Discovery of oldest known fossil gnat shows how insects adapted to a postapocalyptic world
A new fossil discovery dating from ‘just’ a few million years after the greatest mass extinction provides the earliest evidence of the insect group that includes mosquitoes and flies
Peer-Reviewed PublicationNear the small harbour of Estellencs at the northeast of Mallorca (Balearic Islands, Spain), a pebbly beach can be found at the base of an impressive scarp that threatens rockfall. Remains of plants, crustaceans, insects, and fish have been discovered in the grey-blue rock layers formed from sediments deposited 247 million years ago. Fossils in these rocks are of great interest since they offer a window into the time where the planet was recovering from the greatest mass extinction.
A few years ago, Mallorcan researcher Josep Juárez made a surprising find during a palaeontological survey in the area – a complete insect larva that had left a slight imprint of organic remains on the two sides that were left exposed when the rock split in half. The detailed study of the fossil had to wait, but eventual examination with a powerful microscope revealed that it was a unique discovery. The larva, very well preserved, belongs to a group of insects that we all know, the dipterans — that is, true flies, mosquitoes, midges, and gnats. Although thousands of fossil dipterans have been found across the globe, both in thinly layered rocks and in amber, this specimen, 247 million years old (early Middle Triassic) –older than the earliest dinosaurs– is the oldest dipteran ever found. This record was previously held by fossils found in France, about one or two million years younger than those from Estellencs.
Enrique Peñalver, from the Spanish National Research Council (CSIC) at the Spanish Geological Survey (CN-IGME), and first author of the recently published study on the new fossil, says: “While I was inspecting it under the microscope, I put a drop of alcohol on it to increase the contrast of the structures, and I was able to witness in awe how the fossil had preserved both the external and internal structures of the head, some parts of the digestive system, and, most importantly, the external openings to its respiratory system, or spiracles.”
Rafel Matamales-Andreu, palaeontologist from the Balearic Museum of Natural Sciences (FJBS-MBCN) and another author of the study, has devoted several years to unravel the environment of this region during the Triassic period, and the changes it underwent for millions of years. “If we were able to visit the region at the beginning of the Triassic, we would see large rivers and floodplains under a climate similar to that found in tropical Africa today, alternating dry and rainy seasons,” he points out.
This larva fed on organic matter from the soil ‘just’ a few million years in the aftermath of likely the most dramatic mass extinction in the history of life on Earth, which erased more than 80 per cent of the species and led to the end of the Palaeozoic Era. “We have been able to look at some of the adaptations by the first dipterans to the postapocalyptic environment at the beginning of the Triassic, for instance, a breathing system that is still found in different groups of insects today”, remarks Ricardo Pérez-de la Fuente, from Oxford University Museum of Natural History and also an author of the study.
The authors have described a new genus and species related to modern window- or wood-gnats named Protoanisolarva juarezi, or “Juárez’s ancestral anisopodoid larva”, honouring its discoverer. This precious fossil is currently being conditioned at the Catalan Institute of Palaeontology Miquel Crusafont for its permanent custody in Mallorca.
JOURNAL
Papers in Palaeontology
METHOD OF RESEARCH
Experimental study
SUBJECT OF RESEARCH
Animals
ARTICLE TITLE
Early adaptations of true flies (Diptera) to moist and aquatic continental environments
Discovery of oldest known fossil gnat shows how insects adapted to a postapocalyptic world
A new fossil discovery dating from ‘just’ a few million years after the greatest mass extinction provides the earliest evidence of the insect group that includes mosquitoes and flies
Peer-Reviewed Publication- A new fossil discovery dating from ‘just’ a few million years after the greatest mass extinction provides the earliest evidence of the insect group that includes mosquitoes and flies
The fossil, found in Mallorca, Spain, is an immature insect related to modern window- or wood-gnats
The excellent preservation of the fossil has allowed detailed studies, including determining its breathing system
Near the small harbour of Estellencs at the northeast of Mallorca (Balearic Islands, Spain), a pebbly beach can be found at the base of an impressive scarp that threatens rockfall. Remains of plants, crustaceans, insects, and fish have been discovered in the grey-blue rock layers formed from sediments deposited 247 million years ago. Fossils in these rocks are of great interest since they offer a window into the time where the planet was recovering from the greatest mass extinction.
