Controls on gut phosphatisation: the trilobites from the Weeks Formation Lagerstätte (Cambrian; Utah)

Despite being internal organs, digestive structures are frequently preserved in Cambrian Lagerstätten. However, the reasons for their fossilisation and their biological implications remain to be thoroughly explored. This is particularly true with arthropods--typically the most diverse fossilised org...

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Veröffentlicht in:	PloS one 2012-03, Vol.7 (3), p.e32934-e32934
Hauptverfasser:	Lerosey-Aubril, Rudy, Hegna, Thomas A, Kier, Carlo, Bonino, Enrico, Habersetzer, Jörg, Carré, Matthieu
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Arthropoda Arthropods Arthropods - anatomy & histology Arthropods - metabolism Biogeography Biology Calcification Cambrian Crustacea Digestive system Digestive System - anatomy & histology Digestive System - metabolism Digestive tract Earth Sciences Ecosystem biology Ecosystems Fossils Gastrointestinal tract Geology Ion storage Molting Morphology Museums Organs Paleontology Phosphorus Phosphorus - metabolism Preservation Tissue Preservation Tissues Utah
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creator	Lerosey-Aubril, Rudy Hegna, Thomas A Kier, Carlo Bonino, Enrico Habersetzer, Jörg Carré, Matthieu
description	Despite being internal organs, digestive structures are frequently preserved in Cambrian Lagerstätten. However, the reasons for their fossilisation and their biological implications remain to be thoroughly explored. This is particularly true with arthropods--typically the most diverse fossilised organisms in Cambrian ecosystems--where digestive structures represent an as-yet underexploited alternative to appendage morphology for inferences on their biology. Here we describe the phosphatised digestive structures of three trilobite species from the Cambrian Weeks Formation Lagerstätte (Utah). Their exquisite, three-dimensional preservation reveals unique details on trilobite internal anatomy, such as the position of the mouth and the absence of a differentiated crop. In addition, the presence of paired pygidial organs of an unknown function is reported for the first time. This exceptional material enables exploration of the relationships between gut phosphatisation and the biology of organisms. Indeed, soft-tissue preservation is unusual in these fossils as it is restricted to the digestive structures, which indicates that the gut played a central role in its own phosphatisation. We hypothesize that the gut provided a microenvironment where special conditions could develop and harboured a source of phosphorus. The fact that gut phosphatization has almost exclusively been observed in arthropods could be explained by their uncommon ability to store ions (including phosphorous) in their digestive tissues. However, in some specimens from the Weeks Formation, the phosphatisation extends to the entire digestive system, suggesting that trilobites might have had some biological particularities not observed in modern arthropods. We speculate that one of them might have been an increased capacity for ion storage in the gut tissues, related to the moulting of their heavily-mineralised carapace.
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However, the reasons for their fossilisation and their biological implications remain to be thoroughly explored. This is particularly true with arthropods--typically the most diverse fossilised organisms in Cambrian ecosystems--where digestive structures represent an as-yet underexploited alternative to appendage morphology for inferences on their biology. Here we describe the phosphatised digestive structures of three trilobite species from the Cambrian Weeks Formation Lagerstätte (Utah). Their exquisite, three-dimensional preservation reveals unique details on trilobite internal anatomy, such as the position of the mouth and the absence of a differentiated crop. In addition, the presence of paired pygidial organs of an unknown function is reported for the first time. This exceptional material enables exploration of the relationships between gut phosphatisation and the biology of organisms. Indeed, soft-tissue preservation is unusual in these fossils as it is restricted to the digestive structures, which indicates that the gut played a central role in its own phosphatisation. We hypothesize that the gut provided a microenvironment where special conditions could develop and harboured a source of phosphorus. The fact that gut phosphatization has almost exclusively been observed in arthropods could be explained by their uncommon ability to store ions (including phosphorous) in their digestive tissues. However, in some specimens from the Weeks Formation, the phosphatisation extends to the entire digestive system, suggesting that trilobites might have had some biological particularities not observed in modern arthropods. 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subjects	Animals Arthropoda Arthropods Arthropods - anatomy & histology Arthropods - metabolism Biogeography Biology Calcification Cambrian Crustacea Digestive system Digestive System - anatomy & histology Digestive System - metabolism Digestive tract Earth Sciences Ecosystem biology Ecosystems Fossils Gastrointestinal tract Geology Ion storage Molting Morphology Museums Organs Paleontology Phosphorus Phosphorus - metabolism Preservation Tissue Preservation Tissues Utah
title	Controls on gut phosphatisation: the trilobites from the Weeks Formation Lagerstätte (Cambrian; Utah)
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