4.6 Article

Preservation and Taphonomy of Fossil Insects from the Earliest Eocene of Denmark

期刊

BIOLOGY-BASEL
卷 11, 期 3, 页码 -

出版社

MDPI
DOI: 10.3390/biology11030395

关键词

cuticle; Eocene; Fur Formation; insects; melanin; mo-clay; pigment; Stolleklint Clay; structural coloration; olst Formation

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资金

  1. Swedish Research Council [642-2014-3773, 2019-03731]
  2. Vinnova [2019-03731] Funding Source: Vinnova
  3. Swedish Research Council [2019-03731] Funding Source: Swedish Research Council

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This study examined 55-million-year-old insect fossils from Denmark and found that they are composed of cuticular remains dominated by the pigment eumelanin. The beetle elytra also displayed a delicate lamellar structure that produces metallic hues. These findings provide insights into the fossilization process of insect body fossils in marine environments.
Simple Summary Insect fossils dating 55 million-years-old from the Stolleklint Clay and Fur Formation of Denmark are known to preserve both fine morphological details and color patterns. To enhance our understanding on how such fragile animals are retained in the fossil record, we examined a pair of beetle elytra, a wasp and a damselfly using sensitive analytical techniques. In our paper, we demonstrate that all three insect fossils are composed of cuticular remains (that is, traces of the exoskeleton) that, in turn, are dominated by the natural pigment eumelanin. In addition, the beetle elytra show evidence of a delicate lamellar structure comparable to multilayered reflectors that produce metallic hues in modern insects. Our results contribute to improved knowledge on the process of fossilization of insect body fossils in marine environments. Marine sediments of the lowermost Eocene Stolleklint Clay and Fur Formation of north-western Denmark have yielded abundant well-preserved insects. However, despite a long history of research, in-depth information pertaining to preservational modes and taphonomic pathways of these exceptional animal fossils remains scarce. In this paper, we use a combination of scanning electron microscopy coupled with energy-dispersive X-ray spectroscopy (SEM-EDX), transmission electron microscopy (TEM) and time-of-flight secondary ion mass spectrometry (ToF-SIMS) to assess the ultrastructural and molecular composition of three insect fossils: a wasp (Hymenoptera), a damselfly (Odonata) and a pair of beetle elytra (Coleoptera). Our analyses show that all specimens are preserved as organic remnants that originate from the exoskeleton, with the elytra displaying a greater level of morphological fidelity than the other fossils. TEM analysis of the elytra revealed minute features, including a multilayered epicuticle comparable to those nanostructures that generate metallic colors in modern insects. Additionally, ToF-SIMS analyses provided spectral evidence for chemical residues of the pigment eumelanin as part of the cuticular remains. To the best of our knowledge, this is the first occasion where both structural colors and chemical traces of an endogenous pigment have been documented in a single fossil specimen. Overall, our results provide novel insights into the nature of insect body fossils and additionally shed light on exceptionally preserved terrestrial insect faunas found in marine paleoenvironments.

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