A few years ago, Mallorcan researcher Josep Juárez made a surprising find during a palaeontological survey in the area – a complete insect larva that had left a slight imprint of organic remains on the two sides that were left exposed when the rock split in half. The detailed study of the fossil had to wait, but eventual examination with a powerful microscope revealed that it was a unique discovery. The larva, very well preserved, belongs to a group of insects that we all know, the dipterans — that is, true flies, mosquitoes, midges, and gnats. Although thousands of fossil dipterans have been found across the globe, both in thinly layered rocks and in amber, this specimen, 247 million years old (early Middle Triassic) –older than the earliest dinosaurs– is the oldest dipteran ever found. This record was previously held by fossils found in France, about one or two million years younger than those from Estellencs.
Enrique Peñalver, from the Spanish National Research Council (CSIC) at the Spanish Geological Survey (CN-IGME), and first author of the recently published study on the new fossil, says: “While I was inspecting it under the microscope, I put a drop of alcohol on it to increase the contrast of the structures, and I was able to witness in awe how the fossil had preserved both the external and internal structures of the head, some parts of the digestive system, and, most importantly, the external openings to its respiratory system, or spiracles.”
Rafel Matamales-Andreu, palaeontologist from the Balearic Museum of Natural Sciences (FJBS-MBCN) and another author of the study, has devoted several years to unravel the environment of this region during the Triassic period, and the changes it underwent for millions of years. “If we were able to visit the region at the beginning of the Triassic, we would see large rivers and floodplains under a climate similar to that found in tropical Africa today, alternating dry and rainy seasons,” he points out.
This larva fed on organic matter from the soil ‘just’ a few million years in the aftermath of likely the most dramatic mass extinction in the history of life on Earth, which erased more than 80 per cent of the species and led to the end of the Palaeozoic Era. “We have been able to look at some of the adaptations by the first dipterans to the postapocalyptic environment at the beginning of the Triassic, for instance, a breathing system that is still found in different groups of insects today”, remarks Ricardo Pérez-de la Fuente, from Oxford University Museum of Natural History and also an author of the study.
The authors have described a new genus and species related to modern window- or wood-gnats named Protoanisolarva juarezi, or “Juárez’s ancestral anisopodoid larva”, honouring its discoverer. This precious fossil is currently being conditioned at the Catalan Institute of Palaeontology Miquel Crusafont for its permanent custody in Mallorca.
Detail of one of the preserved external breathing structures (spiracle) of the fossil, with arrows pointing to circular primary openings.
CREDIT
CN-IGME CSIC
Notes
The open access paper was published in the journal Papers in Palaeontology and can be found at: https://onlinelibrary.wiley.com/doi/full/10.1002/spp2.1472
The international team comprised researchers from the Spanish Geological Survey (CN-IGME) and the Spanish National Research Council (CSIC), Spain, the Balearic Museum of Natural Sciences (FJBS-MBCN), Mallorca, Spain, the National Museum of Natural History of France and the Sorbonne University in Paris, France, and Oxford University Museum of Natural History, United Kingdom.
Funding bodies: Department of Culture, Heritage and Linguistic Policies from the Insular Council of Mallorca, with the project ‘Mallorca before the dinosaurs: study of the continental ecosystems from the Permian and the Triassic, with special emphasis on the vertebrate remains´ (Ref. 15 - 619/2020); Spanish Geological Survey (CN-IGME, Spain), CERCA program (Government of Catalonia, Spain), predoctoral grant FPU17/01922 from the Ministry of Science, Innovation and Universities, Government of Spain.
For further information and images, please contact:
Dr Enrique Peñalver
Senior Researcher
Spanish Geological Survey (CN-IGME) and Spanish National Research Council (CSIC)
e.penalver@igme.es
Rafel Matamales-Andreu
Curator
Balearic Museum of Natural Sciences (FJBS-MBCN)
rafel.matamales@icp.cat
Dr Ricardo Pérez-de la Fuente
Deputy Head of Research
Oxford University Museum of Natural History
ricardo.perez-de-lafuente@oum.ox.ac.uk
Notes to editors
About Oxford University Museum of Natural History
Founded in 1860 as the centre for scientific study at the University of Oxford, the Museum of Natural History now holds the University’s internationally significant collections of entomological, geological and zoological specimens. Housed in a stunning Pre-Raphaelite-inspired example of neo-Gothic architecture, the Museum’s growing collections underpin a broad programme of natural environment research, teaching and public engagement.
JOURNAL
Papers in Palaeontology
METHOD OF RESEARCH
Experimental study
SUBJECT OF RESEARCH
Animals
ARTICLE TITLE
Early adaptations of true flies (Diptera) to moist and aquatic continental environments
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