Dental microwear provides clues to dietary habits of lepidosauria

June 21, 2019

High-resolution microscopic images of the surface of dental enamel of lepidosauria, which is a subclass of reptiles including monitor lizards, iguanas, lizards, and tuatara, allow scientists to determine their dietary habits. The enamel wear patterns reveal significant differences between carnivores and herbivores, but also allow finer distinctions, such as between algae-, fruit-, and mollusk-eating species. These findings are the result of research by a team led by scientists at Johannes Gutenberg University Mainz (JGU). They point out that so far it has always been difficult to make such fine distinctions between dietary behavior on the basis of dental or skeletal remains alone, particularly in the case of extinct species, because in many reptiles the teeth are of similar shape.

As the researchers report in Proceedings of the Royal Society B, they examined the upper teeth of 77 curated reptile specimens found in the wild and belonging to 23 extant species; the specimens were part of the collections of various natural history museums. For some of the samples, the researchers analyzed pieces of jaw containing teeth directly under a confocal microscope, while in other cases they made silicone impressions of the teeth which they then imaged. They created 3D surface models of the teeth and evaluated them with regard to 46 different characteristics, such as the number of furrows in the enamel and their mean depth. As a result, they found out that the animals could be grouped into different dietary categories based on their dental microwear textures. For example, the tooth enamel of carnivores exhibits only a few shallow furrows whereas the enamel of frugivores is very deeply furrowed. "This method was developed based on mammals. We applied it for the first time to reptiles and were able to show that it also works for lepidosauria," stated Dr. Daniela Winkler of the Institute of Geosciences at JGU, lead author of the research paper. This was not necessarily what they had expected: "Reptiles hardly ever chew their food. Most of the time they simply bite off pieces of food and swallow them whole. Thus there was no guarantee that we would find informative traces of wear."

The researchers now hope to be able to use the method to analyze teeth from dinosaurs and synapsids, which are very similar to those of lepidosauria, as well and finally identify the first herbivores among the terrestrial vertebrates. Synapsids are mammal-like reptiles, which inhabited the Earth around 310 million years ago, pre-dating dinosaurs by 70 million years. Some of them evolved from carnivores into herbivores. "This was a key event in evolution," emphasized Winkler. "Our long-term goal is to find out when exactly this happened and in which species."
-end-
Scientists from JGU, the Max Planck Institute for Evolutionary Anthropology in Leipzig, and the Center of Natural History at Universität Hamburg all contributed to the study. It is part of the Vertebrate Herbivory project led by Professor Thomas Tütken at the JGU Institute of Geosciences, funded by a Consolidator Grant from the European Research Council (ERC).

Johannes Gutenberg Universitaet Mainz

Related Evolution Articles from Brightsurf:

Seeing evolution happening before your eyes
Researchers from the European Molecular Biology Laboratory in Heidelberg established an automated pipeline to create mutations in genomic enhancers that let them watch evolution unfold before their eyes.

A timeline on the evolution of reptiles
A statistical analysis of that vast database is helping scientists better understand the evolution of these cold-blooded vertebrates by contradicting a widely held theory that major transitions in evolution always happened in big, quick (geologically speaking) bursts, triggered by major environmental shifts.

Looking at evolution's genealogy from home
Evolution leaves its traces in particular in genomes. A team headed by Dr.

How boundaries become bridges in evolution
The mechanisms that make organisms locally fit and those responsible for change are distinct and occur sequentially in evolution.

Genome evolution goes digital
Dr. Alan Herbert from InsideOutBio describes ground-breaking research in a paper published online by Royal Society Open Science.

Paleontology: Experiments in evolution
A new find from Patagonia sheds light on the evolution of large predatory dinosaurs.

A window into evolution
The C4 cycle supercharges photosynthesis and evolved independently more than 62 times.

Is evolution predictable?
An international team of scientists working with Heliconius butterflies at the Smithsonian Tropical Research Institute (STRI) in Panama was faced with a mystery: how do pairs of unrelated butterflies from Peru to Costa Rica evolve nearly the same wing-color patterns over and over again?

Predicting evolution
A new method of 're-barcoding' DNA allows scientists to track rapid evolution in yeast.

Insect evolution: Insect evolution
Scientists at Ludwig-Maximilians-Universitaet (LMU) in Munich have shown that the incidence of midge and fly larvae in amber is far higher than previously thought.

Read More: Evolution News and Evolution Current Events
Brightsurf.com is a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to Amazon.com.