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четверг, 23 августа 2018 г.

Amber unveils evolution of ancient antlions

Myrmeleontiformia (antlions and their relatives) are an ancient group of lacewing insects characterized by predatory larvae with unusual morphologies and behaviours.











Amber unveils evolution of ancient antlions
This is a reconstruction of two lacewing larvae
[Credit: YANG Dinghua]

An international team led by Prof. WANG Bo from the Nanjing Institute of Geology and Palaeontology of the Chinese Academy of Sciences (NIGPAS) and two Italian researchers found fossil Myrmeleontiformia fauna from mid-Cretaceous (approximately 100 million years ago) Burmese amber. The study was published in Nature Communications.
Their findings show that Myrmeleontiformia did not gain considerable morphological novelty during the subsequent 100 million years, and their diversity seemed to result from different combinations of a limited set of character traits in a complex trade-off.


This morphological stasis helped in reconstructing behaviours not preserved by a trace in the fossil record. Inference of these behaviors shed light on the ecological niche and lifestyle of extinct Myrmeleontiformia.











Amber unveils evolution of ancient antlions
Diversity of lacewing larvae in mid-Cretaceous Burmese amber
[Credit: NIGPAS]

Statistical correlation analysis strongly supported a correlation between a selection of morphological traits and two hunting strategies of these ambush predators – camouflaging and fossoriality – allowing us to reconstruct habits of extinct species.
The findings suggested that fossorial specializations evolved more than once across Myrmeleontiformia from arboreal ancestors. The fossorial lifestyle of antlions was certainly one of the factors leading to their success, allowing these insects to colonize and diversify in arid habitats where they survived considerable changes in terrestrial environments during the Cretaceous lineages.


The Burmese fossils showed that debris-carrying characterized this lineage for at least 100 million years. All of these camouflaging lacewings were equipped with elongate protuberances. The strong statistical correlation between the presence of these protuberances and camouflaging behavior demonstrated that this trait is an indicator of such behaviour, even when the debris covering is not directly preserved in the amber piece together with the larvae.











Amber unveils evolution of ancient antlions
Phylogeny of Myrmeleontiformia based on larval morphology
[Credit: NIGPAS]

This research also implies that camouflaging behaviour arose at least three times within Myrmeleontiformia. Camouflaging and fossoriality appear widespread across the lineage, and both behaviors allowed the predatory larvae to hide from their unsuspecting prey.


Source: Chinese Academy of Sciences [August 21, 2018]



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