain, and use it in defence remains mysterious. While the function of debris-cloaking in chrysopids has been studied experimentally ( Eisner et al., 1978; Hayashi & Nomura, 2011; Nakahira & Arakawa, 2006), no studies exist for anamorphids, and the actual defensive use of a covering with debris and exuvial skins has yet been explored. It is also not confirmed that debris-cloaking and exuvial retention in Anamorphidae View in CoL is used for camouflage or crypsis (sensu Endler, 1981) or as a type of extrinsic autotomy ( Yoshida & Leschen, 2020), where potential predators are left with a mouthful of debris or exuvia. Additionally, the actual interactions with predators and parasiotoids have not been observed or explored under natural conditions or in the lab. This can be done experimentally, by exposing debris covered and nude larvae to predators and evaluating survival or aggression rates between these classes.
No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.
Kingdom |
|
Phylum |
|
Class |
|
Order |
|
Family |
Kingdom |
|
Phylum |
|
Class |
|
Order |
|
Family |
Anamorphidae
Arriaga-Varela, Emmanuel, Leschen, Richard A. B. & TomaszeWska, Wioletta 2023 |
Bystus decorator
Leschen & Carlton 1993 |
Bystus
Guerin-Meneville 1857 |
Bystus
Guerin-Meneville 1857 |
Bystus
Guerin-Meneville 1857 |
Symbiotes
Redtenbacher 1849 |