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Contact: Jan Zalasiewicz
jaz1@le.ac.uk
44-011-625-23928
University of Leicester
Long-overlooked museum fossil is a clue to vanished skills of prehistoric animal architects
A fossil which has lain in a museum drawer for over a century has been recognized by a University of Leicester geologist as a unique clue to the long-lost skills of some of the most sophisticated animal architects that have ever lived on this planet.
It has provided evidence that early organisms developed specialised roles and that these specialists displayed co-operation in order to construct their homes much like today's builders employ a team of bricklayers, plasters and decorators.
The fossil is a graptolite, a planktonic colony from nearly half a billion years ago, found by nineteenth century geologists in the Southern Uplands of Scotland. Graptolites are common in rocks of this age, but only as the beautifully intricate multistorey floating 'homes' that these animals constructed the animals that made them were delicate creatures with long tentacle-bearing arms, but these have long rotted away.
Dr. Jan Zalasiewicz of the Department of Geology of the University of Leicester was routinely examining the rock slab when noticed something previously overlooked. This particular, unique fossil does not show the animals themselves but it shows what look like the connections between them, rather like finding the ropes that once held a team of mountaineers together.
These connections indicate that the animals of the colony could not have been all basically the same, as had been assumed. Rather, they must have been very different in shape and organization in different parts of the colony.
Dr Zalasiewicz said, "The light caught one of the fossils in just the right way, and it showed complex structures I had never seen in a graptolite before. It was a sheer stroke of luckone of those Eureka moments.
"In some parts of the colony, these fossilized connections look like slender criss-crossing branches; others look like little hourglasses.
"Hence, a key element in the ancient success of these animals must have been an elaborate division of labour, in which different members of the colony took on different tasks, for feeding, building and so on. This amazing fossil shows sophisticated prehistoric co-operation, preserved in stone."
It has been a mystery how such tiny 'lowly' prehistoric creatures could have co-operated to build such impressively sophisticated living quarters it is a skill long been lost among the animals of the world's oceans. Now, this single fossil, which has been carefully preserved in the collections of the British Geological Survey since 1882, sheds light on these ancient master builders.
Remarkably, over that past century, the fossil slab had been examined by some of the world's best experts on these fossils because it includes key specimens of a rare and unusual species.
Dr. Mike Howe, manager of the British Geological Survey's fossil collections and a co-author of the study, commented "This shows that museum collections are a treasure trove, where fossils collected long ago can drive new science."
###
Notes to editors:
For further information contact:
Dr. Jan Zalasiewicz, University of Leicester: jaz1@le.ac.uk and 0116 2523928; or Dr. Mark Williams on mri@le.ac.uk and 0116 2523642
Or
Dr. Mike Howe, British Geological Survey, mhowe@bgs.ac.uk and 0115 9363105
The scientific study, just published online, is:
Zalasiewicz, J.A., Page, A.A., Rickards, R.B., Williams, M., Wilby, P.R., Howe, M.P.A. & Snelling, A. 2012. Polymorphic organization in a planktonic graptoloid (Hemichordata: Pterobranchia) colony of late Ordovician age. Geological Magazine.
The British Geological Survey
The British Geological Survey (BGS), a component body of the Natural Environment Research Council (NERC), is the nation's principal supplier of objective, impartial and up-to-date geological expertise and information for decision making for governmental, commercial and individual users. The BGS maintains and develops the nation's understanding of its geology to improve policy making, enhance national wealth and reduce risk. It also collaborates with the national and international scientific community in carrying out research in strategic areas, including energy and natural resources, our vulnerability to environmental change and hazards, and our general knowledge of the Earth system. More about the BGS can be found at www.bgs.ac.uk.
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AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.
[ | E-mail | Share ]
Contact: Jan Zalasiewicz
jaz1@le.ac.uk
44-011-625-23928
University of Leicester
Long-overlooked museum fossil is a clue to vanished skills of prehistoric animal architects
A fossil which has lain in a museum drawer for over a century has been recognized by a University of Leicester geologist as a unique clue to the long-lost skills of some of the most sophisticated animal architects that have ever lived on this planet.
It has provided evidence that early organisms developed specialised roles and that these specialists displayed co-operation in order to construct their homes much like today's builders employ a team of bricklayers, plasters and decorators.
The fossil is a graptolite, a planktonic colony from nearly half a billion years ago, found by nineteenth century geologists in the Southern Uplands of Scotland. Graptolites are common in rocks of this age, but only as the beautifully intricate multistorey floating 'homes' that these animals constructed the animals that made them were delicate creatures with long tentacle-bearing arms, but these have long rotted away.
Dr. Jan Zalasiewicz of the Department of Geology of the University of Leicester was routinely examining the rock slab when noticed something previously overlooked. This particular, unique fossil does not show the animals themselves but it shows what look like the connections between them, rather like finding the ropes that once held a team of mountaineers together.
These connections indicate that the animals of the colony could not have been all basically the same, as had been assumed. Rather, they must have been very different in shape and organization in different parts of the colony.
Dr Zalasiewicz said, "The light caught one of the fossils in just the right way, and it showed complex structures I had never seen in a graptolite before. It was a sheer stroke of luckone of those Eureka moments.
"In some parts of the colony, these fossilized connections look like slender criss-crossing branches; others look like little hourglasses.
"Hence, a key element in the ancient success of these animals must have been an elaborate division of labour, in which different members of the colony took on different tasks, for feeding, building and so on. This amazing fossil shows sophisticated prehistoric co-operation, preserved in stone."
It has been a mystery how such tiny 'lowly' prehistoric creatures could have co-operated to build such impressively sophisticated living quarters it is a skill long been lost among the animals of the world's oceans. Now, this single fossil, which has been carefully preserved in the collections of the British Geological Survey since 1882, sheds light on these ancient master builders.
Remarkably, over that past century, the fossil slab had been examined by some of the world's best experts on these fossils because it includes key specimens of a rare and unusual species.
Dr. Mike Howe, manager of the British Geological Survey's fossil collections and a co-author of the study, commented "This shows that museum collections are a treasure trove, where fossils collected long ago can drive new science."
###
Notes to editors:
For further information contact:
Dr. Jan Zalasiewicz, University of Leicester: jaz1@le.ac.uk and 0116 2523928; or Dr. Mark Williams on mri@le.ac.uk and 0116 2523642
Or
Dr. Mike Howe, British Geological Survey, mhowe@bgs.ac.uk and 0115 9363105
The scientific study, just published online, is:
Zalasiewicz, J.A., Page, A.A., Rickards, R.B., Williams, M., Wilby, P.R., Howe, M.P.A. & Snelling, A. 2012. Polymorphic organization in a planktonic graptoloid (Hemichordata: Pterobranchia) colony of late Ordovician age. Geological Magazine.
The British Geological Survey
The British Geological Survey (BGS), a component body of the Natural Environment Research Council (NERC), is the nation's principal supplier of objective, impartial and up-to-date geological expertise and information for decision making for governmental, commercial and individual users. The BGS maintains and develops the nation's understanding of its geology to improve policy making, enhance national wealth and reduce risk. It also collaborates with the national and international scientific community in carrying out research in strategic areas, including energy and natural resources, our vulnerability to environmental change and hazards, and our general knowledge of the Earth system. More about the BGS can be found at www.bgs.ac.uk.
[ | E-mail | Share ]
?
AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.
Source: http://www.eurekalert.org/pub_releases/2012-10/uol-pbr100212.php
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