Large-sized fossilised lacewings prove remarkable species diversity during Middle Jurassic

Middle Jurassic has always been considered as a mysterious ancient period full of ‘magical’ dinosaurs, pterosaurs and plants. However, when we think about the Jurassic landscape, we should take insects into consideration as well.

The lacewings, for example, are a graceful group famous for the lovely net-like veins on their wings, beautiful enough to stand the test of time, preserved as fossils. In addition, the wing spots on their wings form various patterns, which serve to tell us more about their adaptation to the particular environment.

Having carefully studied several pieces of compressed fossils of the large and distinct insects they found in Dohugou village, Inner Mongolia, Chinese scientists Hui Fang, Dong Ren, Jiaxi Liu and Yongjie Wang, College of Life Science, Capital Normal University, Beijing, discovered two species new to science.

Due to their complex, one-of-a-kind wing venations, all three of them were placed in the same genus (Laccosmylus) in the family Saucrosmylidae. Their descriptions, along with the redescription of another previously known species, are published in the open access journal ZooKeys.

“Fossil lacewing insects are much more abundant compared to living ones,” comment the authors.

“These large-sized fossil lacewing species reflect a high lacewing diversity in Middle Jurassic. Soon, they will help us reconstruct the wonderful environment of the Jurassic world.”

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Original source:

Fang H, Ren D, Liu J, Wang Y (2018) Revision of the lacewing genus Laccosmylus with two new species from the Middle Jurassic of China (Insecta, Neuroptera, Saucrosmylidae). ZooKeys 790: 115-126. https://doi.org/10.3897/zookeys.790.28286

Chance record of an annual mass emergence of enigmatic mantis-flies

Being neither mantids nor flies, the peculiar mantis-flies are in fact predatory lacewings which use their mantis-like forelegs to catch prey. While most mantis-flies are known to feed on spider eggs in their immature stages, the larval lifestyle of one subfamily–the Drepanicinae–has remained a mystery.

That is until James Dorey, an accomplished insect photographer and student of entomology at the University of Queensland, encountered a mass emergence of rarely-seen adults in his father’s macadamia orchard in eastern Australia, as reported in the open access Biodiversity Data Journal.

Right before James’ eyes and camera, the pupae were coming out from under the ground to grasp hold of tree trunks and undergo the final moult to emerge as adults.

Not only did he take some beautiful photos of the insects, but he also managed to capture a stunning time-lapse video of the pupae moulting into the adult stage.

The young researcher then contacted his university lecturer, David Merritt, to find out more about the phenomenon he had encountered. Together, they approached experts on mantis-flies, including Trevor Lambkin who was able to identify the insects as belonging to the mystery group, whose immature stages have so long remained unknown.

James managed to obtain some eggs from a fertile female and observed them hatch to produce tiny larvae that were immediately photographed and described in detail for the first time in a scientific journal.

“It is likely that the immature stage of these mantis-flies’ life cycle takes place underground in moist or forested habitats, perhaps explaining why it has never been recorded before,” explain the authors.

Yet to answer is the question what the immature mantis-flies feed on: is it spider eggs just like their relatives or some other underground-dwelling insect or arachnid?

“Perhaps some digging around in the macadamia orchard at the right time of year will reveal the answer,” say the researchers.

James is currently at Flinders University in Adelaide, carrying out a genetic analysis of the diversification of Fiji’s native bees.

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Original source:

Dorey JB, Merritt DJ (2017) First observations on the life cycle and mass eclosion events in a mantis fly (Family Mantispidae) in the subfamily Drepanicinae. Biodiversity Data Journal 5: e21206. https://doi.org/10.3897/BDJ.5.e21206