We reach more than 65,000 registered users in Dec!! Register Now
Neuroptera: Greater insect diversity in the Cretaceous period
- April 24, 2023
- 15 Views
- 0 Likes
- 0 Comment
An LMU team has studied the biodiversity of larvae from the insect group Neuroptera over the past 100 million years.
Human activity is currently driving a loss of natural diversity that some experts describe as the sixth major mass extinction event in the history of Earth. The decline in insects is particularly alarming: Insects are not just a highly diverse group of creatures in and off themselves, but they are also of tremendous ecological and economic importance.
The extent to which insects are disappearing can only be described as an exceptional situation. To better understand the underlying processes, it is therefore worth delving into past extinction events. Why? Because in the past, too, some groups of insects have gained in significance and diversified, while others have declined and forced to withdraw into the few remaining niches.
100 million years of larvae diversity
Now, a team working with LMU biologists Professor Carolin Haug and Professor Joachim Haug have published a study in Scientific Reports documenting the diversity of Neuroptera from the Cretaceous period to the present day. For the first time, statistical analysis thus backs up scientists’ view of the diversity of these insects over the course of evolutionary history.
But how do we measure and compare the biological diversity of insects during the process of evolution? At best, we can only paint an incomplete picture of a tiny fraction of the biodiversity that prevailed in past ecosystems, because insect fossils are very rare. And although Jurassic Park may have nurtured expectations to the contrary, DNA for use in relatedness analyses can no longer be extracted from creepie-crawlies encased in amber during the Cretaceous period.
Form and function
The basic idea is simple: Different forms are a marker for biodiversity. The more different head shapes and stylets occur in lacewing larvae, the more ecological functions can be assumed for these creatures. It follows that, if an exceptionally large variety of head parts and mouthparts occur in a given geological period, it is reasonable to conclude that these insects occupied many different niches at that time. The principle holds true even if only a few specimens have survived and relatedness remains unclear.
A complex pattern
The researchers measured the heads of more than 1,000 larvae, including all the nearly 300 fossilized lacewing larvae that are known worldwide and 800 specimens that are still alive today. In this way, they were able to confirm that the diversity of lacewing larvae has indeed declined in the last 100 million years.“Although our glance into the past is limited to a small sample size and very specific regions around the globe, we can nevertheless detect greater morphological diversity among lacewing larvae in the Cretaceous period,” Carolin Haug says. “So, it is probable that actual diversity was in fact substantially greater in the past.” However, the overall picture of lacewing history is complex: Whereas their diversity as a whole has definitely decreased, some lineages of Neuroptera have diversified and thus gained in importance.
“Our work also showed how much potential lies in the morphological study of insect larvae,” Carolin Haug adds. “Quantitative morphology can reveal changes that cannot be quantitatively recorded within a taxonomic framework.”
List of Referenes
- Carolin Haug, Florian Braig, Joachim T. Haug. Quantitative analysis of lacewing larvae over more than 100 million years reveals a complex pattern of loss of morphological diversity. Scientific Reports, 2023; 13 (1) DOI: 10.1038/s41598-023-32103-8
Cite This Article as
No tags found for this post