Plant-insect interactions from Middle Triassic (late Ladinian) of Monte Agnello (Dolomites, N-Italy)-initial pattern and response to abiotic environmental perturbations.

Torsten Wappler,Evelyn Kustatscher,Elio Dellantonio

doi:10.7717/peerj.921

Abstract

The Paleozoic–Mesozoic transition is characterized by the most massive extinction of the Phanerozoic. Nevertheless, an impressive adaptive radiation of herbivorous insects occurred on gymnosperm-dominated floras not earlier than during the Middle to Late Triassic, penecontemporaneous with similar events worldwide, all which exhibit parallel expansions of generalized and mostly specialized insect herbivory on plants, expressed as insect damage on a various plant organs and tissues. The flora from Monte Agnello is distinctive, due to its preservation in subaerially deposited pyroclastic layers with exceptionally preserved details. Thus, the para-autochthonous assemblage provides insights into environmental disturbances, caused by volcanic activity, and how they profoundly affected the structure and composition of herbivory patterns. These diverse Middle Triassic biota supply extensive evidence for insect herbivore colonization, resulting in specific and complex herbivory patterns involving the frequency and diversity of 20 distinctive damage types (DTs). These DT patterns show that external foliage feeders, piercer-and-suckers, leaf miners, gallers, and oviposition culprits were intricately using almost all tissue types from the dominant host plants of voltzialean conifers (e.g., Voltzia), horsetails, ferns (e.g., Neuropteridium, Phlebopteris, Cladophlebis and Thaumatopteris), seed ferns (e.g., Scytophyllum), and cycadophytes (e.g., Bjuvia and Nilssonia).

Highlights

Continental arthropods and vascular plants have been major elements of terrestrial ecosystems worldwide for nearly 400 million years, and their varied ectophytic and endophytic associations can provide a unique and direct record of the plant–insectHow to cite this article Wappler et al (2015), Plant–insect interactions from Middle Triassic of Monte Agnello (Dolomites, N-Italy)—initial pattern and response to abiotic environmental pertubations
In 2006, Labandeira proposed four pulses of herbivore expansion, where the observed Palaeozoic arthropod herbivory patterns—covering the first two phases—are mainly expressed by damage patterns caused by mites and apterygote and/or basal pterygote herbivores on pteridophyte and basal gymnospermous plant hosts and are profoundly different from those that originated after the end-Permian mass extinction (Labandeira, 2006a; Labandeira, 2006b)
Damage on the bulk Monte Agnello flora Of the 684 plant remains examined from the Monte Agnello flora, 83, or 12.13%, exhibit some sort of damage represented by 20 different damage types

Summary

Introduction

Continental arthropods and vascular plants have been major elements of terrestrial ecosystems worldwide for nearly 400 million years, and their varied ectophytic and endophytic associations can provide a unique and direct record of the plant–insectHow to cite this article Wappler et al (2015), Plant–insect interactions from Middle Triassic (late Ladinian) of Monte Agnello (Dolomites, N-Italy)—initial pattern and response to abiotic environmental pertubations. Shcherbakov (2008a) even concluded that the entire class of insects was strongly reduced in diversity at the P-Tr boundary but following the end-Permian biotic crisis insect faunas already contained many elements common to modern insects (e.g., Aristov et al, 2013; Bethoux, Papier & Nel, 2005; Shcherbakov, 2008b; Lukashevich et al, 2010; Zyła et al, 2013; Haig et al, 2015) building the nucleus for the onset of the third pulse of herbivore expansion, coupled with an impressive adaptive radiation of herbivorous insects Their associations with plants became significantly diverse being major elements for keystone communities in terrestrial ecosystems worldwide (e.g., Ash, 2014; Grauvogel-Stamm & Kelber, 1996; Kustatscher et al, 2014; Labandeira, 2006a; Labandeira, 2006b; Labandeira & Currano, 2013; McLoughlin, 2011; Moisan et al, 2012; Pott et al, 2008; Scott, Anderson & Anderson, 2004).

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